Split (1)

train · 101k rows

content stringlengths 1 1.04M ⌀
`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block Wkm6jePTcXZSrLXq2Jd+2eDjYQwZwP3qX5rlLbMDOgVBPjNOBNcdGsnCzvFN/pYcPHWGDqRgOsko 5BQ3JkvOGg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block Tyb52n7XkiWlDtHJMD41VIlSnRAM3dfYZJ7gTRSdcKL51ynimywbrlnC/YdSO1WPFjHw0C81R16J 60QW4qvPByPWQjuTLTfXX2/T1qYa/e/qV9vQIr3x6zJtHO+KkpxUeoMU1pHYVzUhp9SogzH6UTFl SxbNDrV/OxqLIg4mI/E= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block Wkm6jePTcXZSrLXq2Jd+2eDjYQwZwP3qX5rlLbMDOgVBPjNOBNcdGsnCzvFN/pYcPHWGDqRgOsko 5BQ3JkvOGg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block Tyb52n7XkiWlDtHJMD41VIlSnRAM3dfYZJ7gTRSdcKL51ynimywbrlnC/YdSO1WPFjHw0C81R16J 60QW4qvPByPWQjuTLTfXX2/T1qYa/e/qV9vQIr3x6zJtHO+KkpxUeoMU1pHYVzUhp9SogzH6UTFl SxbNDrV/OxqLIg4mI/E= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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-------------------------------------------------------------------------------- -- This file is owned and controlled by Xilinx and must be used solely -- -- for design, simulation, implementation and creation of design files -- -- limited to Xilinx devices or technologies. Use with non-Xilinx -- -- devices or technologies is expressly prohibited and immediately -- -- terminates your license. -- -- -- -- XILINX IS PROVIDING THIS DESIGN, CODE, OR INFORMATION "AS IS" SOLELY -- -- FOR USE IN DEVELOPING PROGRAMS AND SOLUTIONS FOR XILINX DEVICES. BY -- -- PROVIDING THIS DESIGN, CODE, OR INFORMATION AS ONE POSSIBLE -- -- IMPLEMENTATION OF THIS FEATURE, APPLICATION OR STANDARD, XILINX IS -- -- MAKING NO REPRESENTATION THAT THIS IMPLEMENTATION IS FREE FROM ANY -- -- CLAIMS OF INFRINGEMENT, AND YOU ARE RESPONSIBLE FOR OBTAINING ANY -- -- RIGHTS YOU MAY REQUIRE FOR YOUR IMPLEMENTATION. XILINX EXPRESSLY -- -- DISCLAIMS ANY WARRANTY WHATSOEVER WITH RESPECT TO THE ADEQUACY OF THE -- -- IMPLEMENTATION, INCLUDING BUT NOT LIMITED TO ANY WARRANTIES OR -- -- REPRESENTATIONS THAT THIS IMPLEMENTATION IS FREE FROM CLAIMS OF -- -- INFRINGEMENT, IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- -- PARTICULAR PURPOSE. -- -- -- -- Xilinx products are not intended for use in life support appliances, -- -- devices, or systems. Use in such applications are expressly -- -- prohibited. -- -- -- -- (c) Copyright 1995-2014 Xilinx, Inc. -- -- All rights reserved. -- -------------------------------------------------------------------------------- -------------------------------------------------------------------------------- -- You must compile the wrapper file crdc_v5_0_951922a7ad5d425e.vhd when simulating -- the core, crdc_v5_0_951922a7ad5d425e. When compiling the wrapper file, be sure to -- reference the XilinxCoreLib VHDL simulation library. For detailed -- instructions, please refer to the "CORE Generator Help". -- The synthesis directives "translate_off/translate_on" specified -- below are supported by Xilinx, Mentor Graphics and Synplicity -- synthesis tools. Ensure they are correct for your synthesis tool(s). LIBRARY ieee; USE ieee.std_logic_1164.ALL; -- synthesis translate_off LIBRARY XilinxCoreLib; -- synthesis translate_on ENTITY crdc_v5_0_951922a7ad5d425e IS PORT ( aclk : IN STD_LOGIC; aclken : IN STD_LOGIC; s_axis_cartesian_tvalid : IN STD_LOGIC; s_axis_cartesian_tready : OUT STD_LOGIC; s_axis_cartesian_tuser : IN STD_LOGIC_VECTOR(0 DOWNTO 0); s_axis_cartesian_tdata : IN STD_LOGIC_VECTOR(63 DOWNTO 0); m_axis_dout_tvalid : OUT STD_LOGIC; m_axis_dout_tuser : OUT STD_LOGIC_VECTOR(0 DOWNTO 0); m_axis_dout_tdata : OUT STD_LOGIC_VECTOR(47 DOWNTO 0) ); END crdc_v5_0_951922a7ad5d425e; ARCHITECTURE crdc_v5_0_951922a7ad5d425e_a OF crdc_v5_0_951922a7ad5d425e IS -- synthesis translate_off COMPONENT wrapped_crdc_v5_0_951922a7ad5d425e PORT ( aclk : IN STD_LOGIC; aclken : IN STD_LOGIC; s_axis_cartesian_tvalid : IN STD_LOGIC; s_axis_cartesian_tready : OUT STD_LOGIC; s_axis_cartesian_tuser : IN STD_LOGIC_VECTOR(0 DOWNTO 0); s_axis_cartesian_tdata : IN STD_LOGIC_VECTOR(63 DOWNTO 0); m_axis_dout_tvalid : OUT STD_LOGIC; m_axis_dout_tuser : OUT STD_LOGIC_VECTOR(0 DOWNTO 0); m_axis_dout_tdata : OUT STD_LOGIC_VECTOR(47 DOWNTO 0) ); END COMPONENT; -- Configuration specification FOR ALL : wrapped_crdc_v5_0_951922a7ad5d425e USE ENTITY XilinxCoreLib.cordic_v5_0(behavioral) GENERIC MAP ( c_architecture => 1, c_coarse_rotate => 1, c_cordic_function => 1, c_data_format => 0, c_has_aclk => 1, c_has_aclken => 1, c_has_aresetn => 0, c_has_s_axis_cartesian => 1, c_has_s_axis_cartesian_tlast => 0, c_has_s_axis_cartesian_tuser => 1, c_has_s_axis_phase => 0, c_has_s_axis_phase_tlast => 0, c_has_s_axis_phase_tuser => 0, c_input_width => 25, c_iterations => 0, c_m_axis_dout_tdata_width => 48, c_m_axis_dout_tuser_width => 1, c_output_width => 24, c_phase_format => 0, c_pipeline_mode => -1, c_precision => 0, c_round_mode => 3, c_s_axis_cartesian_tdata_width => 64, c_s_axis_cartesian_tuser_width => 1, c_s_axis_phase_tdata_width => 32, c_s_axis_phase_tuser_width => 1, c_scale_comp => 3, c_throttle_scheme => 3, c_tlast_resolution => 0, c_xdevicefamily => "virtex6" ); -- synthesis translate_on BEGIN -- synthesis translate_off U0 : wrapped_crdc_v5_0_951922a7ad5d425e PORT MAP ( aclk => aclk, aclken => aclken, s_axis_cartesian_tvalid => s_axis_cartesian_tvalid, s_axis_cartesian_tready => s_axis_cartesian_tready, s_axis_cartesian_tuser => s_axis_cartesian_tuser, s_axis_cartesian_tdata => s_axis_cartesian_tdata, m_axis_dout_tvalid => m_axis_dout_tvalid, m_axis_dout_tuser => m_axis_dout_tuser, m_axis_dout_tdata => m_axis_dout_tdata ); -- synthesis translate_on END crdc_v5_0_951922a7ad5d425e_a;
-- ************************************************************************* -- *********************************************************************** -- Copyright 2013(c) Analog Devices, Inc. -- Author: Lars-Peter Clausen <lars-peter.clausen@analog.com> -- -- All rights reserved. -- -- Redistribution and use in source and binary forms, with or without modification, -- are permitted provided that the following conditions are met: -- - Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- - Redistributions in binary form must reproduce the above copyright -- notice, this list of conditions and the following disclaimer in -- the documentation and/or other materials provided with the -- distribution. -- - Neither the name of Analog Devices, Inc. nor the names of its -- contributors may be used to endorse or promote products derived -- from this software without specific prior written permission. -- - The use of this software may or may not infringe the patent rights -- of one or more patent holders. This license does not release you -- from the requirement that you obtain separate licenses from these -- patent holders to use this software. -- - Use of the software either in source or binary form, must be run -- on or directly connected to an Analog Devices Inc. component. -- -- THIS SOFTWARE IS PROVIDED BY ANALOG DEVICES "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, -- INCLUDING, BUT NOT LIMITED TO, NON-INFRINGEMENT, MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. -- -- IN NO EVENT SHALL ANALOG DEVICES BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, -- EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, INTELLECTUAL PROPERTY -- RIGHTS, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR -- BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF -- THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- *********************************************************************** -- ************************************************************************* library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity i2s_rx is generic( C_SLOT_WIDTH : integer := 24; -- Width of one Slot C_NUM : integer := 1 ); port( clk : in std_logic; -- System clock resetn : in std_logic; -- System reset enable : in Boolean; -- Enable RX bclk : in std_logic; -- Bit Clock channel_sync : in std_logic; -- Channel Sync frame_sync : in std_logic; -- Frame Sync sdata : in std_logic_vector(C_NUM - 1 downto 0); -- Serial Data Output stb : out std_logic; -- Data available ack : in std_logic; -- Data has been consumed data : out std_logic_vector(C_SLOT_WIDTH-1 downto 0) -- Slot Data in ); end i2s_rx; architecture Behavioral of i2s_rx is type mem is array (0 to C_NUM - 1) of std_logic_vector(31 downto 0); type mem_latched is array (0 to C_NUM - 1) of std_logic_vector(C_SLOT_WIDTH - 1 downto 0); signal data_int : mem; signal data_latched : mem_latched; signal reset_int : Boolean; signal enable_int : Boolean; signal bit_sync : std_logic; signal channel_sync_int : std_logic; signal frame_sync_int : std_logic; signal bclk_d1 : std_logic; type sequencer_state_type is (IDLE, ACTIVE); signal sequencer_state : sequencer_state_type; signal seq : natural range 0 to C_NUM - 1; signal ovf_frame_cnt : natural range 0 to 1; begin reset_int <= (resetn = '0') or not enable; process (clk) begin if rising_edge(clk) then if resetn = '0' then bclk_d1 <= '0'; else bclk_d1 <= bclk; end if; end if; end process; bit_sync <= (bclk xor bclk_d1) and bclk; channel_sync_int <= channel_sync and bit_sync; frame_sync_int <= frame_sync and bit_sync; stb <= '1' when sequencer_state = ACTIVE else '0'; sequencer: process (clk) begin if rising_edge(clk) then if reset_int or not enable_int then sequencer_state <= IDLE; ovf_frame_cnt <= 0; seq <= 0; else case sequencer_state is when IDLE => if channel_sync_int = '1' then if ovf_frame_cnt = 0 then sequencer_state <= ACTIVE; else ovf_frame_cnt <= (ovf_frame_cnt + 1) mod 2; end if; end if; when ACTIVE => -- The unlikely event the last ack came in in the same clock -- cyclce as the channel sync signal will still be treated -- as an overflow. This keeps the logic simple if ack = '1' then if seq = C_NUM - 1 then sequencer_state <= IDLE; seq <= 0; else seq <= seq + 1; end if; end if; if channel_sync_int = '1' then ovf_frame_cnt <= (ovf_frame_cnt + 1) mod 2; end if; end case; end if; end if; end process; data <= data_latched(seq); gen: for i in 0 to C_NUM - 1 generate unserialize_data: process(clk) begin if rising_edge(clk) then if reset_int then data_int(i) <= (others => '0'); elsif bit_sync = '1' then if channel_sync = '1' then if sequencer_state = IDLE then data_latched(i) <= data_int(i)(31 downto 32 - C_SLOT_WIDTH); -- data_latched(i) <= data_int(i)(31 downto 32 - -- C_SLOT_WIDTH + 8) & -- std_logic_vector(to_unsigned(i+1,8)); end if; end if; data_int(i) <= data_int(i)(30 downto 0) & sdata(i); end if; end if; end process unserialize_data; end generate; enable_sync: process (clk) begin if rising_edge(clk) then if reset_int then enable_int <= False; else if enable and frame_sync_int = '1' then enable_int <= True; elsif not enable then enable_int <= False; end if; end if; end if; end process enable_sync; end Behavioral;
-- ************************************************************************* -- *********************************************************************** -- Copyright 2013(c) Analog Devices, Inc. -- Author: Lars-Peter Clausen <lars-peter.clausen@analog.com> -- -- All rights reserved. -- -- Redistribution and use in source and binary forms, with or without modification, -- are permitted provided that the following conditions are met: -- - Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- - Redistributions in binary form must reproduce the above copyright -- notice, this list of conditions and the following disclaimer in -- the documentation and/or other materials provided with the -- distribution. -- - Neither the name of Analog Devices, Inc. nor the names of its -- contributors may be used to endorse or promote products derived -- from this software without specific prior written permission. -- - The use of this software may or may not infringe the patent rights -- of one or more patent holders. This license does not release you -- from the requirement that you obtain separate licenses from these -- patent holders to use this software. -- - Use of the software either in source or binary form, must be run -- on or directly connected to an Analog Devices Inc. component. -- -- THIS SOFTWARE IS PROVIDED BY ANALOG DEVICES "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, -- INCLUDING, BUT NOT LIMITED TO, NON-INFRINGEMENT, MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. -- -- IN NO EVENT SHALL ANALOG DEVICES BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, -- EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, INTELLECTUAL PROPERTY -- RIGHTS, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR -- BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF -- THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- *********************************************************************** -- ************************************************************************* library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity i2s_rx is generic( C_SLOT_WIDTH : integer := 24; -- Width of one Slot C_NUM : integer := 1 ); port( clk : in std_logic; -- System clock resetn : in std_logic; -- System reset enable : in Boolean; -- Enable RX bclk : in std_logic; -- Bit Clock channel_sync : in std_logic; -- Channel Sync frame_sync : in std_logic; -- Frame Sync sdata : in std_logic_vector(C_NUM - 1 downto 0); -- Serial Data Output stb : out std_logic; -- Data available ack : in std_logic; -- Data has been consumed data : out std_logic_vector(C_SLOT_WIDTH-1 downto 0) -- Slot Data in ); end i2s_rx; architecture Behavioral of i2s_rx is type mem is array (0 to C_NUM - 1) of std_logic_vector(31 downto 0); type mem_latched is array (0 to C_NUM - 1) of std_logic_vector(C_SLOT_WIDTH - 1 downto 0); signal data_int : mem; signal data_latched : mem_latched; signal reset_int : Boolean; signal enable_int : Boolean; signal bit_sync : std_logic; signal channel_sync_int : std_logic; signal frame_sync_int : std_logic; signal bclk_d1 : std_logic; type sequencer_state_type is (IDLE, ACTIVE); signal sequencer_state : sequencer_state_type; signal seq : natural range 0 to C_NUM - 1; signal ovf_frame_cnt : natural range 0 to 1; begin reset_int <= (resetn = '0') or not enable; process (clk) begin if rising_edge(clk) then if resetn = '0' then bclk_d1 <= '0'; else bclk_d1 <= bclk; end if; end if; end process; bit_sync <= (bclk xor bclk_d1) and bclk; channel_sync_int <= channel_sync and bit_sync; frame_sync_int <= frame_sync and bit_sync; stb <= '1' when sequencer_state = ACTIVE else '0'; sequencer: process (clk) begin if rising_edge(clk) then if reset_int or not enable_int then sequencer_state <= IDLE; ovf_frame_cnt <= 0; seq <= 0; else case sequencer_state is when IDLE => if channel_sync_int = '1' then if ovf_frame_cnt = 0 then sequencer_state <= ACTIVE; else ovf_frame_cnt <= (ovf_frame_cnt + 1) mod 2; end if; end if; when ACTIVE => -- The unlikely event the last ack came in in the same clock -- cyclce as the channel sync signal will still be treated -- as an overflow. This keeps the logic simple if ack = '1' then if seq = C_NUM - 1 then sequencer_state <= IDLE; seq <= 0; else seq <= seq + 1; end if; end if; if channel_sync_int = '1' then ovf_frame_cnt <= (ovf_frame_cnt + 1) mod 2; end if; end case; end if; end if; end process; data <= data_latched(seq); gen: for i in 0 to C_NUM - 1 generate unserialize_data: process(clk) begin if rising_edge(clk) then if reset_int then data_int(i) <= (others => '0'); elsif bit_sync = '1' then if channel_sync = '1' then if sequencer_state = IDLE then data_latched(i) <= data_int(i)(31 downto 32 - C_SLOT_WIDTH); -- data_latched(i) <= data_int(i)(31 downto 32 - -- C_SLOT_WIDTH + 8) & -- std_logic_vector(to_unsigned(i+1,8)); end if; end if; data_int(i) <= data_int(i)(30 downto 0) & sdata(i); end if; end if; end process unserialize_data; end generate; enable_sync: process (clk) begin if rising_edge(clk) then if reset_int then enable_int <= False; else if enable and frame_sync_int = '1' then enable_int <= True; elsif not enable then enable_int <= False; end if; end if; end if; end process enable_sync; end Behavioral;
-- ************************************************************************* -- *********************************************************************** -- Copyright 2013(c) Analog Devices, Inc. -- Author: Lars-Peter Clausen <lars-peter.clausen@analog.com> -- -- All rights reserved. -- -- Redistribution and use in source and binary forms, with or without modification, -- are permitted provided that the following conditions are met: -- - Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- - Redistributions in binary form must reproduce the above copyright -- notice, this list of conditions and the following disclaimer in -- the documentation and/or other materials provided with the -- distribution. -- - Neither the name of Analog Devices, Inc. nor the names of its -- contributors may be used to endorse or promote products derived -- from this software without specific prior written permission. -- - The use of this software may or may not infringe the patent rights -- of one or more patent holders. This license does not release you -- from the requirement that you obtain separate licenses from these -- patent holders to use this software. -- - Use of the software either in source or binary form, must be run -- on or directly connected to an Analog Devices Inc. component. -- -- THIS SOFTWARE IS PROVIDED BY ANALOG DEVICES "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, -- INCLUDING, BUT NOT LIMITED TO, NON-INFRINGEMENT, MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. -- -- IN NO EVENT SHALL ANALOG DEVICES BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, -- EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, INTELLECTUAL PROPERTY -- RIGHTS, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR -- BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF -- THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- *********************************************************************** -- ************************************************************************* library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity i2s_rx is generic( C_SLOT_WIDTH : integer := 24; -- Width of one Slot C_NUM : integer := 1 ); port( clk : in std_logic; -- System clock resetn : in std_logic; -- System reset enable : in Boolean; -- Enable RX bclk : in std_logic; -- Bit Clock channel_sync : in std_logic; -- Channel Sync frame_sync : in std_logic; -- Frame Sync sdata : in std_logic_vector(C_NUM - 1 downto 0); -- Serial Data Output stb : out std_logic; -- Data available ack : in std_logic; -- Data has been consumed data : out std_logic_vector(C_SLOT_WIDTH-1 downto 0) -- Slot Data in ); end i2s_rx; architecture Behavioral of i2s_rx is type mem is array (0 to C_NUM - 1) of std_logic_vector(31 downto 0); type mem_latched is array (0 to C_NUM - 1) of std_logic_vector(C_SLOT_WIDTH - 1 downto 0); signal data_int : mem; signal data_latched : mem_latched; signal reset_int : Boolean; signal enable_int : Boolean; signal bit_sync : std_logic; signal channel_sync_int : std_logic; signal frame_sync_int : std_logic; signal bclk_d1 : std_logic; type sequencer_state_type is (IDLE, ACTIVE); signal sequencer_state : sequencer_state_type; signal seq : natural range 0 to C_NUM - 1; signal ovf_frame_cnt : natural range 0 to 1; begin reset_int <= (resetn = '0') or not enable; process (clk) begin if rising_edge(clk) then if resetn = '0' then bclk_d1 <= '0'; else bclk_d1 <= bclk; end if; end if; end process; bit_sync <= (bclk xor bclk_d1) and bclk; channel_sync_int <= channel_sync and bit_sync; frame_sync_int <= frame_sync and bit_sync; stb <= '1' when sequencer_state = ACTIVE else '0'; sequencer: process (clk) begin if rising_edge(clk) then if reset_int or not enable_int then sequencer_state <= IDLE; ovf_frame_cnt <= 0; seq <= 0; else case sequencer_state is when IDLE => if channel_sync_int = '1' then if ovf_frame_cnt = 0 then sequencer_state <= ACTIVE; else ovf_frame_cnt <= (ovf_frame_cnt + 1) mod 2; end if; end if; when ACTIVE => -- The unlikely event the last ack came in in the same clock -- cyclce as the channel sync signal will still be treated -- as an overflow. This keeps the logic simple if ack = '1' then if seq = C_NUM - 1 then sequencer_state <= IDLE; seq <= 0; else seq <= seq + 1; end if; end if; if channel_sync_int = '1' then ovf_frame_cnt <= (ovf_frame_cnt + 1) mod 2; end if; end case; end if; end if; end process; data <= data_latched(seq); gen: for i in 0 to C_NUM - 1 generate unserialize_data: process(clk) begin if rising_edge(clk) then if reset_int then data_int(i) <= (others => '0'); elsif bit_sync = '1' then if channel_sync = '1' then if sequencer_state = IDLE then data_latched(i) <= data_int(i)(31 downto 32 - C_SLOT_WIDTH); -- data_latched(i) <= data_int(i)(31 downto 32 - -- C_SLOT_WIDTH + 8) & -- std_logic_vector(to_unsigned(i+1,8)); end if; end if; data_int(i) <= data_int(i)(30 downto 0) & sdata(i); end if; end if; end process unserialize_data; end generate; enable_sync: process (clk) begin if rising_edge(clk) then if reset_int then enable_int <= False; else if enable and frame_sync_int = '1' then enable_int <= True; elsif not enable then enable_int <= False; end if; end if; end if; end process enable_sync; end Behavioral;
-- ************************************************************************* -- *********************************************************************** -- Copyright 2013(c) Analog Devices, Inc. -- Author: Lars-Peter Clausen <lars-peter.clausen@analog.com> -- -- All rights reserved. -- -- Redistribution and use in source and binary forms, with or without modification, -- are permitted provided that the following conditions are met: -- - Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- - Redistributions in binary form must reproduce the above copyright -- notice, this list of conditions and the following disclaimer in -- the documentation and/or other materials provided with the -- distribution. -- - Neither the name of Analog Devices, Inc. nor the names of its -- contributors may be used to endorse or promote products derived -- from this software without specific prior written permission. -- - The use of this software may or may not infringe the patent rights -- of one or more patent holders. This license does not release you -- from the requirement that you obtain separate licenses from these -- patent holders to use this software. -- - Use of the software either in source or binary form, must be run -- on or directly connected to an Analog Devices Inc. component. -- -- THIS SOFTWARE IS PROVIDED BY ANALOG DEVICES "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, -- INCLUDING, BUT NOT LIMITED TO, NON-INFRINGEMENT, MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. -- -- IN NO EVENT SHALL ANALOG DEVICES BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, -- EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, INTELLECTUAL PROPERTY -- RIGHTS, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR -- BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF -- THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- *********************************************************************** -- ************************************************************************* library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity i2s_rx is generic( C_SLOT_WIDTH : integer := 24; -- Width of one Slot C_NUM : integer := 1 ); port( clk : in std_logic; -- System clock resetn : in std_logic; -- System reset enable : in Boolean; -- Enable RX bclk : in std_logic; -- Bit Clock channel_sync : in std_logic; -- Channel Sync frame_sync : in std_logic; -- Frame Sync sdata : in std_logic_vector(C_NUM - 1 downto 0); -- Serial Data Output stb : out std_logic; -- Data available ack : in std_logic; -- Data has been consumed data : out std_logic_vector(C_SLOT_WIDTH-1 downto 0) -- Slot Data in ); end i2s_rx; architecture Behavioral of i2s_rx is type mem is array (0 to C_NUM - 1) of std_logic_vector(31 downto 0); type mem_latched is array (0 to C_NUM - 1) of std_logic_vector(C_SLOT_WIDTH - 1 downto 0); signal data_int : mem; signal data_latched : mem_latched; signal reset_int : Boolean; signal enable_int : Boolean; signal bit_sync : std_logic; signal channel_sync_int : std_logic; signal frame_sync_int : std_logic; signal bclk_d1 : std_logic; type sequencer_state_type is (IDLE, ACTIVE); signal sequencer_state : sequencer_state_type; signal seq : natural range 0 to C_NUM - 1; signal ovf_frame_cnt : natural range 0 to 1; begin reset_int <= (resetn = '0') or not enable; process (clk) begin if rising_edge(clk) then if resetn = '0' then bclk_d1 <= '0'; else bclk_d1 <= bclk; end if; end if; end process; bit_sync <= (bclk xor bclk_d1) and bclk; channel_sync_int <= channel_sync and bit_sync; frame_sync_int <= frame_sync and bit_sync; stb <= '1' when sequencer_state = ACTIVE else '0'; sequencer: process (clk) begin if rising_edge(clk) then if reset_int or not enable_int then sequencer_state <= IDLE; ovf_frame_cnt <= 0; seq <= 0; else case sequencer_state is when IDLE => if channel_sync_int = '1' then if ovf_frame_cnt = 0 then sequencer_state <= ACTIVE; else ovf_frame_cnt <= (ovf_frame_cnt + 1) mod 2; end if; end if; when ACTIVE => -- The unlikely event the last ack came in in the same clock -- cyclce as the channel sync signal will still be treated -- as an overflow. This keeps the logic simple if ack = '1' then if seq = C_NUM - 1 then sequencer_state <= IDLE; seq <= 0; else seq <= seq + 1; end if; end if; if channel_sync_int = '1' then ovf_frame_cnt <= (ovf_frame_cnt + 1) mod 2; end if; end case; end if; end if; end process; data <= data_latched(seq); gen: for i in 0 to C_NUM - 1 generate unserialize_data: process(clk) begin if rising_edge(clk) then if reset_int then data_int(i) <= (others => '0'); elsif bit_sync = '1' then if channel_sync = '1' then if sequencer_state = IDLE then data_latched(i) <= data_int(i)(31 downto 32 - C_SLOT_WIDTH); -- data_latched(i) <= data_int(i)(31 downto 32 - -- C_SLOT_WIDTH + 8) & -- std_logic_vector(to_unsigned(i+1,8)); end if; end if; data_int(i) <= data_int(i)(30 downto 0) & sdata(i); end if; end if; end process unserialize_data; end generate; enable_sync: process (clk) begin if rising_edge(clk) then if reset_int then enable_int <= False; else if enable and frame_sync_int = '1' then enable_int <= True; elsif not enable then enable_int <= False; end if; end if; end if; end process enable_sync; end Behavioral;
-- ************************************************************************* -- *********************************************************************** -- Copyright 2013(c) Analog Devices, Inc. -- Author: Lars-Peter Clausen <lars-peter.clausen@analog.com> -- -- All rights reserved. -- -- Redistribution and use in source and binary forms, with or without modification, -- are permitted provided that the following conditions are met: -- - Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- - Redistributions in binary form must reproduce the above copyright -- notice, this list of conditions and the following disclaimer in -- the documentation and/or other materials provided with the -- distribution. -- - Neither the name of Analog Devices, Inc. nor the names of its -- contributors may be used to endorse or promote products derived -- from this software without specific prior written permission. -- - The use of this software may or may not infringe the patent rights -- of one or more patent holders. This license does not release you -- from the requirement that you obtain separate licenses from these -- patent holders to use this software. -- - Use of the software either in source or binary form, must be run -- on or directly connected to an Analog Devices Inc. component. -- -- THIS SOFTWARE IS PROVIDED BY ANALOG DEVICES "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, -- INCLUDING, BUT NOT LIMITED TO, NON-INFRINGEMENT, MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. -- -- IN NO EVENT SHALL ANALOG DEVICES BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, -- EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, INTELLECTUAL PROPERTY -- RIGHTS, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR -- BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF -- THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- *********************************************************************** -- ************************************************************************* library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity i2s_rx is generic( C_SLOT_WIDTH : integer := 24; -- Width of one Slot C_NUM : integer := 1 ); port( clk : in std_logic; -- System clock resetn : in std_logic; -- System reset enable : in Boolean; -- Enable RX bclk : in std_logic; -- Bit Clock channel_sync : in std_logic; -- Channel Sync frame_sync : in std_logic; -- Frame Sync sdata : in std_logic_vector(C_NUM - 1 downto 0); -- Serial Data Output stb : out std_logic; -- Data available ack : in std_logic; -- Data has been consumed data : out std_logic_vector(C_SLOT_WIDTH-1 downto 0) -- Slot Data in ); end i2s_rx; architecture Behavioral of i2s_rx is type mem is array (0 to C_NUM - 1) of std_logic_vector(31 downto 0); type mem_latched is array (0 to C_NUM - 1) of std_logic_vector(C_SLOT_WIDTH - 1 downto 0); signal data_int : mem; signal data_latched : mem_latched; signal reset_int : Boolean; signal enable_int : Boolean; signal bit_sync : std_logic; signal channel_sync_int : std_logic; signal frame_sync_int : std_logic; signal bclk_d1 : std_logic; type sequencer_state_type is (IDLE, ACTIVE); signal sequencer_state : sequencer_state_type; signal seq : natural range 0 to C_NUM - 1; signal ovf_frame_cnt : natural range 0 to 1; begin reset_int <= (resetn = '0') or not enable; process (clk) begin if rising_edge(clk) then if resetn = '0' then bclk_d1 <= '0'; else bclk_d1 <= bclk; end if; end if; end process; bit_sync <= (bclk xor bclk_d1) and bclk; channel_sync_int <= channel_sync and bit_sync; frame_sync_int <= frame_sync and bit_sync; stb <= '1' when sequencer_state = ACTIVE else '0'; sequencer: process (clk) begin if rising_edge(clk) then if reset_int or not enable_int then sequencer_state <= IDLE; ovf_frame_cnt <= 0; seq <= 0; else case sequencer_state is when IDLE => if channel_sync_int = '1' then if ovf_frame_cnt = 0 then sequencer_state <= ACTIVE; else ovf_frame_cnt <= (ovf_frame_cnt + 1) mod 2; end if; end if; when ACTIVE => -- The unlikely event the last ack came in in the same clock -- cyclce as the channel sync signal will still be treated -- as an overflow. This keeps the logic simple if ack = '1' then if seq = C_NUM - 1 then sequencer_state <= IDLE; seq <= 0; else seq <= seq + 1; end if; end if; if channel_sync_int = '1' then ovf_frame_cnt <= (ovf_frame_cnt + 1) mod 2; end if; end case; end if; end if; end process; data <= data_latched(seq); gen: for i in 0 to C_NUM - 1 generate unserialize_data: process(clk) begin if rising_edge(clk) then if reset_int then data_int(i) <= (others => '0'); elsif bit_sync = '1' then if channel_sync = '1' then if sequencer_state = IDLE then data_latched(i) <= data_int(i)(31 downto 32 - C_SLOT_WIDTH); -- data_latched(i) <= data_int(i)(31 downto 32 - -- C_SLOT_WIDTH + 8) & -- std_logic_vector(to_unsigned(i+1,8)); end if; end if; data_int(i) <= data_int(i)(30 downto 0) & sdata(i); end if; end if; end process unserialize_data; end generate; enable_sync: process (clk) begin if rising_edge(clk) then if reset_int then enable_int <= False; else if enable and frame_sync_int = '1' then enable_int <= True; elsif not enable then enable_int <= False; end if; end if; end if; end process enable_sync; end Behavioral;
-- ************************************************************************* -- *********************************************************************** -- Copyright 2013(c) Analog Devices, Inc. -- Author: Lars-Peter Clausen <lars-peter.clausen@analog.com> -- -- All rights reserved. -- -- Redistribution and use in source and binary forms, with or without modification, -- are permitted provided that the following conditions are met: -- - Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- - Redistributions in binary form must reproduce the above copyright -- notice, this list of conditions and the following disclaimer in -- the documentation and/or other materials provided with the -- distribution. -- - Neither the name of Analog Devices, Inc. nor the names of its -- contributors may be used to endorse or promote products derived -- from this software without specific prior written permission. -- - The use of this software may or may not infringe the patent rights -- of one or more patent holders. This license does not release you -- from the requirement that you obtain separate licenses from these -- patent holders to use this software. -- - Use of the software either in source or binary form, must be run -- on or directly connected to an Analog Devices Inc. component. -- -- THIS SOFTWARE IS PROVIDED BY ANALOG DEVICES "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, -- INCLUDING, BUT NOT LIMITED TO, NON-INFRINGEMENT, MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. -- -- IN NO EVENT SHALL ANALOG DEVICES BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, -- EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, INTELLECTUAL PROPERTY -- RIGHTS, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR -- BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF -- THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- *********************************************************************** -- ************************************************************************* library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity i2s_rx is generic( C_SLOT_WIDTH : integer := 24; -- Width of one Slot C_NUM : integer := 1 ); port( clk : in std_logic; -- System clock resetn : in std_logic; -- System reset enable : in Boolean; -- Enable RX bclk : in std_logic; -- Bit Clock channel_sync : in std_logic; -- Channel Sync frame_sync : in std_logic; -- Frame Sync sdata : in std_logic_vector(C_NUM - 1 downto 0); -- Serial Data Output stb : out std_logic; -- Data available ack : in std_logic; -- Data has been consumed data : out std_logic_vector(C_SLOT_WIDTH-1 downto 0) -- Slot Data in ); end i2s_rx; architecture Behavioral of i2s_rx is type mem is array (0 to C_NUM - 1) of std_logic_vector(31 downto 0); type mem_latched is array (0 to C_NUM - 1) of std_logic_vector(C_SLOT_WIDTH - 1 downto 0); signal data_int : mem; signal data_latched : mem_latched; signal reset_int : Boolean; signal enable_int : Boolean; signal bit_sync : std_logic; signal channel_sync_int : std_logic; signal frame_sync_int : std_logic; signal bclk_d1 : std_logic; type sequencer_state_type is (IDLE, ACTIVE); signal sequencer_state : sequencer_state_type; signal seq : natural range 0 to C_NUM - 1; signal ovf_frame_cnt : natural range 0 to 1; begin reset_int <= (resetn = '0') or not enable; process (clk) begin if rising_edge(clk) then if resetn = '0' then bclk_d1 <= '0'; else bclk_d1 <= bclk; end if; end if; end process; bit_sync <= (bclk xor bclk_d1) and bclk; channel_sync_int <= channel_sync and bit_sync; frame_sync_int <= frame_sync and bit_sync; stb <= '1' when sequencer_state = ACTIVE else '0'; sequencer: process (clk) begin if rising_edge(clk) then if reset_int or not enable_int then sequencer_state <= IDLE; ovf_frame_cnt <= 0; seq <= 0; else case sequencer_state is when IDLE => if channel_sync_int = '1' then if ovf_frame_cnt = 0 then sequencer_state <= ACTIVE; else ovf_frame_cnt <= (ovf_frame_cnt + 1) mod 2; end if; end if; when ACTIVE => -- The unlikely event the last ack came in in the same clock -- cyclce as the channel sync signal will still be treated -- as an overflow. This keeps the logic simple if ack = '1' then if seq = C_NUM - 1 then sequencer_state <= IDLE; seq <= 0; else seq <= seq + 1; end if; end if; if channel_sync_int = '1' then ovf_frame_cnt <= (ovf_frame_cnt + 1) mod 2; end if; end case; end if; end if; end process; data <= data_latched(seq); gen: for i in 0 to C_NUM - 1 generate unserialize_data: process(clk) begin if rising_edge(clk) then if reset_int then data_int(i) <= (others => '0'); elsif bit_sync = '1' then if channel_sync = '1' then if sequencer_state = IDLE then data_latched(i) <= data_int(i)(31 downto 32 - C_SLOT_WIDTH); -- data_latched(i) <= data_int(i)(31 downto 32 - -- C_SLOT_WIDTH + 8) & -- std_logic_vector(to_unsigned(i+1,8)); end if; end if; data_int(i) <= data_int(i)(30 downto 0) & sdata(i); end if; end if; end process unserialize_data; end generate; enable_sync: process (clk) begin if rising_edge(clk) then if reset_int then enable_int <= False; else if enable and frame_sync_int = '1' then enable_int <= True; elsif not enable then enable_int <= False; end if; end if; end if; end process enable_sync; end Behavioral;
-- ************************************************************************* -- *********************************************************************** -- Copyright 2013(c) Analog Devices, Inc. -- Author: Lars-Peter Clausen <lars-peter.clausen@analog.com> -- -- All rights reserved. -- -- Redistribution and use in source and binary forms, with or without modification, -- are permitted provided that the following conditions are met: -- - Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- - Redistributions in binary form must reproduce the above copyright -- notice, this list of conditions and the following disclaimer in -- the documentation and/or other materials provided with the -- distribution. -- - Neither the name of Analog Devices, Inc. nor the names of its -- contributors may be used to endorse or promote products derived -- from this software without specific prior written permission. -- - The use of this software may or may not infringe the patent rights -- of one or more patent holders. This license does not release you -- from the requirement that you obtain separate licenses from these -- patent holders to use this software. -- - Use of the software either in source or binary form, must be run -- on or directly connected to an Analog Devices Inc. component. -- -- THIS SOFTWARE IS PROVIDED BY ANALOG DEVICES "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, -- INCLUDING, BUT NOT LIMITED TO, NON-INFRINGEMENT, MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. -- -- IN NO EVENT SHALL ANALOG DEVICES BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, -- EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, INTELLECTUAL PROPERTY -- RIGHTS, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR -- BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF -- THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- *********************************************************************** -- ************************************************************************* library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity i2s_rx is generic( C_SLOT_WIDTH : integer := 24; -- Width of one Slot C_NUM : integer := 1 ); port( clk : in std_logic; -- System clock resetn : in std_logic; -- System reset enable : in Boolean; -- Enable RX bclk : in std_logic; -- Bit Clock channel_sync : in std_logic; -- Channel Sync frame_sync : in std_logic; -- Frame Sync sdata : in std_logic_vector(C_NUM - 1 downto 0); -- Serial Data Output stb : out std_logic; -- Data available ack : in std_logic; -- Data has been consumed data : out std_logic_vector(C_SLOT_WIDTH-1 downto 0) -- Slot Data in ); end i2s_rx; architecture Behavioral of i2s_rx is type mem is array (0 to C_NUM - 1) of std_logic_vector(31 downto 0); type mem_latched is array (0 to C_NUM - 1) of std_logic_vector(C_SLOT_WIDTH - 1 downto 0); signal data_int : mem; signal data_latched : mem_latched; signal reset_int : Boolean; signal enable_int : Boolean; signal bit_sync : std_logic; signal channel_sync_int : std_logic; signal frame_sync_int : std_logic; signal bclk_d1 : std_logic; type sequencer_state_type is (IDLE, ACTIVE); signal sequencer_state : sequencer_state_type; signal seq : natural range 0 to C_NUM - 1; signal ovf_frame_cnt : natural range 0 to 1; begin reset_int <= (resetn = '0') or not enable; process (clk) begin if rising_edge(clk) then if resetn = '0' then bclk_d1 <= '0'; else bclk_d1 <= bclk; end if; end if; end process; bit_sync <= (bclk xor bclk_d1) and bclk; channel_sync_int <= channel_sync and bit_sync; frame_sync_int <= frame_sync and bit_sync; stb <= '1' when sequencer_state = ACTIVE else '0'; sequencer: process (clk) begin if rising_edge(clk) then if reset_int or not enable_int then sequencer_state <= IDLE; ovf_frame_cnt <= 0; seq <= 0; else case sequencer_state is when IDLE => if channel_sync_int = '1' then if ovf_frame_cnt = 0 then sequencer_state <= ACTIVE; else ovf_frame_cnt <= (ovf_frame_cnt + 1) mod 2; end if; end if; when ACTIVE => -- The unlikely event the last ack came in in the same clock -- cyclce as the channel sync signal will still be treated -- as an overflow. This keeps the logic simple if ack = '1' then if seq = C_NUM - 1 then sequencer_state <= IDLE; seq <= 0; else seq <= seq + 1; end if; end if; if channel_sync_int = '1' then ovf_frame_cnt <= (ovf_frame_cnt + 1) mod 2; end if; end case; end if; end if; end process; data <= data_latched(seq); gen: for i in 0 to C_NUM - 1 generate unserialize_data: process(clk) begin if rising_edge(clk) then if reset_int then data_int(i) <= (others => '0'); elsif bit_sync = '1' then if channel_sync = '1' then if sequencer_state = IDLE then data_latched(i) <= data_int(i)(31 downto 32 - C_SLOT_WIDTH); -- data_latched(i) <= data_int(i)(31 downto 32 - -- C_SLOT_WIDTH + 8) & -- std_logic_vector(to_unsigned(i+1,8)); end if; end if; data_int(i) <= data_int(i)(30 downto 0) & sdata(i); end if; end if; end process unserialize_data; end generate; enable_sync: process (clk) begin if rising_edge(clk) then if reset_int then enable_int <= False; else if enable and frame_sync_int = '1' then enable_int <= True; elsif not enable then enable_int <= False; end if; end if; end if; end process enable_sync; end Behavioral;
-- ************************************************************************* -- *********************************************************************** -- Copyright 2013(c) Analog Devices, Inc. -- Author: Lars-Peter Clausen <lars-peter.clausen@analog.com> -- -- All rights reserved. -- -- Redistribution and use in source and binary forms, with or without modification, -- are permitted provided that the following conditions are met: -- - Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- - Redistributions in binary form must reproduce the above copyright -- notice, this list of conditions and the following disclaimer in -- the documentation and/or other materials provided with the -- distribution. -- - Neither the name of Analog Devices, Inc. nor the names of its -- contributors may be used to endorse or promote products derived -- from this software without specific prior written permission. -- - The use of this software may or may not infringe the patent rights -- of one or more patent holders. This license does not release you -- from the requirement that you obtain separate licenses from these -- patent holders to use this software. -- - Use of the software either in source or binary form, must be run -- on or directly connected to an Analog Devices Inc. component. -- -- THIS SOFTWARE IS PROVIDED BY ANALOG DEVICES "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, -- INCLUDING, BUT NOT LIMITED TO, NON-INFRINGEMENT, MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. -- -- IN NO EVENT SHALL ANALOG DEVICES BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, -- EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, INTELLECTUAL PROPERTY -- RIGHTS, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR -- BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF -- THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- *********************************************************************** -- ************************************************************************* library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity i2s_rx is generic( C_SLOT_WIDTH : integer := 24; -- Width of one Slot C_NUM : integer := 1 ); port( clk : in std_logic; -- System clock resetn : in std_logic; -- System reset enable : in Boolean; -- Enable RX bclk : in std_logic; -- Bit Clock channel_sync : in std_logic; -- Channel Sync frame_sync : in std_logic; -- Frame Sync sdata : in std_logic_vector(C_NUM - 1 downto 0); -- Serial Data Output stb : out std_logic; -- Data available ack : in std_logic; -- Data has been consumed data : out std_logic_vector(C_SLOT_WIDTH-1 downto 0) -- Slot Data in ); end i2s_rx; architecture Behavioral of i2s_rx is type mem is array (0 to C_NUM - 1) of std_logic_vector(31 downto 0); type mem_latched is array (0 to C_NUM - 1) of std_logic_vector(C_SLOT_WIDTH - 1 downto 0); signal data_int : mem; signal data_latched : mem_latched; signal reset_int : Boolean; signal enable_int : Boolean; signal bit_sync : std_logic; signal channel_sync_int : std_logic; signal frame_sync_int : std_logic; signal bclk_d1 : std_logic; type sequencer_state_type is (IDLE, ACTIVE); signal sequencer_state : sequencer_state_type; signal seq : natural range 0 to C_NUM - 1; signal ovf_frame_cnt : natural range 0 to 1; begin reset_int <= (resetn = '0') or not enable; process (clk) begin if rising_edge(clk) then if resetn = '0' then bclk_d1 <= '0'; else bclk_d1 <= bclk; end if; end if; end process; bit_sync <= (bclk xor bclk_d1) and bclk; channel_sync_int <= channel_sync and bit_sync; frame_sync_int <= frame_sync and bit_sync; stb <= '1' when sequencer_state = ACTIVE else '0'; sequencer: process (clk) begin if rising_edge(clk) then if reset_int or not enable_int then sequencer_state <= IDLE; ovf_frame_cnt <= 0; seq <= 0; else case sequencer_state is when IDLE => if channel_sync_int = '1' then if ovf_frame_cnt = 0 then sequencer_state <= ACTIVE; else ovf_frame_cnt <= (ovf_frame_cnt + 1) mod 2; end if; end if; when ACTIVE => -- The unlikely event the last ack came in in the same clock -- cyclce as the channel sync signal will still be treated -- as an overflow. This keeps the logic simple if ack = '1' then if seq = C_NUM - 1 then sequencer_state <= IDLE; seq <= 0; else seq <= seq + 1; end if; end if; if channel_sync_int = '1' then ovf_frame_cnt <= (ovf_frame_cnt + 1) mod 2; end if; end case; end if; end if; end process; data <= data_latched(seq); gen: for i in 0 to C_NUM - 1 generate unserialize_data: process(clk) begin if rising_edge(clk) then if reset_int then data_int(i) <= (others => '0'); elsif bit_sync = '1' then if channel_sync = '1' then if sequencer_state = IDLE then data_latched(i) <= data_int(i)(31 downto 32 - C_SLOT_WIDTH); -- data_latched(i) <= data_int(i)(31 downto 32 - -- C_SLOT_WIDTH + 8) & -- std_logic_vector(to_unsigned(i+1,8)); end if; end if; data_int(i) <= data_int(i)(30 downto 0) & sdata(i); end if; end if; end process unserialize_data; end generate; enable_sync: process (clk) begin if rising_edge(clk) then if reset_int then enable_int <= False; else if enable and frame_sync_int = '1' then enable_int <= True; elsif not enable then enable_int <= False; end if; end if; end if; end process enable_sync; end Behavioral;
-- Copyright (C) 2002 Morgan Kaufmann Publishers, Inc -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA entity lead_lag_ztf is generic ( a1 : real := 2.003140; a2 : real := -1.996860; b1 : real := 3.250000; b2 : real := -0.750000; k : real := 400.0; -- normalizing gain tsampl : real := 0.1e-3; -- sample period init_delay : real := 0.0 ); -- optional delay port ( quantity input : in real; quantity output : out real ); end entity lead_lag_ztf; ---------------------------------------------------------------- architecture simple of lead_lag_ztf is constant num: real_vector := (a1, a2); constant den: real_vector := (b1, b2); begin output == k * input'ztf(num, den, tsampl, init_delay); -- implement transfer function end architecture simple;
-- Copyright (C) 2002 Morgan Kaufmann Publishers, Inc -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA entity lead_lag_ztf is generic ( a1 : real := 2.003140; a2 : real := -1.996860; b1 : real := 3.250000; b2 : real := -0.750000; k : real := 400.0; -- normalizing gain tsampl : real := 0.1e-3; -- sample period init_delay : real := 0.0 ); -- optional delay port ( quantity input : in real; quantity output : out real ); end entity lead_lag_ztf; ---------------------------------------------------------------- architecture simple of lead_lag_ztf is constant num: real_vector := (a1, a2); constant den: real_vector := (b1, b2); begin output == k * input'ztf(num, den, tsampl, init_delay); -- implement transfer function end architecture simple;
-- Copyright (C) 2002 Morgan Kaufmann Publishers, Inc -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA entity lead_lag_ztf is generic ( a1 : real := 2.003140; a2 : real := -1.996860; b1 : real := 3.250000; b2 : real := -0.750000; k : real := 400.0; -- normalizing gain tsampl : real := 0.1e-3; -- sample period init_delay : real := 0.0 ); -- optional delay port ( quantity input : in real; quantity output : out real ); end entity lead_lag_ztf; ---------------------------------------------------------------- architecture simple of lead_lag_ztf is constant num: real_vector := (a1, a2); constant den: real_vector := (b1, b2); begin output == k * input'ztf(num, den, tsampl, init_delay); -- implement transfer function end architecture simple;
----- Libraries ----- library ieee; use ieee.std_logic_1164.all; entity UART is port ( rxd, reset, clk, txvalid : in std_logic; txdata : in std_logic_vector(7 downto 0); txd, rxdata : out std_logic; rxdata : out std_logic_vector(7 downto 0) ); end UART; architecture U of UART is begin end U;
------------------------------------------------------------------------------- -- -- SD/MMC Bootloader -- -- $Id: spi_counter-c.vhd,v 1.1 2005-02-08 20:41:33 arniml Exp $ -- ------------------------------------------------------------------------------- configuration spi_counter_rtl_c0 of spi_counter is for rtl end for; end spi_counter_rtl_c0;
-- file: pll_tb.vhd -- -- (c) Copyright 2008 - 2011 Xilinx, Inc. All rights reserved. -- -- This file contains confidential and proprietary information -- of Xilinx, Inc. and is protected under U.S. and -- international copyright and other intellectual property -- laws. -- -- DISCLAIMER -- This disclaimer is not a license and does not grant any -- rights to the materials distributed herewith. Except as -- otherwise provided in a valid license issued to you by -- Xilinx, and to the maximum extent permitted by applicable -- law: (1) THESE MATERIALS ARE MADE AVAILABLE "AS IS" AND -- WITH ALL FAULTS, AND XILINX HEREBY DISCLAIMS ALL WARRANTIES -- AND CONDITIONS, EXPRESS, IMPLIED, OR STATUTORY, INCLUDING -- BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, NON- -- INFRINGEMENT, OR FITNESS FOR ANY PARTICULAR PURPOSE; and -- (2) Xilinx shall not be liable (whether in contract or tort, -- including negligence, or under any other theory of -- liability) for any loss or damage of any kind or nature -- related to, arising under or in connection with these -- materials, including for any direct, or any indirect, -- special, incidental, or consequential loss or damage -- (including loss of data, profits, goodwill, or any type of -- loss or damage suffered as a result of any action brought -- by a third party) even if such damage or loss was -- reasonably foreseeable or Xilinx had been advised of the -- possibility of the same. -- -- CRITICAL APPLICATIONS -- Xilinx products are not designed or intended to be fail- -- safe, or for use in any application requiring fail-safe -- performance, such as life-support or safety devices or -- systems, Class III medical devices, nuclear facilities, -- applications related to the deployment of airbags, or any -- other applications that could lead to death, personal -- injury, or severe property or environmental damage -- (individually and collectively, "Critical -- Applications"). Customer assumes the sole risk and -- liability of any use of Xilinx products in Critical -- Applications, subject only to applicable laws and -- regulations governing limitations on product liability. -- -- THIS COPYRIGHT NOTICE AND DISCLAIMER MUST BE RETAINED AS -- PART OF THIS FILE AT ALL TIMES. -- ------------------------------------------------------------------------------ -- Clocking wizard demonstration testbench ------------------------------------------------------------------------------ -- This demonstration testbench instantiates the example design for the -- clocking wizard. Input clocks are toggled, which cause the clocking -- network to lock and the counters to increment. ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; use ieee.std_logic_arith.all; use ieee.numeric_std.all; use ieee.std_logic_textio.all; library std; use std.textio.all; library work; use work.all; entity pll_tb is end pll_tb; architecture test of pll_tb is -- Clock to Q delay of 100 ps constant TCQ : time := 100 ps; -- timescale is 1ps constant ONE_NS : time := 1 ns; -- how many cycles to run constant COUNT_PHASE : integer := 1024 + 1; -- we'll be using the period in many locations constant PER1 : time := 10.000 ns; -- Declare the input clock signals signal CLK_IN1 : std_logic := '1'; -- The high bits of the sampling counters signal COUNT : std_logic_vector(2 downto 1); -- Status and control signals signal RESET : std_logic := '0'; signal LOCKED : std_logic; signal COUNTER_RESET : std_logic := '0'; signal timeout_counter : std_logic_vector (13 downto 0) := (others => '0'); -- signal defined to stop mti simulation without severity failure in the report signal end_of_sim : std_logic := '0'; signal CLK_OUT : std_logic_vector(2 downto 1); --Freq Check using the M & D values setting and actual Frequency generated component pll_exdes port (-- Clock in ports CLK_IN1 : in std_logic; -- Reset that only drives logic in example design COUNTER_RESET : in std_logic; CLK_OUT : out std_logic_vector(2 downto 1) ; -- High bits of counters driven by clocks COUNT : out std_logic_vector(2 downto 1); -- Status and control signals RESET : in std_logic; LOCKED : out std_logic ); end component; begin -- Input clock generation -------------------------------------- process begin CLK_IN1 <= not CLK_IN1; wait for (PER1/2); end process; -- Test sequence process procedure simtimeprint is variable outline : line; begin write(outline, string'("## SYSTEM_CYCLE_COUNTER ")); write(outline, NOW/PER1); write(outline, string'(" ns")); writeline(output,outline); end simtimeprint; procedure simfreqprint (period : time; clk_num : integer) is variable outputline : LINE; variable str1 : string(1 to 16); variable str2 : integer; variable str3 : string(1 to 2); variable str4 : integer; variable str5 : string(1 to 4); begin str1 := "Freq of CLK_OUT("; str2 := clk_num; str3 := ") "; str4 := 1000000 ps/period ; str5 := " MHz" ; write(outputline, str1 ); write(outputline, str2); write(outputline, str3); write(outputline, str4); write(outputline, str5); writeline(output, outputline); end simfreqprint; begin report "Timing checks are not valid" severity note; RESET <= '1'; wait for (PER16); RESET <= '0'; wait until LOCKED = '1'; wait for (PER120); COUNTER_RESET <= '1'; wait for (PER119.5); COUNTER_RESET <= '0'; wait for (PER11); report "Timing checks are valid" severity note; wait for (PER1*COUNT_PHASE); simtimeprint; end_of_sim <= '1'; wait for 1 ps; report "Simulation Stopped." severity failure; wait; end process; process (CLK_IN1) procedure simtimeprint is variable outline : line; begin write(outline, string'("## SYSTEM_CYCLE_COUNTER ")); write(outline, NOW/PER1); write(outline, string'(" ns")); writeline(output,outline); end simtimeprint; begin if (CLK_IN1'event and CLK_IN1='1') then timeout_counter <= timeout_counter + '1'; if (timeout_counter = "10000000000000") then if (LOCKED /= '1') then simtimeprint; report "NO LOCK signal" severity failure; end if; end if; end if; end process; -- Instantiation of the example design containing the clock -- network and sampling counters ----------------------------------------------------------- dut : pll_exdes port map (-- Clock in ports CLK_IN1 => CLK_IN1, -- Reset for logic in example design COUNTER_RESET => COUNTER_RESET, CLK_OUT => CLK_OUT, -- High bits of the counters COUNT => COUNT, -- Status and control signals RESET => RESET, LOCKED => LOCKED); -- Freq Check end test;
---------------------------------------------------------------------------------- -- Company: CPE233 -- Engineer: Justin Nguyen, Quinn Mikelson -- -- Create Date: 20:59:29 02/04/2013 -- Design Name: -- Module Name: RAT_CPU - Behavioral -- Project Name: RAT MCU -- Target Devices: -- Tool versions: -- Description: This is the control unit of the RAT MCU. -- -- Dependencies: -- -- Revision: -- Revision 0.01 - File Created -- Additional Comments: -- ---------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.NUMERIC_STD.ALL; entity ControlUnit is Port ( CLK : in STD_LOGIC; C : in STD_LOGIC; Z : in STD_LOGIC; INT : in STD_LOGIC; RST : in STD_LOGIC; OPCODE_HI_5 : in STD_LOGIC_VECTOR (4 downto 0); OPCODE_LO_2 : in STD_LOGIC_VECTOR (1 downto 0); PC_LD : out STD_LOGIC; PC_INC : out STD_LOGIC; PC_RESET : out STD_LOGIC; PC_MUX_SEL : out STD_LOGIC_VECTOR (1 downto 0); SP_LD : out STD_LOGIC; SP_RESET : out STD_LOGIC; SP_INCR : out STD_LOGIC; SP_DECR : out STD_LOGIC; RF_WR : out STD_LOGIC; RF_WR_SEL : out STD_LOGIC_VECTOR (1 downto 0); ALU_SEL : out STD_LOGIC_VECTOR (3 downto 0); ALU_OPY_SEL : out STD_LOGIC; SCR_WR : out STD_LOGIC; SCR_ADDR_SEL : out STD_LOGIC_VECTOR (1 downto 0); SCR_DATA_SEL : out STD_LOGIC; C_FLAG_SEL : out STD_LOGIC; C_FLAG_LD : out STD_LOGIC; C_FLAG_SET : out STD_LOGIC; C_FLAG_CLR : out STD_LOGIC; SHAD_C_LD : out STD_LOGIC; Z_FLAG_SEL : out STD_LOGIC; Z_FLAG_LD : out STD_LOGIC; Z_FLAG_SET : out STD_LOGIC; Z_FLAG_CLR : out STD_LOGIC; SHAD_Z_LD : out STD_LOGIC; I_FLAG_SET : out STD_LOGIC; I_FLAG_CLR : out STD_LOGIC; IO_OE : out STD_LOGIC); end ControlUnit; architecture Behavioral of ControlUnit is -- State machine signals type state_type is (ST_init, ST_fet, ST_exec, ST_int); signal PS,NS : state_type; -- Opcode signal sig_OPCODE_7: std_logic_vector (6 downto 0); begin -- Assign next state sync_p: process (CLK, NS, RST) begin if (RST = '1') then PS <= ST_init; elsif (rising_edge(CLK)) then PS <= NS; end if; end process sync_p; -- Translate instruction to signals comb_p: process (OPCODE_HI_5, OPCODE_LO_2, sig_OPCODE_7, C, Z, PS, NS, INT) begin sig_OPCODE_7 <= OPCODE_HI_5 & OPCODE_LO_2; case PS is -- STATE: the init cycle ------------------------------------ when ST_init => NS <= ST_fet; -- Initialize all control outputs to non-active states and reset the PC and SP to all zeros. PC_LD <= '0'; PC_MUX_SEL <= "00"; PC_RESET <= '1'; PC_INC <= '0'; SP_LD <= '0'; SP_RESET <= '1'; SP_INCR <= '0'; SP_DECR <= '0'; RF_WR <= '0'; RF_WR_SEL <= "00"; ALU_OPY_SEL <= '0'; ALU_SEL <= "0000"; SCR_WR <= '0'; SCR_ADDR_SEL <= "00"; SCR_DATA_SEL<= '0'; C_FLAG_SEL <= '0'; C_FLAG_LD <= '0'; C_FLAG_SET <= '0'; C_FLAG_CLR <= '0'; SHAD_C_LD <= '0'; Z_FLAG_SEL <= '0'; Z_FLAG_LD <= '0'; Z_FLAG_SET <= '0'; Z_FLAG_CLR <= '0'; SHAD_Z_LD <= '0'; I_FLAG_SET <= '0'; I_FLAG_CLR <= '0'; IO_OE <= '0'; --WRITE_STROBE <= '0'; READ_STROBE <= '0'; -- STATE: the fetch cycle ----------------------------------- when ST_fet => NS <= ST_exec; PC_LD <= '0'; PC_MUX_SEL <= "00"; PC_RESET <= '0'; PC_INC <= '1'; SP_LD <= '0'; SP_RESET <= '0'; SP_INCR <= '0'; SP_DECR <= '0'; RF_WR <= '0'; RF_WR_SEL <= "00"; ALU_OPY_SEL <= '0'; ALU_SEL <= "0000"; SCR_WR <= '0'; SCR_ADDR_SEL <= "00"; SCR_DATA_SEL<= '0'; C_FLAG_SEL <= '0'; C_FLAG_LD <= '0'; C_FLAG_SET <= '0'; C_FLAG_CLR <= '0'; SHAD_C_LD <= '0'; Z_FLAG_SEL <= '0'; Z_FLAG_LD <= '0'; Z_FLAG_SET <= '0'; Z_FLAG_CLR <= '0'; SHAD_Z_LD <= '0'; I_FLAG_SET <= '0'; I_FLAG_CLR <= '0'; IO_OE <= '0'; --WRITE_STROBE <= '0'; READ_STROBE <= '0'; -- STATE: the execute cycle --------------------------------- when ST_exec => if (INT = '1') then NS <= ST_int; else NS <= ST_fet; end if; -- Repeat the default block for all variables here, noting that any output values desired to be different -- from init values shown below will be assigned in the following case statements for each opcode. PC_LD <= '0'; PC_MUX_SEL <= "00"; PC_RESET <= '0'; PC_INC <= '0'; SP_LD <= '0'; SP_RESET <= '0'; SP_INCR <= '0'; SP_DECR <= '0'; RF_WR <= '0'; RF_WR_SEL <= "00"; ALU_OPY_SEL <= '0'; ALU_SEL <= "0000"; SCR_WR <= '0'; SCR_ADDR_SEL <= "00"; SCR_DATA_SEL<= '0'; C_FLAG_SEL <= '0'; C_FLAG_LD <= '0'; C_FLAG_SET <= '0'; C_FLAG_CLR <= '0'; SHAD_C_LD <= '0'; Z_FLAG_SEL <= '0'; Z_FLAG_LD <= '0'; Z_FLAG_SET <= '0'; Z_FLAG_CLR <= '0'; SHAD_Z_LD <= '0'; I_FLAG_SET <= '0'; I_FLAG_CLR <= '0'; IO_OE <= '0'; --WRITE_STROBE <= '0'; READ_STROBE <= '0'; if (sig_OPCODE_7 = "0000100") then -- ADD reg-reg RF_WR <= '1'; ALU_SEL <= "0000"; C_FLAG_LD <= '1'; Z_FLAG_LD <= '1'; elsif (OPCODE_HI_5 = "10100" ) then -- ADD reg-immed ALU_OPY_SEL <= '1'; RF_WR <= '1'; ALU_SEL <= "0000"; C_FLAG_LD <= '1'; Z_FLAG_LD <= '1'; elsif (sig_OPCODE_7 = "0000101") then -- ADDC reg-reg RF_WR <= '1'; ALU_SEL <= "0001"; C_FLAG_LD <= '1'; Z_FLAG_LD <= '1'; elsif (OPCODE_HI_5 = "10101" ) then -- ADDC reg-immed ALU_OPY_SEL <= '1'; RF_WR <= '1'; ALU_SEL <= "0001"; C_FLAG_LD <= '1'; Z_FLAG_LD <= '1'; elsif (sig_OPCODE_7 = "0000000") then -- AND reg-reg RF_WR <= '1'; ALU_SEL <= "0101"; Z_FLAG_LD <= '1'; elsif (OPCODE_HI_5 = "10000" ) then -- AND reg-immed ALU_OPY_SEL <= '1'; ALU_SEL <= "0101"; Z_FLAG_LD <= '1'; elsif (sig_OPCODE_7 = "0100100") then -- ASR reg-reg RF_WR <= '1'; ALU_SEL <= "1101"; Z_FLAG_LD <= '1'; C_FLAG_LD <= '1'; elsif (sig_OPCODE_7 = "0010101") then -- BRCC if (c = '0') then PC_LD <= '1'; end if; elsif (sig_OPCODE_7 = "0010100") then -- BRCS if (c = '1') then PC_LD <= '1'; end if; elsif (sig_OPCODE_7 = "0010010") then -- BREQ if (Z = '1') then PC_LD <= '1'; end if; elsif (sig_OPCODE_7 = "0010000") then -- BRN PC_LD <= '1'; elsif (sig_OPCODE_7 = "0010011") then -- BRNE if (Z = '0') then PC_LD <= '1'; end if; elsif (sig_OPCODE_7 = "0010001") then -- CALL PC_LD <= '1'; SP_LD <= '1'; SCR_ADDR_SEL <= "10"; SCR_ADDR_SEL <= "11"; SCR_WR <= '1'; elsif (sig_OPCODE_7 = "0110000") then -- CLC C_FLAG_CLR <= '1'; elsif (sig_OPCODE_7 = "0110101") then -- CLI (INT) I_FLAG_CLR <= '1'; elsif (sig_OPCODE_7 = "0001000") then -- CMP reg-reg ALU_SEL <= "0100"; C_FLAG_LD <= '1'; Z_FLAG_LD <= '1'; elsif (OPCODE_HI_5 = "11000" ) then -- CMP reg-immed ALU_SEL <= "0100"; ALU_OPY_SEL <= '1'; C_FLAG_LD <= '1'; Z_FLAG_LD <= '1'; elsif (sig_OPCODE_7 = "0000010") then -- EXOR reg-reg RF_WR <= '1'; ALU_SEL <= "0111"; C_FLAG_LD <= '1'; Z_FLAG_LD <= '1'; elsif (OPCODE_HI_5 = "10010" ) then -- EXOR reg-immed RF_WR <= '1'; ALU_SEL <= "0111"; ALU_OPY_SEL <= '1'; C_FLAG_LD <= '1'; Z_FLAG_LD <= '1'; elsif (OPCODE_HI_5 = "11001" ) then -- IN RF_WR <= '1'; RF_WR_SEL <= "11"; elsif (sig_OPCODE_7 = "0001010") then -- LD reg-reg SCR_ADDR_SEL <= "00"; RF_WR <= '1'; RF_WR_SEL <= "01"; elsif (OPCODE_HI_5 = "11100" ) then -- LD reg-immed SCR_ADDR_SEL <= "01"; RF_WR <= '1'; RF_WR_SEL <= "01"; elsif (sig_OPCODE_7 = "0100000") then -- LSL RF_WR <= '1'; ALU_SEL <= "1001"; C_FLAG_LD <= '1'; Z_FLAG_LD <= '1'; elsif (sig_OPCODE_7 = "0100001") then -- LSR RF_WR <= '1'; ALU_SEL <= "1010"; C_FLAG_LD <= '1'; Z_FLAG_LD <= '1'; elsif (sig_OPCODE_7 = "0001001") then -- MOV reg-reg RF_WR <= '1'; ALU_SEL <= "1110"; elsif (OPCODE_HI_5 = "11011" ) then -- MOV reg-immed RF_WR <= '1'; ALU_SEL <= "1110"; ALU_OPY_SEL <= '1'; elsif (sig_OPCODE_7 = "0000001") then -- OR reg-reg RF_WR <= '1'; ALU_SEL <= "0110"; Z_FLAG_LD <= '1'; elsif (OPCODE_HI_5 = "10001" ) then -- OR reg-immed RF_WR <= '1'; ALU_SEL <= "0110"; ALU_OPY_SEL <= '1'; Z_FLAG_LD <= '1'; elsif (OPCODE_HI_5 = "11010" ) then -- OUT IO_OE <= '1'; elsif (sig_OPCODE_7 = "0100110") then -- POP SCR_ADDR_SEL <= "10"; RF_WR <= '1'; RF_WR_SEL <= "01"; SCR_ADDR_SEL <= "11"; SP_LD <= '1'; elsif (sig_OPCODE_7 = "0100101") then -- PUSH SCR_WR <= '1'; SCR_ADDR_SEL <= "11"; SCR_ADDR_SEL <= "10"; SP_LD <= '1'; elsif (sig_OPCODE_7 = "0110010") then -- RET SCR_ADDR_SEL <= "10"; PC_MUX_SEL <= "01"; PC_LD <= '1'; SCR_ADDR_SEL <= "11"; SP_LD <= '1'; elsif (sig_OPCODE_7 = "0110110") then -- RETID (INT) SCR_ADDR_SEL <= "10"; PC_MUX_SEL <= "01"; PC_LD <= '1'; SCR_ADDR_SEL <= "11"; SP_LD <= '1'; I_FLAG_CLR <= '1'; elsif (sig_OPCODE_7 = "0110111") then -- RETIE (INT) SCR_ADDR_SEL <= "10"; PC_MUX_SEL <= "01"; PC_LD <= '1'; SCR_ADDR_SEL <= "11"; SP_LD <= '1'; I_FLAG_SET <= '1'; elsif (sig_OPCODE_7 = "0100010") then -- ROL RF_WR <= '1'; ALU_SEL <= "1011"; Z_FLAG_LD <= '1'; C_FLAG_LD <= '1'; elsif (sig_OPCODE_7 = "0100011") then -- ROR RF_WR <= '1'; ALU_SEL <= "1100"; Z_FLAG_LD <= '1'; C_FLAG_LD <= '1'; elsif (sig_OPCODE_7 = "0110001") then -- SEC C_FLAG_SET <= '1'; elsif (sig_OPCODE_7 = "0110100") then -- SEI (INT) I_FLAG_SET <= '1'; elsif (sig_OPCODE_7 = "0001011") then -- ST reg-reg SCR_WR <= '1'; elsif (OPCODE_HI_5 = "11101" ) then -- ST reg-immed SCR_WR <= '1'; SCR_ADDR_SEL <= "01"; elsif (sig_OPCODE_7 = "0000110") then -- SUB reg-reg RF_WR <= '1'; ALU_SEL <= "0010"; C_FLAG_LD <= '1'; Z_FLAG_LD <= '1'; elsif (OPCODE_HI_5 = "10110" ) then -- SUB reg-immed RF_WR <= '1'; ALU_SEL <= "0010"; ALU_OPY_SEL <= '1'; C_FLAG_LD <= '1'; Z_FLAG_LD <= '1'; elsif (sig_OPCODE_7 = "0000111") then -- SUBC reg-reg RF_WR <= '1'; ALU_SEL <= "0011"; C_FLAG_LD <= '1'; Z_FLAG_LD <= '1'; elsif (OPCODE_HI_5 = "10111" ) then -- SUBC reg-immed ALU_OPY_SEL <= '1'; RF_WR <= '1'; ALU_SEL <= "0011"; C_FLAG_LD <= '1'; Z_FLAG_LD <= '1'; elsif (sig_OPCODE_7 = "0000011") then -- TEST reg-reg ALU_SEL <= "1000"; Z_FLAG_LD <= '1'; elsif (OPCODE_HI_5 = "10011" ) then -- TEST reg-immed ALU_OPY_SEL <= '1'; ALU_SEL <= "1000"; Z_FLAG_LD <= '1'; elsif (sig_OPCODE_7 = "0101000") then -- WSP SCR_ADDR_SEL <= "00"; SP_LD <= '1'; else -- repeat the default block here to avoid incompletely specified outputs and hence avoid -- the problem of inadvertently created latches within the synthesized system. PC_LD <= '0'; PC_MUX_SEL <= "00"; PC_RESET <= '0'; PC_INC <= '0'; SP_LD <= '0'; SP_RESET <= '0'; SP_INCR <= '0'; SP_DECR <= '0'; RF_WR <= '0'; RF_WR_SEL <= "00"; ALU_OPY_SEL <= '0'; ALU_SEL <= "0000"; SCR_WR <= '0'; SCR_ADDR_SEL <= "00"; SCR_DATA_SEL <= '0'; C_FLAG_SEL <= '0'; C_FLAG_LD <= '0'; C_FLAG_SET <= '0'; C_FLAG_CLR <= '0'; SHAD_C_LD <= '0'; Z_FLAG_SEL <= '0'; Z_FLAG_LD <= '0'; Z_FLAG_SET <= '0'; Z_FLAG_CLR <= '0'; SHAD_Z_LD <= '0'; I_FLAG_SET <= '0'; I_FLAG_CLR <= '0'; IO_OE <= '0'; --WRITE_STROBE <= '0'; READ_STROBE <= '0'; end if; -- STATE: the interrupt cycle ----------------------------------- when ST_int => NS <= ST_fet; PC_LD <= '1'; PC_MUX_SEL <= "10"; PC_RESET <= '0'; PC_INC <= '0'; SP_LD <= '1'; SP_RESET <= '0'; SP_INCR <= '1'; SP_DECR <= '0'; RF_WR <= '0'; RF_WR_SEL <= "00"; ALU_OPY_SEL <= '0'; ALU_SEL <= "0000"; SCR_WR <= '0'; SCR_ADDR_SEL <= "11"; SCR_DATA_SEL<= '0'; C_FLAG_SEL <= '0'; C_FLAG_LD <= '0'; C_FLAG_SET <= '0'; C_FLAG_CLR <= '0'; SHAD_C_LD <= '0'; Z_FLAG_SEL <= '0'; Z_FLAG_LD <= '0'; Z_FLAG_SET <= '0'; Z_FLAG_CLR <= '0'; SHAD_Z_LD <= '0'; I_FLAG_SET <= '0'; I_FLAG_CLR <= '1'; IO_OE <= '0'; --WRITE_STROBE <= '0'; READ_STROBE <= '0'; when others => NS <= ST_fet; PC_LD <= '0'; PC_MUX_SEL <= "00"; PC_RESET <= '1'; PC_INC <= '0'; SP_LD <= '0'; SP_RESET <= '1'; SP_INCR <= '0'; SP_DECR <= '0'; RF_WR <= '0'; RF_WR_SEL <= "00"; ALU_OPY_SEL <= '0'; ALU_SEL <= "0000"; SCR_WR <= '0'; SCR_ADDR_SEL <= "00"; SCR_DATA_SEL<= '0'; C_FLAG_SEL <= '0'; C_FLAG_LD <= '0'; C_FLAG_SET <= '0'; C_FLAG_CLR <= '0'; SHAD_C_LD <= '0'; Z_FLAG_SEL <= '0'; Z_FLAG_LD <= '0'; Z_FLAG_SET <= '0'; Z_FLAG_CLR <= '0'; SHAD_Z_LD <= '0'; I_FLAG_SET <= '0'; I_FLAG_CLR <= '0'; IO_OE <= '0'; --WRITE_STROBE <= '0'; READ_STROBE <= '0'; end case; end process comb_p; end Behavioral;
---------------------------------------------------------------------------------- -- -- Copyright (C) 2013 Stephen Robinson -- -- This file is part of HDMI-Light -- -- HDMI-Light is free software: you can redistribute it and/or modify -- it under the terms of the GNU General Public License as published by -- the Free Software Foundation, either version 2 of the License, or -- (at your option) any later version. -- -- HDMI-Light is distributed in the hope that it will be useful, -- but WITHOUT ANY WARRANTY; without even the implied warranty of -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -- GNU General Public License for more details. -- -- You should have received a copy of the GNU General Public License -- along with this code (see the file names COPING). -- If not, see <http://www.gnu.org/licenses/>. -- ---------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; use ieee.numeric_std.all; entity scaler is generic ( xdivshift : integer := 5; -- divide X resolution by 32 ydivshift : integer := 5 -- divide Y resolution by 32 ); port ( CLK : in std_logic; CE2 : in std_logic; DE : in std_logic; VBLANK : in std_logic; RAVG : in std_logic_vector(7 downto 0); GAVG : in std_logic_vector(7 downto 0); BAVG : in std_logic_vector(7 downto 0); LINE_BUF_ADDR : in std_logic_vector(6 downto 0); LINE_BUF_DATA : out std_logic_vector(23 downto 0); LINE_READY : out std_logic; LINE_ADDR : out std_logic_vector(5 downto 0) ); end scaler; architecture Behavioral of scaler is signal DE_LAST : std_logic; signal END_OF_LINE : std_logic; signal X_COUNT : std_logic_vector(11 downto 0); signal X_COUNT_RST : std_logic; signal Y_COUNT : std_logic_vector(10 downto 0); signal Y_COUNT_CE : std_logic; signal Y_COUNT_RST : std_logic; signal Y_COUNT_LAST : std_logic_vector(10 downto 0); signal Y_COUNT_LAST_CE : std_logic; signal LINEBUF_RST : std_logic; signal LINEBUF_WE : std_logic; signal LINEBUF_ADDR : std_logic_vector(6 downto 0); signal LINEBUF_D : std_logic_vector(63 downto 0); signal LINEBUF_Q : std_logic_vector(63 downto 0); signal LINEBUF_DB : std_logic_vector(63 downto 0); begin line_buffer : entity work.blockram GENERIC MAP( ADDR => 7, DATA => 64 ) PORT MAP ( a_clk => CLK, a_rst => LINEBUF_RST, a_en => CE2, a_wr => LINEBUF_WE, a_addr => LINEBUF_ADDR, a_din => LINEBUF_D, a_dout => LINEBUF_Q, b_clk => CLK, b_en => '1', b_wr => '0', b_rst => '0', b_addr => LINE_BUF_ADDR, b_din => (others => '0'), b_dout => LINEBUF_DB ); process(CLK) begin if(rising_edge(CLK)) then if(CE2 = '1') then if(Y_COUNT(4 downto 0) = "11111" and END_OF_LINE = '1') then LINE_ADDR <= Y_COUNT_LAST(10 downto 5); LINE_READY <= '1'; else LINE_READY <= '0'; end if; end if; end if; end process; process(CLK) begin if(rising_edge(CLK)) then if(CE2 = '1') then if(DE = '0' and DE_LAST = '1') then END_OF_LINE <= '1'; else END_OF_LINE <= '0'; end if; DE_LAST <= DE; end if; end if; end process; process(CLK) begin if(rising_edge(CLK)) then if(CE2 = '1') then if(X_COUNT_RST = '1') then X_COUNT <= (others => '0'); else X_COUNT <= std_logic_vector(unsigned(X_COUNT) + 1); end if; end if; end if; end process; process(CLK) begin if(rising_edge(CLK)) then if(CE2 = '1') then if(Y_COUNT_RST = '1') then Y_COUNT <= (others => '0'); else if(Y_COUNT_CE = '1') then Y_COUNT <= std_logic_vector(unsigned(Y_COUNT) + 1); end if; end if; end if; end if; end process; process(CLK) begin if(rising_edge(CLK)) then if(CE2 = '1') then if(Y_COUNT_LAST_CE = '1') then Y_COUNT_LAST <= Y_COUNT; end if; end if; end if; end process; X_COUNT_RST <= not DE; Y_COUNT_RST <= VBLANK; Y_COUNT_CE <= END_OF_LINE; Y_COUNT_LAST_CE <= END_OF_LINE; LINEBUF_ADDR <= Y_COUNT(5) & X_COUNT(9 downto 4); LINEBUF_RST <= '1' when Y_COUNT(4 downto 0) = "00000" and X_COUNT(3 downto 1) = "000" else '0'; LINEBUF_WE <= X_COUNT(0); LINEBUF_D(63 downto 48) <= (others => '0'); LINEBUF_D(47 downto 32) <= std_logic_vector(unsigned(LINEBUF_Q(47 downto 32)) + unsigned(RAVG)); LINEBUF_D(31 downto 16) <= std_logic_vector(unsigned(LINEBUF_Q(31 downto 16)) + unsigned(GAVG)); LINEBUF_D(15 downto 0) <= std_logic_vector(unsigned(LINEBUF_Q(15 downto 0)) + unsigned(BAVG)); LINE_BUF_DATA( 7 downto 0) <= LINEBUF_DB(15 downto 8); LINE_BUF_DATA(15 downto 8) <= LINEBUF_DB(31 downto 24); LINE_BUF_DATA(23 downto 16) <= LINEBUF_DB(47 downto 40); end Behavioral;
architecture rtl of fifo is begin process begin FOR x in (31 downto 0) loop end loop; FOR x in (31 downto 0) loop end loop; end process; end;
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------------------------------------------------------------------------------- -- -- (c) B&R, 2011 -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- -- 2. Redistributions in binary form must reproduce the above copyright -- notice, this list of conditions and the following disclaimer in the -- documentation and/or other materials provided with the distribution. -- -- 3. Neither the name of B&R nor the names of its -- contributors may be used to endorse or promote products derived -- from this software without prior written permission. For written -- permission, please contact office@br-automation.com -- -- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS -- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT -- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS -- FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, -- INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, -- BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; -- LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER -- CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT -- LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN -- ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE -- POSSIBILITY OF SUCH DAMAGE. -- ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_arith.all; use ieee.std_logic_unsigned.all; entity master_handler is generic( dma_highadr_g : integer := 31; gen_tx_fifo_g : boolean := true; tx_fifo_word_size_log2_g : natural := 5; gen_rx_fifo_g : boolean := true; rx_fifo_word_size_log2_g : natural := 5; m_burstcount_width_g : integer := 4; m_rx_burst_size_g : integer := 16; m_tx_burst_size_g : integer := 16; m_burst_wr_const_g : boolean := true; fifo_data_width_g : integer := 16 ); port( m_clk : in std_logic; rst : in std_logic; mac_tx_off : in std_logic; mac_rx_off : in std_logic; tx_wr_clk : in std_logic; tx_wr_empty : in std_logic; tx_wr_full : in std_logic; rx_rd_clk : in std_logic; rx_rd_empty : in std_logic; rx_rd_full : in std_logic; tx_wr_usedw : in std_logic_vector(tx_fifo_word_size_log2_g-1 downto 0); rx_rd_usedw : in std_logic_vector(rx_fifo_word_size_log2_g-1 downto 0); tx_aclr : out std_logic; tx_wr_req : out std_logic; rx_rd_req : out std_logic; m_waitrequest : in std_logic; m_readdatavalid : in std_logic; m_write : out std_logic; m_read : out std_logic; m_address : out std_logic_vector(dma_highadr_g downto 0); m_byteenable : out std_logic_vector(fifo_data_width_g/8-1 downto 0); m_burstcount : out std_logic_vector(m_burstcount_width_g-1 downto 0); m_burstcounter : out std_logic_vector(m_burstcount_width_g-1 downto 0); dma_addr_in : in std_logic_vector(dma_highadr_g downto 1); dma_len_rd : in std_logic_vector(11 downto 0); dma_new_addr_wr : in std_logic; dma_new_addr_rd : in std_logic; dma_new_len_rd : in std_logic ); end master_handler; architecture master_handler of master_handler is --clock signal signal clk : std_logic; --constants constant tx_burst_size_c : integer := m_tx_burst_size_g; --(2(m_burstcount_width_g-1)); constant rx_burst_size_c : integer := m_rx_burst_size_g; --(2(m_burstcount_width_g-1)); ---used to trigger rx/tx data transfers depending on fill level and burst size constant tx_fifo_limit_c : integer := 2**tx_fifo_word_size_log2_g - tx_burst_size_c - 1; --fifo_size - burst size - 1 constant rx_fifo_limit_c : integer := rx_burst_size_c + 1; --burst size --fsm type transfer_t is (idle, run, finish); signal tx_fsm, tx_fsm_next, rx_fsm, rx_fsm_next : transfer_t := idle; --transfer signals signal m_burstcount_s, m_burstcount_latch : std_logic_vector(m_burstcount'range); signal m_address_latch : std_logic_vector(m_address'range); signal m_write_s, m_read_s : std_logic; signal rx_first_read_done, rx_rd_done : std_logic; --fifo signals signal arst : std_logic; signal tx_fifo_limit, rx_fifo_limit : std_logic; signal tx_wr_req_s, rx_rd_req_s, rx_first_rd_req : std_logic; --generate addresses signal tx_cnt, tx_cnt_next : std_logic_vector(m_address'range); signal rx_cnt, rx_cnt_next : std_logic_vector(m_address'range); --handle tx read transfer signal tx_rd_cnt, tx_rd_cnt_next : std_logic_vector(dma_len_rd'range); signal dma_len_rd_s : std_logic_vector(dma_len_rd'range); begin --m_clk, rx_rd_clk and tx_wr_clk are the same! clk <= m_clk; --to ease typing tx_aclr <= rst or arst; --fifo limit is set to '1' if the fill level is equal/above the limit tx_fifo_limit <= '1' when tx_wr_usedw >= conv_std_logic_vector(tx_fifo_limit_c, tx_wr_usedw'length) else '0'; rx_fifo_limit <= '1' when rx_rd_usedw >= conv_std_logic_vector(rx_fifo_limit_c, rx_rd_usedw'length) else '0'; process(clk, rst) begin if rst = '1' then if gen_rx_fifo_g then rx_fsm <= idle; end if; if gen_tx_fifo_g then tx_fsm <= idle; end if; elsif clk = '1' and clk'event then if gen_rx_fifo_g then rx_fsm <= rx_fsm_next; end if; if gen_tx_fifo_g then tx_fsm <= tx_fsm_next; end if; end if; end process; tx_fsm_next <= run when tx_fsm = idle and dma_new_addr_rd = '1' else finish when tx_fsm = run and mac_tx_off = '1' else idle when tx_fsm = finish and tx_wr_empty = '1' else --stay finish as long as tx fifo is filled tx_fsm; rx_fsm_next <= run when rx_fsm = idle and dma_new_addr_wr = '1' else finish when rx_fsm = run and mac_rx_off = '1' else idle when rx_fsm = finish and rx_rd_done = '1' else --stay finish as long the transfer process is not done rx_fsm; m_burstcount <= m_burstcount_latch when m_write_s = '1' and m_burst_wr_const_g else m_burstcount_s; m_burstcounter <= m_burstcount_s; --output current burst counter value m_write <= m_write_s; m_read <= m_read_s; --generate address m_address <= m_address_latch when m_write_s = '1' and m_burst_wr_const_g else rx_cnt when m_write_s = '1' and not m_burst_wr_const_g else tx_cnt; process(clk, rst) begin if rst = '1' then if gen_tx_fifo_g then tx_cnt <= (others => '0'); tx_rd_cnt <= (others => '0'); end if; if gen_rx_fifo_g then rx_cnt <= (others => '0'); end if; elsif clk = '1' and clk'event then if gen_tx_fifo_g then tx_cnt <= tx_cnt_next; tx_rd_cnt <= tx_rd_cnt_next; end if; if gen_rx_fifo_g then rx_cnt <= rx_cnt_next; end if; end if; end process; dma_len_rd_s <= dma_len_rd + 1 when fifo_data_width_g = 16 else dma_len_rd + 3 when fifo_data_width_g = 32 else dma_len_rd; tx_rd_cnt_next <= (others => '0') when gen_tx_fifo_g = false else '0' & dma_len_rd_s(dma_len_rd_s'left downto 1) when dma_new_len_rd = '1' and fifo_data_width_g = 16 else "00" & dma_len_rd_s(dma_len_rd_s'left downto 2) when dma_new_len_rd = '1' and fifo_data_width_g = 32 else tx_rd_cnt - 1 when tx_wr_req_s = '1' and tx_rd_cnt /= 0 else tx_rd_cnt; tx_cnt_next <= (others => '0') when gen_tx_fifo_g = false else tx_cnt + fifo_data_width_g/8 when tx_wr_req_s = '1' else dma_addr_in & '0' when dma_new_addr_rd = '1' else tx_cnt; rx_cnt_next <= (others => '0') when gen_rx_fifo_g = false else rx_cnt + fifo_data_width_g/8 when rx_rd_req_s = '1' else dma_addr_in & '0' when dma_new_addr_wr = '1' else rx_cnt; m_byteenable <= (others => '1'); tx_wr_req_s <= m_readdatavalid; tx_wr_req <= tx_wr_req_s; rx_rd_req_s <= m_write_s and not m_waitrequest; rx_rd_req <= rx_rd_req_s or rx_first_rd_req; process(clk, rst) --arbitration of rx and tx requests is done by process variable (tx overrules rx) variable tx_is_the_owner_v : std_logic; begin if rst = '1' then tx_is_the_owner_v := '0'; if gen_tx_fifo_g then arst <= '0'; m_read_s <= '0'; end if; if gen_rx_fifo_g then rx_first_rd_req <= '0'; m_write_s <= '0'; rx_first_read_done <= '0'; rx_rd_done <= '0'; end if; m_burstcount_s <= (others => '0'); if m_burst_wr_const_g then m_burstcount_latch <= (others => '0'); m_address_latch <= (others => '0'); end if; elsif clk = '1' and clk'event then if gen_tx_fifo_g then arst <= '0'; if m_readdatavalid = '1' then --read was successful -> write to tx fifo m_burstcount_s <= m_burstcount_s - 1; end if; case tx_fsm is when idle => --no transfer in progress when run => --read transfer base address is ready if tx_fifo_limit = '0' and m_read_s = '0' and m_write_s = '0' and m_burstcount_s = 0 and tx_rd_cnt /= 0 then --tx fifo is below defined limit -> there is place for at least one burst! m_read_s <= '1'; if tx_rd_cnt > conv_std_logic_vector(tx_burst_size_c, tx_rd_cnt'length) then m_burstcount_s <= conv_std_logic_vector(tx_burst_size_c, m_burstcount_s'length); else m_burstcount_s <= EXT(tx_rd_cnt, m_burstcount_s'length); end if; --a tx transfer is necessary and overrules necessary rx transfers... tx_is_the_owner_v := '1'; elsif m_read_s = '1' and m_waitrequest = '0' then --request is confirmed -> deassert request m_read_s <= '0'; --so, we are done with tx requesting tx_is_the_owner_v := '0'; end if; when finish => --transfer done, MAC has its data... ---is there still a request? if m_read_s = '1' and m_waitrequest = '0' then --last request confirmed -> deassert request m_read_s <= '0'; tx_is_the_owner_v := '0'; ---is the burst transfer done? elsif m_read_s = '0' and m_burstcount_s = 0 then --burst transfer done, clear fifo arst <= '1'; end if; end case; end if; if gen_rx_fifo_g then rx_first_rd_req <= '0'; rx_rd_done <= '0'; if m_write_s = '1' and m_waitrequest = '0' then --write was successful m_burstcount_s <= m_burstcount_s - 1; end if; case rx_fsm is when idle => --no transfer in progress rx_first_read_done <= '0'; when run => --a not empty fifo has to be read once, to get the very first pattern if rx_first_read_done = '0' and rx_rd_empty = '0' then rx_first_read_done <= '1'; rx_first_rd_req <= '1'; end if; --write transfer base address is ready if rx_fifo_limit = '1' and m_read_s = '0' and m_write_s = '0' and tx_is_the_owner_v = '0' and m_burstcount_s = 0 and rx_first_read_done = '1' then --rx fifo is filled with enough data -> build burst transfer m_write_s <= '1'; m_burstcount_s <= conv_std_logic_vector(rx_burst_size_c, m_burstcount_s'length); if m_burst_wr_const_g then m_burstcount_latch <= conv_std_logic_vector(rx_burst_size_c, m_burstcount_latch'length); m_address_latch <= rx_cnt; end if; elsif m_write_s = '1' and m_waitrequest = '0' and m_burstcount_s = 1 then --last transfer is done -> deassert write qualifiers m_write_s <= '0'; end if; when finish => --MAC is finished with RX, transfer rest of fifo ---note: The last word (part of crc32) is not transferred! if rx_rd_empty = '0' and m_read_s = '0' and m_write_s = '0' and tx_is_the_owner_v = '0' and m_burstcount_s = 0 then --rx fifo has some data left m_write_s <= '1'; --verify how many patterns are left in the fifo if rx_rd_usedw < conv_std_logic_vector(rx_burst_size_c, rx_rd_usedw'length) then --start the smaller burst write transfer m_burstcount_s <= EXT(rx_rd_usedw, m_burstcount_s'length); if m_burst_wr_const_g then m_burstcount_latch <= EXT(rx_rd_usedw, m_burstcount_latch'length); m_address_latch <= rx_cnt; end if; --workaround: fifo is not empty but word level is zero => set to one if rx_rd_usedw = 0 then m_burstcount_s <= conv_std_logic_vector(1, m_burstcount_s'length); m_burstcount_latch <= conv_std_logic_vector(1, m_burstcount_latch'length); end if; else --start the maximum burst write transfer m_burstcount_s <= conv_std_logic_vector(rx_burst_size_c, m_burstcount_s'length); if m_burst_wr_const_g then m_burstcount_latch <= conv_std_logic_vector(rx_burst_size_c, m_burstcount_latch'length); m_address_latch <= rx_cnt; end if; end if; elsif m_write_s = '1' and m_waitrequest = '0' and m_burstcount_s = 1 then --transfer is done -> deassert write qualifiers m_write_s <= '0'; --completely done?! if rx_rd_empty = '1' then --yes! rx_rd_done <= '1'; end if; elsif rx_rd_empty = '1' and m_write_s = '0' then --nothing left in the fifo and we don't try to do anything -> done! rx_rd_done <= '1'; end if; end case; end if; end if; end process; end master_handler;
------------------------------------------------------------------------------- -- -- (c) B&R, 2011 -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- -- 2. Redistributions in binary form must reproduce the above copyright -- notice, this list of conditions and the following disclaimer in the -- documentation and/or other materials provided with the distribution. -- -- 3. Neither the name of B&R nor the names of its -- contributors may be used to endorse or promote products derived -- from this software without prior written permission. For written -- permission, please contact office@br-automation.com -- -- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS -- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT -- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS -- FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, -- INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, -- BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; -- LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER -- CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT -- LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN -- ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE -- POSSIBILITY OF SUCH DAMAGE. -- ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_arith.all; use ieee.std_logic_unsigned.all; entity master_handler is generic( dma_highadr_g : integer := 31; gen_tx_fifo_g : boolean := true; tx_fifo_word_size_log2_g : natural := 5; gen_rx_fifo_g : boolean := true; rx_fifo_word_size_log2_g : natural := 5; m_burstcount_width_g : integer := 4; m_rx_burst_size_g : integer := 16; m_tx_burst_size_g : integer := 16; m_burst_wr_const_g : boolean := true; fifo_data_width_g : integer := 16 ); port( m_clk : in std_logic; rst : in std_logic; mac_tx_off : in std_logic; mac_rx_off : in std_logic; tx_wr_clk : in std_logic; tx_wr_empty : in std_logic; tx_wr_full : in std_logic; rx_rd_clk : in std_logic; rx_rd_empty : in std_logic; rx_rd_full : in std_logic; tx_wr_usedw : in std_logic_vector(tx_fifo_word_size_log2_g-1 downto 0); rx_rd_usedw : in std_logic_vector(rx_fifo_word_size_log2_g-1 downto 0); tx_aclr : out std_logic; tx_wr_req : out std_logic; rx_rd_req : out std_logic; m_waitrequest : in std_logic; m_readdatavalid : in std_logic; m_write : out std_logic; m_read : out std_logic; m_address : out std_logic_vector(dma_highadr_g downto 0); m_byteenable : out std_logic_vector(fifo_data_width_g/8-1 downto 0); m_burstcount : out std_logic_vector(m_burstcount_width_g-1 downto 0); m_burstcounter : out std_logic_vector(m_burstcount_width_g-1 downto 0); dma_addr_in : in std_logic_vector(dma_highadr_g downto 1); dma_len_rd : in std_logic_vector(11 downto 0); dma_new_addr_wr : in std_logic; dma_new_addr_rd : in std_logic; dma_new_len_rd : in std_logic ); end master_handler; architecture master_handler of master_handler is --clock signal signal clk : std_logic; --constants constant tx_burst_size_c : integer := m_tx_burst_size_g; --(2(m_burstcount_width_g-1)); constant rx_burst_size_c : integer := m_rx_burst_size_g; --(2(m_burstcount_width_g-1)); ---used to trigger rx/tx data transfers depending on fill level and burst size constant tx_fifo_limit_c : integer := 2**tx_fifo_word_size_log2_g - tx_burst_size_c - 1; --fifo_size - burst size - 1 constant rx_fifo_limit_c : integer := rx_burst_size_c + 1; --burst size --fsm type transfer_t is (idle, run, finish); signal tx_fsm, tx_fsm_next, rx_fsm, rx_fsm_next : transfer_t := idle; --transfer signals signal m_burstcount_s, m_burstcount_latch : std_logic_vector(m_burstcount'range); signal m_address_latch : std_logic_vector(m_address'range); signal m_write_s, m_read_s : std_logic; signal rx_first_read_done, rx_rd_done : std_logic; --fifo signals signal arst : std_logic; signal tx_fifo_limit, rx_fifo_limit : std_logic; signal tx_wr_req_s, rx_rd_req_s, rx_first_rd_req : std_logic; --generate addresses signal tx_cnt, tx_cnt_next : std_logic_vector(m_address'range); signal rx_cnt, rx_cnt_next : std_logic_vector(m_address'range); --handle tx read transfer signal tx_rd_cnt, tx_rd_cnt_next : std_logic_vector(dma_len_rd'range); signal dma_len_rd_s : std_logic_vector(dma_len_rd'range); begin --m_clk, rx_rd_clk and tx_wr_clk are the same! clk <= m_clk; --to ease typing tx_aclr <= rst or arst; --fifo limit is set to '1' if the fill level is equal/above the limit tx_fifo_limit <= '1' when tx_wr_usedw >= conv_std_logic_vector(tx_fifo_limit_c, tx_wr_usedw'length) else '0'; rx_fifo_limit <= '1' when rx_rd_usedw >= conv_std_logic_vector(rx_fifo_limit_c, rx_rd_usedw'length) else '0'; process(clk, rst) begin if rst = '1' then if gen_rx_fifo_g then rx_fsm <= idle; end if; if gen_tx_fifo_g then tx_fsm <= idle; end if; elsif clk = '1' and clk'event then if gen_rx_fifo_g then rx_fsm <= rx_fsm_next; end if; if gen_tx_fifo_g then tx_fsm <= tx_fsm_next; end if; end if; end process; tx_fsm_next <= run when tx_fsm = idle and dma_new_addr_rd = '1' else finish when tx_fsm = run and mac_tx_off = '1' else idle when tx_fsm = finish and tx_wr_empty = '1' else --stay finish as long as tx fifo is filled tx_fsm; rx_fsm_next <= run when rx_fsm = idle and dma_new_addr_wr = '1' else finish when rx_fsm = run and mac_rx_off = '1' else idle when rx_fsm = finish and rx_rd_done = '1' else --stay finish as long the transfer process is not done rx_fsm; m_burstcount <= m_burstcount_latch when m_write_s = '1' and m_burst_wr_const_g else m_burstcount_s; m_burstcounter <= m_burstcount_s; --output current burst counter value m_write <= m_write_s; m_read <= m_read_s; --generate address m_address <= m_address_latch when m_write_s = '1' and m_burst_wr_const_g else rx_cnt when m_write_s = '1' and not m_burst_wr_const_g else tx_cnt; process(clk, rst) begin if rst = '1' then if gen_tx_fifo_g then tx_cnt <= (others => '0'); tx_rd_cnt <= (others => '0'); end if; if gen_rx_fifo_g then rx_cnt <= (others => '0'); end if; elsif clk = '1' and clk'event then if gen_tx_fifo_g then tx_cnt <= tx_cnt_next; tx_rd_cnt <= tx_rd_cnt_next; end if; if gen_rx_fifo_g then rx_cnt <= rx_cnt_next; end if; end if; end process; dma_len_rd_s <= dma_len_rd + 1 when fifo_data_width_g = 16 else dma_len_rd + 3 when fifo_data_width_g = 32 else dma_len_rd; tx_rd_cnt_next <= (others => '0') when gen_tx_fifo_g = false else '0' & dma_len_rd_s(dma_len_rd_s'left downto 1) when dma_new_len_rd = '1' and fifo_data_width_g = 16 else "00" & dma_len_rd_s(dma_len_rd_s'left downto 2) when dma_new_len_rd = '1' and fifo_data_width_g = 32 else tx_rd_cnt - 1 when tx_wr_req_s = '1' and tx_rd_cnt /= 0 else tx_rd_cnt; tx_cnt_next <= (others => '0') when gen_tx_fifo_g = false else tx_cnt + fifo_data_width_g/8 when tx_wr_req_s = '1' else dma_addr_in & '0' when dma_new_addr_rd = '1' else tx_cnt; rx_cnt_next <= (others => '0') when gen_rx_fifo_g = false else rx_cnt + fifo_data_width_g/8 when rx_rd_req_s = '1' else dma_addr_in & '0' when dma_new_addr_wr = '1' else rx_cnt; m_byteenable <= (others => '1'); tx_wr_req_s <= m_readdatavalid; tx_wr_req <= tx_wr_req_s; rx_rd_req_s <= m_write_s and not m_waitrequest; rx_rd_req <= rx_rd_req_s or rx_first_rd_req; process(clk, rst) --arbitration of rx and tx requests is done by process variable (tx overrules rx) variable tx_is_the_owner_v : std_logic; begin if rst = '1' then tx_is_the_owner_v := '0'; if gen_tx_fifo_g then arst <= '0'; m_read_s <= '0'; end if; if gen_rx_fifo_g then rx_first_rd_req <= '0'; m_write_s <= '0'; rx_first_read_done <= '0'; rx_rd_done <= '0'; end if; m_burstcount_s <= (others => '0'); if m_burst_wr_const_g then m_burstcount_latch <= (others => '0'); m_address_latch <= (others => '0'); end if; elsif clk = '1' and clk'event then if gen_tx_fifo_g then arst <= '0'; if m_readdatavalid = '1' then --read was successful -> write to tx fifo m_burstcount_s <= m_burstcount_s - 1; end if; case tx_fsm is when idle => --no transfer in progress when run => --read transfer base address is ready if tx_fifo_limit = '0' and m_read_s = '0' and m_write_s = '0' and m_burstcount_s = 0 and tx_rd_cnt /= 0 then --tx fifo is below defined limit -> there is place for at least one burst! m_read_s <= '1'; if tx_rd_cnt > conv_std_logic_vector(tx_burst_size_c, tx_rd_cnt'length) then m_burstcount_s <= conv_std_logic_vector(tx_burst_size_c, m_burstcount_s'length); else m_burstcount_s <= EXT(tx_rd_cnt, m_burstcount_s'length); end if; --a tx transfer is necessary and overrules necessary rx transfers... tx_is_the_owner_v := '1'; elsif m_read_s = '1' and m_waitrequest = '0' then --request is confirmed -> deassert request m_read_s <= '0'; --so, we are done with tx requesting tx_is_the_owner_v := '0'; end if; when finish => --transfer done, MAC has its data... ---is there still a request? if m_read_s = '1' and m_waitrequest = '0' then --last request confirmed -> deassert request m_read_s <= '0'; tx_is_the_owner_v := '0'; ---is the burst transfer done? elsif m_read_s = '0' and m_burstcount_s = 0 then --burst transfer done, clear fifo arst <= '1'; end if; end case; end if; if gen_rx_fifo_g then rx_first_rd_req <= '0'; rx_rd_done <= '0'; if m_write_s = '1' and m_waitrequest = '0' then --write was successful m_burstcount_s <= m_burstcount_s - 1; end if; case rx_fsm is when idle => --no transfer in progress rx_first_read_done <= '0'; when run => --a not empty fifo has to be read once, to get the very first pattern if rx_first_read_done = '0' and rx_rd_empty = '0' then rx_first_read_done <= '1'; rx_first_rd_req <= '1'; end if; --write transfer base address is ready if rx_fifo_limit = '1' and m_read_s = '0' and m_write_s = '0' and tx_is_the_owner_v = '0' and m_burstcount_s = 0 and rx_first_read_done = '1' then --rx fifo is filled with enough data -> build burst transfer m_write_s <= '1'; m_burstcount_s <= conv_std_logic_vector(rx_burst_size_c, m_burstcount_s'length); if m_burst_wr_const_g then m_burstcount_latch <= conv_std_logic_vector(rx_burst_size_c, m_burstcount_latch'length); m_address_latch <= rx_cnt; end if; elsif m_write_s = '1' and m_waitrequest = '0' and m_burstcount_s = 1 then --last transfer is done -> deassert write qualifiers m_write_s <= '0'; end if; when finish => --MAC is finished with RX, transfer rest of fifo ---note: The last word (part of crc32) is not transferred! if rx_rd_empty = '0' and m_read_s = '0' and m_write_s = '0' and tx_is_the_owner_v = '0' and m_burstcount_s = 0 then --rx fifo has some data left m_write_s <= '1'; --verify how many patterns are left in the fifo if rx_rd_usedw < conv_std_logic_vector(rx_burst_size_c, rx_rd_usedw'length) then --start the smaller burst write transfer m_burstcount_s <= EXT(rx_rd_usedw, m_burstcount_s'length); if m_burst_wr_const_g then m_burstcount_latch <= EXT(rx_rd_usedw, m_burstcount_latch'length); m_address_latch <= rx_cnt; end if; --workaround: fifo is not empty but word level is zero => set to one if rx_rd_usedw = 0 then m_burstcount_s <= conv_std_logic_vector(1, m_burstcount_s'length); m_burstcount_latch <= conv_std_logic_vector(1, m_burstcount_latch'length); end if; else --start the maximum burst write transfer m_burstcount_s <= conv_std_logic_vector(rx_burst_size_c, m_burstcount_s'length); if m_burst_wr_const_g then m_burstcount_latch <= conv_std_logic_vector(rx_burst_size_c, m_burstcount_latch'length); m_address_latch <= rx_cnt; end if; end if; elsif m_write_s = '1' and m_waitrequest = '0' and m_burstcount_s = 1 then --transfer is done -> deassert write qualifiers m_write_s <= '0'; --completely done?! if rx_rd_empty = '1' then --yes! rx_rd_done <= '1'; end if; elsif rx_rd_empty = '1' and m_write_s = '0' then --nothing left in the fifo and we don't try to do anything -> done! rx_rd_done <= '1'; end if; end case; end if; end if; end process; end master_handler;
------------------------------------------------------------------------------- -- -- (c) B&R, 2011 -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- -- 2. Redistributions in binary form must reproduce the above copyright -- notice, this list of conditions and the following disclaimer in the -- documentation and/or other materials provided with the distribution. -- -- 3. Neither the name of B&R nor the names of its -- contributors may be used to endorse or promote products derived -- from this software without prior written permission. For written -- permission, please contact office@br-automation.com -- -- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS -- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT -- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS -- FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, -- INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, -- BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; -- LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER -- CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT -- LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN -- ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE -- POSSIBILITY OF SUCH DAMAGE. -- ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_arith.all; use ieee.std_logic_unsigned.all; entity master_handler is generic( dma_highadr_g : integer := 31; gen_tx_fifo_g : boolean := true; tx_fifo_word_size_log2_g : natural := 5; gen_rx_fifo_g : boolean := true; rx_fifo_word_size_log2_g : natural := 5; m_burstcount_width_g : integer := 4; m_rx_burst_size_g : integer := 16; m_tx_burst_size_g : integer := 16; m_burst_wr_const_g : boolean := true; fifo_data_width_g : integer := 16 ); port( m_clk : in std_logic; rst : in std_logic; mac_tx_off : in std_logic; mac_rx_off : in std_logic; tx_wr_clk : in std_logic; tx_wr_empty : in std_logic; tx_wr_full : in std_logic; rx_rd_clk : in std_logic; rx_rd_empty : in std_logic; rx_rd_full : in std_logic; tx_wr_usedw : in std_logic_vector(tx_fifo_word_size_log2_g-1 downto 0); rx_rd_usedw : in std_logic_vector(rx_fifo_word_size_log2_g-1 downto 0); tx_aclr : out std_logic; tx_wr_req : out std_logic; rx_rd_req : out std_logic; m_waitrequest : in std_logic; m_readdatavalid : in std_logic; m_write : out std_logic; m_read : out std_logic; m_address : out std_logic_vector(dma_highadr_g downto 0); m_byteenable : out std_logic_vector(fifo_data_width_g/8-1 downto 0); m_burstcount : out std_logic_vector(m_burstcount_width_g-1 downto 0); m_burstcounter : out std_logic_vector(m_burstcount_width_g-1 downto 0); dma_addr_in : in std_logic_vector(dma_highadr_g downto 1); dma_len_rd : in std_logic_vector(11 downto 0); dma_new_addr_wr : in std_logic; dma_new_addr_rd : in std_logic; dma_new_len_rd : in std_logic ); end master_handler; architecture master_handler of master_handler is --clock signal signal clk : std_logic; --constants constant tx_burst_size_c : integer := m_tx_burst_size_g; --(2(m_burstcount_width_g-1)); constant rx_burst_size_c : integer := m_rx_burst_size_g; --(2(m_burstcount_width_g-1)); ---used to trigger rx/tx data transfers depending on fill level and burst size constant tx_fifo_limit_c : integer := 2**tx_fifo_word_size_log2_g - tx_burst_size_c - 1; --fifo_size - burst size - 1 constant rx_fifo_limit_c : integer := rx_burst_size_c + 1; --burst size --fsm type transfer_t is (idle, run, finish); signal tx_fsm, tx_fsm_next, rx_fsm, rx_fsm_next : transfer_t := idle; --transfer signals signal m_burstcount_s, m_burstcount_latch : std_logic_vector(m_burstcount'range); signal m_address_latch : std_logic_vector(m_address'range); signal m_write_s, m_read_s : std_logic; signal rx_first_read_done, rx_rd_done : std_logic; --fifo signals signal arst : std_logic; signal tx_fifo_limit, rx_fifo_limit : std_logic; signal tx_wr_req_s, rx_rd_req_s, rx_first_rd_req : std_logic; --generate addresses signal tx_cnt, tx_cnt_next : std_logic_vector(m_address'range); signal rx_cnt, rx_cnt_next : std_logic_vector(m_address'range); --handle tx read transfer signal tx_rd_cnt, tx_rd_cnt_next : std_logic_vector(dma_len_rd'range); signal dma_len_rd_s : std_logic_vector(dma_len_rd'range); begin --m_clk, rx_rd_clk and tx_wr_clk are the same! clk <= m_clk; --to ease typing tx_aclr <= rst or arst; --fifo limit is set to '1' if the fill level is equal/above the limit tx_fifo_limit <= '1' when tx_wr_usedw >= conv_std_logic_vector(tx_fifo_limit_c, tx_wr_usedw'length) else '0'; rx_fifo_limit <= '1' when rx_rd_usedw >= conv_std_logic_vector(rx_fifo_limit_c, rx_rd_usedw'length) else '0'; process(clk, rst) begin if rst = '1' then if gen_rx_fifo_g then rx_fsm <= idle; end if; if gen_tx_fifo_g then tx_fsm <= idle; end if; elsif clk = '1' and clk'event then if gen_rx_fifo_g then rx_fsm <= rx_fsm_next; end if; if gen_tx_fifo_g then tx_fsm <= tx_fsm_next; end if; end if; end process; tx_fsm_next <= run when tx_fsm = idle and dma_new_addr_rd = '1' else finish when tx_fsm = run and mac_tx_off = '1' else idle when tx_fsm = finish and tx_wr_empty = '1' else --stay finish as long as tx fifo is filled tx_fsm; rx_fsm_next <= run when rx_fsm = idle and dma_new_addr_wr = '1' else finish when rx_fsm = run and mac_rx_off = '1' else idle when rx_fsm = finish and rx_rd_done = '1' else --stay finish as long the transfer process is not done rx_fsm; m_burstcount <= m_burstcount_latch when m_write_s = '1' and m_burst_wr_const_g else m_burstcount_s; m_burstcounter <= m_burstcount_s; --output current burst counter value m_write <= m_write_s; m_read <= m_read_s; --generate address m_address <= m_address_latch when m_write_s = '1' and m_burst_wr_const_g else rx_cnt when m_write_s = '1' and not m_burst_wr_const_g else tx_cnt; process(clk, rst) begin if rst = '1' then if gen_tx_fifo_g then tx_cnt <= (others => '0'); tx_rd_cnt <= (others => '0'); end if; if gen_rx_fifo_g then rx_cnt <= (others => '0'); end if; elsif clk = '1' and clk'event then if gen_tx_fifo_g then tx_cnt <= tx_cnt_next; tx_rd_cnt <= tx_rd_cnt_next; end if; if gen_rx_fifo_g then rx_cnt <= rx_cnt_next; end if; end if; end process; dma_len_rd_s <= dma_len_rd + 1 when fifo_data_width_g = 16 else dma_len_rd + 3 when fifo_data_width_g = 32 else dma_len_rd; tx_rd_cnt_next <= (others => '0') when gen_tx_fifo_g = false else '0' & dma_len_rd_s(dma_len_rd_s'left downto 1) when dma_new_len_rd = '1' and fifo_data_width_g = 16 else "00" & dma_len_rd_s(dma_len_rd_s'left downto 2) when dma_new_len_rd = '1' and fifo_data_width_g = 32 else tx_rd_cnt - 1 when tx_wr_req_s = '1' and tx_rd_cnt /= 0 else tx_rd_cnt; tx_cnt_next <= (others => '0') when gen_tx_fifo_g = false else tx_cnt + fifo_data_width_g/8 when tx_wr_req_s = '1' else dma_addr_in & '0' when dma_new_addr_rd = '1' else tx_cnt; rx_cnt_next <= (others => '0') when gen_rx_fifo_g = false else rx_cnt + fifo_data_width_g/8 when rx_rd_req_s = '1' else dma_addr_in & '0' when dma_new_addr_wr = '1' else rx_cnt; m_byteenable <= (others => '1'); tx_wr_req_s <= m_readdatavalid; tx_wr_req <= tx_wr_req_s; rx_rd_req_s <= m_write_s and not m_waitrequest; rx_rd_req <= rx_rd_req_s or rx_first_rd_req; process(clk, rst) --arbitration of rx and tx requests is done by process variable (tx overrules rx) variable tx_is_the_owner_v : std_logic; begin if rst = '1' then tx_is_the_owner_v := '0'; if gen_tx_fifo_g then arst <= '0'; m_read_s <= '0'; end if; if gen_rx_fifo_g then rx_first_rd_req <= '0'; m_write_s <= '0'; rx_first_read_done <= '0'; rx_rd_done <= '0'; end if; m_burstcount_s <= (others => '0'); if m_burst_wr_const_g then m_burstcount_latch <= (others => '0'); m_address_latch <= (others => '0'); end if; elsif clk = '1' and clk'event then if gen_tx_fifo_g then arst <= '0'; if m_readdatavalid = '1' then --read was successful -> write to tx fifo m_burstcount_s <= m_burstcount_s - 1; end if; case tx_fsm is when idle => --no transfer in progress when run => --read transfer base address is ready if tx_fifo_limit = '0' and m_read_s = '0' and m_write_s = '0' and m_burstcount_s = 0 and tx_rd_cnt /= 0 then --tx fifo is below defined limit -> there is place for at least one burst! m_read_s <= '1'; if tx_rd_cnt > conv_std_logic_vector(tx_burst_size_c, tx_rd_cnt'length) then m_burstcount_s <= conv_std_logic_vector(tx_burst_size_c, m_burstcount_s'length); else m_burstcount_s <= EXT(tx_rd_cnt, m_burstcount_s'length); end if; --a tx transfer is necessary and overrules necessary rx transfers... tx_is_the_owner_v := '1'; elsif m_read_s = '1' and m_waitrequest = '0' then --request is confirmed -> deassert request m_read_s <= '0'; --so, we are done with tx requesting tx_is_the_owner_v := '0'; end if; when finish => --transfer done, MAC has its data... ---is there still a request? if m_read_s = '1' and m_waitrequest = '0' then --last request confirmed -> deassert request m_read_s <= '0'; tx_is_the_owner_v := '0'; ---is the burst transfer done? elsif m_read_s = '0' and m_burstcount_s = 0 then --burst transfer done, clear fifo arst <= '1'; end if; end case; end if; if gen_rx_fifo_g then rx_first_rd_req <= '0'; rx_rd_done <= '0'; if m_write_s = '1' and m_waitrequest = '0' then --write was successful m_burstcount_s <= m_burstcount_s - 1; end if; case rx_fsm is when idle => --no transfer in progress rx_first_read_done <= '0'; when run => --a not empty fifo has to be read once, to get the very first pattern if rx_first_read_done = '0' and rx_rd_empty = '0' then rx_first_read_done <= '1'; rx_first_rd_req <= '1'; end if; --write transfer base address is ready if rx_fifo_limit = '1' and m_read_s = '0' and m_write_s = '0' and tx_is_the_owner_v = '0' and m_burstcount_s = 0 and rx_first_read_done = '1' then --rx fifo is filled with enough data -> build burst transfer m_write_s <= '1'; m_burstcount_s <= conv_std_logic_vector(rx_burst_size_c, m_burstcount_s'length); if m_burst_wr_const_g then m_burstcount_latch <= conv_std_logic_vector(rx_burst_size_c, m_burstcount_latch'length); m_address_latch <= rx_cnt; end if; elsif m_write_s = '1' and m_waitrequest = '0' and m_burstcount_s = 1 then --last transfer is done -> deassert write qualifiers m_write_s <= '0'; end if; when finish => --MAC is finished with RX, transfer rest of fifo ---note: The last word (part of crc32) is not transferred! if rx_rd_empty = '0' and m_read_s = '0' and m_write_s = '0' and tx_is_the_owner_v = '0' and m_burstcount_s = 0 then --rx fifo has some data left m_write_s <= '1'; --verify how many patterns are left in the fifo if rx_rd_usedw < conv_std_logic_vector(rx_burst_size_c, rx_rd_usedw'length) then --start the smaller burst write transfer m_burstcount_s <= EXT(rx_rd_usedw, m_burstcount_s'length); if m_burst_wr_const_g then m_burstcount_latch <= EXT(rx_rd_usedw, m_burstcount_latch'length); m_address_latch <= rx_cnt; end if; --workaround: fifo is not empty but word level is zero => set to one if rx_rd_usedw = 0 then m_burstcount_s <= conv_std_logic_vector(1, m_burstcount_s'length); m_burstcount_latch <= conv_std_logic_vector(1, m_burstcount_latch'length); end if; else --start the maximum burst write transfer m_burstcount_s <= conv_std_logic_vector(rx_burst_size_c, m_burstcount_s'length); if m_burst_wr_const_g then m_burstcount_latch <= conv_std_logic_vector(rx_burst_size_c, m_burstcount_latch'length); m_address_latch <= rx_cnt; end if; end if; elsif m_write_s = '1' and m_waitrequest = '0' and m_burstcount_s = 1 then --transfer is done -> deassert write qualifiers m_write_s <= '0'; --completely done?! if rx_rd_empty = '1' then --yes! rx_rd_done <= '1'; end if; elsif rx_rd_empty = '1' and m_write_s = '0' then --nothing left in the fifo and we don't try to do anything -> done! rx_rd_done <= '1'; end if; end case; end if; end if; end process; end master_handler;
library IEEE; use IEEE.STD_LOGIC_1164.ALL; use std.textio.all; use IEEE.STD_LOGIC_TEXTIO.ALL; use work.tb_package.all; entity tb_master is Port ( done_i : in std_logic_vector(gen_number downto 0); command_o : out command_rec ); end tb_master; architecture Behavioral of tb_master is begin p_main: process file stimuli_file : text is in gen_filename&"/stimulate.txt"; variable v_line : line; variable blank : string(1 to 1); variable char : string(1 to 1); variable n : integer:=1; variable v_trans : bit:='0'; variable v_gen_number : integer:=0; variable v_event : boolean; variable generator : string (1 to 14); variable v_command : string (1 to 10); variable v_value1 : string (1 to 8); variable v_value2 : string (1 to 8); variable v_value3 : string (1 to 8); variable v_value4 : string (1 to 8); variable v_value5 : string (1 to 8); variable v_value6 : string (1 to 8); variable master_command : string (1 to 4); variable help_done : boolean := false; variable compare_help : std_logic_vector(gen_number downto 0); variable done_help : std_logic_vector(gen_number downto 0); variable v_time : time; variable time_value : string (1 to 8); begin while true loop while v_event = false and (not endfile(stimuli_file))loop char := " "; done_help := (others =>'U'); compare_help :=(others=>'0'); readline(stimuli_file, v_line); while char /= "(" and char/="$" and char/="-" loop read(v_line,char); generator(n to n) := char; n:=n+1; end loop; n:=1; if generator(1 to 1)="$" then read(v_line,master_command); if master_command(1 to 4)="quit" then assert false report"Simulation Complete (This is not a failure)" severity failure; elsif master_command(1 to 4)="wait" then read(v_line,blank); n:=1; while char /= "s" loop read(v_line,char); time_value(n to n) := char; n:=n+1; end loop; v_time:=string_to_time(time_value(1 to n-1)); wait for v_time; v_event:= false; n:=1; end if; elsif generator(1 to 1)="-" then v_event:= false; else v_event:=true; read(v_line,v_command); read(v_line,blank); read(v_line,v_value1); read(v_line,blank); read(v_line,v_value2); read(v_line,blank); read(v_line,v_value3); read(v_line,blank); read(v_line,v_value4); read(v_line,blank); read(v_line,v_value5); read(v_line,blank); read(v_line,v_value6); read(v_line,blank); end if; if v_event then if generator(1 to 5) = "reset" then v_gen_number:=0; elsif generator(1 to 5) ="clock" then v_gen_number:=1; elsif generator(1 to 6) ="enable" then v_gen_number:=5; elsif generator(1 to 6) ="bit_in" then v_gen_number:=6; end if; end if; if v_event then v_trans := not v_trans; command_o.gen_number <= v_gen_number; command_o.mnemonic <= v_command; command_o.value1 <= v_value1; command_o.value2 <= v_value2; command_o.value3 <= v_value3; command_o.value4 <= v_value4; command_o.value5 <= v_value5; command_o.value6 <= v_value6; command_o.trans <= v_trans; end if; end loop; if done_i=done_help then wait for 1 ps; wait until (done_i'EVENT and done_i(gen_number downto 0)=compare_help) ; else wait until (done_i'EVENT and done_i(gen_number downto 0)=compare_help) ; end if; v_event:=false; end loop; end process p_main; end Behavioral;
--! @file dpRam-bhv-a.vhd -- --! @brief Dual Port Ram Register Transfer Level Architecture -- --! @details This is the DPRAM intended for synthesis on Xilinx Spartan 6 only. --! Timing as follows [clk-cycles]: write=0 / read=1 -- ------------------------------------------------------------------------------- -- Architecture : rtl ------------------------------------------------------------------------------- -- -- (c) B&R, 2013 -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- -- 2. Redistributions in binary form must reproduce the above copyright -- notice, this list of conditions and the following disclaimer in the -- documentation and/or other materials provided with the distribution. -- -- 3. Neither the name of B&R nor the names of its -- contributors may be used to endorse or promote products derived -- from this software without prior written permission. For written -- permission, please contact office@br-automation.com -- -- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS -- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT -- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS -- FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, -- INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, -- BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; -- LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER -- CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT -- LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN -- ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE -- POSSIBILITY OF SUCH DAMAGE. -- ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; library work; --! use global library use work.global.all; architecture rtl of dpRam is --! Width of a byte constant cByte : natural := 8; --! Address width (used to generate size depending on address width) constant cAddrWidth : natural := iAddress_A'length; --! RAM size constant cRamSize : natural := 2*cAddrWidth; --! Type for data port subtype tDataPort is std_logic_vector(gWordWidth-1 downto 0); --! RAM type with given size type tRam is array (cRamSize-1 downto 0) of tDataPort; --! Shared variable to model and synthesize a DPR shared variable vDpram : tRam := (others => (others => cInactivated)); --! Port A readport signal readdataA : tDataPort; --! Port B readport signal readdataB : tDataPort; begin assert (gInitFile = "UNUSED") report "Memory initialization is not supported in this architecture!" severity warning; -- assign readdata to ports oReaddata_A <= readdataA; oReaddata_B <= readdataB; --! This process describes port A of the DPRAM. The write process considers --! iWriteEnable_A and iByteenable_A. The read process is done with every --! rising iClk_A edge. PORTA : process(iClk_A) begin if rising_edge(iClk_A) then if iEnable_A = cActivated then if iWriteEnable_A = cActivated then for i in iByteenable_A'range loop if iByteenable_A(i) = cActivated then -- write byte to DPRAM vDpram(to_integer(unsigned(iAddress_A)))( (i+1)cByte-1 downto icByte ) := iWritedata_A( (i+1)cByte-1 downto icByte ); end if; --byteenable end loop; end if; --writeenable -- read word from DPRAM readdataA <= vDpram(to_integer(unsigned(iAddress_A))); end if; --enable end if; end process PORTA; --! This process describes port B of the DPRAM. The write process considers --! iWriteEnable_B and iByteenable_B. The read process is done with every --! rising iClk_B edge. PORTB : process(iClk_B) begin if rising_edge(iClk_B) then if iEnable_B = cActivated then if iWriteEnable_B = cActivated then for i in iByteenable_B'range loop if iByteenable_B(i) = cActivated then -- write byte to DPRAM vDpram(to_integer(unsigned(iAddress_B)))( (i+1)cByte-1 downto icByte ) := iWritedata_B( (i+1)cByte-1 downto i*cByte ); end if; --byteenable end loop; end if; --writeenable -- read word from DPRAM readdataB <= vDpram(to_integer(unsigned(iAddress_B))); end if; --enable end if; end process PORTB; end architecture rtl;
-- Copyright (C) 2001 Bill Billowitch. -- Some of the work to develop this test suite was done with Air Force -- support. The Air Force and Bill Billowitch assume no -- responsibilities for this software. -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -- --------------------------------------------------------------------- -- -- $Id: tc1014.vhd,v 1.2 2001-10-26 16:30:05 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c06s03b00x00p10n01i01014ent IS END c06s03b00x00p10n01i01014ent; ARCHITECTURE c06s03b00x00p10n01i01014arch OF c06s03b00x00p10n01i01014ent IS signal p : bit := '0'; signal q : bit := '1'; BEGIN TESTING: PROCESS(c06s03b00x00p10n01i01014arch.p,c06s03b00x00p10n01i01014ent.q) BEGIN c06s03b00x00p10n01i01014ent.q <= c06s03b00x00p10n01i01014arch.p; assert FALSE report "***FAILED TEST: c06s03b00x00p10n01i01014 - Declaration of suffix must occur within the construct denoted by the prefix." severity ERROR; END PROCESS TESTING; END c06s03b00x00p10n01i01014arch;
-- Copyright (C) 2001 Bill Billowitch. -- Some of the work to develop this test suite was done with Air Force -- support. The Air Force and Bill Billowitch assume no -- responsibilities for this software. -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -- --------------------------------------------------------------------- -- -- $Id: tc1014.vhd,v 1.2 2001-10-26 16:30:05 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c06s03b00x00p10n01i01014ent IS END c06s03b00x00p10n01i01014ent; ARCHITECTURE c06s03b00x00p10n01i01014arch OF c06s03b00x00p10n01i01014ent IS signal p : bit := '0'; signal q : bit := '1'; BEGIN TESTING: PROCESS(c06s03b00x00p10n01i01014arch.p,c06s03b00x00p10n01i01014ent.q) BEGIN c06s03b00x00p10n01i01014ent.q <= c06s03b00x00p10n01i01014arch.p; assert FALSE report "***FAILED TEST: c06s03b00x00p10n01i01014 - Declaration of suffix must occur within the construct denoted by the prefix." severity ERROR; END PROCESS TESTING; END c06s03b00x00p10n01i01014arch;
-- Copyright (C) 2001 Bill Billowitch. -- Some of the work to develop this test suite was done with Air Force -- support. The Air Force and Bill Billowitch assume no -- responsibilities for this software. -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -- --------------------------------------------------------------------- -- -- $Id: tc1014.vhd,v 1.2 2001-10-26 16:30:05 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c06s03b00x00p10n01i01014ent IS END c06s03b00x00p10n01i01014ent; ARCHITECTURE c06s03b00x00p10n01i01014arch OF c06s03b00x00p10n01i01014ent IS signal p : bit := '0'; signal q : bit := '1'; BEGIN TESTING: PROCESS(c06s03b00x00p10n01i01014arch.p,c06s03b00x00p10n01i01014ent.q) BEGIN c06s03b00x00p10n01i01014ent.q <= c06s03b00x00p10n01i01014arch.p; assert FALSE report "***FAILED TEST: c06s03b00x00p10n01i01014 - Declaration of suffix must occur within the construct denoted by the prefix." severity ERROR; END PROCESS TESTING; END c06s03b00x00p10n01i01014arch;
-- ------------------------------------------------------------- -- -- Purpose: This package defines supplemental types, subtypes, -- constants, and functions -- -- Nov 2008 --> 64-bit -- library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.STD_LOGIC_ARITH.ALL; package abb64Package is -- Implemet a design with only one FIFO and only one BRAM Module: For Loopback Test!! constant USE_LOOPBACK_TEST : boolean := false; -- Declare constants -- ---------------------------------------------------------------------- -- Address definitions -- The 2 MSB's are for Addressing, i.e. -- -- 0x0000 : Design ID -- 0x0008 : Interrupt status -- 0x0010 : Interrupt enable -- 0x0018 : General error -- 0x0020 : General status -- 0x0028 : General control -- 0x002C ~ 0x004C: DMA upstream registers -- 0x0050 ~ 0x0070: DMA upstream registers -- 0x0074 : MRd channel control -- 0x0078 : CplD channel control -- 0x007C : ICAP input/output -- 0x0080 ~ 0x008C: Interrupt Generator (IG) registers -- 0x4010 : TxFIFO write port -- 0x4018 : W - TxFIFO Reset -- : R - TxFIFO Vacancy status -- 0x4020 : RxFIFO read port -- 0x4028 : W - RxFIFO Reset -- : R - RxFIFO Occupancy status -- 0x8000 ~ 0xBFFF: BRAM space (BAR1) -- Others : Reserved ------------------------------------------------------------------------ -- Global Constants -- --- Number of Lanes for PCIe, 1, 4 or 8 Constant C_NUM_PCIE_LANES : integer := 1; --- Data bus width Constant C_DBUS_WIDTH : integer := 64; --- Event Buffer: FIFO Data Count width Constant C_FIFO_DC_WIDTH : integer := 26; --- Small BRAM FIFO for emulation Constant C_EMU_FIFO_DC_WIDTH : integer := 15; --S 14 x fifo originale ; 15 x fifo grande!! --- Address width for endpoint device/peripheral -- Constant C_EP_AWIDTH : integer range 10 to 30 := 16; --- Buffer width from the PCIe Core Constant C_TBUF_AWIDTH : integer := 6; -- 4; -- 5; --- Width for Tx output Arbitration Constant C_ARBITRATE_WIDTH : integer := 4; --- Number of BAR spaces Constant CINT_BAR_SPACES : integer := 4; --- Max BAR number, 7 Constant C_BAR_NUMBER : integer := 7; --- Encoded BAR number takes 3 bits to represent 0~6. 7 means invalid or don't care Constant C_ENCODE_BAR_NUMBER : integer := 3; --- Number of Channels, currently 4: Interrupt, PIO MRd, upstream DMA, downstream DMA Constant C_CHANNEL_NUMBER : integer := 4; --- Data width of the channel buffers (FIFOs) Constant C_CHANNEL_BUF_WIDTH : integer := 128; --- Higher 4 bits are for tag decoding Constant C_TAG_DECODE_BITS : integer := 4; --- DDR SDRAM bank address pin number Constant C_DDR_BANK_AWIDTH : integer := 2; --- DDR SDRAM address pin number Constant C_DDR_AWIDTH : integer := 13; --- DDR SDRAM data pin number Constant C_DDR_DWIDTH : integer := 16; --- DDR SDRAM module address width, dependent on total DDR memory capacity. -- 128 Mb= 16MB : 24 -- 256 Mb= 32MB : 25 -- 512 Mb= 64MB : 26 -- 1024 Mb= 128MB : 27 -- 2048 Mb= 256MB : 28 Constant C_DDR_IAWIDTH : integer range 24 to 28 := 26; --- Block RAM address bus width. Variation requires BRAM core regeneration. Constant C_PRAM_AWIDTH : integer range 8 to 28 := 12; --- Width for Interrupt generation counter Constant C_CNT_GINT_WIDTH : integer := 30; -- --- Emulation FIFOs' address width -- Constant C_FIFO_AWIDTH : integer := 5; --- Tag RAM data bus width, 1 bit for AInc information and 3 bits for BAR number Constant C_TAGRAM_DWIDTH : integer := 36; --- Configuration command width, e.g. cfg_dcommand, cfg_lcommand. Constant C_CFG_COMMAND_DWIDTH : integer := 16; --- Tag RAM address bus width, only 6 bits (of 8) are used for MRd from DMA Write Channel Constant C_TAGRAM_AWIDTH : integer := 6; Constant C_TAG_MAP_WIDTH : integer := 64; -- 2^C_TAGRAM_AWIDTH -- TAG map are partitioned into sub-parts Constant C_SUB_TAG_MAP_WIDTH : integer := 8; --- Address_Increment bit is put in tag RAM Constant CBIT_AINC_IN_TAGRAM : integer := C_TAGRAM_DWIDTH-1; -- Bit range of BAR field in TAG ram Constant C_TAGBAR_BIT_TOP : integer := CBIT_AINC_IN_TAGRAM-1; Constant C_TAGBAR_BIT_BOT : integer := C_TAGBAR_BIT_TOP-C_ENCODE_BAR_NUMBER+1; --- Number of bits for Last DW BE and 1st DW BE in the header of a TLP Constant C_BE_WIDTH : integer := 4; --- ICAP width: 8 or 32. Constant C_ICAP_WIDTH : integer := 32; --- Feature Bits width Constant C_FEAT_BITS_WIDTH : integer := 8; --- Channel lables Constant C_CHAN_INDEX_IRPT : integer := 3; Constant C_CHAN_INDEX_MRD : integer := 2; Constant C_CHAN_INDEX_DMA_DS : integer := 1; Constant C_CHAN_INDEX_DMA_US : integer := 0; ------------------------------------------------------------------------ -- Bit ranges -- Bits range for Max_Read_Request_Size in cfg_dcommand Constant C_CFG_MRS_BIT_TOP : integer := 14; Constant C_CFG_MRS_BIT_BOT : integer := 12; -- Bits range for Max_Payload_Size in cfg_dcommand Constant C_CFG_MPS_BIT_TOP : integer := 7; Constant C_CFG_MPS_BIT_BOT : integer := 5; -- The bit in minimum Max_Read_Request_Size/Max_Payload_Size that is one -- i.e. 0x80 Bytes = 0x20 DW = "000000100000" Constant CBIT_SENSE_OF_MAXSIZE : integer := 5; -- ------------------------------------------------------------------------ -- -- Section for TLP headers' bit definition -- ( not shown in user header file) -- -- ------------------------------------------------------------------------ -- -- The bit in TLP header #0 that means whether the TLP comes with data -- Constant CBIT_TLP_HAS_PAYLOAD : integer := 30; -- -- The bit in TLP header #0 that means whether the TLP has 4-DW header -- Constant CBIT_TLP_HAS_4DW_HEAD : integer := 29; -- -- The bit in TLP header #0 that means Cpl/CplD -- Constant C_TLP_CPLD_BIT : integer := 27; -- The bit in TLP header #0 that means TLP Digest Constant C_TLP_TD_BIT : integer := 15 +32; -- The bit in TLP header #0 that means Error Poison Constant C_TLP_EP_BIT : integer := 14 +32; -- Bit range of Format field in TLP header #0 Constant C_TLP_FMT_BIT_TOP : integer := 30 +32; -- TLP has payload Constant C_TLP_FMT_BIT_BOT : integer := 29 +32; -- TLP header has 4 DW -- Bit range of Type field in TLP header #0 Constant C_TLP_TYPE_BIT_TOP : integer := 28 +32; Constant C_TLP_TYPE_BIT_BOT : integer := 24 +32; -- Bit range of TC field in TLP header #0 Constant C_TLP_TC_BIT_TOP : integer := 22 +32; Constant C_TLP_TC_BIT_BOT : integer := 20 +32; -- Bit range of Attribute field in TLP header #0 Constant C_TLP_ATTR_BIT_TOP : integer := 13 +32; Constant C_TLP_ATTR_BIT_BOT : integer := 12 +32; -- Bit range of Length field in TLP header #0 Constant C_TLP_LENG_BIT_TOP : integer := 9 +32; Constant C_TLP_LENG_BIT_BOT : integer := 0 +32; -- Bit range of Requester ID field in header #1 of non-Cpl/D TLP Constant C_TLP_REQID_BIT_TOP : integer := 31; Constant C_TLP_REQID_BIT_BOT : integer := 16; -- Bit range of Tag field in header #1 of non-Cpl/D TLP Constant C_TLP_TAG_BIT_TOP : integer := 15; Constant C_TLP_TAG_BIT_BOT : integer := 8; -- Bit range of Last BE field in TLP header #1 Constant C_TLP_LAST_BE_BIT_TOP : integer := 7; Constant C_TLP_LAST_BE_BIT_BOT : integer := 4; -- Bit range of 1st BE field in TLP header #1 Constant C_TLP_1ST_BE_BIT_TOP : integer := 3; Constant C_TLP_1ST_BE_BIT_BOT : integer := 0; -- Bit range of Completion Status field in Cpl/D TLP header #1 Constant C_CPLD_CS_BIT_TOP : integer := 15; Constant C_CPLD_CS_BIT_BOT : integer := 13; -- Bit range of Completion Byte Count field in Cpl/D TLP header #1 Constant C_CPLD_BC_BIT_TOP : integer := 11; Constant C_CPLD_BC_BIT_BOT : integer := 0; -- Bit range of Completer ID field in header#1 of Cpl/D TLP Constant C_CPLD_CPLT_ID_BIT_TOP : integer := C_TLP_REQID_BIT_TOP; Constant C_CPLD_CPLT_ID_BIT_BOT : integer := C_TLP_REQID_BIT_BOT; -- Bit range of Requester ID field in header#2 of Cpl/D TLP Constant C_CPLD_REQID_BIT_TOP : integer := 31 +32; Constant C_CPLD_REQID_BIT_BOT : integer := 16 +32; -- Bit range of Completion Tag field in Cpl/D TLP 3rd header Constant C_CPLD_TAG_BIT_TOP : integer := C_TLP_TAG_BIT_TOP +32; Constant C_CPLD_TAG_BIT_BOT : integer := C_TLP_TAG_BIT_BOT +32; -- Bit range of Completion Lower Address field in Cpl/D TLP 3rd header Constant C_CPLD_LA_BIT_TOP : integer := 6 +32; Constant C_CPLD_LA_BIT_BOT : integer := 0 +32; -- Bit range of Message Code field in Msg 2nd header Constant C_MSG_CODE_BIT_TOP : integer := 7; Constant C_MSG_CODE_BIT_BOT : integer := 0; -- ---------------------------------------------------------------------- -- TLP field widths -- For PCIe, the length field is 10 bits wide. Constant C_TLP_FLD_WIDTH_OF_LENG : integer := C_TLP_LENG_BIT_TOP-C_TLP_LENG_BIT_BOT+1; ------------------------------------------------------------------------ --- Tag width in TLP Constant C_TAG_WIDTH : integer := C_TLP_TAG_BIT_TOP-C_TLP_TAG_BIT_BOT+1; ------------------------------------------------------------------------ --- Width for Local ID Constant C_ID_WIDTH : integer := C_TLP_REQID_BIT_TOP-C_TLP_REQID_BIT_BOT+1; ------------------------------------------------------------------------ --- Width for Requester ID Constant C_REQID_WIDTH : integer := C_TLP_REQID_BIT_TOP-C_TLP_REQID_BIT_BOT+1; -- ------------------------------------------------------------------------ -- Section for Channel Buffer bit definition, referenced to TLP header definition -- ( not shown in user header file) -- -- ------------------------------------------------------------------------ -- Bit range of Length field in Channel Buffer word Constant C_CHBUF_LENG_BIT_BOT : integer := 0; Constant C_CHBUF_LENG_BIT_TOP : integer := C_CHBUF_LENG_BIT_BOT+C_TLP_FLD_WIDTH_OF_LENG-1; -- 9 -- Bit range of Attribute field in Channel Buffer word Constant C_CHBUF_ATTR_BIT_BOT : integer := C_CHBUF_LENG_BIT_TOP+1; --10; Constant C_CHBUF_ATTR_BIT_TOP : integer := C_CHBUF_ATTR_BIT_BOT+C_TLP_ATTR_BIT_TOP-C_TLP_ATTR_BIT_BOT; --11; -- The bit in Channel Buffer word that means Error Poison Constant C_CHBUF_EP_BIT : integer := C_CHBUF_ATTR_BIT_TOP+1; --12; -- The bit in Channel Buffer word that means TLP Digest Constant C_CHBUF_TD_BIT : integer := C_CHBUF_EP_BIT+1; --13; -- Bit range of TC field in Channel Buffer word Constant C_CHBUF_TC_BIT_BOT : integer := C_CHBUF_TD_BIT+1; --14; Constant C_CHBUF_TC_BIT_TOP : integer := C_CHBUF_TC_BIT_BOT+C_TLP_TC_BIT_TOP-C_TLP_TC_BIT_BOT; --16; -- Bit range of Format field in Channel Buffer word Constant C_CHBUF_FMT_BIT_BOT : integer := C_CHBUF_TC_BIT_TOP+1; --17; Constant C_CHBUF_FMT_BIT_TOP : integer := C_CHBUF_FMT_BIT_BOT+C_TLP_FMT_BIT_TOP-C_TLP_FMT_BIT_BOT; --18; -- Bit range of Tag field in Channel Buffer word except Cpl/D Constant C_CHBUF_TAG_BIT_BOT : integer := C_CHBUF_FMT_BIT_TOP+1; --19; Constant C_CHBUF_TAG_BIT_TOP : integer := C_CHBUF_TAG_BIT_BOT+C_TLP_TAG_BIT_TOP-C_TLP_TAG_BIT_BOT; --26; -- Bit range of BAR Index field in upstream DMA Channel Buffer word Constant C_CHBUF_DMA_BAR_BIT_BOT : integer := C_CHBUF_TAG_BIT_TOP+1; --27; Constant C_CHBUF_DMA_BAR_BIT_TOP : integer := C_CHBUF_DMA_BAR_BIT_BOT+C_ENCODE_BAR_NUMBER-1; --29; -- Bit range of Message Code field in Channel Buffer word for Msg Constant C_CHBUF_MSG_CODE_BIT_BOT : integer := C_CHBUF_TAG_BIT_TOP+1; --27; Constant C_CHBUF_MSG_CODE_BIT_TOP : integer := C_CHBUF_MSG_CODE_BIT_BOT+C_MSG_CODE_BIT_TOP-C_MSG_CODE_BIT_BOT; --34; -- Bit range of remaining Byte Count field in Cpl/D Channel Buffer word Constant C_CHBUF_CPLD_BC_BIT_BOT : integer := C_CHBUF_FMT_BIT_TOP+1; --19; Constant C_CHBUF_CPLD_BC_BIT_TOP : integer := C_CHBUF_CPLD_BC_BIT_BOT+C_TLP_FLD_WIDTH_OF_LENG-1+2; --30; -- Bit range of Completion Status field in Cpl/D Channel Buffer word Constant C_CHBUF_CPLD_CS_BIT_BOT : integer := C_CHBUF_CPLD_BC_BIT_TOP+1; --31; Constant C_CHBUF_CPLD_CS_BIT_TOP : integer := C_CHBUF_CPLD_CS_BIT_BOT+C_CPLD_CS_BIT_TOP-C_CPLD_CS_BIT_BOT; --33; -- Bit range of Lower Address field in Cpl/D Channel Buffer word Constant C_CHBUF_CPLD_LA_BIT_BOT : integer := C_CHBUF_CPLD_CS_BIT_TOP+1; --34; Constant C_CHBUF_CPLD_LA_BIT_TOP : integer := C_CHBUF_CPLD_LA_BIT_BOT+C_CPLD_LA_BIT_TOP-C_CPLD_LA_BIT_BOT; --40; -- Bit range of Tag field in Cpl/D Channel Buffer word Constant C_CHBUF_CPLD_TAG_BIT_BOT : integer := C_CHBUF_CPLD_LA_BIT_TOP+1; --41; Constant C_CHBUF_CPLD_TAG_BIT_TOP : integer := C_CHBUF_CPLD_TAG_BIT_BOT+C_CPLD_TAG_BIT_TOP-C_CPLD_TAG_BIT_BOT; --48; -- Bit range of Requester ID field in Cpl/D Channel Buffer word Constant C_CHBUF_CPLD_REQID_BIT_BOT : integer := C_CHBUF_CPLD_TAG_BIT_TOP+1; --49; Constant C_CHBUF_CPLD_REQID_BIT_TOP : integer := C_CHBUF_CPLD_REQID_BIT_BOT+C_CPLD_REQID_BIT_TOP-C_CPLD_REQID_BIT_BOT; --64; -- Bit range of BAR Index field in Cpl/D Channel Buffer word Constant C_CHBUF_CPLD_BAR_BIT_BOT : integer := C_CHBUF_CPLD_REQID_BIT_TOP+1; --65; Constant C_CHBUF_CPLD_BAR_BIT_TOP : integer := C_CHBUF_CPLD_BAR_BIT_BOT+C_ENCODE_BAR_NUMBER-1; --67; -- Bit range of host address in Channel Buffer word Constant C_CHBUF_HA_BIT_BOT : integer := C_CHBUF_DMA_BAR_BIT_TOP+1; --30; -- Constant C_CHBUF_HA_BIT_TOP : integer := C_CHBUF_HA_BIT_BOT+2C_DBUS_WIDTH-1; --93; Constant C_CHBUF_HA_BIT_TOP : integer := C_CHBUF_HA_BIT_BOT+C_DBUS_WIDTH-1; --93; -- The bit in Channel Buffer word that means whether this TLP is valid for output arbitration -- (against channel buffer reset during arbitration) Constant C_CHBUF_QVALID_BIT : integer := C_CHBUF_HA_BIT_TOP+1; --94; -- The bit in Channel Buffer word that means address increment Constant C_CHBUF_AINC_BIT : integer := C_CHBUF_QVALID_BIT+1; --95; -- The bit in Channel Buffer word that means zero-length Constant C_CHBUF_0LENG_BIT : integer := C_CHBUF_AINC_BIT+1; --96; -- Bit range of peripheral address in Channel Buffer word Constant C_CHBUF_PA_BIT_BOT : integer := C_CHANNEL_BUF_WIDTH-C_EP_AWIDTH; --112; Constant C_CHBUF_PA_BIT_TOP : integer := C_CHANNEL_BUF_WIDTH-1; --127; -- Bit range of BRAM address in Channel Buffer word Constant C_CHBUF_MA_BIT_BOT : integer := C_CHANNEL_BUF_WIDTH-C_PRAM_AWIDTH-2; --114; Constant C_CHBUF_MA_BIT_TOP : integer := C_CHANNEL_BUF_WIDTH-1; --127; -- Bit range of DDR address in Channel Buffer word Constant C_CHBUF_DDA_BIT_BOT : integer := C_CHANNEL_BUF_WIDTH-C_DDR_IAWIDTH; --102; Constant C_CHBUF_DDA_BIT_TOP : integer := C_CHANNEL_BUF_WIDTH-1; --127; ------------------------------------------------------------------------ -- The Relaxed Ordering bit constant in TLP Constant C_RELAXED_ORDERING : std_logic := '0'; -- The NO SNOOP bit constant in TLP Constant C_NO_SNOOP : std_logic := '0'; -- '1'; -- AK, 2007-11-07: SNOOP-bit corrupts DMA, if set on INTEL platform. Seems to be don't care on AMD ------------------------------------------------------------------------ -- TLP resolution concerning Format Constant C_FMT3_NO_DATA : std_logic_vector(C_TLP_FMT_BIT_TOP downto C_TLP_FMT_BIT_BOT) := "00"; Constant C_FMT3_WITH_DATA : std_logic_vector(C_TLP_FMT_BIT_TOP downto C_TLP_FMT_BIT_BOT) := "10"; Constant C_FMT4_NO_DATA : std_logic_vector(C_TLP_FMT_BIT_TOP downto C_TLP_FMT_BIT_BOT) := "01"; Constant C_FMT4_WITH_DATA : std_logic_vector(C_TLP_FMT_BIT_TOP downto C_TLP_FMT_BIT_BOT) := "11"; -- TLP resolution concerning Type Constant C_TYPE_MEM_REQ : std_logic_vector(C_TLP_TYPE_BIT_TOP downto C_TLP_TYPE_BIT_BOT) := "00000"; Constant C_TYPE_IO_REQ : std_logic_vector(C_TLP_TYPE_BIT_TOP downto C_TLP_TYPE_BIT_BOT) := "00010"; Constant C_TYPE_MEM_REQ_LK : std_logic_vector(C_TLP_TYPE_BIT_TOP downto C_TLP_TYPE_BIT_BOT) := "00001"; Constant C_TYPE_COMPLETION : std_logic_vector(C_TLP_TYPE_BIT_TOP downto C_TLP_TYPE_BIT_BOT) := "01010"; Constant C_TYPE_COMPLETION_LK : std_logic_vector(C_TLP_TYPE_BIT_TOP downto C_TLP_TYPE_BIT_BOT) := "01011"; Constant C_TYPE_MSG_TO_ROOT : std_logic_vector(C_TLP_TYPE_BIT_TOP downto C_TLP_TYPE_BIT_BOT) := "10000"; Constant C_TYPE_MSG_BY_ADDRESS : std_logic_vector(C_TLP_TYPE_BIT_TOP downto C_TLP_TYPE_BIT_BOT) := "10001"; Constant C_TYPE_MSG_BY_ID : std_logic_vector(C_TLP_TYPE_BIT_TOP downto C_TLP_TYPE_BIT_BOT) := "10010"; Constant C_TYPE_MSG_FROM_ROOT : std_logic_vector(C_TLP_TYPE_BIT_TOP downto C_TLP_TYPE_BIT_BOT) := "10011"; Constant C_TYPE_MSG_LOCAL : std_logic_vector(C_TLP_TYPE_BIT_TOP downto C_TLP_TYPE_BIT_BOT) := "10100"; Constant C_TYPE_MSG_GATHER_TO_ROOT : std_logic_vector(C_TLP_TYPE_BIT_TOP downto C_TLP_TYPE_BIT_BOT) := "10101"; -- Select this constant to test system response Constant C_TYPE_OF_MSG : std_logic_vector(C_TLP_TYPE_BIT_TOP downto C_TLP_TYPE_BIT_BOT) := C_TYPE_MSG_LOCAL; -- C_TYPE_MSG_TO_ROOT; ------------------------------------------------------------------------ -- Lowest priority for Tx_Output_Arbitration module Constant C_LOWEST_PRIORITY : std_logic_vector (C_ARBITRATE_WIDTH-1 downto 0) := (0=>'1', OTHERS=>'0'); ------------------------------------------------------------------------ Constant C_DECODE_BIT_TOP : integer := C_EP_AWIDTH-1; -- 15; Constant C_DECODE_BIT_BOT : integer := C_DECODE_BIT_TOP-1; -- 14; ------------------------------------------------------------------------ -- Current buffer descriptor length is 8 DW. Constant C_NEXT_BD_LENGTH : std_logic_vector(C_TLP_FLD_WIDTH_OF_LENG+1 downto 0) := CONV_STD_LOGIC_VECTOR(84, C_TLP_FLD_WIDTH_OF_LENG+2); -- Maximum 8 DW for the CplD carrying next BDA Constant C_NEXT_BD_LENG_MSB : integer := 3; ------------------------------------------------------------------------ -- To determine the max.size parameters, 6 bits are used. Constant C_MAXSIZE_FLD_BIT_TOP : integer := C_TLP_FLD_WIDTH_OF_LENG +2; Constant C_MAXSIZE_FLD_BIT_BOT : integer := 7; -- DDR commands: RASn-CASn-WEn Constant CMD_NOP : std_logic_vector(2 downto 0) := "111"; Constant CMD_LMR : std_logic_vector(2 downto 0) := "000"; Constant CMD_ACT : std_logic_vector(2 downto 0) := "011"; Constant CMD_READ : std_logic_vector(2 downto 0) := "101"; Constant CMD_WRITE : std_logic_vector(2 downto 0) := "100"; Constant CMD_PRECH : std_logic_vector(2 downto 0) := "010"; Constant CMD_BTERM : std_logic_vector(2 downto 0) := "110"; Constant CMD_AREF : std_logic_vector(2 downto 0) := "001"; ------------------------------------------------------------------------ -- Time-out counter width Constant C_TOUT_WIDTH : integer := 32; -- Bottom bit for determining time-out Constant CBIT_TOUT_BOT : integer := 16; -- Time-out value Constant C_TIME_OUT_VALUE : std_logic_vector(C_TOUT_WIDTH-1 downto CBIT_TOUT_BOT) -- := (OTHERS=>'1' ); -- Maximum value (-1) := (24=>'1', OTHERS=>'0' ); ---------------------------------------------------------------------------------- Constant C_REGS_BASE_ADDR : std_logic_vector(C_EP_AWIDTH-1 downto 0) := (C_DECODE_BIT_TOP => '0' , C_DECODE_BIT_BOT => '0' , OTHERS => '0' ); Constant C_BRAM_BASE_ADDR : std_logic_vector(C_EP_AWIDTH-1 downto 0) := (C_DECODE_BIT_TOP => '1' , C_DECODE_BIT_BOT => '0' , OTHERS => '0' ); Constant C_FIFO_BASE_ADDR : std_logic_vector(C_EP_AWIDTH-1 downto 0) := (C_DECODE_BIT_TOP => '0' , C_DECODE_BIT_BOT => '0' , OTHERS => '0' ); ---------------------------------------------------------------------------------- -- Constant CINT_ADDR_TXFIFO_DATA : integer := 4; -- Constant CINT_ADDR_TXFIFO_CTRL : integer := 6; -- Constant CINT_ADDR_TXFIFO_STA : integer := 6; -- -- Constant CINT_ADDR_RXFIFO_DATA : integer := 8; -- Constant CINT_ADDR_RXFIFO_CTRL : integer := 10; -- Constant CINT_ADDR_RXFIFO_STA : integer := 10; Constant CINT_REGS_SPACE_BAR : integer := 0; Constant CINT_FIFO_SPACE_BAR : integer := 2; Constant CINT_BRAM_SPACE_BAR : integer := 3; Constant CINT_DDR_SPACE_BAR : integer := 1; ------------------------------------------------------------------------ -- -- Default channel buffer word for CplD -- Constant C_DEF_CPLD_WORD : std_logic_vector(C_DBUS_WIDTH-1 downto 0) -- :=X"CA000000"; ---------------------------------------------------------------------------------- -- 1st word of MRd, for requesting the next descriptor -- Constant C_MRD_HEAD0_WORD : std_logic_vector(C_DBUS_WIDTH-1 downto 0) -- := X"80000000"; Constant C_TLP_HAS_DATA : std_logic := '1'; Constant C_TLP_HAS_NO_DATA : std_logic := '0'; Constant C_TLP_3DW_HEADER : std_logic := '0'; Constant C_TLP_4DW_HEADER : std_logic := '1'; ------------------------------------------------------------------------ Constant C_TLP_TYPE_IS_MRD_H3 : std_logic_vector(3 downto 0) := "1000"; Constant C_TLP_TYPE_IS_MRDLK_H3 : std_logic_vector(3 downto 0) := "0100"; Constant C_TLP_TYPE_IS_MRD_H4 : std_logic_vector(3 downto 0) := "0010"; Constant C_TLP_TYPE_IS_MRDLK_H4 : std_logic_vector(3 downto 0) := "0001"; Constant C_TLP_TYPE_IS_MWR_H3 : std_logic_vector(1 downto 0) := "10"; Constant C_TLP_TYPE_IS_MWR_H4 : std_logic_vector(1 downto 0) := "01"; Constant C_TLP_TYPE_IS_CPLD : std_logic_vector(3 downto 0) := "1000"; Constant C_TLP_TYPE_IS_CPL : std_logic_vector(3 downto 0) := "0100"; Constant C_TLP_TYPE_IS_CPLDLK : std_logic_vector(3 downto 0) := "0010"; Constant C_TLP_TYPE_IS_CPLLK : std_logic_vector(3 downto 0) := "0001"; ------------------------------------------------------------------------ -- Maximal number of Interrupts Constant C_NUM_OF_INTERRUPTS : integer := 16; ------------------------------------------------------------------------ -- Minimal register set Constant CINT_ADDR_VERSION : integer := 0; Constant CINT_ADDR_IRQ_STAT : integer := 2; -- IRQ Enable. Write '1' turns on the interrupt, '0' masks. Constant CINT_ADDR_IRQ_EN : integer := 4; Constant CINT_ADDR_ERROR : integer := 6; -- unused Constant CINT_ADDR_STATUS : integer := 8; Constant CINT_ADDR_CONTROL : integer := 10; -- Upstream DMA channel Constants Constant CINT_ADDR_DMA_US_PAH : integer := 11; Constant CINT_ADDR_DMA_US_PAL : integer := 12; Constant CINT_ADDR_DMA_US_HAH : integer := 13; Constant CINT_ADDR_DMA_US_HAL : integer := 14; Constant CINT_ADDR_DMA_US_BDAH : integer := 15; Constant CINT_ADDR_DMA_US_BDAL : integer := 16; Constant CINT_ADDR_DMA_US_LENG : integer := 17; Constant CINT_ADDR_DMA_US_CTRL : integer := 18; Constant CINT_ADDR_DMA_US_STA : integer := 19; -- Downstream DMA channel Constants Constant CINT_ADDR_DMA_DS_PAH : integer := 20; Constant CINT_ADDR_DMA_DS_PAL : integer := 21; Constant CINT_ADDR_DMA_DS_HAH : integer := 22; Constant CINT_ADDR_DMA_DS_HAL : integer := 23; Constant CINT_ADDR_DMA_DS_BDAH : integer := 24; Constant CINT_ADDR_DMA_DS_BDAL : integer := 25; Constant CINT_ADDR_DMA_DS_LENG : integer := 26; Constant CINT_ADDR_DMA_DS_CTRL : integer := 27; Constant CINT_ADDR_DMA_DS_STA : integer := 28; -------- Address for MRd channel control Constant CINT_ADDR_MRD_CTRL : integer := 29; -------- Address for Tx module control Constant CINT_ADDR_TX_CTRL : integer := 30; -------- Address for ICAP access Constant CINT_ADDR_ICAP : integer := 31; -------- Address of Interrupt Generator Control (W) Constant CINT_ADDR_IG_CONTROL : integer := 32; -------- Address of Interrupt Generator Latency (W+R) Constant CINT_ADDR_IG_LATENCY : integer := 33; -------- Address of Interrupt Generator Assert Number (R) Constant CINT_ADDR_IG_NUM_ASSERT : integer := 34; -------- Address of Interrupt Generator Deassert Number (R) Constant CINT_ADDR_IG_NUM_DEASSERT : integer := 35; -------- Event Buffer FIFO status (R) + control (W) Constant CINT_ADDR_EB_STACON : integer := 36; -------- Upstream DMA transferred byte count (R) Constant CINT_ADDR_US_TRANSF_BC : integer := 37; -------- Downstream DMA transferred byte count (R) Constant CINT_ADDR_DS_TRANSF_BC : integer := 38; -------- DCB protocol link status (R) + control (W) Constant CINT_ADDR_PROTOCOL_STACON : integer := 39; -------- CTL class register rx(R) + tx (W) Constant CINT_ADDR_CTL_CLASS : integer := 40; -------- DLM class register rx(R) + tx (W) Constant CINT_ADDR_DLM_CLASS : integer := 41; -------- Data generator control register (W) Constant CINT_ADDR_DG_CTRL : integer := 42; -------- Traffice classes status (R) Constant CINT_ADDR_TC_STATUS : integer := 43; -------- SIMONE USER REGISTER 01 rx(R) + tx (W) Constant CINT_ADDR_REG01 : integer := 44; -------- SIMONE USER REGISTER 02 rx(R) + tx (W) Constant CINT_ADDR_REG02 : integer := 45; -------- SIMONE USER REGISTER 03 rx(R) + tx (W) Constant CINT_ADDR_REG03 : integer := 46; -------- SIMONE USER REGISTER 04 rx(R) + tx (W) Constant CINT_ADDR_REG04 : integer := 47; -------- SIMONE USER REGISTER 05 rx(R) + tx (W) Constant CINT_ADDR_REG05 : integer := 48; -------- SIMONE USER REGISTER 06 rx(R) + tx (W) Constant CINT_ADDR_REG06 : integer := 49; -------- SIMONE USER REGISTER 07 rx(R) + tx (W) Constant CINT_ADDR_REG07 : integer := 50; -------- SIMONE USER REGISTER 08 rx(R) + tx (W) Constant CINT_ADDR_REG08 : integer := 51; -------- SIMONE USER REGISTER 09 rx(R) + tx (W) Constant CINT_ADDR_REG09 : integer := 52; -------- SIMONE USER REGISTER 10 rx(R) + tx (W) Constant CINT_ADDR_REG10 : integer := 53; -------- Host2Board FIFO status (R) Constant CINT_ADDR_H2B_STACON : integer := 54; -------- Board2Host FIFO status (R) Constant CINT_ADDR_B2H_STACON : integer := 55; -------- SIMONE USER REGISTER 11 rx(R) + tx (W) Constant CINT_ADDR_REG11 : integer := 56; -------- SIMONE USER REGISTER 12 rx(R) + tx (W) Constant CINT_ADDR_REG12 : integer := 57; -------- SIMONE USER REGISTER 13 rx(R) + tx (W) Constant CINT_ADDR_REG13 : integer := 58; -------- SIMONE USER REGISTER 14 rx(R) + tx (W) Constant CINT_ADDR_REG14 : integer := 59; -------- WHW USER REGISTER 15 rx(R) + tx (W) Constant CINT_ADDR_REG15 : integer := 60; -------- WHW USER REGISTER 16 rx(R) + tx (W) Constant CINT_ADDR_REG16 : integer := 61; -------- WHW USER REGISTER 17 rx(R) + tx (W) Constant CINT_ADDR_REG17 : integer := 62; -------- WHW USER REGISTER 18 rx(R) + tx (W) Constant CINT_ADDR_REG18 : integer := 63; -------- WHW USER REGISTER 19 rx(R) + tx (W) Constant CINT_ADDR_REG19 : integer := 64; -------- WHW USER REGISTER 20 rx(R) + tx (W) Constant CINT_ADDR_REG20 : integer := 65; -------- WHW USER REGISTER 20 rx(R) + tx (W) Constant CINT_ADDR_REG21 : integer := 66; -------- WHW USER REGISTER 20 rx(R) + tx (W) Constant CINT_ADDR_REG22 : integer := 67; -------- WHW USER REGISTER 20 rx(R) + tx (W) Constant CINT_ADDR_REG23 : integer := 68; -------- WHW USER REGISTER 20 rx(R) + tx (W) Constant CINT_ADDR_REG24 : integer := 69; -------- WHW USER REGISTER 20 rx(R) + tx (W) Constant CINT_ADDR_REG25 : integer := 70; ------------------------------------------------------------------------ -- Number of registers Constant C_NUM_OF_ADDRESSES : integer := 71; -- ------------------------------------------------------------------------ -- ---------------------------------------------------------------------- -- Bit definitions of the Control register for DMA channels -- Constant CINT_BIT_DMA_CTRL_VALID : integer := 25; Constant CINT_BIT_DMA_CTRL_LAST : integer := 24; Constant CINT_BIT_DMA_CTRL_UPA : integer := 20; Constant CINT_BIT_DMA_CTRL_AINC : integer := 15; Constant CINT_BIT_DMA_CTRL_END : integer := 08; -- Bit range of BAR field in DMA Control register Constant CINT_BIT_DMA_CTRL_BAR_TOP : integer := 18; Constant CINT_BIT_DMA_CTRL_BAR_BOT : integer := 16; -- Default DMA Control register value -- Constant C_DEF_DMA_CTRL_WORD : std_logic_vector(C_DBUS_WIDTH-1 downto 0) Constant C_DEF_DMA_CTRL_WORD : std_logic_vector(C_DBUS_WIDTH-1 downto 0) := (CINT_BIT_DMA_CTRL_VALID => '1' , CINT_BIT_DMA_CTRL_END => '1' , OTHERS => '0' ); ------------------------------------------------------------------------ Constant C_CHANNEL_RST_BITS : std_logic_vector(C_FEAT_BITS_WIDTH-1 downto 0) := X"0A"; ------------------------------------------------------------------------ Constant C_HOST_ICLR_BITS : std_logic_vector(C_FEAT_BITS_WIDTH-1 downto 0) := X"F0"; ---------------------------------------------------------------------------------- -- Initial MWr Tag for upstream DMA Constant C_TAG0_DMA_US_MWR : std_logic_vector(C_TAG_WIDTH-1 downto 0) := X"D0"; -- Initial MRd Tag for upstream DMA descriptor Constant C_TAG0_DMA_USB : std_logic_vector(C_TAG_WIDTH-1 downto 0) := X"E0"; -- Initial MRd Tag for downstream DMA descriptor Constant C_TAG0_DMA_DSB : std_logic_vector(C_TAG_WIDTH-1 downto 0) := X"C0"; -- Initial Msg Tag Hihger 4 bits for interrupt Constant C_MSG_TAG_HI : std_logic_vector( 3 downto 0) := X"F"; -- Msg code for IntA (fixed by PCIe) Constant C_MSGCODE_INTA : std_logic_vector( 7 downto 0) := X"20"; -- Msg code for #IntA (fixed by PCIe) Constant C_MSGCODE_INTA_N : std_logic_vector( 7 downto 0) := X"24"; ---------------------------------------------------------------------------------- -- DMA status bit definition Constant CINT_BIT_DMA_STAT_NALIGN : integer := 7; Constant CINT_BIT_DMA_STAT_TIMEOUT : integer := 4; Constant CINT_BIT_DMA_STAT_BDANULL : integer := 3; Constant CINT_BIT_DMA_STAT_BUSY : integer := 1; Constant CINT_BIT_DMA_STAT_DONE : integer := 0; -- Bit definition in interrup status register (ISR) For Interrupt Constant CINT_BIT_US_DONE_IN_ISR : integer := 0; Constant CINT_BIT_DS_DONE_IN_ISR : integer := 1; Constant CINT_BIT_INTGEN_IN_ISR : integer := 2; Constant CINT_BIT_DGEN_IN_ISR : integer := 3; Constant CINT_BIT_USTOUT_IN_ISR : integer := 4; Constant CINT_BIT_DSTOUT_IN_ISR : integer := 5; -- Bit definition in interrup status register (ISR) For Polling Statue Constant CPOLL_BIT_US_DONE_IN_ISR : integer := 0 + C_NUM_OF_INTERRUPTS; Constant CPOLL_BIT_DS_DONE_IN_ISR : integer := 1 + C_NUM_OF_INTERRUPTS; Constant CPOLL_BIT_INTGEN_IN_ISR : integer := 2 + C_NUM_OF_INTERRUPTS; Constant CPOLL_BIT_DGEN_IN_ISR : integer := 3 + C_NUM_OF_INTERRUPTS; Constant CPOLL_BIT_USTOUT_IN_ISR : integer := 4 + C_NUM_OF_INTERRUPTS; Constant CPOLL_BIT_DSTOUT_IN_ISR : integer := 5 + C_NUM_OF_INTERRUPTS; Constant CPOLL_BIT_DAQ_IN_ISR : integer := 6 + C_NUM_OF_INTERRUPTS; Constant CPOLL_BIT_CTL_IN_ISR : integer := 7 + C_NUM_OF_INTERRUPTS; Constant CPOLL_BIT_DLM_IN_ISR : integer := 8 + C_NUM_OF_INTERRUPTS; Constant CPOLL_BIT_DAQTOUT_IN_ISR : integer := 10 + C_NUM_OF_INTERRUPTS; Constant CPOLL_BIT_CTLTOUT_IN_ISR : integer := 11 + C_NUM_OF_INTERRUPTS; Constant CPOLL_BIT_DLMTOUT_IN_ISR : integer := 12 + C_NUM_OF_INTERRUPTS; -- The Time-out bits in System Error Register (SER) Constant CINT_BIT_TX_TOUT_IN_SER : integer := 18; Constant CINT_BIT_EB_TOUT_IN_SER : integer := 19; Constant CINT_BIT_EB_OVERWRITTEN : integer := 20; -- The separate RST bit in DG_CTRL register Constant CINT_BIT_DG_RST : integer := 12; -- The MASK bit in DG_CTRL register Constant CINT_BIT_DG_MASK : integer := 8; -- The BUSY bit in DG_CTRL register Constant CINT_BIT_DG_BUSY : integer := 1; -- The AVAIL bit in DG_CTRL register Constant CINT_BIT_DG_AVAIL : integer := 0; -- Bit definition of msg routing method in General Control Register (GCR) Constant C_GCR_MSG_ROUT_BIT_BOT : integer := 0; Constant C_GCR_MSG_ROUT_BIT_TOP : integer := 2; -- Bit definition of ICAP Busy in global status register (GSR) Constant CINT_BIT_ICAP_BUSY_IN_GSR : integer := 4; -- Bit definition of Data Generator available in global status register (GSR) Constant CINT_BIT_DG_AVAIL_IN_GSR : integer := 5; -- Bit definition of DCB link_active in global status register (GSR) Constant CINT_BIT_LINK_ACT_IN_GSR : integer := 6; -- Bit range of link width in GSR Constant CINT_BIT_LWIDTH_IN_GSR_BOT : integer := 10; -- 16; Constant CINT_BIT_LWIDTH_IN_GSR_TOP : integer := 15; -- 21; ---------------------------------------------------------------------------------- -- Carry bit, only for better timing, used to divide 32-bit add into 2 stages Constant CBIT_CARRY : integer := 16; ---------------------------------------------------------------------------------- -- Zero and -1 constants for different dimensions -- Constant C_ALL_ZEROS : std_logic_vector(255 downto 0) := (OTHERS=>'0'); Constant C_ALL_ONES : std_logic_vector(255 downto 0) := (OTHERS=>'1'); ---------------------------------------------------------------------------------- -- Implement date generator (DG) constant IMP_DATA_GENERATOR : boolean := FALSE; -- DDR2 SODIMM module as the event buffer kernel -- !! remember to replace the UCF accordingly constant USE_DDR2_MODULE : boolean := FALSE; -- For simplified verification, emulated loop-backed links be used if FALSE constant USE_OPTO_LINKS : boolean := FALSE; -- Implement interrupt generator (IG) constant IMP_INT_GENERATOR : boolean := TRUE; -- interrupt type: cfg(aka legacy) or MSI constant USE_CFG_INTERRUPT : boolean := FALSE; -- Busmacro insertion for partial reconfigurability constant INSERT_BUSMACRO : boolean := FALSE; ------------------------------------------------------------------------------------ ---- ------------ Author ID constant AUTHOR_UNKNOWN : std_logic_vector(4-1 downto 0) := X"0"; constant AUTHOR_AKUGEL : std_logic_vector(4-1 downto 0) := X"1"; constant AUTHOR_WGAO : std_logic_vector(4-1 downto 0) := X"2"; ---------------------------------------------------------------------------------- ---- ------------ design ID --------------------- ---- design id now contains a version: upper 8 bits, a major revision: next 8 bits, ---- and author code: next 4 bits and a minor revision: lower 12 bits ---- keep the autor file seperate and don't submit to CVS ---- constant DESIGN_VERSION : std_logic_vector( 8-1 downto 0) := X"01"; constant DESIGN_MAJOR_REVISION : std_logic_vector( 8-1 downto 0) := X"04"; constant DESIGN_MINOR_REVISION : std_logic_vector(12-1 downto 0) := X"001"; constant C_DESIGN_ID : std_logic_vector(64-1 downto 0) := X"00000000" & DESIGN_VERSION & DESIGN_MAJOR_REVISION & AUTHOR_WGAO & DESIGN_MINOR_REVISION ; ---------------------------------------------------------------------------------- -- Function to invert endian for 32-bit data -- function Endian_Invert_32 (Word_in: std_logic_vector) return std_logic_vector; function Endian_Invert_64 (Word_in: std_logic_vector(64-1 downto 0)) return std_logic_vector; ---------------------------------------------------------------------------------- ---------------------------------------------------------------------------------- -- revision log -- 2007-05-30: AK - abbPackage added, address map changed -- 2007-06-12: WGao - C_DEF_DMA_CTRL_WORD added, -- DMA Control word bit definition added, -- Function Endian_Invert_32 added. -- CINT_ADDR_MRD_CTRL and CINT_ADDR_CPLD_CTRL changed, -- CINT_ADDR_US_SAH and CINT_ADDR_DS_SAH removed. -- 2007-07-16: AK - dma status bits added end abb64Package; package body abb64Package is -- ------------------------------------------------------------------------------------------ -- Function to invert bytewise endian for 32-bit data -- ------------------------------------------------------------------------------------------ function Endian_Invert_32 (Word_in: std_logic_vector) return std_logic_vector is begin return Word_in(7 downto 0)&Word_in(15 downto 8)&Word_in(23 downto 16)&Word_in(31 downto 24); end Endian_Invert_32; -- ------------------------------------------------------------------------------------------ -- Function to invert bytewise endian for 64-bit data -- ------------------------------------------------------------------------------------------ function Endian_Invert_64 (Word_in: std_logic_vector(64-1 downto 0)) return std_logic_vector is begin return Word_in(39 downto 32)&Word_in(47 downto 40)&Word_in(55 downto 48)&Word_in(63 downto 56) & Word_in(7 downto 0)&Word_in(15 downto 8)&Word_in(23 downto 16)&Word_in(31 downto 24); end Endian_Invert_64; end abb64Package;
-- megafunction wizard: %ALTSYNCRAM% -- GENERATION: STANDARD -- VERSION: WM1.0 -- MODULE: altsyncram -- ============================================================ -- File Name: altsyncram_db0.vhd -- Megafunction Name(s): -- altsyncram -- -- Simulation Library Files(s): -- altera_mf -- ============================================================ -- ********************************************************** -- THIS IS A WIZARD-GENERATED FILE. DO NOT EDIT THIS FILE! -- -- 9.1 Build 350 03/24/2010 SP 2 SJ Web Edition -- ********************************************************** --Copyright (C) 1991-2010 Altera Corporation --Your use of Altera Corporation's design tools, logic functions --and other software and tools, and its AMPP partner logic --functions, and any output files from any of the foregoing --(including device programming or simulation files), and any --associated documentation or information are expressly subject --to the terms and conditions of the Altera Program License --Subscription Agreement, Altera MegaCore Function License --Agreement, or other applicable license agreement, including, --without limitation, that your use is for the sole purpose of --programming logic devices manufactured by Altera and sold by --Altera or its authorized distributors. Please refer to the --applicable agreement for further details. LIBRARY ieee; USE ieee.std_logic_1164.all; LIBRARY altera_mf; USE altera_mf.all; ENTITY altsyncram_db0 IS PORT ( address : IN STD_LOGIC_VECTOR (8 DOWNTO 0); clock : IN STD_LOGIC := '1'; q : OUT STD_LOGIC_VECTOR (15 DOWNTO 0) ); END altsyncram_db0; ARCHITECTURE SYN OF altsyncram_db0 IS SIGNAL sub_wire0 : STD_LOGIC_VECTOR (15 DOWNTO 0); COMPONENT altsyncram GENERIC ( clock_enable_input_a : STRING; clock_enable_output_a : STRING; init_file : STRING; intended_device_family : STRING; lpm_hint : STRING; lpm_type : STRING; numwords_a : NATURAL; operation_mode : STRING; outdata_aclr_a : STRING; outdata_reg_a : STRING; power_up_uninitialized : STRING; widthad_a : NATURAL; width_a : NATURAL; width_byteena_a : NATURAL ); PORT ( clock0 : IN STD_LOGIC ; address_a : IN STD_LOGIC_VECTOR (8 DOWNTO 0); q_a : OUT STD_LOGIC_VECTOR (15 DOWNTO 0) ); END COMPONENT; BEGIN q <= sub_wire0(15 DOWNTO 0); altsyncram_component : altsyncram GENERIC MAP ( clock_enable_input_a => "BYPASS", clock_enable_output_a => "BYPASS", init_file => "SOUND.mif", intended_device_family => "Cyclone II", lpm_hint => "ENABLE_RUNTIME_MOD=NO", lpm_type => "altsyncram", numwords_a => 512, operation_mode => "ROM", outdata_aclr_a => "NONE", outdata_reg_a => "UNREGISTERED", power_up_uninitialized => "FALSE", widthad_a => 9, width_a => 16, width_byteena_a => 1 ) PORT MAP ( clock0 => clock, address_a => address, q_a => sub_wire0 ); END SYN; -- ============================================================ -- CNX file retrieval info -- ============================================================ -- Retrieval info: PRIVATE: ADDRESSSTALL_A NUMERIC "0" -- Retrieval info: PRIVATE: ADDRESSSTALL_B NUMERIC "0" -- Retrieval info: PRIVATE: BYTEENA_ACLR_A NUMERIC "0" -- Retrieval info: PRIVATE: BYTEENA_ACLR_B NUMERIC "0" -- Retrieval info: PRIVATE: BYTE_ENABLE_A NUMERIC "0" -- Retrieval info: PRIVATE: BYTE_ENABLE_B NUMERIC "0" -- Retrieval info: PRIVATE: BYTE_SIZE NUMERIC "8" -- Retrieval info: PRIVATE: BlankMemory NUMERIC "0" -- Retrieval info: PRIVATE: CLOCK_ENABLE_INPUT_A NUMERIC "0" -- Retrieval info: PRIVATE: CLOCK_ENABLE_INPUT_B NUMERIC "0" -- Retrieval info: PRIVATE: CLOCK_ENABLE_OUTPUT_A NUMERIC "0" -- Retrieval info: PRIVATE: CLOCK_ENABLE_OUTPUT_B NUMERIC "0" -- Retrieval info: PRIVATE: CLRdata NUMERIC "0" -- Retrieval info: PRIVATE: CLRq NUMERIC "0" -- Retrieval info: PRIVATE: CLRrdaddress NUMERIC "0" -- Retrieval info: PRIVATE: CLRrren NUMERIC "0" -- Retrieval info: PRIVATE: CLRwraddress NUMERIC "0" -- Retrieval info: PRIVATE: CLRwren NUMERIC "0" -- Retrieval info: PRIVATE: Clock NUMERIC "0" -- Retrieval info: PRIVATE: Clock_A NUMERIC "0" -- Retrieval info: PRIVATE: Clock_B NUMERIC "0" -- Retrieval info: PRIVATE: ECC NUMERIC "0" -- Retrieval info: PRIVATE: IMPLEMENT_IN_LES NUMERIC "0" -- Retrieval info: PRIVATE: INDATA_ACLR_B NUMERIC "0" -- Retrieval info: PRIVATE: INDATA_REG_B NUMERIC "0" -- Retrieval info: PRIVATE: INIT_FILE_LAYOUT STRING "PORT_A" -- Retrieval info: PRIVATE: INIT_TO_SIM_X NUMERIC "0" -- Retrieval info: PRIVATE: INTENDED_DEVICE_FAMILY STRING "Cyclone II" -- Retrieval info: PRIVATE: JTAG_ENABLED NUMERIC "0" -- Retrieval info: PRIVATE: JTAG_ID STRING "NONE" -- Retrieval info: PRIVATE: MAXIMUM_DEPTH NUMERIC "0" -- Retrieval info: PRIVATE: MEMSIZE NUMERIC "8192" -- Retrieval info: PRIVATE: MEM_IN_BITS NUMERIC "0" -- Retrieval info: PRIVATE: MIFfilename STRING "SOUND.mif" -- Retrieval info: PRIVATE: OPERATION_MODE NUMERIC "0" -- Retrieval info: PRIVATE: OUTDATA_ACLR_B NUMERIC "0" -- Retrieval info: PRIVATE: OUTDATA_REG_B NUMERIC "0" -- Retrieval info: PRIVATE: RAM_BLOCK_TYPE NUMERIC "0" -- Retrieval info: PRIVATE: READ_DURING_WRITE_MODE_MIXED_PORTS NUMERIC "2" -- Retrieval info: PRIVATE: READ_DURING_WRITE_MODE_PORT_A NUMERIC "4" -- Retrieval info: PRIVATE: READ_DURING_WRITE_MODE_PORT_B NUMERIC "4" -- Retrieval info: PRIVATE: REGdata NUMERIC "1" -- Retrieval info: PRIVATE: REGq NUMERIC "0" -- Retrieval info: PRIVATE: REGrdaddress NUMERIC "1" -- Retrieval info: PRIVATE: REGrren NUMERIC "1" -- Retrieval info: PRIVATE: REGwraddress NUMERIC "1" -- Retrieval info: PRIVATE: REGwren NUMERIC "1" -- Retrieval info: PRIVATE: SYNTH_WRAPPER_GEN_POSTFIX STRING "0" -- Retrieval info: PRIVATE: USE_DIFF_CLKEN NUMERIC "0" -- Retrieval info: PRIVATE: UseDPRAM NUMERIC "1" -- Retrieval info: PRIVATE: VarWidth NUMERIC "0" -- Retrieval info: PRIVATE: WIDTH_READ_A NUMERIC "16" -- Retrieval info: PRIVATE: WIDTH_READ_B NUMERIC "16" -- Retrieval info: PRIVATE: WIDTH_WRITE_A NUMERIC "16" -- Retrieval info: PRIVATE: WIDTH_WRITE_B NUMERIC "16" -- Retrieval info: PRIVATE: WRADDR_ACLR_B NUMERIC "0" -- Retrieval info: PRIVATE: WRADDR_REG_B NUMERIC "0" -- Retrieval info: PRIVATE: WRCTRL_ACLR_B NUMERIC "0" -- Retrieval info: PRIVATE: enable NUMERIC "0" -- Retrieval info: PRIVATE: rden NUMERIC "0" -- Retrieval info: CONSTANT: CLOCK_ENABLE_INPUT_A STRING "BYPASS" -- Retrieval info: CONSTANT: CLOCK_ENABLE_OUTPUT_A STRING "BYPASS" -- Retrieval info: CONSTANT: INIT_FILE STRING "SOUND.mif" -- Retrieval info: CONSTANT: INTENDED_DEVICE_FAMILY STRING "Cyclone II" -- Retrieval info: CONSTANT: LPM_HINT STRING "ENABLE_RUNTIME_MOD=NO" -- Retrieval info: CONSTANT: LPM_TYPE STRING "altsyncram" -- Retrieval info: CONSTANT: NUMWORDS_A NUMERIC "512" -- Retrieval info: CONSTANT: OPERATION_MODE STRING "ROM" -- Retrieval info: CONSTANT: OUTDATA_ACLR_A STRING "NONE" -- Retrieval info: CONSTANT: OUTDATA_REG_A STRING "UNREGISTERED" -- Retrieval info: CONSTANT: POWER_UP_UNINITIALIZED STRING "FALSE" -- Retrieval info: CONSTANT: WIDTHAD_A NUMERIC "9" -- Retrieval info: CONSTANT: WIDTH_A NUMERIC "16" -- Retrieval info: CONSTANT: WIDTH_BYTEENA_A NUMERIC "1" -- Retrieval info: USED_PORT: address 0 0 9 0 INPUT NODEFVAL address[8..0] -- Retrieval info: USED_PORT: clock 0 0 0 0 INPUT VCC clock -- Retrieval info: USED_PORT: q 0 0 16 0 OUTPUT NODEFVAL q[15..0] -- Retrieval info: CONNECT: q 0 0 16 0 @q_a 0 0 16 0 -- Retrieval info: CONNECT: @address_a 0 0 9 0 address 0 0 9 0 -- Retrieval info: CONNECT: @clock0 0 0 0 0 clock 0 0 0 0 -- Retrieval info: LIBRARY: altera_mf altera_mf.altera_mf_components.all -- Retrieval info: GEN_FILE: TYPE_NORMAL altsyncram_db0.vhd TRUE -- Retrieval info: GEN_FILE: TYPE_NORMAL altsyncram_db0.inc FALSE -- Retrieval info: GEN_FILE: TYPE_NORMAL altsyncram_db0.cmp TRUE -- Retrieval info: GEN_FILE: TYPE_NORMAL altsyncram_db0.bsf TRUE FALSE -- Retrieval info: GEN_FILE: TYPE_NORMAL altsyncram_db0_inst.vhd FALSE -- Retrieval info: GEN_FILE: TYPE_NORMAL altsyncram_db0_waveforms.html FALSE -- Retrieval info: GEN_FILE: TYPE_NORMAL altsyncram_db0_wave*.jpg FALSE -- Retrieval info: LIB_FILE: altera_mf
-- NEED RESULT: ARCH00471: Object declarations passed ------------------------------------------------------------------------------- -- -- Copyright (c) 1989 by Intermetrics, Inc. -- All rights reserved. -- ------------------------------------------------------------------------------- -- -- TEST NAME: -- -- CT00471 -- -- AUTHOR: -- -- D. Hyman -- -- TEST OBJECTIVES: -- -- 12.3.1.4 (1) -- -- DESIGN UNIT ORDERING: -- -- E00000(ARCH00471) -- ENT00471_Test_Bench(ARCH00471_Test_Bench) -- -- REVISION HISTORY: -- -- 5-AUG-1987 - initial revision -- -- NOTES: -- -- self-checking -- -- use WORK.STANDARD_TYPES.all ; architecture ARCH00471 of E00000 is begin P : process variable a,b : WORK.STANDARD_TYPES.st_arr1 ; begin for i in st_arr1'left to st_arr1'right loop a (i) := 8 ; b (i) := st_int1 ( 2 * (i+5) ) ; end loop ; a (2 to 4) := b (3 to 5) ; test_report ( "ARCH00471" , "Object declarations" , (a(1) = 8) and (a(2) = 2 * 8) and (a(3) = 2 * 9) and (a(4) = 2 * 10) and (a(5) = 8) ) ; wait ; end process P ; end ARCH00471 ; entity ENT00471_Test_Bench is end ENT00471_Test_Bench ; architecture ARCH00471_Test_Bench of ENT00471_Test_Bench is begin L1: block component UUT end component ; for CIS1 : UUT use entity WORK.E00000 ( ARCH00471 ) ; begin CIS1 : UUT ; end block L1 ; end ARCH00471_Test_Bench ;
------------------------------------------------------------------------------- -- Entity: mcu_pkg -- Author: Waj ------------------------------------------------------------------------------- -- Description: -- VHDL package for definition of design parameters and types used throughout -- the MCU. ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; package mcu_pkg is ----------------------------------------------------------------------------- -- tool chain selection (because no suppoprt of 'val attritube in ISE XST) ----------------------------------------------------------------------------- constant ISE_TOOL : boolean := true; -- true = ISE XST -- false = other synthesizer (e.g. Vivado) -- system clock frequency in Hz constant CF : natural := 50_000_000; -- 50 MHz ----------------------------------------------------------------------------- -- Helper functions (prototypes) ----------------------------------------------------------------------------- -- std_logic_vector(to_signed(i,w)) function i2slv(i : integer; w : positive) return std_logic_vector; -- std_logic_vector(to_unsigned(n,w)) function n2slv(n : natural; w : positive) return std_logic_vector; ----------------------------------------------------------------------------- -- design parameters: Memory Map ----------------------------------------------------------------------------- -- bus architecture parameters constant DW : natural range 4 to 64 := 16; -- data word width constant AW : natural range 2 to 64 := 10; -- total address width constant AWH : natural range 1 to 64 := 4; -- high address width constant AWL : natural range 1 to 64 := AW-AWH; -- low address width -- memory map type t_bus_slave is (ROM, RAM, GPIO, FMC, TIM, UART); -- list of bus slaves type t_ba is array (t_bus_slave) of std_logic_vector(AW-1 downto 0); constant BA : t_ba := ( -- full base addresses ROM => "0-" & "----" & "----", RAM => "10" & "----" & "----", GPIO => "11" & "00--" & "----", FMC => "11" & "01--" & "----", TIM => "11" & "10--" & "----", UART => "11" & "11--" & "----" ); type t_hba is array (t_bus_slave) of std_logic_vector(AWH-1 downto 0); constant HBA : t_hba := ( -- high base address for decoding ROM => BA(ROM) (AW-1 downto AW-AWH), RAM => BA(RAM) (AW-1 downto AW-AWH), GPIO => BA(GPIO)(AW-1 downto AW-AWH), FMC => BA(FMC) (AW-1 downto AW-AWH), TIM => BA(TIM) (AW-1 downto AW-AWH), UART => BA(UART)(AW-1 downto AW-AWH) ); -- Relative Register Addresses of Peripherals -- GPIO constant c_addr_gpio_data_in : std_logic_vector(AWL-1 downto 0) := n2slv( 0, AWL); constant c_addr_gpio_data_out : std_logic_vector(AWL-1 downto 0) := n2slv( 1, AWL); constant c_addr_gpio_out_enb : std_logic_vector(AWL-1 downto 0) := n2slv( 2, AWL); constant c_addr_enc_ctrl : std_logic_vector(AWL-1 downto 0) := n2slv( 3, AWL); constant c_addr_enc_dist : std_logic_vector(AWL-1 downto 0) := n2slv( 4, AWL); constant c_addr_enc_pos : std_logic_vector(AWL-1 downto 0) := n2slv( 5, AWL); constant c_addr_enc_neg : std_logic_vector(AWL-1 downto 0) := n2slv( 6, AWL); type t_gpio_addr_sel is (none, gpio_data_in, gpio_data_out, gpio_enb, enc_ctrl, enc_dist, enc_pos, enc_neg); -- FMC -- TIM -- UART ----------------------------------------------------------------------------- -- design parameters: CPU Instructions ----------------------------------------------------------------------------- -- CPU instruction set -- Note: Defining the OPcode in the way shown below, allows assembler-style -- programming with mnemonics rather than machine coding (see rom.vhd). constant OPCW : natural range 1 to DW := 5; -- Opcode word width constant OPAW : natural range 1 to DW := 4; -- ALU operation word width constant IOWW : natural range 1 to DW := 8; -- immediate operand word width type t_instr is (add, sub, andi, ori, xori, slai, srai, mov, ld, st, addil, addih, setil, setih, jmp, bne, bge, blt, bca, bov, nop); -- Instructions targeted at the ALU are defined by means of a sub-type. -- This allows changing the opcode of instructions without having to -- modify the source code of the ALU. subtype t_alu_instr is t_instr range add to mov; type t_opcode is array (t_instr) of std_logic_vector(OPCW-1 downto 0); constant OPC : t_opcode := ( -- OPcode -- ALU operations ------------------------------- add => "00000", -- 0: addition sub => "00001", -- 1: subtraction andi => "00010", -- 2: bit-wise AND ori => "00011", -- 3: bit-wise OR xori => "00100", -- 4: bit-wise XOR slai => "00101", -- 5: shift-left arithmetically srai => "00110", -- 6: shift-right arithmetically mov => "00111", -- 7: move between register -- Immediate Operands --------------------------- addil => "01100", -- 12: add imm. constant low addih => "01101", -- 13: add imm. constant high setil => "01110", -- 14: set imm. constant low setih => "01111", -- 15: set imm. constant high -- Memory load/store ---------------------------- ld => "10000", -- 16: load from memory st => "10001", -- 17: store to memory -- Jump/Branch ---------------------------------- jmp => "11000", -- 24: absolute jump bne => "11001", -- 25: branch if not equal (not Z) bge => "11010", -- 26: branch if greater/equal (not N or Z) blt => "11011", -- 27: branch if less than (N) bca => "11100", -- 28: branch if carry set (C) bov => "11101", -- 29: branch if overflow set (O) -- Others --------------------------------------- nop => "11111" -- 31: no operation ); type t_flags is (Z, N, C, O); -- ALU flags (zero, negative, carry, overflow) type t_flag_arr is array (t_flags) of std_logic; -- register block constant RIDW : natural range 1 to DW := 3; -- register ID word width type t_regid is array(0 to 7) of std_logic_vector(RIDW-1 downto 0); constant reg : t_regid := ("000","001","010","011","100","101","110","111"); type t_regblk is array(0 to 7) of std_logic_vector(DW-1 downto 0); -- CPU address generation type t_pc_mode is (linear, abs_jump, rel_offset); -- addr calcultion modi type t_addr_exc is (no_err, lin_err, rel_err); -- address exceptions ----------------------------------------------------------------------------- -- global types ----------------------------------------------------------------------------- -- Master bus interface ----------------------------------------------------- type t_bus2cpu is record data : std_logic_vector(DW-1 downto 0); end record; type t_cpu2bus is record data : std_logic_vector(DW-1 downto 0); addr : std_logic_vector(AW-1 downto 0); rd_enb : std_logic; wr_enb : std_logic; end record; -- Read-only slave bus interface ------------------------------------------- type t_bus2ros is record addr : std_logic_vector(AWL-1 downto 0); rd_enb : std_logic; end record; type t_ros2bus is record data : std_logic_vector(DW-1 downto 0); end record; -- read/write slave bus interface ------------------------------------------- type t_bus2rws is record addr : std_logic_vector(AWL-1 downto 0); data : std_logic_vector(DW-1 downto 0); rd_enb : std_logic; -- use of this signal is optional, depending on slave wr_enb : std_logic; end record; type t_rws2bus is record data : std_logic_vector(DW-1 downto 0); end record; ----------------------------------------------------------------------------- -- CPU internal types ----------------------------------------------------------------------------- -- Control Unit / Register Block interface ---------------------------------- type t_ctr2reg is record src1 : std_logic_vector(RIDW-1 downto 0); src2 : std_logic_vector(RIDW-1 downto 0); dest : std_logic_vector(RIDW-1 downto 0); enb_res : std_logic; data : std_logic_vector(DW-1 downto 0); enb_data : std_logic; end record; type t_reg2ctr is record data : std_logic_vector(DW-1 downto 0); addr : std_logic_vector(AW-1 downto 0); end record; -- Control Unit / Program Counter interface -------------------------------- type t_ctr2prc is record enb : std_logic; mode : t_pc_mode; addr : std_logic_vector(AW-1 downto 0); end record; type t_prc2ctr is record pc : std_logic_vector(AW-1 downto 0); exc : t_addr_exc; end record; -- Control Unit / ALU interface --------------------------------------------- type t_ctr2alu is record op : std_logic_vector(OPAW-1 downto 0); -- operation imm : std_logic_vector(IOWW-1 downto 0); -- immediate operand enb : std_logic; -- enable flag update end record; type t_alu2ctr is record flag : t_flag_arr; end record; end package mcu_pkg; package body mcu_pkg is ----------------------------------------------------------------------------- -- Function Implementations ----------------------------------------------------------------------------- function i2slv(i : integer;w : positive) return std_logic_vector is begin return std_logic_vector(to_signed(i,w)); end function i2slv; function n2slv(n : natural;w : positive) return std_logic_vector is begin return std_logic_vector(to_unsigned(n,w)); end function n2slv; end package body mcu_pkg;
entity file4 is end entity; architecture test of file4 is type natural_vector is array (natural range <>) of natural; subtype natural5 is natural_vector(1 to 5); type ft is file of natural5; begin process is file f : ft; variable v : natural5; begin file_open(f, "test.bin", WRITE_MODE); v := (1, 2, 3, 4, 5); write(f, v); file_close(f); v := (others => 0); file_open(f, "test.bin", READ_MODE); read(f, v); file_close(f); assert v = (1, 2, 3, 4, 5); wait; end process; end architecture;
-- ********************************** -- Automatically Generated FSM -- mergesort -- ******************************** -- ****************** -- Library inclusions -- ****************** library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_arith.all; use ieee.std_logic_unsigned.all; use ieee.numeric_std.all; -- ****************** -- Entity Definition -- ****************** entity mergesort is generic( G_ADDR_WIDTH : integer := 32; G_DATA_WIDTH : integer := 32 ); port ( array0_addr0 : out std_logic_vector(0 to (G_ADDR_WIDTH - 1)); array0_dIN0 : out std_logic_vector(0 to (G_DATA_WIDTH - 1)); array0_dOUT0 : in std_logic_vector(0 to (G_DATA_WIDTH - 1)); array0_rENA0 : out std_logic; array0_wENA0 : out std_logic; array1_addr0 : out std_logic_vector(0 to (G_ADDR_WIDTH - 1)); array1_dIN0 : out std_logic_vector(0 to (G_DATA_WIDTH - 1)); array1_dOUT0 : in std_logic_vector(0 to (G_DATA_WIDTH - 1)); array1_rENA0 : out std_logic; array1_wENA0 : out std_logic; chan1_channelDataIn : out std_logic_vector(0 to (32 - 1)); chan1_channelDataOut : in std_logic_vector(0 to (32 - 1)); chan1_exists : in std_logic; chan1_full : in std_logic; chan1_channelRead : out std_logic; chan1_channelWrite : out std_logic; clock_sig : in std_logic; reset_sig : in std_logic ); end entity mergesort; -- ********************* -- Architecture Definition -- ********************* architecture IMPLEMENTATION of mergesort is component infer_bram generic ( ADDRESS_BITS : integer := 9; DATA_BITS : integer := 32 ); port ( CLKA : in std_logic; ENA : in std_logic; WEA : in std_logic; ADDRA : in std_logic_vector(0 to (ADDRESS_BITS - 1)); DIA : in std_logic_vector(0 to (DATA_BITS - 1)); DOA : out std_logic_vector(0 to (DATA_BITS - 1)); CLKB : in std_logic; ENB : in std_logic; WEB : in std_logic; ADDRB : in std_logic_vector(0 to (ADDRESS_BITS - 1)); DIB : in std_logic_vector(0 to (DATA_BITS - 1)); DOB : out std_logic_vector(0 to (DATA_BITS - 1)) ); end component infer_BRAM; -- ************************************************ -- Type definitions for state signals -- ************************************************ type STATE_MACHINE_TYPE is ( reset, idle, decode, dispatch, begin_sort, extra1, begin_merge, halt, extra2, merge_loop, extra3, extra4, extra5, for_loop, extra6, cond_check, cond_body ); signal current_state,next_state: STATE_MACHINE_TYPE :=reset; -- ************************************************ -- Type definitions for FSM signals -- ************************************************ signal swapped, swapped_next : std_logic; signal n, n_next : std_logic_vector(0 to G_ADDR_WIDTH - 1); signal n_new, n_new_next : std_logic_vector(0 to G_ADDR_WIDTH - 1); signal i, i_next : std_logic_vector(0 to G_ADDR_WIDTH - 1); signal data1, data1_next : std_logic_vector(0 to G_DATA_WIDTH - 1); signal data2, data2_next : std_logic_vector(0 to G_DATA_WIDTH - 1); signal size, size_next : std_logic_vector(0 to G_ADDR_WIDTH - 1); signal ptr1, ptr1_next : std_logic_vector(0 to G_DATA_WIDTH - 1); signal ptr2, ptr2_next : std_logic_vector(0 to G_DATA_WIDTH - 1); signal arg1, arg1_next : std_logic_vector(0 to G_DATA_WIDTH - 1); signal arg2, arg2_next : std_logic_vector(0 to G_DATA_WIDTH - 1); signal opcode, opcode_next : std_logic_vector(0 to 1); -- ************************************************ -- User-defined VHDL Section -- ************************************************ -- Architecture Section begin -- ******************** -- Permanent Connections -- ******************** -- ******************** -- BRAM implementations -- ******************** -- ************************************************ -- Process to handle the synchronous portion of an FSM -- ************************************************ FSM_SYNC_PROCESS : process( swapped_next, n_next, n_new_next, i_next, data1_next, data2_next, size_next, ptr1_next, ptr2_next, arg1_next, arg2_next, opcode_next, next_state, clock_sig, reset_sig) is begin if (clock_sig'event and clock_sig = '1') then if (reset_sig = '1') then -- Reset all FSM signals, and enter the initial state swapped <= '0'; n <= (others => '0'); n_new <= (others => '0'); i <= (others => '0'); data1 <= (others => '0'); data2 <= (others => '0'); size <= (others => '0'); ptr1 <= (others => '0'); ptr2 <= (others => '0'); arg1 <= (others => '0'); arg2 <= (others => '0'); opcode <= (others => '0'); current_state <= reset; else -- Transition to next state swapped <= swapped_next; n <= n_next; n_new <= n_new_next; i <= i_next; data1 <= data1_next; data2 <= data2_next; size <= size_next; ptr1 <= ptr1_next; ptr2 <= ptr2_next; arg1 <= arg1_next; arg2 <= arg2_next; opcode <= opcode_next; current_state <= next_state; end if; end if; end process FSM_SYNC_PROCESS; -- ******************************************************************** -- Process to handle the asynchronous (combinational) portion of an FSM -- ******************************************************************** FSM_COMB_PROCESS : process( array0_dOUT0, array1_dOUT0, chan1_channelDataOut, chan1_full, chan1_exists, swapped, n, n_new, i, data1, data2, size, ptr1, ptr2, arg1, arg2, opcode, current_state) is begin -- Default signal assignments swapped_next <= swapped; n_next <= n; n_new_next <= n_new; i_next <= i; data1_next <= data1; data2_next <= data2; size_next <= size; ptr1_next <= ptr1; ptr2_next <= ptr2; arg1_next <= arg1; arg2_next <= arg2; opcode_next <= opcode; array0_addr0 <= (others => '0'); array0_dIN0 <= (others => '0'); array0_rENA0 <= '0'; array0_wENA0 <= '0'; array1_addr0 <= (others => '0'); array1_dIN0 <= (others => '0'); array1_rENA0 <= '0'; array1_wENA0 <= '0'; chan1_channelDataIn <= (others => '0'); chan1_channelRead <= '0'; chan1_channelWrite <= '0'; next_state <= current_state; -- FSM logic case (current_state) is when begin_merge => array0_addr0 <= arg2; array0_rENA0 <= '1'; next_state <= extra2; when begin_sort => if ( swapped = '0' ) then next_state <= halt; elsif ( swapped = '1' ) then array0_addr0 <= arg1; array0_rENA0 <= '1'; next_state <= extra5; end if; when cond_body => i_next <= i + 1; swapped_next <= '1'; n_new_next <= i; array0_addr0 <= i + 1; array0_dIN0 <= data1; array0_wENA0 <= '1'; array0_rENA0 <= '1'; next_state <= for_loop; when cond_check => if ( data1 <= data2 ) then i_next <= i + 1; data1_next <= data2; next_state <= for_loop; elsif ( data1 > data2 ) then array0_addr0 <= i; array0_dIN0 <= data2; array0_wENA0 <= '1'; array0_rENA0 <= '1'; next_state <= cond_body; end if; when decode => opcode_next <= n(0 to 1); arg2_next <= "00000000000000000" & n(2 to 16); arg1_next <= "00000000000000000" & n(17 to 31); next_state <= dispatch; when dispatch => if ( opcode = "00" ) then swapped_next <= '1'; n_next <= arg2; n_new_next <= arg2; next_state <= begin_sort; elsif ( opcode = "01" ) then array0_addr0 <= arg1; array0_rENA0 <= '1'; next_state <= extra1; else next_state <= halt; end if; when extra1 => if chan1_exists = '0' then next_state <= extra1; elsif chan1_exists /= '0' then data1_next <= array0_dOUT0; i_next <= (others => '0'); size_next <= chan1_channelDataOut; chan1_channelRead <= '1'; ptr2_next <= arg2 + 1; ptr1_next <= arg1 + 1; next_state <= begin_merge; end if; when extra2 => data2_next <= array0_dOUT0; next_state <= merge_loop; when extra3 => i_next <= i + 1; data1_next <= array0_dOUT0; array1_addr0 <= i; array1_dIN0 <= data1; array1_wENA0 <= '1'; array1_rENA0 <= '1'; ptr1_next <= ptr1 + 1; next_state <= merge_loop; when extra4 => i_next <= i + 1; data2_next <= array0_dOUT0; array1_addr0 <= i; array1_dIN0 <= data2; array1_wENA0 <= '1'; array1_rENA0 <= '1'; ptr2_next <= ptr2 + 1; next_state <= merge_loop; when extra5 => data1_next <= array0_dOUT0; i_next <= arg1; swapped_next <= '0'; next_state <= for_loop; when extra6 => data2_next <= array0_dOUT0; next_state <= cond_check; when for_loop => if ( i >= n ) then n_next <= n_new; next_state <= begin_sort; elsif ( i < n ) then array0_addr0 <= i + 1; array0_rENA0 <= '1'; next_state <= extra6; end if; when halt => if chan1_full /= '0' then next_state <= halt; elsif chan1_full = '0' then chan1_channelDataIn <= (others => '0'); chan1_channelWrite <= '1'; next_state <= idle; end if; when idle => if chan1_exists = '0' then next_state <= idle; elsif chan1_exists /= '0' then n_next <= chan1_channelDataOut; chan1_channelRead <= '1'; next_state <= decode; end if; when merge_loop => if ( ( i < size ) and ( ( ( data1 < data2 ) and ( ptr1 - ('0' & size(0 to 30)) <= arg1 ) ) or ( ptr2 - ('0' & size(0 to 30)) > arg2 ) ) ) then array0_addr0 <= ptr1; array0_rENA0 <= '1'; next_state <= extra3; elsif ( ( i < size ) and ( ( ( data1 >= data2 ) and ( ptr2 - ('0' & size(0 to 30)) <= arg2 ) ) or ( ptr1 - ('0' & size(0 to 30)) > arg1 ) ) ) then array0_addr0 <= ptr2; array0_rENA0 <= '1'; next_state <= extra4; else next_state <= halt; end if; when reset => next_state <= idle; when others => next_state <= reset; end case; end process FSM_COMB_PROCESS; end architecture IMPLEMENTATION; -- $$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$ -- $$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$ -- ******************************************** -- Entity used for implementing the inferred BRAMs -- ******************************************** library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_arith.all; use IEEE.std_logic_unsigned.all; use IEEE.std_logic_misc.all; use IEEE.std_logic_misc.all; use IEEE.numeric_std.all; -- ********************************************************************* -- Entity declaration -- ********************************************************************* entity infer_bram is generic ( ADDRESS_BITS : integer := 9; DATA_BITS : integer := 32 ); port ( CLKA : in std_logic; ENA : in std_logic; WEA : in std_logic; ADDRA : in std_logic_vector(0 to (ADDRESS_BITS - 1)); DIA : in std_logic_vector(0 to (DATA_BITS - 1)); DOA : out std_logic_vector(0 to (DATA_BITS - 1)); CLKB : in std_logic; ENB : in std_logic; WEB : in std_logic; ADDRB : in std_logic_vector(0 to (ADDRESS_BITS - 1)); DIB : in std_logic_vector(0 to (DATA_BITS - 1)); DOB : out std_logic_vector(0 to (DATA_BITS - 1)) ); end entity infer_bram; -- ********************************************************************* -- Architecture declaration -- ********************************************************************* architecture implementation of infer_bram is -- Constant declarations constant BRAM_SIZE : integer := 2 ADDRESS_BITS; -- # of entries in the inferred BRAM -- BRAM data storage (array) type bram_storage is array( 0 to BRAM_SIZE - 1 ) of std_logic_vector( 0 to DATA_BITS - 1 ); shared variable BRAM_DATA : bram_storage; -- attribute ram_style : string; -- attribute ram_style of BRAM_DATA : signal is "block"; begin -- *********************************************************************** -- Process: BRAM_CONTROLLER_A -- Purpose: Controller for Port A of inferred dual-port BRAM, BRAM_DATA -- ********************************************************************* BRAM_CONTROLLER_A : process(CLKA) is begin if( CLKA'event and CLKA = '1' ) then if( ENA = '1' ) then if( WEA = '1' ) then BRAM_DATA( conv_integer(ADDRA) ) := DIA; end if; DOA <= BRAM_DATA( conv_integer(ADDRA) ); end if; end if; end process BRAM_CONTROLLER_A; -- ********************************************************************* -- Process: BRAM_CONTROLLER_B -- Purpose: Controller for Port B of inferred dual-port BRAM, BRAM_DATA -- *********************************************************************** BRAM_CONTROLLER_B : process(CLKB) is begin if( CLKB'event and CLKB = '1' ) then if( ENB = '1' ) then if( WEB = '1' ) then BRAM_DATA( conv_integer(ADDRB) ) := DIB; end if; DOB <= BRAM_DATA( conv_integer(ADDRB) ); end if; end if; end process BRAM_CONTROLLER_B; end architecture implementation;
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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block Jg7ZSB2xI/J/jQikm8Zlko862zAjpKBGuPSRLj2TaHEWC5rTzr3rFiYHZX6yv0DYk/Y584dxn1Aj ZJ3fEMF2Eg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block J8XF87MjtG6MD92nYNEuYX3aIPS/zAQYepXrxQuouCoZ7DifIM+PcGRYhyHbT1c+x8wNqIyddvPX H9E20LneyNoZup9aJc0KklSHkCBi4RFSlJYfEHGi7VuQ4DoNHay9ZZOx7KnkG5nTkuG8dZKhL494 1mvb9OIoIew9S5frQi8= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block FESqZcf5Kd2nw6uez2DBxPYJSBV8lpPPNkL9mii7n9rOA23QnwFT4gzsX2GnAKh0RRoHvqDgwQe2 oriJIgtSnO9GoEYt557lwN4pjAIARzzVKmQozG4a0ZADHcAuh9dE9U2pgm4IYqaA0WHemsJP3RdH ZWLIA5hjsrEEni35ostJyYxky5xMLNN1/n6HMS0umCbRhs8srgz/a5uvWD7FFpEZ2a0utgDi9MEX Ot7P9GN3AM5Ug4guXH512IazlVntMqLUCdCGexOO2NqFhGpAvwGxJCtx5XjHjmGW+9m1bqRxt0uC W0qg1W0dWBjrERQ1cn2SGOV3FZ9QqHCbH1eBSw== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block sBWw2a997MC11UDckC6eUhzOMD6OyRi9hIrFSmKM1LtA+EoEe9hBOU+xWnNJxZwh5q/2lTaLVnRD SOXNd1eh6E6oJtNfyy/eD/u9oSEqrtEAnNkzfHKZvGwMHsKFUk23bSYe/H7pvyiU6gwLB/zQXKRM aU3uU6qaXWsFaGyQrek= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block I+E3SG6eIVl+eQQNtE5uT75GDZk2w8MwukclTFsLuB0JtjwI9/9l+wqqevSEAZVNako39sma+Yy+ 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block Jg7ZSB2xI/J/jQikm8Zlko862zAjpKBGuPSRLj2TaHEWC5rTzr3rFiYHZX6yv0DYk/Y584dxn1Aj ZJ3fEMF2Eg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block J8XF87MjtG6MD92nYNEuYX3aIPS/zAQYepXrxQuouCoZ7DifIM+PcGRYhyHbT1c+x8wNqIyddvPX H9E20LneyNoZup9aJc0KklSHkCBi4RFSlJYfEHGi7VuQ4DoNHay9ZZOx7KnkG5nTkuG8dZKhL494 1mvb9OIoIew9S5frQi8= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block Jg7ZSB2xI/J/jQikm8Zlko862zAjpKBGuPSRLj2TaHEWC5rTzr3rFiYHZX6yv0DYk/Y584dxn1Aj ZJ3fEMF2Eg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block J8XF87MjtG6MD92nYNEuYX3aIPS/zAQYepXrxQuouCoZ7DifIM+PcGRYhyHbT1c+x8wNqIyddvPX H9E20LneyNoZup9aJc0KklSHkCBi4RFSlJYfEHGi7VuQ4DoNHay9ZZOx7KnkG5nTkuG8dZKhL494 1mvb9OIoIew9S5frQi8= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block Jg7ZSB2xI/J/jQikm8Zlko862zAjpKBGuPSRLj2TaHEWC5rTzr3rFiYHZX6yv0DYk/Y584dxn1Aj ZJ3fEMF2Eg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block J8XF87MjtG6MD92nYNEuYX3aIPS/zAQYepXrxQuouCoZ7DifIM+PcGRYhyHbT1c+x8wNqIyddvPX H9E20LneyNoZup9aJc0KklSHkCBi4RFSlJYfEHGi7VuQ4DoNHay9ZZOx7KnkG5nTkuG8dZKhL494 1mvb9OIoIew9S5frQi8= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block Jg7ZSB2xI/J/jQikm8Zlko862zAjpKBGuPSRLj2TaHEWC5rTzr3rFiYHZX6yv0DYk/Y584dxn1Aj ZJ3fEMF2Eg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block J8XF87MjtG6MD92nYNEuYX3aIPS/zAQYepXrxQuouCoZ7DifIM+PcGRYhyHbT1c+x8wNqIyddvPX H9E20LneyNoZup9aJc0KklSHkCBi4RFSlJYfEHGi7VuQ4DoNHay9ZZOx7KnkG5nTkuG8dZKhL494 1mvb9OIoIew9S5frQi8= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block Jg7ZSB2xI/J/jQikm8Zlko862zAjpKBGuPSRLj2TaHEWC5rTzr3rFiYHZX6yv0DYk/Y584dxn1Aj ZJ3fEMF2Eg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block J8XF87MjtG6MD92nYNEuYX3aIPS/zAQYepXrxQuouCoZ7DifIM+PcGRYhyHbT1c+x8wNqIyddvPX H9E20LneyNoZup9aJc0KklSHkCBi4RFSlJYfEHGi7VuQ4DoNHay9ZZOx7KnkG5nTkuG8dZKhL494 1mvb9OIoIew9S5frQi8= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block Jg7ZSB2xI/J/jQikm8Zlko862zAjpKBGuPSRLj2TaHEWC5rTzr3rFiYHZX6yv0DYk/Y584dxn1Aj ZJ3fEMF2Eg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block J8XF87MjtG6MD92nYNEuYX3aIPS/zAQYepXrxQuouCoZ7DifIM+PcGRYhyHbT1c+x8wNqIyddvPX H9E20LneyNoZup9aJc0KklSHkCBi4RFSlJYfEHGi7VuQ4DoNHay9ZZOx7KnkG5nTkuG8dZKhL494 1mvb9OIoIew9S5frQi8= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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------------------------------------------------------------------------------- -- ua_narrow.vhd ------------------------------------------------------------------------------- -- -- -- (c) Copyright [2010 - 2013] Xilinx, Inc. All rights reserved. -- -- This file contains confidential and proprietary information -- of Xilinx, Inc. and is protected under U.S. and -- international copyright and other intellectual property -- laws. -- -- DISCLAIMER -- This disclaimer is not a license and does not grant any -- rights to the materials distributed herewith. Except as -- otherwise provided in a valid license issued to you by -- Xilinx, and to the maximum extent permitted by applicable -- law: (1) THESE MATERIALS ARE MADE AVAILABLE "AS IS" AND -- WITH ALL FAULTS, AND XILINX HEREBY DISCLAIMS ALL WARRANTIES -- AND CONDITIONS, EXPRESS, IMPLIED, OR STATUTORY, INCLUDING -- BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, NON- -- INFRINGEMENT, OR FITNESS FOR ANY PARTICULAR PURPOSE; and -- (2) Xilinx shall not be liable (whether in contract or tort, -- including negligence, or under any other theory of -- liability) for any loss or damage of any kind or nature -- related to, arising under or in connection with these -- materials, including for any direct, or any indirect, -- special, incidental, or consequential loss or damage -- (including loss of data, profits, goodwill, or any type of -- loss or damage suffered as a result of any action brought -- by a third party) even if such damage or loss was -- reasonably foreseeable or Xilinx had been advised of the -- possibility of the same. -- -- CRITICAL APPLICATIONS -- Xilinx products are not designed or intended to be fail- -- safe, or for use in any application requiring fail-safe -- performance, such as life-support or safety devices or -- systems, Class III medical devices, nuclear facilities, -- applications related to the deployment of airbags, or any -- other applications that could lead to death, personal -- injury, or severe property or environmental damage -- (individually and collectively, "Critical -- Applications"). Customer assumes the sole risk and -- liability of any use of Xilinx products in Critical -- Applications, subject only to applicable laws and -- regulations governing limitations on product liability. -- -- THIS COPYRIGHT NOTICE AND DISCLAIMER MUST BE RETAINED AS -- PART OF THIS FILE AT ALL TIMES. -- -- ------------------------------------------------------------------------------- -- Filename: ua_narrow.vhd -- -- Description: Creates a narrow burst count load value when an operation -- is an unaligned narrow WRAP or INCR burst type. Used by -- I_NARROW_CNT module. -- -- VHDL-Standard: VHDL'93 -- ------------------------------------------------------------------------------- -- Structure: -- axi_bram_ctrl.vhd (v1_03_a) -- \| -- \|-- full_axi.vhd -- \| -- sng_port_arb.vhd -- \| -- lite_ecc_reg.vhd -- \| -- axi_lite_if.vhd -- \| -- wr_chnl.vhd -- \| -- wrap_brst.vhd -- \| -- ua_narrow.vhd -- \| -- checkbit_handler.vhd -- \| -- xor18.vhd -- \| -- parity.vhd -- \| -- checkbit_handler_64.vhd -- \| -- (same helper components as checkbit_handler) -- \| -- parity.vhd -- \| -- correct_one_bit.vhd -- \| -- correct_one_bit_64.vhd -- \| -- ecc_gen.vhd -- \| -- \| -- rd_chnl.vhd -- \| -- wrap_brst.vhd -- \| -- ua_narrow.vhd -- \| -- checkbit_handler.vhd -- \| -- xor18.vhd -- \| -- parity.vhd -- \| -- checkbit_handler_64.vhd -- \| -- (same helper components as checkbit_handler) -- \| -- parity.vhd -- \| -- correct_one_bit.vhd -- \| -- correct_one_bit_64.vhd -- \| -- ecc_gen.vhd -- \| -- \|-- axi_lite.vhd -- \| -- lite_ecc_reg.vhd -- \| -- axi_lite_if.vhd -- \| -- checkbit_handler.vhd -- \| -- xor18.vhd -- \| -- parity.vhd -- \| -- correct_one_bit.vhd -- -- -- ------------------------------------------------------------------------------- -- -- History: -- -- ^^^^^^ -- JLJ 2/2/2011 v1.03a -- ~~~~~~ -- Migrate to v1.03a. -- Plus minor code cleanup. -- ^^^^^^ -- JLJ 2/4/2011 v1.03a -- ~~~~~~ -- Edit for scalability and support of 512 and 1024-bit data widths. -- ^^^^^^ -- JLJ 2/8/2011 v1.03a -- ~~~~~~ -- Update bit vector usage of address LSB for calculating ua_narrow_load. -- Add axi_bram_ctrl_funcs package inclusion. -- ^^^^^^ -- JLJ 3/1/2011 v1.03a -- ~~~~~~ -- Fix XST handling for DIV functions. Create seperate process when -- divisor is not constant and a power of two. -- ^^^^^^ -- JLJ 3/2/2011 v1.03a -- ~~~~~~ -- Update range of integer signals. -- ^^^^^^ -- JLJ 3/4/2011 v1.03a -- ~~~~~~ -- Remove use of local function, Create_Size_Max. -- ^^^^^^ -- JLJ 3/11/2011 v1.03a -- ~~~~~~ -- Remove C_AXI_DATA_WIDTH generate statments. -- ^^^^^^ -- JLJ 3/14/2011 v1.03a -- ~~~~~~ -- Update ua_narrow_load signal assignment to pass simulations & XST. -- ^^^^^^ -- JLJ 3/15/2011 v1.03a -- ~~~~~~ -- Update multiply function on signal, ua_narrow_wrap_gt_width, -- for timing path improvements. Replace with left shift operation. -- ^^^^^^ -- JLJ 3/17/2011 v1.03a -- ~~~~~~ -- Add comments as noted in Spyglass runs. And general code clean-up. -- ^^^^^^ -- -- ------------------------------------------------------------------------------- -- Library declarations library IEEE; use IEEE.std_logic_1164.all; use IEEE.numeric_std.all; library work; use work.axi_bram_ctrl_funcs.all; ------------------------------------------------------------------------------ entity ua_narrow is generic ( C_AXI_DATA_WIDTH : integer := 32; -- Width of AXI data bus (in bits) C_BRAM_ADDR_ADJUST_FACTOR : integer := 32; -- Adjust BRAM address width based on C_AXI_DATA_WIDTH C_NARROW_BURST_CNT_LEN : integer := 4 -- Size of narrow burst counter ); port ( curr_wrap_burst : in std_logic; curr_incr_burst : in std_logic; bram_addr_ld_en : in std_logic; curr_axlen : in std_logic_vector (7 downto 0) := (others => '0'); curr_axsize : in std_logic_vector (2 downto 0) := (others => '0'); curr_axaddr_lsb : in std_logic_vector (C_BRAM_ADDR_ADJUST_FACTOR-1 downto 0) := (others => '0'); curr_ua_narrow_wrap : out std_logic; curr_ua_narrow_incr : out std_logic; ua_narrow_load : out std_logic_vector (C_NARROW_BURST_CNT_LEN-1 downto 0) := (others => '0') ); end entity ua_narrow; ------------------------------------------------------------------------------- architecture implementation of ua_narrow is attribute DowngradeIPIdentifiedWarnings: string; attribute DowngradeIPIdentifiedWarnings of implementation : architecture is "yes"; ------------------------------------------------------------------------------- -- Functions ------------------------------------------------------------------------------- -- All functions defined in axi_bram_ctrl_funcs package. ------------------------------------------------------------------------------- -- Constants ------------------------------------------------------------------------------- -- Reset active level (common through core) constant C_RESET_ACTIVE : std_logic := '0'; -- AXI Size Constants -- constant C_AXI_SIZE_1BYTE : std_logic_vector (2 downto 0) := "000"; -- 1 byte -- constant C_AXI_SIZE_2BYTE : std_logic_vector (2 downto 0) := "001"; -- 2 bytes -- constant C_AXI_SIZE_4BYTE : std_logic_vector (2 downto 0) := "010"; -- 4 bytes = max size for 32-bit BRAM -- constant C_AXI_SIZE_8BYTE : std_logic_vector (2 downto 0) := "011"; -- 8 bytes = max size for 64-bit BRAM -- constant C_AXI_SIZE_16BYTE : std_logic_vector (2 downto 0) := "100"; -- 16 bytes = max size for 128-bit BRAM -- constant C_AXI_SIZE_32BYTE : std_logic_vector (2 downto 0) := "101"; -- 32 bytes = max size for 256-bit BRAM -- constant C_AXI_SIZE_64BYTE : std_logic_vector (2 downto 0) := "110"; -- 64 bytes = max size for 512-bit BRAM -- constant C_AXI_SIZE_128BYTE : std_logic_vector (2 downto 0) := "111"; -- 128 bytes = max size for 1024-bit BRAM -- Determine max value of ARSIZE based on the AXI data width. -- Use function in axi_bram_ctrl_funcs package. constant C_AXI_SIZE_MAX : std_logic_vector (2 downto 0) := Create_Size_Max (C_AXI_DATA_WIDTH); -- Determine the number of bytes based on the AXI data width. constant C_AXI_DATA_WIDTH_BYTES : integer := C_AXI_DATA_WIDTH/8; constant C_AXI_DATA_WIDTH_BYTES_LOG2 : integer := log2(C_AXI_DATA_WIDTH_BYTES); -- Use constant to compare when LSB of ADDR is equal to zero. constant axaddr_lsb_zero : std_logic_vector (C_BRAM_ADDR_ADJUST_FACTOR-1 downto 0) := (others => '0'); -- 8d = size of AxLEN vector constant C_MAX_LSHIFT_SIZE : integer := C_AXI_DATA_WIDTH_BYTES_LOG2 + 8; -- Convert # of data bytes for AXI data bus into an unsigned vector (C_MAX_LSHIFT_SIZE:0). constant C_AXI_DATA_WIDTH_BYTES_UNSIGNED : unsigned (C_MAX_LSHIFT_SIZE downto 0) := to_unsigned (C_AXI_DATA_WIDTH_BYTES, C_MAX_LSHIFT_SIZE+1); ------------------------------------------------------------------------------- -- Signals ------------------------------------------------------------------------------- signal ua_narrow_wrap_gt_width : std_logic := '0'; signal curr_axsize_unsigned : unsigned (2 downto 0) := (others => '0'); signal curr_axsize_int : integer := 0; signal curr_axlen_unsigned : unsigned (7 downto 0) := (others => '0'); signal curr_axlen_unsigned_lshift : unsigned (C_MAX_LSHIFT_SIZE downto 0) := (others => '0'); -- Max = 32768d signal bytes_per_addr : integer := 1; -- range 1 to 128 := 1; signal size_plus_lsb : integer := 1; -- range 1 to 256 := 1; signal narrow_addr_offset : integer := 1; ------------------------------------------------------------------------------- -- Architecture Body ------------------------------------------------------------------------------- begin -- v1.03a -- Added for narrow INCR bursts with UA addresses -- Check if burst is a) INCR type, -- b) a narrow burst (SIZE = full width of bus) -- c) LSB of address is non zero curr_ua_narrow_incr <= '1' when (curr_incr_burst = '1') and (curr_axsize (2 downto 0) /= C_AXI_SIZE_MAX) and (curr_axaddr_lsb /= axaddr_lsb_zero) and (bram_addr_ld_en = '1') else '0'; -- v1.03a -- Detect narrow WRAP bursts -- Detect if the operation is a) WRAP type, -- b) a narrow burst (SIZE = full width of bus) -- c) LSB of address is non zero -- d) complete size of WRAP is larger than width of BRAM curr_ua_narrow_wrap <= '1' when (curr_wrap_burst = '1') and (curr_axsize (2 downto 0) /= C_AXI_SIZE_MAX) and (curr_axaddr_lsb /= axaddr_lsb_zero) and (bram_addr_ld_en = '1') and (ua_narrow_wrap_gt_width = '1') else '0'; --------------------------------------------------------------------------- -- v1.03a -- Check condition if narrow burst wraps within the size of the BRAM width. -- Check if size * length > BRAM width in bytes. -- -- When asserted = '1', means that narrow burst counter is not preloaded early, -- the BRAM burst will be contained within the BRAM data width. curr_axsize_unsigned <= unsigned (curr_axsize); curr_axsize_int <= to_integer (curr_axsize_unsigned); curr_axlen_unsigned <= unsigned (curr_axlen); -- Original logic with multiply function. -- -- ua_narrow_wrap_gt_width <= '0' when (((2*(to_integer (curr_axsize_unsigned))) -- unsigned (curr_axlen (7 downto 0))) -- < C_AXI_DATA_WIDTH_BYTES) -- else '1'; -- Replace with left shift operation of AxLEN. -- Replace multiply of AxLEN * AxSIZE with a left shift function. LEN_LSHIFT: process (curr_axlen_unsigned, curr_axsize_int) begin for i in C_MAX_LSHIFT_SIZE downto 0 loop if (i >= curr_axsize_int + 8) then curr_axlen_unsigned_lshift (i) <= '0'; elsif (i >= curr_axsize_int) then curr_axlen_unsigned_lshift (i) <= curr_axlen_unsigned (i - curr_axsize_int); else curr_axlen_unsigned_lshift (i) <= '0'; end if; end loop; end process LEN_LSHIFT; -- Final result. ua_narrow_wrap_gt_width <= '0' when (curr_axlen_unsigned_lshift < C_AXI_DATA_WIDTH_BYTES_UNSIGNED) else '1'; --------------------------------------------------------------------------- -- v1.03a -- For narrow burst transfer, provides the number of bytes per address -- XST does not support divisors that are not constants AND powers of two. -- Create process to create a fixed value for divisor. -- Replace this statement: -- bytes_per_addr <= C_AXI_DATA_WIDTH_BYTES / (2(to_integer (curr_axsize_unsigned))); -- With this new process: -- Replace case statement with unsigned signal comparator. DIV_AXSIZE: process (curr_axsize) begin case (curr_axsize) is when "000" => bytes_per_addr <= C_AXI_DATA_WIDTH_BYTES / 1; when "001" => bytes_per_addr <= C_AXI_DATA_WIDTH_BYTES / 2; when "010" => bytes_per_addr <= C_AXI_DATA_WIDTH_BYTES / 4; when "011" => bytes_per_addr <= C_AXI_DATA_WIDTH_BYTES / 8; when "100" => bytes_per_addr <= C_AXI_DATA_WIDTH_BYTES / 16; when "101" => bytes_per_addr <= C_AXI_DATA_WIDTH_BYTES / 32; when "110" => bytes_per_addr <= C_AXI_DATA_WIDTH_BYTES / 64; when "111" => bytes_per_addr <= C_AXI_DATA_WIDTH_BYTES / 128; -- Max SIZE for 1024-bit AXI bus when others => bytes_per_addr <= C_AXI_DATA_WIDTH_BYTES; end case; end process DIV_AXSIZE; -- Original statement. -- XST does not support divisors that are not constants AND powers of two. -- Insert process to perform (size_plus_lsb / size_bytes_int) function in generation of ua_narrow_load. -- -- size_bytes_int <= (2(to_integer (curr_axsize_unsigned))); -- -- ua_narrow_load <= std_logic_vector (to_unsigned (bytes_per_addr - -- (size_plus_lsb / size_bytes_int), C_NARROW_BURST_CNT_LEN)); -- AxSIZE + LSB of address -- Use all LSB address bit lanes for the narrow transfer based on C_S_AXI_DATA_WIDTH size_plus_lsb <= (2**(to_integer (curr_axsize_unsigned))) + to_integer (unsigned (curr_axaddr_lsb (C_AXI_DATA_WIDTH_BYTES_LOG2-1 downto 0))); -- Process to keep synthesis with divide by constants that are a power of 2. DIV_SIZE_BYTES: process (size_plus_lsb, curr_axsize) begin -- Use unsigned w/ curr_axsize signal case (curr_axsize) is when "000" => narrow_addr_offset <= size_plus_lsb / 1; when "001" => narrow_addr_offset <= size_plus_lsb / 2; when "010" => narrow_addr_offset <= size_plus_lsb / 4; when "011" => narrow_addr_offset <= size_plus_lsb / 8; when "100" => narrow_addr_offset <= size_plus_lsb / 16; when "101" => narrow_addr_offset <= size_plus_lsb / 32; when "110" => narrow_addr_offset <= size_plus_lsb / 64; when "111" => narrow_addr_offset <= size_plus_lsb / 128; -- Max SIZE for 1024-bit AXI bus when others => narrow_addr_offset <= size_plus_lsb; end case; end process DIV_SIZE_BYTES; -- Final new statement. -- Passing in simulation and XST. ua_narrow_load <= std_logic_vector (to_unsigned (bytes_per_addr - narrow_addr_offset, C_NARROW_BURST_CNT_LEN)) when (bytes_per_addr >= narrow_addr_offset) else std_logic_vector (to_unsigned (0, C_NARROW_BURST_CNT_LEN)); --------------------------------------------------------------------------- end architecture implementation;
architecture RTL of FIFO is begin CASE_LABEL : case data generate when a = 1 => signal signal1 : std_logic; constant con1 : std_logic; shared variable var1 : std_logic; alias a is name; alias a : subtype_indication is name; begin when b = 2 => signal sig1 : std_logic; constant constant1 : std_logic; shared variable var1 : std_logic; alias a is name; alias a : subtype_indication is name; begin when c = 2 => signal sig1 : std_logic; constant con1 : std_logic; shared variable vars1 : std_logic; alias a is name; alias a : subtype_indication is name; begin end generate; -- Violations below CASE_LABEL : case data generate when a = 1 => signal signal1: std_logic; constant con1 : std_logic; shared variable var1 : std_logic; alias a is name; alias a : subtype_indication is name; begin when b = 2 => signal sig1 : std_logic; constant constant1: std_logic; shared variable var1 : std_logic; alias a is name; alias a : subtype_indication is name; begin when c = 2 => signal sig1 : std_logic; constant con1 : std_logic; shared variable vars1: std_logic; alias a is name; alias a : subtype_indication is name; begin end generate; end;
entity sub is generic ( N : integer ); end entity; architecture test of sub is signal x : integer; constant c : bit_vector(7 downto 0) := X"12"; function func(a : integer) return bit is begin return c(a); end function; begin g: if func(N) = '1' generate -- Error x <= 5; end generate; end architecture; ------------------------------------------------------------------------------- entity eval1 is end entity; architecture test of eval1 is begin sub_i: entity work.sub generic map (-1); end architecture;
entity sub is generic ( N : integer ); end entity; architecture test of sub is signal x : integer; constant c : bit_vector(7 downto 0) := X"12"; function func(a : integer) return bit is begin return c(a); end function; begin g: if func(N) = '1' generate -- Error x <= 5; end generate; end architecture; ------------------------------------------------------------------------------- entity eval1 is end entity; architecture test of eval1 is begin sub_i: entity work.sub generic map (-1); end architecture;
--Copyright 1986-2016 Xilinx, Inc. All Rights Reserved. ---------------------------------------------------------------------------------- --Tool Version: Vivado v.2016.4 (win64) Build 1733598 Wed Dec 14 22:35:39 MST 2016 --Date : Sat May 27 20:54:34 2017 --Host : GILAMONSTER running 64-bit major release (build 9200) --Command : generate_target system.bd --Design : system --Purpose : IP block netlist ---------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; library UNISIM; use UNISIM.VCOMPONENTS.ALL; entity system is port ( clk_100 : in STD_LOGIC; data : in STD_LOGIC_VECTOR ( 7 downto 0 ); hdmi_clk : out STD_LOGIC; hdmi_d : out STD_LOGIC_VECTOR ( 15 downto 0 ); hdmi_de : out STD_LOGIC; hdmi_hsync : out STD_LOGIC; hdmi_scl : out STD_LOGIC; hdmi_sda : inout STD_LOGIC; hdmi_vsync : out STD_LOGIC; hsync : in STD_LOGIC; pclk : in STD_LOGIC; ready : out STD_LOGIC; reset : in STD_LOGIC; sioc : out STD_LOGIC; siod : inout STD_LOGIC; vsync : in STD_LOGIC; xclk : out STD_LOGIC ); attribute CORE_GENERATION_INFO : string; attribute CORE_GENERATION_INFO of system : entity is "system,IP_Integrator,{x_ipVendor=xilinx.com,x_ipLibrary=BlockDiagram,x_ipName=system,x_ipVersion=1.00.a,x_ipLanguage=VHDL,numBlks=14,numReposBlks=14,numNonXlnxBlks=1,numHierBlks=0,maxHierDepth=0,numSysgenBlks=0,numHlsBlks=0,numHdlrefBlks=0,numPkgbdBlks=0,bdsource=USER,synth_mode=OOC_per_IP}"; attribute HW_HANDOFF : string; attribute HW_HANDOFF of system : entity is "system.hwdef"; end system; architecture STRUCTURE of system is component system_ov7670_controller_0_0 is port ( clk : in STD_LOGIC; resend : in STD_LOGIC; config_finished : out STD_LOGIC; sioc : out STD_LOGIC; siod : inout STD_LOGIC; reset : out STD_LOGIC; pwdn : out STD_LOGIC; xclk : out STD_LOGIC ); end component system_ov7670_controller_0_0; component system_zed_hdmi_0_0 is port ( clk : in STD_LOGIC; clk_x2 : in STD_LOGIC; clk_100 : in STD_LOGIC; active : in STD_LOGIC; hsync : in STD_LOGIC; vsync : in STD_LOGIC; rgb888 : in STD_LOGIC_VECTOR ( 23 downto 0 ); hdmi_clk : out STD_LOGIC; hdmi_hsync : out STD_LOGIC; hdmi_vsync : out STD_LOGIC; hdmi_d : out STD_LOGIC_VECTOR ( 15 downto 0 ); hdmi_de : out STD_LOGIC; hdmi_scl : out STD_LOGIC; hdmi_sda : inout STD_LOGIC ); end component system_zed_hdmi_0_0; component system_rgb565_to_rgb888_0_0 is port ( clk : in STD_LOGIC; rgb_565 : in STD_LOGIC_VECTOR ( 15 downto 0 ); rgb_888 : out STD_LOGIC_VECTOR ( 23 downto 0 ) ); end component system_rgb565_to_rgb888_0_0; component system_vga_buffer_0_0 is port ( clk_w : in STD_LOGIC; clk_r : in STD_LOGIC; wen : in STD_LOGIC; x_addr_w : in STD_LOGIC_VECTOR ( 9 downto 0 ); y_addr_w : in STD_LOGIC_VECTOR ( 9 downto 0 ); x_addr_r : in STD_LOGIC_VECTOR ( 9 downto 0 ); y_addr_r : in STD_LOGIC_VECTOR ( 9 downto 0 ); data_w : in STD_LOGIC_VECTOR ( 23 downto 0 ); data_r : out STD_LOGIC_VECTOR ( 23 downto 0 ) ); end component system_vga_buffer_0_0; component system_vga_pll_0_0 is port ( clk_100 : in STD_LOGIC; clk_50 : out STD_LOGIC; clk_25 : out STD_LOGIC; clk_12_5 : out STD_LOGIC; clk_6_25 : out STD_LOGIC ); end component system_vga_pll_0_0; component system_clk_wiz_0_0 is port ( clk_in1 : in STD_LOGIC; clk_out1 : out STD_LOGIC; locked : out STD_LOGIC ); end component system_clk_wiz_0_0; component system_inverter_0_0 is port ( x : in STD_LOGIC; x_not : out STD_LOGIC ); end component system_inverter_0_0; component system_vga_sync_reset_0_0 is port ( clk : in STD_LOGIC; rst : in STD_LOGIC; active : out STD_LOGIC; hsync : out STD_LOGIC; vsync : out STD_LOGIC; xaddr : out STD_LOGIC_VECTOR ( 9 downto 0 ); yaddr : out STD_LOGIC_VECTOR ( 9 downto 0 ) ); end component system_vga_sync_reset_0_0; component system_vga_sync_ref_0_0 is port ( clk : in STD_LOGIC; rst : in STD_LOGIC; hsync : in STD_LOGIC; vsync : in STD_LOGIC; start : out STD_LOGIC; active : out STD_LOGIC; xaddr : out STD_LOGIC_VECTOR ( 9 downto 0 ); yaddr : out STD_LOGIC_VECTOR ( 9 downto 0 ) ); end component system_vga_sync_ref_0_0; component system_debounce_0_0 is port ( clk : in STD_LOGIC; signal_in : in STD_LOGIC; signal_out : out STD_LOGIC ); end component system_debounce_0_0; component system_ov7670_vga_0_0 is port ( clk_x2 : in STD_LOGIC; active : in STD_LOGIC; data : in STD_LOGIC_VECTOR ( 7 downto 0 ); rgb : out STD_LOGIC_VECTOR ( 15 downto 0 ) ); end component system_ov7670_vga_0_0; component system_clock_splitter_0_0 is port ( clk_in : in STD_LOGIC; latch_edge : in STD_LOGIC; clk_out : out STD_LOGIC ); end component system_clock_splitter_0_0; component system_rgb888_to_g8_0_0 is port ( clk : in STD_LOGIC; rgb888 : in STD_LOGIC_VECTOR ( 23 downto 0 ); g8 : out STD_LOGIC_VECTOR ( 7 downto 0 ) ); end component system_rgb888_to_g8_0_0; component system_g8_to_rgb888_0_0 is port ( g8 : in STD_LOGIC_VECTOR ( 7 downto 0 ); rgb888 : out STD_LOGIC_VECTOR ( 23 downto 0 ) ); end component system_g8_to_rgb888_0_0; signal Net : STD_LOGIC; signal Net1 : STD_LOGIC; signal clk_100_1 : STD_LOGIC; signal clk_wiz_0_clk_out1 : STD_LOGIC; signal clock_splitter_0_clk_out : STD_LOGIC; signal data_1 : STD_LOGIC_VECTOR ( 7 downto 0 ); signal debounce_0_o : STD_LOGIC; signal g8_to_rgb888_0_rgb888 : STD_LOGIC_VECTOR ( 23 downto 0 ); signal hsync_1 : STD_LOGIC; signal inverter_0_x_not : STD_LOGIC; signal ov7670_controller_0_config_finished : STD_LOGIC; signal ov7670_controller_0_sioc : STD_LOGIC; signal ov7670_vga_0_rgb : STD_LOGIC_VECTOR ( 15 downto 0 ); signal pclk_1 : STD_LOGIC; signal reset_1 : STD_LOGIC; signal rgb565_to_rgb888_0_rgb_888 : STD_LOGIC_VECTOR ( 23 downto 0 ); signal rgb888_to_g8_0_g8 : STD_LOGIC_VECTOR ( 7 downto 0 ); signal vga_buffer_0_data_r : STD_LOGIC_VECTOR ( 23 downto 0 ); signal vga_pll_0_clk_12_6 : STD_LOGIC; signal vga_pll_0_clk_25 : STD_LOGIC; signal vga_sync_ref_0_active : STD_LOGIC; signal vga_sync_ref_0_start : STD_LOGIC; signal vga_sync_ref_0_xaddr : STD_LOGIC_VECTOR ( 9 downto 0 ); signal vga_sync_ref_0_yaddr : STD_LOGIC_VECTOR ( 9 downto 0 ); signal vga_sync_reset_0_active : STD_LOGIC; signal vga_sync_reset_0_hsync : STD_LOGIC; signal vga_sync_reset_0_vsync : STD_LOGIC; signal vga_sync_reset_0_xaddr : STD_LOGIC_VECTOR ( 9 downto 0 ); signal vga_sync_reset_0_yaddr : STD_LOGIC_VECTOR ( 9 downto 0 ); signal vsync_1 : STD_LOGIC; signal zed_hdmi_0_hdmi_clk : STD_LOGIC; signal zed_hdmi_0_hdmi_d : STD_LOGIC_VECTOR ( 15 downto 0 ); signal zed_hdmi_0_hdmi_de : STD_LOGIC; signal zed_hdmi_0_hdmi_hsync : STD_LOGIC; signal zed_hdmi_0_hdmi_scl : STD_LOGIC; signal zed_hdmi_0_hdmi_vsync : STD_LOGIC; signal NLW_clk_wiz_0_locked_UNCONNECTED : STD_LOGIC; signal NLW_ov7670_controller_0_pwdn_UNCONNECTED : STD_LOGIC; signal NLW_ov7670_controller_0_reset_UNCONNECTED : STD_LOGIC; signal NLW_ov7670_controller_0_xclk_UNCONNECTED : STD_LOGIC; signal NLW_vga_pll_0_clk_50_UNCONNECTED : STD_LOGIC; signal NLW_vga_pll_0_clk_6_25_UNCONNECTED : STD_LOGIC; begin clk_100_1 <= clk_100; data_1(7 downto 0) <= data(7 downto 0); hdmi_clk <= zed_hdmi_0_hdmi_clk; hdmi_d(15 downto 0) <= zed_hdmi_0_hdmi_d(15 downto 0); hdmi_de <= zed_hdmi_0_hdmi_de; hdmi_hsync <= zed_hdmi_0_hdmi_hsync; hdmi_scl <= zed_hdmi_0_hdmi_scl; hdmi_vsync <= zed_hdmi_0_hdmi_vsync; hsync_1 <= hsync; pclk_1 <= pclk; ready <= ov7670_controller_0_config_finished; reset_1 <= reset; sioc <= ov7670_controller_0_sioc; vsync_1 <= vsync; xclk <= clk_wiz_0_clk_out1; clk_wiz_0: component system_clk_wiz_0_0 port map ( clk_in1 => clk_100_1, clk_out1 => clk_wiz_0_clk_out1, locked => NLW_clk_wiz_0_locked_UNCONNECTED ); clock_splitter_0: component system_clock_splitter_0_0 port map ( clk_in => pclk_1, clk_out => clock_splitter_0_clk_out, latch_edge => vsync_1 ); debounce_0: component system_debounce_0_0 port map ( clk => vga_pll_0_clk_25, signal_in => reset_1, signal_out => debounce_0_o ); g8_to_rgb888_0: component system_g8_to_rgb888_0_0 port map ( g8(7 downto 0) => rgb888_to_g8_0_g8(7 downto 0), rgb888(23 downto 0) => g8_to_rgb888_0_rgb888(23 downto 0) ); inverter_0: component system_inverter_0_0 port map ( x => vga_sync_ref_0_start, x_not => inverter_0_x_not ); ov7670_controller_0: component system_ov7670_controller_0_0 port map ( clk => vga_pll_0_clk_25, config_finished => ov7670_controller_0_config_finished, pwdn => NLW_ov7670_controller_0_pwdn_UNCONNECTED, resend => debounce_0_o, reset => NLW_ov7670_controller_0_reset_UNCONNECTED, sioc => ov7670_controller_0_sioc, siod => siod, xclk => NLW_ov7670_controller_0_xclk_UNCONNECTED ); ov7670_vga_0: component system_ov7670_vga_0_0 port map ( active => vga_sync_ref_0_active, clk_x2 => pclk_1, data(7 downto 0) => data_1(7 downto 0), rgb(15 downto 0) => ov7670_vga_0_rgb(15 downto 0) ); rgb565_to_rgb888_0: component system_rgb565_to_rgb888_0_0 port map ( clk => clock_splitter_0_clk_out, rgb_565(15 downto 0) => ov7670_vga_0_rgb(15 downto 0), rgb_888(23 downto 0) => rgb565_to_rgb888_0_rgb_888(23 downto 0) ); rgb888_to_g8_0: component system_rgb888_to_g8_0_0 port map ( clk => vga_pll_0_clk_12_6, g8(7 downto 0) => rgb888_to_g8_0_g8(7 downto 0), rgb888(23 downto 0) => vga_buffer_0_data_r(23 downto 0) ); vga_buffer_0: component system_vga_buffer_0_0 port map ( clk_r => vga_pll_0_clk_12_6, clk_w => clock_splitter_0_clk_out, data_r(23 downto 0) => vga_buffer_0_data_r(23 downto 0), data_w(23 downto 0) => rgb565_to_rgb888_0_rgb_888(23 downto 0), wen => vga_sync_ref_0_active, x_addr_r(9 downto 0) => vga_sync_reset_0_xaddr(9 downto 0), x_addr_w(9 downto 0) => vga_sync_ref_0_xaddr(9 downto 0), y_addr_r(9 downto 0) => vga_sync_reset_0_yaddr(9 downto 0), y_addr_w(9 downto 0) => vga_sync_ref_0_yaddr(9 downto 0) ); vga_pll_0: component system_vga_pll_0_0 port map ( clk_100 => clk_100_1, clk_12_5 => vga_pll_0_clk_12_6, clk_25 => vga_pll_0_clk_25, clk_50 => NLW_vga_pll_0_clk_50_UNCONNECTED, clk_6_25 => NLW_vga_pll_0_clk_6_25_UNCONNECTED ); vga_sync_ref_0: component system_vga_sync_ref_0_0 port map ( active => vga_sync_ref_0_active, clk => clock_splitter_0_clk_out, hsync => hsync_1, rst => ov7670_controller_0_config_finished, start => vga_sync_ref_0_start, vsync => vsync_1, xaddr(9 downto 0) => vga_sync_ref_0_xaddr(9 downto 0), yaddr(9 downto 0) => vga_sync_ref_0_yaddr(9 downto 0) ); vga_sync_reset_0: component system_vga_sync_reset_0_0 port map ( active => vga_sync_reset_0_active, clk => vga_pll_0_clk_12_6, hsync => vga_sync_reset_0_hsync, rst => inverter_0_x_not, vsync => vga_sync_reset_0_vsync, xaddr(9 downto 0) => vga_sync_reset_0_xaddr(9 downto 0), yaddr(9 downto 0) => vga_sync_reset_0_yaddr(9 downto 0) ); zed_hdmi_0: component system_zed_hdmi_0_0 port map ( active => vga_sync_reset_0_active, clk => vga_pll_0_clk_12_6, clk_100 => clk_100_1, clk_x2 => vga_pll_0_clk_25, hdmi_clk => zed_hdmi_0_hdmi_clk, hdmi_d(15 downto 0) => zed_hdmi_0_hdmi_d(15 downto 0), hdmi_de => zed_hdmi_0_hdmi_de, hdmi_hsync => zed_hdmi_0_hdmi_hsync, hdmi_scl => zed_hdmi_0_hdmi_scl, hdmi_sda => hdmi_sda, hdmi_vsync => zed_hdmi_0_hdmi_vsync, hsync => vga_sync_reset_0_hsync, rgb888(23 downto 0) => g8_to_rgb888_0_rgb888(23 downto 0), vsync => vga_sync_reset_0_vsync ); end STRUCTURE;
tx_fifo_inst : tx_fifo PORT MAP ( aclr => aclr_sig, data => data_sig, rdclk => rdclk_sig, rdreq => rdreq_sig, wrclk => wrclk_sig, wrreq => wrreq_sig, q => q_sig, rdempty => rdempty_sig, rdfull => rdfull_sig, rdusedw => rdusedw_sig, wrempty => wrempty_sig, wrfull => wrfull_sig, wrusedw => wrusedw_sig );
-- NEED RESULT: ARCH00034.P1: Target of a variable assignment may be a slice passed -- NEED RESULT: ARCH00034.P2: Target of a variable assignment may be a slice passed -- NEED RESULT: ARCH00034.P3: Target of a variable assignment may be a slice passed -- NEED RESULT: ARCH00034.P4: Target of a variable assignment may be a slice passed ------------------------------------------------------------------------------- -- -- Copyright (c) 1989 by Intermetrics, Inc. -- All rights reserved. -- ------------------------------------------------------------------------------- -- -- TEST NAME: -- -- CT00034 -- -- AUTHOR: -- -- G. Tominovich -- -- TEST OBJECTIVES: -- -- 8.4 (1) -- 8.4 (3) -- -- DESIGN UNIT ORDERING: -- -- E00000(ARCH00034) -- ENT00034_Test_Bench(ARCH00034_Test_Bench) -- -- REVISION HISTORY: -- -- 29-JUN-1987 - initial revision -- -- NOTES: -- -- self-checking -- automatically generated -- use WORK.STANDARD_TYPES.all ; architecture ARCH00034 of E00000 is signal Dummy : Boolean := false ; -- begin P1 : process ( Dummy ) variable v_st_boolean_vector : st_boolean_vector := c_st_boolean_vector_1 ; variable v_st_bit_vector : st_bit_vector := c_st_bit_vector_1 ; variable v_st_severity_level_vector : st_severity_level_vector := c_st_severity_level_vector_1 ; variable v_st_string : st_string := c_st_string_1 ; variable v_st_enum1_vector : st_enum1_vector := c_st_enum1_vector_1 ; variable v_st_integer_vector : st_integer_vector := c_st_integer_vector_1 ; variable v_st_int1_vector : st_int1_vector := c_st_int1_vector_1 ; variable v_st_time_vector : st_time_vector := c_st_time_vector_1 ; variable v_st_phys1_vector : st_phys1_vector := c_st_phys1_vector_1 ; variable v_st_real_vector : st_real_vector := c_st_real_vector_1 ; variable v_st_real1_vector : st_real1_vector := c_st_real1_vector_1 ; variable v_st_rec1_vector : st_rec1_vector := c_st_rec1_vector_1 ; variable v_st_rec2_vector : st_rec2_vector := c_st_rec2_vector_1 ; variable v_st_rec3_vector : st_rec3_vector := c_st_rec3_vector_1 ; variable v_st_arr1_vector : st_arr1_vector := c_st_arr1_vector_1 ; variable v_st_arr2_vector : st_arr2_vector := c_st_arr2_vector_1 ; variable v_st_arr3_vector : st_arr3_vector := c_st_arr3_vector_1 ; -- variable correct : boolean := true ; begin v_st_boolean_vector(lowb+1 to highb-1) := c_st_boolean_vector_2(lowb+1 to highb-1) ; v_st_bit_vector(lowb+1 to highb-1) := c_st_bit_vector_2(lowb+1 to highb-1) ; v_st_severity_level_vector(lowb+1 to highb-1) := c_st_severity_level_vector_2(lowb+1 to highb-1) ; v_st_string(lowb+1 to highb-1) := c_st_string_2(lowb+1 to highb-1) ; v_st_enum1_vector(lowb+1 to highb-1) := c_st_enum1_vector_2(lowb+1 to highb-1) ; v_st_integer_vector(lowb+1 to highb-1) := c_st_integer_vector_2(lowb+1 to highb-1) ; v_st_int1_vector(lowb+1 to highb-1) := c_st_int1_vector_2(lowb+1 to highb-1) ; v_st_time_vector(lowb+1 to highb-1) := c_st_time_vector_2(lowb+1 to highb-1) ; v_st_phys1_vector(lowb+1 to highb-1) := c_st_phys1_vector_2(lowb+1 to highb-1) ; v_st_real_vector(lowb+1 to highb-1) := c_st_real_vector_2(lowb+1 to highb-1) ; v_st_real1_vector(lowb+1 to highb-1) := c_st_real1_vector_2(lowb+1 to highb-1) ; v_st_rec1_vector(lowb+1 to highb-1) := c_st_rec1_vector_2(lowb+1 to highb-1) ; v_st_rec2_vector(lowb+1 to highb-1) := c_st_rec2_vector_2(lowb+1 to highb-1) ; v_st_rec3_vector(lowb+1 to highb-1) := c_st_rec3_vector_2(lowb+1 to highb-1) ; v_st_arr1_vector(lowb+1 to highb-1) := c_st_arr1_vector_2(lowb+1 to highb-1) ; v_st_arr2_vector(lowb+1 to highb-1) := c_st_arr2_vector_2(lowb+1 to highb-1) ; v_st_arr3_vector(lowb+1 to highb-1) := c_st_arr3_vector_2(lowb+1 to highb-1) ; -- correct := correct and v_st_boolean_vector(lowb+1 to highb-1) = c_st_boolean_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_bit_vector(lowb+1 to highb-1) = c_st_bit_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_severity_level_vector(lowb+1 to highb-1) = c_st_severity_level_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_string(lowb+1 to highb-1) = c_st_string_2(lowb+1 to highb-1) ; correct := correct and v_st_enum1_vector(lowb+1 to highb-1) = c_st_enum1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_integer_vector(lowb+1 to highb-1) = c_st_integer_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_int1_vector(lowb+1 to highb-1) = c_st_int1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_time_vector(lowb+1 to highb-1) = c_st_time_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_phys1_vector(lowb+1 to highb-1) = c_st_phys1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_real_vector(lowb+1 to highb-1) = c_st_real_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_real1_vector(lowb+1 to highb-1) = c_st_real1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_rec1_vector(lowb+1 to highb-1) = c_st_rec1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_rec2_vector(lowb+1 to highb-1) = c_st_rec2_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_rec3_vector(lowb+1 to highb-1) = c_st_rec3_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_arr1_vector(lowb+1 to highb-1) = c_st_arr1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_arr2_vector(lowb+1 to highb-1) = c_st_arr2_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_arr3_vector(lowb+1 to highb-1) = c_st_arr3_vector_2(lowb+1 to highb-1) ; -- test_report ( "ARCH00034.P1" , "Target of a variable assignment may be a " & "slice" , correct) ; end process P1 ; -- P2 : process ( Dummy ) variable correct : boolean := true ; -- procedure Proc1 is variable v_st_boolean_vector : st_boolean_vector := c_st_boolean_vector_1 ; variable v_st_bit_vector : st_bit_vector := c_st_bit_vector_1 ; variable v_st_severity_level_vector : st_severity_level_vector := c_st_severity_level_vector_1 ; variable v_st_string : st_string := c_st_string_1 ; variable v_st_enum1_vector : st_enum1_vector := c_st_enum1_vector_1 ; variable v_st_integer_vector : st_integer_vector := c_st_integer_vector_1 ; variable v_st_int1_vector : st_int1_vector := c_st_int1_vector_1 ; variable v_st_time_vector : st_time_vector := c_st_time_vector_1 ; variable v_st_phys1_vector : st_phys1_vector := c_st_phys1_vector_1 ; variable v_st_real_vector : st_real_vector := c_st_real_vector_1 ; variable v_st_real1_vector : st_real1_vector := c_st_real1_vector_1 ; variable v_st_rec1_vector : st_rec1_vector := c_st_rec1_vector_1 ; variable v_st_rec2_vector : st_rec2_vector := c_st_rec2_vector_1 ; variable v_st_rec3_vector : st_rec3_vector := c_st_rec3_vector_1 ; variable v_st_arr1_vector : st_arr1_vector := c_st_arr1_vector_1 ; variable v_st_arr2_vector : st_arr2_vector := c_st_arr2_vector_1 ; variable v_st_arr3_vector : st_arr3_vector := c_st_arr3_vector_1 ; -- begin v_st_boolean_vector(lowb+1 to highb-1) := c_st_boolean_vector_2(lowb+1 to highb-1) ; v_st_bit_vector(lowb+1 to highb-1) := c_st_bit_vector_2(lowb+1 to highb-1) ; v_st_severity_level_vector(lowb+1 to highb-1) := c_st_severity_level_vector_2(lowb+1 to highb-1) ; v_st_string(lowb+1 to highb-1) := c_st_string_2(lowb+1 to highb-1) ; v_st_enum1_vector(lowb+1 to highb-1) := c_st_enum1_vector_2(lowb+1 to highb-1) ; v_st_integer_vector(lowb+1 to highb-1) := c_st_integer_vector_2(lowb+1 to highb-1) ; v_st_int1_vector(lowb+1 to highb-1) := c_st_int1_vector_2(lowb+1 to highb-1) ; v_st_time_vector(lowb+1 to highb-1) := c_st_time_vector_2(lowb+1 to highb-1) ; v_st_phys1_vector(lowb+1 to highb-1) := c_st_phys1_vector_2(lowb+1 to highb-1) ; v_st_real_vector(lowb+1 to highb-1) := c_st_real_vector_2(lowb+1 to highb-1) ; v_st_real1_vector(lowb+1 to highb-1) := c_st_real1_vector_2(lowb+1 to highb-1) ; v_st_rec1_vector(lowb+1 to highb-1) := c_st_rec1_vector_2(lowb+1 to highb-1) ; v_st_rec2_vector(lowb+1 to highb-1) := c_st_rec2_vector_2(lowb+1 to highb-1) ; v_st_rec3_vector(lowb+1 to highb-1) := c_st_rec3_vector_2(lowb+1 to highb-1) ; v_st_arr1_vector(lowb+1 to highb-1) := c_st_arr1_vector_2(lowb+1 to highb-1) ; v_st_arr2_vector(lowb+1 to highb-1) := c_st_arr2_vector_2(lowb+1 to highb-1) ; v_st_arr3_vector(lowb+1 to highb-1) := c_st_arr3_vector_2(lowb+1 to highb-1) ; -- correct := correct and v_st_boolean_vector(lowb+1 to highb-1) = c_st_boolean_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_bit_vector(lowb+1 to highb-1) = c_st_bit_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_severity_level_vector(lowb+1 to highb-1) = c_st_severity_level_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_string(lowb+1 to highb-1) = c_st_string_2(lowb+1 to highb-1) ; correct := correct and v_st_enum1_vector(lowb+1 to highb-1) = c_st_enum1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_integer_vector(lowb+1 to highb-1) = c_st_integer_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_int1_vector(lowb+1 to highb-1) = c_st_int1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_time_vector(lowb+1 to highb-1) = c_st_time_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_phys1_vector(lowb+1 to highb-1) = c_st_phys1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_real_vector(lowb+1 to highb-1) = c_st_real_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_real1_vector(lowb+1 to highb-1) = c_st_real1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_rec1_vector(lowb+1 to highb-1) = c_st_rec1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_rec2_vector(lowb+1 to highb-1) = c_st_rec2_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_rec3_vector(lowb+1 to highb-1) = c_st_rec3_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_arr1_vector(lowb+1 to highb-1) = c_st_arr1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_arr2_vector(lowb+1 to highb-1) = c_st_arr2_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_arr3_vector(lowb+1 to highb-1) = c_st_arr3_vector_2(lowb+1 to highb-1) ; -- end Proc1 ; begin Proc1 ; test_report ( "ARCH00034.P2" , "Target of a variable assignment may be a " & "slice" , correct) ; end process P2 ; -- P3 : process ( Dummy ) variable v_st_boolean_vector : st_boolean_vector := c_st_boolean_vector_1 ; variable v_st_bit_vector : st_bit_vector := c_st_bit_vector_1 ; variable v_st_severity_level_vector : st_severity_level_vector := c_st_severity_level_vector_1 ; variable v_st_string : st_string := c_st_string_1 ; variable v_st_enum1_vector : st_enum1_vector := c_st_enum1_vector_1 ; variable v_st_integer_vector : st_integer_vector := c_st_integer_vector_1 ; variable v_st_int1_vector : st_int1_vector := c_st_int1_vector_1 ; variable v_st_time_vector : st_time_vector := c_st_time_vector_1 ; variable v_st_phys1_vector : st_phys1_vector := c_st_phys1_vector_1 ; variable v_st_real_vector : st_real_vector := c_st_real_vector_1 ; variable v_st_real1_vector : st_real1_vector := c_st_real1_vector_1 ; variable v_st_rec1_vector : st_rec1_vector := c_st_rec1_vector_1 ; variable v_st_rec2_vector : st_rec2_vector := c_st_rec2_vector_1 ; variable v_st_rec3_vector : st_rec3_vector := c_st_rec3_vector_1 ; variable v_st_arr1_vector : st_arr1_vector := c_st_arr1_vector_1 ; variable v_st_arr2_vector : st_arr2_vector := c_st_arr2_vector_1 ; variable v_st_arr3_vector : st_arr3_vector := c_st_arr3_vector_1 ; -- variable correct : boolean := true ; -- procedure Proc1 is begin v_st_boolean_vector(lowb+1 to highb-1) := c_st_boolean_vector_2(lowb+1 to highb-1) ; v_st_bit_vector(lowb+1 to highb-1) := c_st_bit_vector_2(lowb+1 to highb-1) ; v_st_severity_level_vector(lowb+1 to highb-1) := c_st_severity_level_vector_2(lowb+1 to highb-1) ; v_st_string(lowb+1 to highb-1) := c_st_string_2(lowb+1 to highb-1) ; v_st_enum1_vector(lowb+1 to highb-1) := c_st_enum1_vector_2(lowb+1 to highb-1) ; v_st_integer_vector(lowb+1 to highb-1) := c_st_integer_vector_2(lowb+1 to highb-1) ; v_st_int1_vector(lowb+1 to highb-1) := c_st_int1_vector_2(lowb+1 to highb-1) ; v_st_time_vector(lowb+1 to highb-1) := c_st_time_vector_2(lowb+1 to highb-1) ; v_st_phys1_vector(lowb+1 to highb-1) := c_st_phys1_vector_2(lowb+1 to highb-1) ; v_st_real_vector(lowb+1 to highb-1) := c_st_real_vector_2(lowb+1 to highb-1) ; v_st_real1_vector(lowb+1 to highb-1) := c_st_real1_vector_2(lowb+1 to highb-1) ; v_st_rec1_vector(lowb+1 to highb-1) := c_st_rec1_vector_2(lowb+1 to highb-1) ; v_st_rec2_vector(lowb+1 to highb-1) := c_st_rec2_vector_2(lowb+1 to highb-1) ; v_st_rec3_vector(lowb+1 to highb-1) := c_st_rec3_vector_2(lowb+1 to highb-1) ; v_st_arr1_vector(lowb+1 to highb-1) := c_st_arr1_vector_2(lowb+1 to highb-1) ; v_st_arr2_vector(lowb+1 to highb-1) := c_st_arr2_vector_2(lowb+1 to highb-1) ; v_st_arr3_vector(lowb+1 to highb-1) := c_st_arr3_vector_2(lowb+1 to highb-1) ; -- end Proc1 ; begin Proc1 ; correct := correct and v_st_boolean_vector(lowb+1 to highb-1) = c_st_boolean_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_bit_vector(lowb+1 to highb-1) = c_st_bit_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_severity_level_vector(lowb+1 to highb-1) = c_st_severity_level_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_string(lowb+1 to highb-1) = c_st_string_2(lowb+1 to highb-1) ; correct := correct and v_st_enum1_vector(lowb+1 to highb-1) = c_st_enum1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_integer_vector(lowb+1 to highb-1) = c_st_integer_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_int1_vector(lowb+1 to highb-1) = c_st_int1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_time_vector(lowb+1 to highb-1) = c_st_time_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_phys1_vector(lowb+1 to highb-1) = c_st_phys1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_real_vector(lowb+1 to highb-1) = c_st_real_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_real1_vector(lowb+1 to highb-1) = c_st_real1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_rec1_vector(lowb+1 to highb-1) = c_st_rec1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_rec2_vector(lowb+1 to highb-1) = c_st_rec2_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_rec3_vector(lowb+1 to highb-1) = c_st_rec3_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_arr1_vector(lowb+1 to highb-1) = c_st_arr1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_arr2_vector(lowb+1 to highb-1) = c_st_arr2_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_arr3_vector(lowb+1 to highb-1) = c_st_arr3_vector_2(lowb+1 to highb-1) ; -- test_report ( "ARCH00034.P3" , "Target of a variable assignment may be a " & "slice" , correct) ; end process P3 ; -- P4 : process ( Dummy ) variable v_st_boolean_vector : st_boolean_vector := c_st_boolean_vector_1 ; variable v_st_bit_vector : st_bit_vector := c_st_bit_vector_1 ; variable v_st_severity_level_vector : st_severity_level_vector := c_st_severity_level_vector_1 ; variable v_st_string : st_string := c_st_string_1 ; variable v_st_enum1_vector : st_enum1_vector := c_st_enum1_vector_1 ; variable v_st_integer_vector : st_integer_vector := c_st_integer_vector_1 ; variable v_st_int1_vector : st_int1_vector := c_st_int1_vector_1 ; variable v_st_time_vector : st_time_vector := c_st_time_vector_1 ; variable v_st_phys1_vector : st_phys1_vector := c_st_phys1_vector_1 ; variable v_st_real_vector : st_real_vector := c_st_real_vector_1 ; variable v_st_real1_vector : st_real1_vector := c_st_real1_vector_1 ; variable v_st_rec1_vector : st_rec1_vector := c_st_rec1_vector_1 ; variable v_st_rec2_vector : st_rec2_vector := c_st_rec2_vector_1 ; variable v_st_rec3_vector : st_rec3_vector := c_st_rec3_vector_1 ; variable v_st_arr1_vector : st_arr1_vector := c_st_arr1_vector_1 ; variable v_st_arr2_vector : st_arr2_vector := c_st_arr2_vector_1 ; variable v_st_arr3_vector : st_arr3_vector := c_st_arr3_vector_1 ; -- variable correct : boolean := true ; -- procedure Proc1 ( v_st_boolean_vector : inout st_boolean_vector ; v_st_bit_vector : inout st_bit_vector ; v_st_severity_level_vector : inout st_severity_level_vector ; v_st_string : inout st_string ; v_st_enum1_vector : inout st_enum1_vector ; v_st_integer_vector : inout st_integer_vector ; v_st_int1_vector : inout st_int1_vector ; v_st_time_vector : inout st_time_vector ; v_st_phys1_vector : inout st_phys1_vector ; v_st_real_vector : inout st_real_vector ; v_st_real1_vector : inout st_real1_vector ; v_st_rec1_vector : inout st_rec1_vector ; v_st_rec2_vector : inout st_rec2_vector ; v_st_rec3_vector : inout st_rec3_vector ; v_st_arr1_vector : inout st_arr1_vector ; v_st_arr2_vector : inout st_arr2_vector ; v_st_arr3_vector : inout st_arr3_vector ) is begin v_st_boolean_vector(lowb+1 to highb-1) := c_st_boolean_vector_2(lowb+1 to highb-1) ; v_st_bit_vector(lowb+1 to highb-1) := c_st_bit_vector_2(lowb+1 to highb-1) ; v_st_severity_level_vector(lowb+1 to highb-1) := c_st_severity_level_vector_2(lowb+1 to highb-1) ; v_st_string(lowb+1 to highb-1) := c_st_string_2(lowb+1 to highb-1) ; v_st_enum1_vector(lowb+1 to highb-1) := c_st_enum1_vector_2(lowb+1 to highb-1) ; v_st_integer_vector(lowb+1 to highb-1) := c_st_integer_vector_2(lowb+1 to highb-1) ; v_st_int1_vector(lowb+1 to highb-1) := c_st_int1_vector_2(lowb+1 to highb-1) ; v_st_time_vector(lowb+1 to highb-1) := c_st_time_vector_2(lowb+1 to highb-1) ; v_st_phys1_vector(lowb+1 to highb-1) := c_st_phys1_vector_2(lowb+1 to highb-1) ; v_st_real_vector(lowb+1 to highb-1) := c_st_real_vector_2(lowb+1 to highb-1) ; v_st_real1_vector(lowb+1 to highb-1) := c_st_real1_vector_2(lowb+1 to highb-1) ; v_st_rec1_vector(lowb+1 to highb-1) := c_st_rec1_vector_2(lowb+1 to highb-1) ; v_st_rec2_vector(lowb+1 to highb-1) := c_st_rec2_vector_2(lowb+1 to highb-1) ; v_st_rec3_vector(lowb+1 to highb-1) := c_st_rec3_vector_2(lowb+1 to highb-1) ; v_st_arr1_vector(lowb+1 to highb-1) := c_st_arr1_vector_2(lowb+1 to highb-1) ; v_st_arr2_vector(lowb+1 to highb-1) := c_st_arr2_vector_2(lowb+1 to highb-1) ; v_st_arr3_vector(lowb+1 to highb-1) := c_st_arr3_vector_2(lowb+1 to highb-1) ; -- end Proc1 ; begin Proc1 ( v_st_boolean_vector , v_st_bit_vector , v_st_severity_level_vector , v_st_string , v_st_enum1_vector , v_st_integer_vector , v_st_int1_vector , v_st_time_vector , v_st_phys1_vector , v_st_real_vector , v_st_real1_vector , v_st_rec1_vector , v_st_rec2_vector , v_st_rec3_vector , v_st_arr1_vector , v_st_arr2_vector , v_st_arr3_vector ) ; correct := correct and v_st_boolean_vector(lowb+1 to highb-1) = c_st_boolean_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_bit_vector(lowb+1 to highb-1) = c_st_bit_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_severity_level_vector(lowb+1 to highb-1) = c_st_severity_level_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_string(lowb+1 to highb-1) = c_st_string_2(lowb+1 to highb-1) ; correct := correct and v_st_enum1_vector(lowb+1 to highb-1) = c_st_enum1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_integer_vector(lowb+1 to highb-1) = c_st_integer_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_int1_vector(lowb+1 to highb-1) = c_st_int1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_time_vector(lowb+1 to highb-1) = c_st_time_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_phys1_vector(lowb+1 to highb-1) = c_st_phys1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_real_vector(lowb+1 to highb-1) = c_st_real_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_real1_vector(lowb+1 to highb-1) = c_st_real1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_rec1_vector(lowb+1 to highb-1) = c_st_rec1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_rec2_vector(lowb+1 to highb-1) = c_st_rec2_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_rec3_vector(lowb+1 to highb-1) = c_st_rec3_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_arr1_vector(lowb+1 to highb-1) = c_st_arr1_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_arr2_vector(lowb+1 to highb-1) = c_st_arr2_vector_2(lowb+1 to highb-1) ; correct := correct and v_st_arr3_vector(lowb+1 to highb-1) = c_st_arr3_vector_2(lowb+1 to highb-1) ; -- test_report ( "ARCH00034.P4" , "Target of a variable assignment may be a " & "slice" , correct) ; end process P4 ; -- end ARCH00034 ; -- entity ENT00034_Test_Bench is end ENT00034_Test_Bench ; -- architecture ARCH00034_Test_Bench of ENT00034_Test_Bench is begin L1: block component UUT end component ; for CIS1 : UUT use entity WORK.E00000 ( ARCH00034 ) ; begin CIS1 : UUT ; end block L1 ; end ARCH00034_Test_Bench ;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
-- -- System Clock generator for ZPUINO (papilio one) -- -- Copyright 2010 Alvaro Lopes <alvieboy@alvie.com> -- -- Version: 1.0 -- -- The FreeBSD license -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above -- copyright notice, this list of conditions and the following -- disclaimer in the documentation and/or other materials -- provided with the distribution. -- -- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, -- THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A -- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- ZPU PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, -- INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -- STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) -- ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use ieee.numeric_std.all; library UNISIM; use UNISIM.VCOMPONENTS.all; entity clkgen is port ( clkin: in std_logic; rstin: in std_logic; clkout: out std_logic; clkout_1mhz: out std_logic; clk_osc_32Mhz: out std_logic; vgaclkout: out std_logic; rstout: out std_logic ); end entity clkgen; architecture behave of clkgen is signal dcmlocked: std_logic; signal dcmlocked_1mhz: std_logic; signal dcmclock: std_logic; signal dcmclock_1mhz: std_logic; signal rst1_q: std_logic; signal rst2_q: std_logic; signal clkout_i: std_logic; signal clkin_i: std_logic; signal clkfb: std_logic; signal clk0: std_logic; signal clkin_i_1mhz: std_logic; signal clkfb_1mhz: std_logic; signal clk0_1mhz: std_logic; begin clk_osc_32Mhz <= clkin_i; clkout <= clkout_i; rstout <= rst1_q; process(dcmlocked, dcmlocked_1mhz, clkout_i, rstin) begin if dcmlocked='0' or dcmlocked_1mhz='0' or rstin='1' then rst1_q <= '1'; rst2_q <= '1'; else if rising_edge(clkout_i) then rst1_q <= rst2_q; rst2_q <= '0'; end if; end if; end process; -- Clock buffers clkfx_inst: BUFG port map ( I => dcmclock, O => clkout_i ); clkin_inst: IBUFG port map ( I => clkin, O => clkin_i ); vgainst: BUFG port map ( I => clkin_i, O => vgaclkout ); clkfb_inst: BUFG port map ( I=> clk0, O=> clkfb ); DCM_inst : DCM generic map ( CLKDV_DIVIDE => 2.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => FALSE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => open, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => dcmclock, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb, -- DCM clock feedback CLKIN => clkin_i, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); DCM_inst_1mhz : DCM generic map ( CLKDV_DIVIDE => 16.0, -- Divide by: 1.5,2.0,2.5,3.0,3.5,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0 or 16.0 CLKFX_DIVIDE => 1,--8, -- Can be any integer from 1 to 32 CLKFX_MULTIPLY => 3,--23, -- Can be any integer from 1 to 32 CLKIN_DIVIDE_BY_2 => TRUE, -- TRUE/FALSE to enable CLKIN divide by two feature CLKIN_PERIOD => 31.25, -- Specify period of input clock CLKOUT_PHASE_SHIFT => "NONE", -- Specify phase shift of NONE, FIXED or VARIABLE CLK_FEEDBACK => "1X", -- Specify clock feedback of NONE, 1X or 2X DESKEW_ADJUST => "SYSTEM_SYNCHRONOUS", -- SOURCE_SYNCHRONOUS, SYSTEM_SYNCHRONOUS or an integer from 0 to 15 DFS_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for frequency synthesis DLL_FREQUENCY_MODE => "LOW", -- HIGH or LOW frequency mode for DLL DUTY_CYCLE_CORRECTION => TRUE, -- Duty cycle correction, TRUE or FALSE FACTORY_JF => X"C080", -- FACTORY JF Values PHASE_SHIFT => 0, -- Amount of fixed phase shift from -255 to 255 STARTUP_WAIT => FALSE -- Delay configuration DONE until DCM LOCK, TRUE/FALSE ) port map ( CLK0 => clk0_1mhz, -- 0 degree DCM CLK ouptput CLK180 => open, -- 180 degree DCM CLK output CLK270 => open, -- 270 degree DCM CLK output CLK2X => open, -- 2X DCM CLK output CLK2X180 => open, -- 2X, 180 degree DCM CLK out CLK90 => open, -- 90 degree DCM CLK output CLKDV => dcmclock_1mhz, -- Divided DCM CLK out (CLKDV_DIVIDE) CLKFX => open, -- DCM CLK synthesis out (M/D) CLKFX180 => open, -- 180 degree CLK synthesis out LOCKED => dcmlocked_1mhz, -- DCM LOCK status output PSDONE => open, -- Dynamic phase adjust done output STATUS => open, -- 8-bit DCM status bits output CLKFB => clkfb_1mhz, -- DCM clock feedback CLKIN => clkin_i_1mhz, -- Clock input (from IBUFG, BUFG or DCM) PSCLK => '0', -- Dynamic phase adjust clock input PSEN => '0', -- Dynamic phase adjust enable input PSINCDEC => '0', -- Dynamic phase adjust increment/decrement RST => '0' -- DCM asynchronous reset input ); clkfx_inst_1mhz: BUFG port map ( I => dcmclock_1mhz, O => clkout_1mhz ); --clkin_inst_1mhz: IBUFG -- port map ( -- I => clkin, -- O => clkin_i_1mhz -- ); clkin_i_1mhz <= clk0; clkfb_inst_1mhz: BUFG port map ( I=> clk0_1mhz, O=> clkfb_1mhz ); end behave;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity div_tb is end entity div_tb; architecture sim of div_tb is constant D : natural := 28; constant N : natural := 27; signal clk : std_logic := '0'; signal stb : std_logic := '0'; signal num : signed(N-1 downto 0); signal denom : signed(D-1 downto 0); signal quot : signed(N-1 downto 0); signal remaind : signed(D-1 downto 0); signal rdy : std_logic; begin dut : entity work.div generic map( WN => N, WD => D ) port map( clk => clk, stb => stb, num => num, denom => denom, quot => quot, remaind => remaind, rdy => rdy ); clk <= not clk after 20345 ps; process variable cnt : unsigned(8 downto 0) := (others => '0'); begin wait until rising_edge(clk); if cnt = 511 then stb <= '1'; else stb <= '0'; end if; cnt := cnt + 1; end process; process begin num <= to_signed(10,num'length); denom <= to_signed(1,denom'length); wait until stb = '1'; wait; end process; process variable i : integer := 0; begin wait until stb = '1'; i := i + 1; assert (i < 40) severity failure; end process; end architecture sim;
-- Copyright (c) 2015 University of Florida -- -- This file is part of uaa. -- -- uaa is free software: you can redistribute it and/or modify -- it under the terms of the GNU General Public License as published by -- the Free Software Foundation, either version 3 of the License, or -- (at your option) any later version. -- -- uaa is distributed in the hope that it will be useful, -- but WITHOUT ANY WARRANTY; without even the implied warranty of -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -- GNU General Public License for more details. -- -- You should have received a copy of the GNU General Public License -- along with uaa. If not, see <http://www.gnu.org/licenses/>. -- Greg Stitt -- University of Florida -- -- Entity: delay -- Description: This entity delays an input by a specified number of cycles, -- while also allowing stalls and specific output values on reset. library ieee; use ieee.std_logic_1164.all; ------------------------------------------------------------------------------- -- Generic Descriptions -- cycles : The length of the delay in cycles (required) -- width : The width of the input signal (required) -- init : An initial value (of width bits) for the first "cycles" output -- after a reset (required) ------------------------------------------------------------------------------- ------------------------------------------------------------------------------ -- Port Description -- clk : clock -- rst : reset -- en : enable (active high), '0' stalls the delay pipeline -- input : The input to be delayed -- output : The input after "cycles" pass (assuming no stalls from en='0') ------------------------------------------------------------------------------- entity delay is generic(cycles : natural; width : positive; init : std_logic_vector); port( clk : in std_logic; rst : in std_logic; en : in std_logic; input : in std_logic_vector(width-1 downto 0); output : out std_logic_vector(width-1 downto 0)); end delay; architecture FF of delay is type reg_array is array (0 to cycles-1) of std_logic_vector(width-1 downto 0); signal regs : reg_array; begin -- BHV U_CYCLES_GT_0 : if cycles > 0 generate process(clk, rst) begin if (rst = '1') then for i in 0 to cycles-1 loop regs(i) <= init; end loop; elsif (clk'event and clk = '1') then if (en = '1') then regs(0) <= input; end if; for i in 0 to cycles-2 loop if (en = '1') then regs(i+1) <= regs(i); end if; end loop; end if; end process; output <= regs(cycles-1); end generate U_CYCLES_GT_0; U_CYCLES_EQ_0 : if cycles = 0 generate output <= input; end generate U_CYCLES_EQ_0; end FF;
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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block Aooi41G59u5d+cPSE7f0zvkbBYNtsgw3YKcc+Kb1fgciIQQ/D3p0XqHgWwIXnUTlPGeGAVLp+NRs KO+K37X4xQ== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block VnXBKL66aD68l+hV4eCb6Yk0KYJLekWVQAPgJr2ZsDPyfBmnggycFE1BGCXyaK3oTFaBXRKws+A0 T9POnY49Z+5nxCBu5CNmJ/dEHCONPWcYcF9M/RfywwYhArGt38mQ8PelHZcVTYZKQty9ZZ4bv3xl olpCjLC8+LmnHkka6OE= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block b2f/kp1sEXqSiLthkwZZLe1uEUFdxBi509nJnLtm2laySnjv7qzb4lrDvWE2SDHsA/CX+/Xnycjo NVwU05yTcyBxsOga4qgiPIsy0qTJmSZRqYfIn6n8HDCZSo4dB1860pblX07cWSeGlQ89Fr1SfNNw SWh/dQ3eT2dTE+10DEhuW+ZPctALd2USE4LZ82483VRWMCS/Dxgfh2/TY60p62kVecZfpaZgRgbx m1yppFq9UXmYiBxGsZD4r/Jycam0EZtwtVRJEcs4enGRjySXLsjzoFUa3FfNzPFl0g4NQRgELnEw rKqD3k/jNsm0cEmvL+KNbfq0Jl3dV+r3PrQPKQ== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ZujfGGiAP8aB/NuN1o4sNe21B62tctw0gcxgFJ7JxZkNv8NSWtMLtVP33y6si+TzPzIDQPdGTRxo SA9dyjO8ukZXGb0B+frZlNufMadYPFDZTry9GiadvoN4hxvwZmPZgh9hAjuS3u2osskyeHe8uACB Cmja6i7x2NqzSc7OKNc= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block KRgwslFo+BLWvn0PUjTuDzFZZpPBbJevoYJ2Bx3Rflje5dQI9dlZj56jB7qWeEIi7p2XsFw5jODo 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-- megafunction wizard: %RAM: 1-PORT% -- GENERATION: STANDARD -- VERSION: WM1.0 -- MODULE: altsyncram -- ============================================================ -- File Name: ram_dq_INST_kb.vhd -- Megafunction Name(s): -- altsyncram -- -- Simulation Library Files(s): -- altera_mf -- ============================================================ -- ********************************************************** -- THIS IS A WIZARD-GENERATED FILE. DO NOT EDIT THIS FILE! -- -- 12.1 Build 243 01/31/2013 SP 1 SJ Full Version -- ********************************************************** --Copyright (C) 1991-2012 Altera Corporation --Your use of Altera Corporation's design tools, logic functions --and other software and tools, and its AMPP partner logic --functions, and any output files from any of the foregoing --(including device programming or simulation files), and any --associated documentation or information are expressly subject --to the terms and conditions of the Altera Program License --Subscription Agreement, Altera MegaCore Function License --Agreement, or other applicable license agreement, including, --without limitation, that your use is for the sole purpose of --programming logic devices manufactured by Altera and sold by --Altera or its authorized distributors. Please refer to the --applicable agreement for further details. LIBRARY ieee; USE ieee.std_logic_1164.all; LIBRARY altera_mf; USE altera_mf.all; ENTITY ram_dq_INST_kb IS PORT ( address : IN STD_LOGIC_VECTOR (7 DOWNTO 0); clock : IN STD_LOGIC := '1'; data : IN STD_LOGIC_VECTOR (7 DOWNTO 0); wren : IN STD_LOGIC ; q : OUT STD_LOGIC_VECTOR (7 DOWNTO 0) ); END ram_dq_INST_kb; ARCHITECTURE SYN OF ram_dq_inst_kb IS SIGNAL sub_wire0 : STD_LOGIC_VECTOR (7 DOWNTO 0); COMPONENT altsyncram GENERIC ( clock_enable_input_a : STRING; clock_enable_output_a : STRING; intended_device_family : STRING; lpm_hint : STRING; lpm_type : STRING; numwords_a : NATURAL; operation_mode : STRING; outdata_aclr_a : STRING; outdata_reg_a : STRING; power_up_uninitialized : STRING; read_during_write_mode_port_a : STRING; widthad_a : NATURAL; width_a : NATURAL; width_byteena_a : NATURAL ); PORT ( address_a : IN STD_LOGIC_VECTOR (7 DOWNTO 0); clock0 : IN STD_LOGIC ; data_a : IN STD_LOGIC_VECTOR (7 DOWNTO 0); wren_a : IN STD_LOGIC ; q_a : OUT STD_LOGIC_VECTOR (7 DOWNTO 0) ); END COMPONENT; BEGIN q <= sub_wire0(7 DOWNTO 0); altsyncram_component : altsyncram GENERIC MAP ( clock_enable_input_a => "BYPASS", clock_enable_output_a => "BYPASS", intended_device_family => "Cyclone III", lpm_hint => "ENABLE_RUNTIME_MOD=YES,INSTANCE_NAME=N_kb", lpm_type => "altsyncram", numwords_a => 256, operation_mode => "SINGLE_PORT", outdata_aclr_a => "NONE", outdata_reg_a => "CLOCK0", power_up_uninitialized => "FALSE", read_during_write_mode_port_a => "NEW_DATA_NO_NBE_READ", widthad_a => 8, width_a => 8, width_byteena_a => 1 ) PORT MAP ( address_a => address, clock0 => clock, data_a => data, wren_a => wren, q_a => sub_wire0 ); END SYN; -- ============================================================ -- CNX file retrieval info -- ============================================================ -- Retrieval info: PRIVATE: ADDRESSSTALL_A NUMERIC "0" -- Retrieval info: PRIVATE: AclrAddr NUMERIC "0" -- Retrieval info: PRIVATE: AclrByte NUMERIC "0" -- Retrieval info: PRIVATE: AclrData NUMERIC "0" -- Retrieval info: PRIVATE: AclrOutput NUMERIC "0" -- Retrieval info: PRIVATE: BYTE_ENABLE NUMERIC "0" -- Retrieval info: PRIVATE: BYTE_SIZE NUMERIC "8" -- Retrieval info: PRIVATE: BlankMemory NUMERIC "1" -- Retrieval info: PRIVATE: CLOCK_ENABLE_INPUT_A NUMERIC "0" -- Retrieval info: PRIVATE: CLOCK_ENABLE_OUTPUT_A NUMERIC "0" -- Retrieval info: PRIVATE: Clken NUMERIC "0" -- Retrieval info: PRIVATE: DataBusSeparated NUMERIC "1" -- Retrieval info: PRIVATE: IMPLEMENT_IN_LES NUMERIC "0" -- Retrieval info: PRIVATE: INIT_FILE_LAYOUT STRING "PORT_A" -- Retrieval info: PRIVATE: INIT_TO_SIM_X NUMERIC "0" -- Retrieval info: PRIVATE: INTENDED_DEVICE_FAMILY STRING "Cyclone III" -- Retrieval info: PRIVATE: JTAG_ENABLED NUMERIC "1" -- Retrieval info: PRIVATE: JTAG_ID STRING "N_kb" -- Retrieval info: PRIVATE: MAXIMUM_DEPTH NUMERIC "0" -- Retrieval info: PRIVATE: MIFfilename STRING "" -- Retrieval info: PRIVATE: NUMWORDS_A NUMERIC "256" -- Retrieval info: PRIVATE: RAM_BLOCK_TYPE NUMERIC "0" -- Retrieval info: PRIVATE: READ_DURING_WRITE_MODE_PORT_A NUMERIC "3" -- Retrieval info: PRIVATE: RegAddr NUMERIC "1" -- Retrieval info: PRIVATE: RegData NUMERIC "1" -- Retrieval info: PRIVATE: RegOutput NUMERIC "1" -- Retrieval info: PRIVATE: SYNTH_WRAPPER_GEN_POSTFIX STRING "0" -- Retrieval info: PRIVATE: SingleClock NUMERIC "1" -- Retrieval info: PRIVATE: UseDQRAM NUMERIC "1" -- Retrieval info: PRIVATE: WRCONTROL_ACLR_A NUMERIC "0" -- Retrieval info: PRIVATE: WidthAddr NUMERIC "8" -- Retrieval info: PRIVATE: WidthData NUMERIC "8" -- Retrieval info: PRIVATE: rden NUMERIC "0" -- Retrieval info: LIBRARY: altera_mf altera_mf.altera_mf_components.all -- Retrieval info: CONSTANT: CLOCK_ENABLE_INPUT_A STRING "BYPASS" -- Retrieval info: CONSTANT: CLOCK_ENABLE_OUTPUT_A STRING "BYPASS" -- Retrieval info: CONSTANT: INTENDED_DEVICE_FAMILY STRING "Cyclone III" -- Retrieval info: CONSTANT: LPM_HINT STRING "ENABLE_RUNTIME_MOD=YES,INSTANCE_NAME=N_kb" -- Retrieval info: CONSTANT: LPM_TYPE STRING "altsyncram" -- Retrieval info: CONSTANT: NUMWORDS_A NUMERIC "256" -- Retrieval info: CONSTANT: OPERATION_MODE STRING "SINGLE_PORT" -- Retrieval info: CONSTANT: OUTDATA_ACLR_A STRING "NONE" -- Retrieval info: CONSTANT: OUTDATA_REG_A STRING "CLOCK0" -- Retrieval info: CONSTANT: POWER_UP_UNINITIALIZED STRING "FALSE" -- Retrieval info: CONSTANT: READ_DURING_WRITE_MODE_PORT_A STRING "NEW_DATA_NO_NBE_READ" -- Retrieval info: CONSTANT: WIDTHAD_A NUMERIC "8" -- Retrieval info: CONSTANT: WIDTH_A NUMERIC "8" -- Retrieval info: CONSTANT: WIDTH_BYTEENA_A NUMERIC "1" -- Retrieval info: USED_PORT: address 0 0 8 0 INPUT NODEFVAL "address[7..0]" -- Retrieval info: USED_PORT: clock 0 0 0 0 INPUT VCC "clock" -- Retrieval info: USED_PORT: data 0 0 8 0 INPUT NODEFVAL "data[7..0]" -- Retrieval info: USED_PORT: q 0 0 8 0 OUTPUT NODEFVAL "q[7..0]" -- Retrieval info: USED_PORT: wren 0 0 0 0 INPUT NODEFVAL "wren" -- Retrieval info: CONNECT: @address_a 0 0 8 0 address 0 0 8 0 -- Retrieval info: CONNECT: @clock0 0 0 0 0 clock 0 0 0 0 -- Retrieval info: CONNECT: @data_a 0 0 8 0 data 0 0 8 0 -- Retrieval info: CONNECT: @wren_a 0 0 0 0 wren 0 0 0 0 -- Retrieval info: CONNECT: q 0 0 8 0 @q_a 0 0 8 0 -- Retrieval info: GEN_FILE: TYPE_NORMAL ram_dq_INST_kb.vhd TRUE -- Retrieval info: GEN_FILE: TYPE_NORMAL ram_dq_INST_kb.inc FALSE -- Retrieval info: GEN_FILE: TYPE_NORMAL ram_dq_INST_kb.cmp TRUE -- Retrieval info: GEN_FILE: TYPE_NORMAL ram_dq_INST_kb.bsf TRUE FALSE -- Retrieval info: GEN_FILE: TYPE_NORMAL ram_dq_INST_kb_inst.vhd FALSE -- Retrieval info: LIB_FILE: altera_mf
-- megafunction wizard: %RAM: 1-PORT% -- GENERATION: STANDARD -- VERSION: WM1.0 -- MODULE: altsyncram -- ============================================================ -- File Name: ram_dq_INST_kb.vhd -- Megafunction Name(s): -- altsyncram -- -- Simulation Library Files(s): -- altera_mf -- ============================================================ -- ********************************************************** -- THIS IS A WIZARD-GENERATED FILE. DO NOT EDIT THIS FILE! -- -- 12.1 Build 243 01/31/2013 SP 1 SJ Full Version -- ********************************************************** --Copyright (C) 1991-2012 Altera Corporation --Your use of Altera Corporation's design tools, logic functions --and other software and tools, and its AMPP partner logic --functions, and any output files from any of the foregoing --(including device programming or simulation files), and any --associated documentation or information are expressly subject --to the terms and conditions of the Altera Program License --Subscription Agreement, Altera MegaCore Function License --Agreement, or other applicable license agreement, including, --without limitation, that your use is for the sole purpose of --programming logic devices manufactured by Altera and sold by --Altera or its authorized distributors. Please refer to the --applicable agreement for further details. LIBRARY ieee; USE ieee.std_logic_1164.all; LIBRARY altera_mf; USE altera_mf.all; ENTITY ram_dq_INST_kb IS PORT ( address : IN STD_LOGIC_VECTOR (7 DOWNTO 0); clock : IN STD_LOGIC := '1'; data : IN STD_LOGIC_VECTOR (7 DOWNTO 0); wren : IN STD_LOGIC ; q : OUT STD_LOGIC_VECTOR (7 DOWNTO 0) ); END ram_dq_INST_kb; ARCHITECTURE SYN OF ram_dq_inst_kb IS SIGNAL sub_wire0 : STD_LOGIC_VECTOR (7 DOWNTO 0); COMPONENT altsyncram GENERIC ( clock_enable_input_a : STRING; clock_enable_output_a : STRING; intended_device_family : STRING; lpm_hint : STRING; lpm_type : STRING; numwords_a : NATURAL; operation_mode : STRING; outdata_aclr_a : STRING; outdata_reg_a : STRING; power_up_uninitialized : STRING; read_during_write_mode_port_a : STRING; widthad_a : NATURAL; width_a : NATURAL; width_byteena_a : NATURAL ); PORT ( address_a : IN STD_LOGIC_VECTOR (7 DOWNTO 0); clock0 : IN STD_LOGIC ; data_a : IN STD_LOGIC_VECTOR (7 DOWNTO 0); wren_a : IN STD_LOGIC ; q_a : OUT STD_LOGIC_VECTOR (7 DOWNTO 0) ); END COMPONENT; BEGIN q <= sub_wire0(7 DOWNTO 0); altsyncram_component : altsyncram GENERIC MAP ( clock_enable_input_a => "BYPASS", clock_enable_output_a => "BYPASS", intended_device_family => "Cyclone III", lpm_hint => "ENABLE_RUNTIME_MOD=YES,INSTANCE_NAME=N_kb", lpm_type => "altsyncram", numwords_a => 256, operation_mode => "SINGLE_PORT", outdata_aclr_a => "NONE", outdata_reg_a => "CLOCK0", power_up_uninitialized => "FALSE", read_during_write_mode_port_a => "NEW_DATA_NO_NBE_READ", widthad_a => 8, width_a => 8, width_byteena_a => 1 ) PORT MAP ( address_a => address, clock0 => clock, data_a => data, wren_a => wren, q_a => sub_wire0 ); END SYN; -- ============================================================ -- CNX file retrieval info -- ============================================================ -- Retrieval info: PRIVATE: ADDRESSSTALL_A NUMERIC "0" -- Retrieval info: PRIVATE: AclrAddr NUMERIC "0" -- Retrieval info: PRIVATE: AclrByte NUMERIC "0" -- Retrieval info: PRIVATE: AclrData NUMERIC "0" -- Retrieval info: PRIVATE: AclrOutput NUMERIC "0" -- Retrieval info: PRIVATE: BYTE_ENABLE NUMERIC "0" -- Retrieval info: PRIVATE: BYTE_SIZE NUMERIC "8" -- Retrieval info: PRIVATE: BlankMemory NUMERIC "1" -- Retrieval info: PRIVATE: CLOCK_ENABLE_INPUT_A NUMERIC "0" -- Retrieval info: PRIVATE: CLOCK_ENABLE_OUTPUT_A NUMERIC "0" -- Retrieval info: PRIVATE: Clken NUMERIC "0" -- Retrieval info: PRIVATE: DataBusSeparated NUMERIC "1" -- Retrieval info: PRIVATE: IMPLEMENT_IN_LES NUMERIC "0" -- Retrieval info: PRIVATE: INIT_FILE_LAYOUT STRING "PORT_A" -- Retrieval info: PRIVATE: INIT_TO_SIM_X NUMERIC "0" -- Retrieval info: PRIVATE: INTENDED_DEVICE_FAMILY STRING "Cyclone III" -- Retrieval info: PRIVATE: JTAG_ENABLED NUMERIC "1" -- Retrieval info: PRIVATE: JTAG_ID STRING "N_kb" -- Retrieval info: PRIVATE: MAXIMUM_DEPTH NUMERIC "0" -- Retrieval info: PRIVATE: MIFfilename STRING "" -- Retrieval info: PRIVATE: NUMWORDS_A NUMERIC "256" -- Retrieval info: PRIVATE: RAM_BLOCK_TYPE NUMERIC "0" -- Retrieval info: PRIVATE: READ_DURING_WRITE_MODE_PORT_A NUMERIC "3" -- Retrieval info: PRIVATE: RegAddr NUMERIC "1" -- Retrieval info: PRIVATE: RegData NUMERIC "1" -- Retrieval info: PRIVATE: RegOutput NUMERIC "1" -- Retrieval info: PRIVATE: SYNTH_WRAPPER_GEN_POSTFIX STRING "0" -- Retrieval info: PRIVATE: SingleClock NUMERIC "1" -- Retrieval info: PRIVATE: UseDQRAM NUMERIC "1" -- Retrieval info: PRIVATE: WRCONTROL_ACLR_A NUMERIC "0" -- Retrieval info: PRIVATE: WidthAddr NUMERIC "8" -- Retrieval info: PRIVATE: WidthData NUMERIC "8" -- Retrieval info: PRIVATE: rden NUMERIC "0" -- Retrieval info: LIBRARY: altera_mf altera_mf.altera_mf_components.all -- Retrieval info: CONSTANT: CLOCK_ENABLE_INPUT_A STRING "BYPASS" -- Retrieval info: CONSTANT: CLOCK_ENABLE_OUTPUT_A STRING "BYPASS" -- Retrieval info: CONSTANT: INTENDED_DEVICE_FAMILY STRING "Cyclone III" -- Retrieval info: CONSTANT: LPM_HINT STRING "ENABLE_RUNTIME_MOD=YES,INSTANCE_NAME=N_kb" -- Retrieval info: CONSTANT: LPM_TYPE STRING "altsyncram" -- Retrieval info: CONSTANT: NUMWORDS_A NUMERIC "256" -- Retrieval info: CONSTANT: OPERATION_MODE STRING "SINGLE_PORT" -- Retrieval info: CONSTANT: OUTDATA_ACLR_A STRING "NONE" -- Retrieval info: CONSTANT: OUTDATA_REG_A STRING "CLOCK0" -- Retrieval info: CONSTANT: POWER_UP_UNINITIALIZED STRING "FALSE" -- Retrieval info: CONSTANT: READ_DURING_WRITE_MODE_PORT_A STRING "NEW_DATA_NO_NBE_READ" -- Retrieval info: CONSTANT: WIDTHAD_A NUMERIC "8" -- Retrieval info: CONSTANT: WIDTH_A NUMERIC "8" -- Retrieval info: CONSTANT: WIDTH_BYTEENA_A NUMERIC "1" -- Retrieval info: USED_PORT: address 0 0 8 0 INPUT NODEFVAL "address[7..0]" -- Retrieval info: USED_PORT: clock 0 0 0 0 INPUT VCC "clock" -- Retrieval info: USED_PORT: data 0 0 8 0 INPUT NODEFVAL "data[7..0]" -- Retrieval info: USED_PORT: q 0 0 8 0 OUTPUT NODEFVAL "q[7..0]" -- Retrieval info: USED_PORT: wren 0 0 0 0 INPUT NODEFVAL "wren" -- Retrieval info: CONNECT: @address_a 0 0 8 0 address 0 0 8 0 -- Retrieval info: CONNECT: @clock0 0 0 0 0 clock 0 0 0 0 -- Retrieval info: CONNECT: @data_a 0 0 8 0 data 0 0 8 0 -- Retrieval info: CONNECT: @wren_a 0 0 0 0 wren 0 0 0 0 -- Retrieval info: CONNECT: q 0 0 8 0 @q_a 0 0 8 0 -- Retrieval info: GEN_FILE: TYPE_NORMAL ram_dq_INST_kb.vhd TRUE -- Retrieval info: GEN_FILE: TYPE_NORMAL ram_dq_INST_kb.inc FALSE -- Retrieval info: GEN_FILE: TYPE_NORMAL ram_dq_INST_kb.cmp TRUE -- Retrieval info: GEN_FILE: TYPE_NORMAL ram_dq_INST_kb.bsf TRUE FALSE -- Retrieval info: GEN_FILE: TYPE_NORMAL ram_dq_INST_kb_inst.vhd FALSE -- Retrieval info: LIB_FILE: altera_mf
-- SIMON 64/128 -- feistel round function operation phi test bench -- -- @Author: Jos Wetzels -- @Author: Wouter Bokslag -- LIBRARY ieee; USE ieee.std_logic_1164.ALL; ENTITY tb_phi IS END tb_phi; ARCHITECTURE behavior OF tb_phi IS -- Component Declaration for the Unit Under Test (UUT) COMPONENT phi is port(x_in : in std_logic_vector(31 downto 0); x_out : out std_logic_vector(31 downto 0) ); END COMPONENT; --Inputs signal clk : std_logic := '0'; signal x_in : std_logic_vector(31 downto 0) := (others => '0'); -- input --Outputs signal x_out : std_logic_vector(31 downto 0); -- output -- Clock period definitions constant clk_period : time := 10 ns; signal clk_generator_finish : STD_LOGIC := '0'; signal test_bench_finish : STD_LOGIC := '0'; BEGIN -- Instantiate the Unit Under Test (UUT) uut: phi PORT MAP ( x_in => x_in, x_out => x_out ); -- Clock process definitions clock : process begin while ( clk_generator_finish /= '1') loop clk <= not clk; wait for clk_period/2; end loop; wait; end process; -- Stimulus process stim_proc: process begin wait for clk_period/2 + 10*clk_period; x_in <= X"CAFECAFE"; wait for clk_period; assert x_out = X"BF33BF33" report "PHI ERROR (r_0)" severity FAILURE; test_bench_finish <= '1'; clk_generator_finish <= '1'; wait for clk_period; wait; end process; END;
-- SIMON 64/128 -- feistel round function operation phi test bench -- -- @Author: Jos Wetzels -- @Author: Wouter Bokslag -- LIBRARY ieee; USE ieee.std_logic_1164.ALL; ENTITY tb_phi IS END tb_phi; ARCHITECTURE behavior OF tb_phi IS -- Component Declaration for the Unit Under Test (UUT) COMPONENT phi is port(x_in : in std_logic_vector(31 downto 0); x_out : out std_logic_vector(31 downto 0) ); END COMPONENT; --Inputs signal clk : std_logic := '0'; signal x_in : std_logic_vector(31 downto 0) := (others => '0'); -- input --Outputs signal x_out : std_logic_vector(31 downto 0); -- output -- Clock period definitions constant clk_period : time := 10 ns; signal clk_generator_finish : STD_LOGIC := '0'; signal test_bench_finish : STD_LOGIC := '0'; BEGIN -- Instantiate the Unit Under Test (UUT) uut: phi PORT MAP ( x_in => x_in, x_out => x_out ); -- Clock process definitions clock : process begin while ( clk_generator_finish /= '1') loop clk <= not clk; wait for clk_period/2; end loop; wait; end process; -- Stimulus process stim_proc: process begin wait for clk_period/2 + 10*clk_period; x_in <= X"CAFECAFE"; wait for clk_period; assert x_out = X"BF33BF33" report "PHI ERROR (r_0)" severity FAILURE; test_bench_finish <= '1'; clk_generator_finish <= '1'; wait for clk_period; wait; end process; END;
-- SIMON 64/128 -- feistel round function operation phi test bench -- -- @Author: Jos Wetzels -- @Author: Wouter Bokslag -- LIBRARY ieee; USE ieee.std_logic_1164.ALL; ENTITY tb_phi IS END tb_phi; ARCHITECTURE behavior OF tb_phi IS -- Component Declaration for the Unit Under Test (UUT) COMPONENT phi is port(x_in : in std_logic_vector(31 downto 0); x_out : out std_logic_vector(31 downto 0) ); END COMPONENT; --Inputs signal clk : std_logic := '0'; signal x_in : std_logic_vector(31 downto 0) := (others => '0'); -- input --Outputs signal x_out : std_logic_vector(31 downto 0); -- output -- Clock period definitions constant clk_period : time := 10 ns; signal clk_generator_finish : STD_LOGIC := '0'; signal test_bench_finish : STD_LOGIC := '0'; BEGIN -- Instantiate the Unit Under Test (UUT) uut: phi PORT MAP ( x_in => x_in, x_out => x_out ); -- Clock process definitions clock : process begin while ( clk_generator_finish /= '1') loop clk <= not clk; wait for clk_period/2; end loop; wait; end process; -- Stimulus process stim_proc: process begin wait for clk_period/2 + 10*clk_period; x_in <= X"CAFECAFE"; wait for clk_period; assert x_out = X"BF33BF33" report "PHI ERROR (r_0)" severity FAILURE; test_bench_finish <= '1'; clk_generator_finish <= '1'; wait for clk_period; wait; end process; END;
-- ------------------------------------------------------------- -- -- Generated Architecture Declaration for rtl of inst_a_e -- -- Generated -- by: wig -- on: Mon Jun 26 16:29:28 2006 -- cmd: /cygdrive/h/work/eclipse/MIX/mix_0.pl ../genwidth.xls -- -- !!! Do not edit this file! Autogenerated by MIX !!! -- $Author: wig $ -- $Id: inst_a_e-rtl-a.vhd,v 1.4 2006/07/04 09:54:11 wig Exp $ -- $Date: 2006/07/04 09:54:11 $ -- $Log: inst_a_e-rtl-a.vhd,v $ -- Revision 1.4 2006/07/04 09:54:11 wig -- Update more testcases, add configuration/cfgfile -- -- -- Based on Mix Architecture Template built into RCSfile: MixWriter.pm,v -- Id: MixWriter.pm,v 1.90 2006/06/22 07:13:21 wig Exp -- -- Generator: mix_0.pl Revision: 1.46 , wilfried.gaensheimer@micronas.com -- (C) 2003,2005 Micronas GmbH -- -- -------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; -- No project specific VHDL libraries/arch -- -- -- Start of Generated Architecture rtl of inst_a_e -- architecture rtl of inst_a_e is -- -- Generated Constant Declarations -- constant width : integer := 9; -- __I_PARAMETER -- -- Generated Components -- component inst_aa_e generic ( -- Generated Generics for Entity inst_aa_e width : integer := 8 -- End of Generated Generics for Entity inst_aa_e ); port ( -- Generated Port for Entity inst_aa_e y_p_i : out std_ulogic_vector(width - 1 downto 0) -- End of Generated Port for Entity inst_aa_e ); end component; -- --------- component inst_ab_e generic ( -- Generated Generics for Entity inst_ab_e width : integer := 8 -- End of Generated Generics for Entity inst_ab_e ); port ( -- Generated Port for Entity inst_ab_e y_p0_i : in std_ulogic_vector(width - 1 downto 0) -- End of Generated Port for Entity inst_ab_e ); end component; -- --------- component inst_ac_e -- No Generated Generics -- Generated Generics for Entity inst_ac_e -- End of Generated Generics for Entity inst_ac_e port ( -- Generated Port for Entity inst_ac_e defwidth : in std_ulogic_vector(`dwidth - 1 downto 0) -- End of Generated Port for Entity inst_ac_e ); end component; -- --------- -- -- Generated Signal List -- signal y_c422444 : std_ulogic_vector(width - 1 downto 0); -- __I_NODRV_I signal y_defwidth : std_ulogic_vector(`dwidth - 1 downto 0); -- -- End of Generated Signal List -- begin -- -- Generated Concurrent Statements -- -- -- Generated Signal Assignments -- -- -- Generated Instances and Port Mappings -- -- Generated Instance Port Map for inst_aa inst_aa: inst_aa_e generic map ( width => 9 ) port map ( y_p_i => y_c422444 ); -- End of Generated Instance Port Map for inst_aa -- Generated Instance Port Map for inst_ab inst_ab: inst_ab_e generic map ( width => 9 ) port map ( y_p0_i => y_c422444 ); -- End of Generated Instance Port Map for inst_ab -- Generated Instance Port Map for inst_ac inst_ac: inst_ac_e port map ( -- __I_NODRV_I defwidth => __nodrv__/y_defwidth ); -- End of Generated Instance Port Map for inst_ac end rtl; -- --!End of Architecture/s -- --------------------------------------------------------------
-- libraries --------------------------------------------------------------------------------- {{{ library IEEE; use IEEE.STD_LOGIC_1164.all; use IEEE.NUMERIC_STD.ALL; use ieee.std_logic_textio.all; use std.textio.all; ------------------------------------------------------------------------------------------------- }}} package FGPU_definitions is constant N_CU_W : natural := 2; --0 to 3 -- Bitwidth of # of CUs constant LMEM_ADDR_W : natural := 10; -- bitwidth of local memory address for a single PE constant N_AXI_W : natural := 1; -- Bitwidth of # of AXI data ports constant SUB_INTEGER_IMPLEMENT : natural := 0; -- implement sub-integer store operations constant N_STATIONS_ALU : natural := 8; -- # stations to store memory requests sourced by a single ALU constant ATOMIC_IMPLEMENT : natural := 0; -- implement global atomic operations constant LMEM_IMPLEMENT : natural := 1; -- implement local scratchpad constant N_TAG_MANAGERS_W : natural := N_CU_W+1; -- 0 to 1 -- Bitwidth of # tag controllers per CU constant RD_CACHE_N_WORDS_W : natural := 0; constant RD_CACHE_FIFO_PORTB_ADDR_W : natural := 6; constant FLOAT_IMPLEMENT : natural := 1; constant FADD_IMPLEMENT : integer := 1; constant FMUL_IMPLEMENT : integer := 1; constant FDIV_IMPLEMENT : integer := 1; constant FSQRT_IMPLEMENT : integer := 1; constant UITOFP_IMPLEMENT : integer := 1; constant FSLT_IMPLEMENT : integer := 1; constant FRSQRT_IMPLEMENT : integer := 0; constant FADD_DELAY : integer := 11; constant UITOFP_DELAY : integer := 5; constant FMUL_DELAY : integer := 8; constant FDIV_DELAY : integer := 28; constant FSQRT_DELAY : integer := 28; constant FRSQRT_DELAY : integer := 28; constant FSLT_DELAY : integer := 2; constant MAX_FPU_DELAY : integer := FDIV_DELAY; constant CACHE_N_BANKS_W : natural := 2; -- Bitwidth of # words within a cache line. Minimum is 2 constant N_RECEIVERS_CU_W : natural := 6-N_CU_W; -- Bitwidth of # of receivers inside the global memory controller per CU. (6-N_CU_W) will lead to 64 receivers whatever the # of CU is. constant BURST_WORDS_W : natural := 5; -- Bitwidth # of words within a single AXI burst constant ENABLE_READ_PRIORIRY_PIPE : boolean := false; constant FIFO_ADDR_W : natural := 3; -- Bitwidth of the fifo size to store outgoing memory requests from a CU constant N_RD_FIFOS_TAG_MANAGER_W : natural := 0; constant FINISH_FIFO_ADDR_W : natural := 3; -- Bitwidth of the fifo depth to mark dirty cache lines to be cleared at the end -- constant CRAM_BLOCKS : natural := 1; -- # of CRAM replicates. Each replicate will serve some CUs (1 or 2 supported only) constant CV_W : natural := 3; -- bitwidth of # of PEs within a CV constant CV_TO_CACHE_SLICE : natural := 3; constant INSTR_READ_SLICE : boolean := true; constant RTM_WRITE_SLICE : boolean := true; constant WRITE_PHASE_W : natural := 1; -- # of MSBs of the receiver index in the global memory controller which will be selected to write. These bits increments always. -- This incrmenetation should help to balance serving the receivers constant RCV_PRIORITY_W : natural := 3; constant N_WF_CU_W : natural := 3; -- bitwidth of # of WFs that can be simultaneously managed within a CU constant AADD_ATOMIC : natural := 1; constant AMAX_ATOMIC : natural := 1; constant GMEM_N_BANK_W : natural := 1; constant ID_WIDTH : natural := 6; constant PHASE_W : natural := 3; constant CV_SIZE : natural := 2CV_W; constant RD_CACHE_N_WORDS : natural := 2RD_CACHE_N_WORDS_W; constant WF_SIZE_W : natural := PHASE_W + CV_W; -- A WF will be executed on the PEs of a single CV withen PAHSE_LEN cycels constant WG_SIZE_W : natural := WF_SIZE_W + N_WF_CU_W; -- A WG must be executed on a single CV. It contains a number of WFs which is at maximum the amount that can be managed within a CV constant RTM_ADDR_W : natural := 1+2+N_WF_CU_W+PHASE_W; -- 1+2+3+3 = 9bit -- The MSB if select between local indcs or other information -- The lower 2 MSBs for d0, d1 or d2. The middle N_WF_CU_W are for the WF index with the CV. The lower LSBs are for the phase index constant RTM_DATA_W : natural := CV_SIZEWG_SIZE_W; -- Bitwidth of RTM data ports constant BURST_W : natural := BURST_WORDS_W - GMEM_N_BANK_W; -- burst width in number of transfers on the axi bus constant RD_FIFO_N_BURSTS_W : natural := 1; constant RD_FIFO_W : natural := BURST_W + RD_FIFO_N_BURSTS_W; constant N_TAG_MANAGERS : natural := 2N_TAG_MANAGERS_W; constant N_AXI : natural := 2N_AXI_W; constant N_WR_FIFOS_AXI_W : natural := N_TAG_MANAGERS_W-N_AXI_W; constant INTERFCE_W_ADDR_W : natural := 14; constant CRAM_ADDR_W : natural := 12; -- TODO constant DATA_W : natural := 32; constant BRAM18kb32b_ADDR_W : natural := 9; constant BRAM36kb64b_ADDR_W : natural := 9; constant BRAM36kb_ADDR_W : natural := 10; constant INST_FIFO_PRE_LEN : natural := 8; constant CV_INST_FIFO_W : natural := 3; constant LOC_MEM_W : natural := BRAM18kb32b_ADDR_W; constant N_PARAMS_W : natural := 4; constant GMEM_ADDR_W : natural := 32; constant WI_REG_ADDR_W : natural := 5; constant N_REG_BLOCKS_W : natural := 2; constant REG_FILE_BLOCK_W : natural := PHASE_W+WI_REG_ADDR_W+N_WF_CU_W-N_REG_BLOCKS_W; -- default=3+5+3-2=9 constant N_WR_FIFOS_W : natural := N_WR_FIFOS_AXI_W + N_AXI_W; constant N_WR_FIFOS_AXI : natural := 2N_WR_FIFOS_AXI_W; constant N_WR_FIFOS : natural := 2N_WR_FIFOS_W; constant STAT : natural := 1; constant STAT_LOAD : natural := 0; -- cache & gmem controller constants constant BRMEM_ADDR_W : natural := BRAM36kb_ADDR_W; -- default=10 constant N_RD_PORTS : natural := 4; constant N : natural := CACHE_N_BANKS_W; -- max. 3 constant L : natural := BURST_WORDS_W-N; -- min. 2 constant M : natural := BRMEM_ADDR_W - L; -- max. 8 -- L+M = BMEM_ADDR_W = 10 = #address bits of a BRAM -- cache size = 2^(N+L+M) words; max.=84KB=32KB constant N_RECEIVERS_CU : natural := 2N_RECEIVERS_CU_W; constant N_RECEIVERS_W : natural := N_CU_W + N_RECEIVERS_CU_W; constant N_RECEIVERS : natural := 2N_RECEIVERS_W; constant N_CU_STATIONS_W : natural := 6; constant GMEM_WORD_ADDR_W : natural := GMEM_ADDR_W - 2; constant TAG_W : natural := GMEM_WORD_ADDR_W -M -L -N; constant GMEM_N_BANK : natural := 2GMEM_N_BANK_W; constant CACHE_N_BANKS : natural := 2CACHE_N_BANKS_W; constant REG_FILE_W : natural := N_REG_BLOCKS_W+REG_FILE_BLOCK_W; constant N_REG_BLOCKS : natural := 2N_REG_BLOCKS_W; constant REG_ADDR_W : natural := BRAM18kb32b_ADDR_W+BRAM18kb32b_ADDR_W; constant REG_FILE_SIZE : natural := 2REG_ADDR_W; constant REG_FILE_BLOCK_SIZE : natural := 2*REG_FILE_BLOCK_W; constant GMEM_DATA_W : natural := GMEM_N_BANK DATA_W; constant N_PARAMS : natural := 2N_PARAMS_W; constant LOC_MEM_SIZE : natural := 2LOC_MEM_W; constant PHASE_LEN : natural := 2PHASE_W; constant CV_INST_FIFO_SIZE : natural := 2CV_INST_FIFO_W; constant N_CU : natural := 2N_CU_W; constant N_WF_CU : natural := 2N_WF_CU_W; constant WF_SIZE : natural := 2WF_SIZE_W; constant CRAM_SIZE : natural := 2CRAM_ADDR_W; constant RTM_SIZE : natural := 2RTM_ADDR_W; constant BRAM18kb_SIZE : natural := 2BRAM18kb32b_ADDR_W; constant regFile_addr : natural := 2(INTERFCE_W_ADDR_W-1); -- "10" of the address msbs to choose the register file constant Rstat_addr : natural := regFile_addr + 0; --address of status register in the register file constant Rstart_addr : natural := regFile_addr + 1; --address of stat register in the register file constant RcleanCache_addr : natural := regFile_addr + 2; --address of cleanCache register in the register file constant RInitiate_addr : natural := regFile_addr + 3; --address of cleanCache register in the register file constant Rstat_regFile_addr : natural := 0; --address of status register in the register file constant Rstart_regFile_addr : natural := 1; --address of stat register in the register file constant RcleanCache_regFile_addr : natural := 2; --address of cleanCache register in the register file constant RInitiate_regFile_addr : natural := 3; --address of initiate register in the register file constant N_REG_W : natural := 2; constant PARAMS_ADDR_LOC_MEM_OFFSET : natural := LOC_MEM_SIZE - N_PARAMS; -- constant GMEM_RQST_BUS_W : natural := GMEM_DATA_W; -- new kernel descriptor ---------------------------------------------------------------- constant NEW_KRNL_DESC_W : natural := 5; -- length of the kernel's descripto constant NEW_KRNL_INDX_W : natural := 4; -- bitwidth of number of kernels that can be started constant NEW_KRNL_DESC_LEN : natural := 12; constant WG_MAX_SIZE : natural := 2WG_SIZE_W; constant NEW_KRNL_DESC_MAX_LEN : natural := 2NEW_KRNL_DESC_W; constant NEW_KRNL_MAX_INDX : natural := 2NEW_KRNL_INDX_W; constant KRNL_SCH_ADDR_W : natural := NEW_KRNL_DESC_W + NEW_KRNL_INDX_W; constant NEW_KRNL_DESC_N_WF : natural range 0 to NEW_KRNL_DESC_MAX_LEN-1 := 0; constant NEW_KRNL_DESC_ID0_SIZE : natural range 0 to NEW_KRNL_DESC_MAX_LEN-1 := 1; constant NEW_KRNL_DESC_ID1_SIZE : natural range 0 to NEW_KRNL_DESC_MAX_LEN-1 := 2; constant NEW_KRNL_DESC_ID2_SIZE : natural range 0 to NEW_KRNL_DESC_MAX_LEN-1 := 3; constant NEW_KRNL_DESC_ID0_OFFSET : natural range 0 to NEW_KRNL_DESC_MAX_LEN-1 := 4; constant NEW_KRNL_DESC_ID1_OFFSET : natural range 0 to NEW_KRNL_DESC_MAX_LEN-1 := 5; constant NEW_KRNL_DESC_ID2_OFFSET : natural range 0 to NEW_KRNL_DESC_MAX_LEN-1 := 6; constant NEW_KRNL_DESC_WG_SIZE : natural range 0 to NEW_KRNL_DESC_MAX_LEN-1 := 7; constant NEW_KRNL_DESC_N_WG_0 : natural range 0 to NEW_KRNL_DESC_MAX_LEN-1 := 8; constant NEW_KRNL_DESC_N_WG_1 : natural range 0 to NEW_KRNL_DESC_MAX_LEN-1 := 9; constant NEW_KRNL_DESC_N_WG_2 : natural range 0 to NEW_KRNL_DESC_MAX_LEN-1 := 10; constant NEW_KRNL_DESC_N_PARAMS : natural range 0 to NEW_KRNL_DESC_MAX_LEN-1 := 11; constant PARAMS_OFFSET : natural range 0 to NEW_KRNL_DESC_MAX_LEN-1 := 16; constant WG_SIZE_0_OFFSET : natural := 0; constant WG_SIZE_1_OFFSET : natural := 10; constant WG_SIZE_2_OFFSET : natural := 20; constant N_DIM_OFFSET : natural := 30; constant ADDR_FIRST_INST_OFFSET : natural := 0; constant ADDR_LAST_INST_OFFSET : natural := 14; constant N_WF_OFFSET : natural := 28; constant N_WG_0_OFFSET : natural := 16; constant N_WG_1_OFFSET : natural := 0; constant N_WG_2_OFFSET : natural := 16; constant WG_SIZE_OFFSET : natural := 0; constant N_PARAMS_OFFSET : natural := 28; type cram_type is array (2CRAM_ADDR_W-1 downto 0) of std_logic_vector (DATA_W-1 downto 0); type slv32_array is array (natural range<>) of std_logic_vector(DATA_W-1 downto 0); type krnl_scheduler_ram_TYPE is array (2KRNL_SCH_ADDR_W-1 downto 0) of std_logic_vector (DATA_W-1 downto 0); type cram_addr_array is array (natural range <>) of unsigned(CRAM_ADDR_W-1 downto 0); -- range 0 to CRAM_SIZE-1; type rtm_ram_type is array (natural range <>) of unsigned(RTM_DATA_W-1 downto 0); type gmem_addr_array is array (natural range<>) of unsigned(GMEM_ADDR_W-1 downto 0); type op_arith_shift_type is (op_add, op_lw, op_mult, op_bra, op_shift, op_slt, op_mov, op_ato, op_lmem); type op_logical_type is (op_andi, op_and, op_ori, op_or, op_xor, op_xori, op_nor); type be_array is array(natural range <>) of std_logic_vector(DATA_W/8-1 downto 0); type gmem_be_array is array(natural range <>) of std_logic_vector(GMEM_N_BANKDATA_W/8-1 downto 0); type sl_array is array(natural range <>) of std_logic; type nat_array is array(natural range <>) of natural; type nat_2d_array is array(natural range <>, natural range <>) of natural; type reg_addr_array is array (natural range <>) of unsigned(REG_FILE_W-1 downto 0); type gmem_word_addr_array is array(natural range <>) of unsigned(GMEM_WORD_ADDR_W-1 downto 0); type gmem_addr_array_no_bank is array (natural range <>) of unsigned(GMEM_WORD_ADDR_W-CACHE_N_BANKS_W-1 downto 0); type alu_en_vec_type is array(natural range <>) of std_logic_vector(CV_SIZE-1 downto 0); type alu_en_rdAddr_type is array(natural range <>) of unsigned(PHASE_W+N_WF_CU_W-1 downto 0); type tag_array is array (natural range <>) of unsigned(TAG_W-1 downto 0); type gmem_word_array is array (natural range <>) of std_logic_vector(DATA_WGMEM_N_BANK-1 downto 0); type wf_active_array is array (natural range <>) of std_logic_vector(N_WF_CU-1 downto 0); type cache_addr_array is array(natural range <>) of unsigned(M+L-1 downto 0); type cache_word_array is array(natural range <>) of std_logic_vector(CACHE_N_BANKSDATA_W-1 downto 0); type tag_addr_array is array(natural range <>) of unsigned(M-1 downto 0); type reg_file_block_array is array(natural range<>) of unsigned(REG_FILE_BLOCK_W-1 downto 0); type id_array is array(natural range<>) of std_logic_vector(ID_WIDTH-1 downto 0); type real_array is array (natural range <>) of real; type atomic_sgntr_array is array (natural range <>) of std_logic_vector(N_CU_STATIONS_W-1 downto 0); attribute max_fanout: integer; attribute keep: string; attribute mark_debug : string; impure function init_krnl_ram(file_name : in string) return KRNL_SCHEDULER_RAM_type; impure function init_SLV32_ARRAY_from_file(file_name : in string; len: in natural; file_len: in natural) return SLV32_ARRAY; impure function init_CRAM(file_name : in string; file_len: in natural) return cram_type; function pri_enc(datain: in std_logic_vector) return integer; function max (LEFT, RIGHT: integer) return integer; function min_int (LEFT, RIGHT: integer) return integer; function clogb2 (bit_depth : integer) return integer; --- ISA -------------------------------------------------------------------------------------- constant FAMILY_W : natural := 4; constant CODE_W : natural := 4; constant IMM_ARITH_W : natural := 14; constant IMM_W : natural := 16; constant BRANCH_ADDR_W : natural := 14; constant FAMILY_POS : natural := 28; constant CODE_POS : natural := 24; constant RD_POS : natural := 0; constant RS_POS : natural := 5; constant RT_POS : natural := 10; constant IMM_POS : natural := 10; constant DIM_POS : natural := 5; constant PARAM_POS : natural := 5; constant BRANCH_ADDR_POS : natural := 10; --------------- families constant ADD_FAMILY : std_logic_vector(FAMILY_W-1 downto 0) := X"1"; constant SHF_FAMILY : std_logic_vector(FAMILY_W-1 downto 0) := X"2"; constant LGK_FAMILY : std_logic_vector(FAMILY_W-1 downto 0) := X"3"; constant MOV_FAMILY : std_logic_vector(FAMILY_W-1 downto 0) := X"4"; constant MUL_FAMILY : std_logic_vector(FAMILY_W-1 downto 0) := X"5"; constant BRA_FAMILY : std_logic_vector(FAMILY_W-1 downto 0) := X"6"; constant GLS_FAMILY : std_logic_vector(FAMILY_W-1 downto 0) := X"7"; constant ATO_FAMILY : std_logic_vector(FAMILY_W-1 downto 0) := X"8"; constant CTL_FAMILY : std_logic_vector(FAMILY_W-1 downto 0) := X"9"; constant RTM_FAMILY : std_logic_vector(FAMILY_W-1 downto 0) := X"A"; constant CND_FAMILY : std_logic_vector(FAMILY_W-1 downto 0) := X"B"; constant FLT_FAMILY : std_logic_vector(FAMILY_W-1 downto 0) := X"C"; constant LSI_FAMILY : std_logic_vector(FAMILY_W-1 downto 0) := X"D"; --------------- codes --RTM constant LID : std_logic_vector(CODE_W-1 downto 0) := X"0"; --upper two MSBs indicate if the operation is localdx or offsetdx constant WGOFF : std_logic_vector(CODE_W-1 downto 0) := X"1"; constant SIZE : std_logic_vector(CODE_W-1 downto 0) := X"2"; constant WGID : std_logic_vector(CODE_W-1 downto 0) := X"3"; constant WGSIZE : std_logic_vector(CODE_W-1 downto 0) := X"4"; constant LP : std_logic_vector(CODE_W-1 downto 0) := X"8"; --ADD constant ADD : std_logic_vector(CODE_W-1 downto 0) := "0000"; constant SUB : std_logic_vector(CODE_W-1 downto 0) := "0010"; constant ADDI : std_logic_vector(CODE_W-1 downto 0) := "0001"; constant LI : std_logic_vector(CODE_W-1 downto 0) := "1001"; constant LUI : std_logic_vector(CODE_W-1 downto 0) := "1101"; --MUL constant MACC : std_logic_vector(CODE_W-1 downto 0) := "1000"; --BRA constant BEQ : std_logic_vector(CODE_W-1 downto 0) := "0010"; constant BNE : std_logic_vector(CODE_W-1 downto 0) := "0011"; constant JSUB : std_logic_vector(CODE_W-1 downto 0) := "0100"; --GLS constant LW : std_logic_vector(CODE_W-1 downto 0) := "0100"; constant SW : std_logic_vector(CODE_W-1 downto 0) := "1100"; --CTL constant RET : std_logic_vector(CODE_W-1 downto 0) := "0010"; --SHF constant SLLI : std_logic_vector(CODE_W-1 downto 0) := "0001"; --LGK constant CODE_AND : std_logic_vector(CODE_W-1 downto 0) := "0000"; constant CODE_ANDI : std_logic_vector(CODE_W-1 downto 0) := "0001"; constant CODE_OR : std_logic_vector(CODE_W-1 downto 0) := "0010"; constant CODE_ORI : std_logic_vector(CODE_W-1 downto 0) := "0011"; constant CODE_XOR : std_logic_vector(CODE_W-1 downto 0) := "0100"; constant CODE_XORI : std_logic_vector(CODE_W-1 downto 0) := "0101"; constant CODE_NOR : std_logic_vector(CODE_W-1 downto 0) := "1000"; --ATO constant CODE_AMAX : std_logic_vector(CODE_W-1 downto 0) := "0010"; constant CODE_AADD : std_logic_vector(CODE_W-1 downto 0) := "0001"; type branch_distance_vec is array(natural range <>) of unsigned(BRANCH_ADDR_W-1 downto 0); type code_vec_type is array(natural range <>) of std_logic_vector(CODE_W-1 downto 0); type atomic_type_vec_type is array(natural range <>) of std_logic_vector(2 downto 0); end FGPU_definitions; package body FGPU_definitions is -- function called clogb2 that returns an integer which has the --value of the ceiling of the log base 2 function clogb2 (bit_depth : integer) return integer is variable depth : integer := bit_depth; variable count : integer := 1; begin for clogb2 in 1 to bit_depth loop -- Works for up to 32 bit integers if (bit_depth <= 2) then count := 1; else if(depth <= 1) then count := count; else depth := depth / 2; count := count + 1; end if; end if; end loop; return(count); end; impure function init_krnl_ram(file_name : in string) return KRNL_SCHEDULER_RAM_type is file init_file : text open read_mode is file_name; variable init_line : line; variable temp_bv : bit_vector(DATA_W-1 downto 0); variable temp_mem : KRNL_SCHEDULER_RAM_type; begin for i in 0 to 1632-1 loop readline(init_file, init_line); hread(init_line, temp_mem(i)); -- read(init_line, temp_bv); -- temp_mem(i) := to_stdlogicvector(temp_bv); end loop; return temp_mem; end function; function max (LEFT, RIGHT: integer) return integer is begin if LEFT > RIGHT then return LEFT; else return RIGHT; end if; end max; function min_int (LEFT, RIGHT: integer) return integer is begin if LEFT > RIGHT then return RIGHT; else return LEFT; end if; end min_int; impure function init_CRAM(file_name : in string; file_len : in natural) return cram_type is file init_file : text open read_mode is file_name; variable init_line : line; variable cram : cram_type; -- variable tmp: std_logic_vector(DATA_W-1 downto 0); begin for i in 0 to file_len-1 loop readline(init_file, init_line); hread(init_line, cram(i)); -- vivado breaks when synthesizing hread(init_line, cram(0)(i)) without giving any indication about the error -- cram(i) := tmp; -- if CRAM_BLOCKS > 1 then -- for j in 1 to max(1,CRAM_BLOCKS-1) loop -- cram(j)(i) := cram(0)(i); -- end loop; -- end if; end loop; return cram; end function; impure function init_SLV32_ARRAY_from_file(file_name : in string; len : in natural; file_len : in natural) return SLV32_ARRAY is file init_file : text open read_mode is file_name; variable init_line : line; variable temp_mem : SLV32_ARRAY(len-1 downto 0); begin for i in 0 to file_len-1 loop readline(init_file, init_line); hread(init_line, temp_mem(i)); end loop; return temp_mem; end function; function pri_enc(datain: in std_logic_vector) return integer is variable res : integer range 0 to datain'high; begin res := 0; for i in datain'high downto 1 loop if datain(i) = '1' then res := i; end if; end loop; return res; end function; end FGPU_definitions;
---------------------------------------------------------------------- -- Title : 1 Gbe UDP network implementation with -- open-cores tri-mac-core on RHINO ---------------------------------------------------------------------- -- Project : RHINO SDR Processing Blocks ---------------------------------------------------------------------- -- -- Author : Lekhobola Tsoeunyane -- Company : University Of Cape Town -- Email : lekhobola@gmail.com ---------------------------------------------------------------------- -- Features -- 1) Marvell 88E1111S initialization -- 2) UDP packet transmission and reception -- 2) Adopting the tri-mac-core to work on RHINO board. ---------------------------------------------------------------------- ---------------------------------------------------------------------- -- Description: ---------------------------------------------------------------------- ---- ---- ---- Copyright (C) 2013 Steffen Mauch ---- ---- steffen.mauch (at) gmail.com ---- ---- ---- ---- This source file may be used and distributed without ---- ---- restriction provided that this copyright statement is not ---- ---- removed from the file and that any derivative work contains ---- ---- the original copyright notice and the associated disclaimer. ---- ---- ---- ---- This source file is free software; you can redistribute it ---- ---- and/or modify it under the terms of the GNU Lesser General ---- ---- Public License as published by the Free Software Foundation; ---- ---- either version 2.1 of the License, or (at your option) any ---- ---- later version. ---- ---- ---- ---- This source is distributed in the hope that it will be ---- ---- useful, but WITHOUT ANY WARRANTY; without even the implied ---- ---- warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ---- ---- PURPOSE. See the GNU Lesser General Public License for more ---- ---- details. ---- ---- ---- ---- You should have received a copy of the GNU Lesser General ---- ---- Public License along with this source; if not, download it ---- ---- from http://www.opencores.org/lgpl.shtml ---- ---- ---- ---------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; Library UNISIM; use UNISIM.vcomponents.all; -- Uncomment the following library declaration if using -- arithmetic functions with Signed or Unsigned values use IEEE.STD_LOGIC_ARITH.ALL; use IEEE.STD_LOGIC_UNSIGNED.ALL; use IEEE.math_real.all; entity UDP_1GbE is generic( UDP_TX_DATA_BYTE_LENGTH : natural := 1; UDP_RX_DATA_BYTE_LENGTH : natural:= 1 ); port( -- user logic interface own_ip_addr : in std_logic_vector (31 downto 0); own_mac_addr : in std_logic_vector (47 downto 0); dst_ip_addr : in std_logic_vector (31 downto 0); dst_mac_addr : out std_logic_vector(47 downto 0); udp_src_port : in std_logic_vector (15 downto 0); udp_dst_port : in std_logic_vector (15 downto 0); udp_tx_pkt_data : in std_logic_vector (8 * UDP_TX_DATA_BYTE_LENGTH - 1 downto 0); udp_tx_pkt_vld : in std_logic; udp_tx_rdy : out std_logic; udp_rx_pkt_data : out std_logic_vector(8 * UDP_RX_DATA_BYTE_LENGTH - 1 downto 0); udp_rx_pkt_req : in std_logic; udp_rx_rdy : out std_logic; mac_init_done : out std_logic; -- MAC interface GIGE_COL : in std_logic; GIGE_CRS : in std_logic; GIGE_MDC : out std_logic; GIGE_MDIO : inout std_logic; GIGE_TX_CLK : in std_logic; GIGE_nRESET : out std_logic; GIGE_RXD : in std_logic_vector( 7 downto 0 ); GIGE_RX_CLK : in std_logic; GIGE_RX_DV : in std_logic; GIGE_RX_ER : in std_logic; GIGE_TXD : out std_logic_vector( 7 downto 0 ); GIGE_GTX_CLK : out std_logic; GIGE_TX_EN : out std_logic; GIGE_TX_ER : out std_logic; -- system control clk_125mhz : in std_logic; clk_100mhz : in std_logic; sys_rst_i : in std_logic; sysclk_locked : in std_logic ); end UDP_1GbE; architecture arc of UDP_1GbE is component MAC_top port( --//system signals Reset : in std_logic; Clk_125M : in std_logic; Clk_user : in std_logic; Clk_reg : in std_logic; Speed : out std_logic_vector( 2 downto 0); --//user interface Rx_mac_ra : out std_logic; Rx_mac_rd : in std_logic; Rx_mac_data : out std_logic_vector( 31 downto 0 ); Rx_mac_BE : out std_logic_vector( 1 downto 0 ); Rx_mac_pa : out std_logic; Rx_mac_sop : out std_logic; Rx_mac_eop : out std_logic; --//user interface Tx_mac_wa : out std_logic; Tx_mac_wr : in std_logic; Tx_mac_data : in std_logic_vector( 31 downto 0 ); Tx_mac_BE : in std_logic_vector( 1 downto 0 );--//big endian Tx_mac_sop : in std_logic; Tx_mac_eop : in std_logic; --//pkg_lgth fifo Pkg_lgth_fifo_rd : in std_logic; Pkg_lgth_fifo_ra : out std_logic; Pkg_lgth_fifo_data : out std_logic_vector( 15 downto 0 ); --//Phy interface --//Phy interface Gtx_clk : out std_logic;--//used only in GMII mode Rx_clk : in std_logic; Tx_clk : in std_logic; --//used only in MII mode Tx_er : out std_logic; Tx_en : out std_logic; Txd : out std_logic_vector( 7 downto 0 ); Rx_er : in std_logic; Rx_dv : in std_logic; Rxd : in std_logic_vector( 7 downto 0 ); Crs : in std_logic; Col : in std_logic; --//host interface CSB : in std_logic; WRB : in std_logic; CD_in : in std_logic_vector( 15 downto 0 ); CD_out : out std_logic_vector( 15 downto 0 ); CA : in std_logic_vector( 7 downto 0 ); -- mdx Mdo : out std_logic; --// MII Management Data Output MdoEn : out std_logic; --// MII Management Data Output Enable Mdi : in std_logic; Mdc : out std_logic; --// MII Management Data Clock -- MII to CPU Divider : in std_logic_vector(7 downto 0); CtrlData : in std_logic_vector(15 downto 0); Rgad : in std_logic_vector(4 downto 0); Fiad : in std_logic_vector(4 downto 0); NoPre : in std_logic; WCtrlData : in std_logic; RStat : in std_logic; ScanStat : in std_logic; Busy : out std_logic; LinkFail : out std_logic; Nvalid : out std_logic; Prsd : out std_logic_vector(15 downto 0); WCtrlDataStart : out std_logic; RStatStart : out std_logic; UpdateMIIRX_DATAReg : out std_logic ); end component; component calc_ipv4_checksum port ( clk : in STD_LOGIC; data : in STD_LOGIC_VECTOR (159 downto 0); ready : out STD_LOGIC; checksum : out STD_LOGIC_VECTOR (15 downto 0); reset : in STD_LOGIC); end component; --------------------------------------------------------------------------- -- DUBUGGING SECTION --------------------------------------------------------------------------- component icon PORT ( CONTROL0 : INOUT STD_LOGIC_VECTOR(35 DOWNTO 0); CONTROL1 : INOUT STD_LOGIC_VECTOR(35 DOWNTO 0); CONTROL2 : INOUT STD_LOGIC_VECTOR(35 DOWNTO 0)); end component; component ila0 PORT ( CONTROL : INOUT STD_LOGIC_VECTOR(35 DOWNTO 0); CLK : IN STD_LOGIC; DATA : IN STD_LOGIC_VECTOR(15 DOWNTO 0); TRIG0 : IN STD_LOGIC_VECTOR(3 DOWNTO 0)); end component; component ila1 PORT ( CONTROL : INOUT STD_LOGIC_VECTOR(35 DOWNTO 0); CLK : IN STD_LOGIC; DATA : IN STD_LOGIC_VECTOR(127 DOWNTO 0); TRIG0 : IN STD_LOGIC_VECTOR(7 DOWNTO 0)); end component; component vio PORT ( CONTROL : INOUT STD_LOGIC_VECTOR(35 DOWNTO 0); ASYNC_OUT : OUT STD_LOGIC_VECTOR(7 DOWNTO 0)); end component; signal CONTROL0 : STD_LOGIC_VECTOR(35 DOWNTO 0); signal CONTROL1 : STD_LOGIC_VECTOR(35 DOWNTO 0); signal CONTROL2 : STD_LOGIC_VECTOR(35 DOWNTO 0); signal ila_data0 : STD_LOGIC_VECTOR(15 DOWNTO 0); signal ila_data1 : STD_LOGIC_VECTOR(127 DOWNTO 0); signal trig0 : STD_LOGIC_VECTOR(3 DOWNTO 0); signal trig1 : STD_LOGIC_VECTOR(7 DOWNTO 0); signal vio_data : STD_LOGIC_VECTOR(7 DOWNTO 0); --------------------------------------------------------------------------- -- END OF DUBUGGING SECTION --------------------------------------------------------------------------- attribute S: string; attribute keep : string; signal c3_rst0 : std_logic; signal c3_sys_clk_ibufg : std_logic; --signal clk_125mhz : std_logic; --signal clk_100mhz : std_logic; --signal clk_25mhz : std_logic; --signal clk_6_25mhz : std_logic; --signal clk_3_125mhz : std_logic; signal reset : std_logic; signal Rx_mac_ra : std_logic; attribute S of Rx_mac_ra : signal is "TRUE"; signal Rx_mac_rd : std_logic; attribute S of Rx_mac_rd : signal is "TRUE"; signal Rx_mac_data: std_logic_vector( 31 downto 0 ); attribute S of Rx_mac_data : signal is "TRUE"; signal Rx_mac_BE : std_logic_vector( 1 downto 0 ); attribute S of Rx_mac_BE : signal is "TRUE"; signal Rx_mac_pa : std_logic; attribute S of Rx_mac_pa : signal is "TRUE"; signal Rx_mac_sop : std_logic; attribute S of Rx_mac_sop : signal is "TRUE"; signal Rx_mac_eop : std_logic; attribute S of Rx_mac_eop : signal is "TRUE"; --//user interface signal Tx_mac_wa : std_logic; attribute S of Tx_mac_wa : signal is "TRUE"; signal Tx_mac_wr : std_logic; attribute S of Tx_mac_wr : signal is "TRUE"; signal Tx_mac_data: std_logic_vector( 31 downto 0 ); attribute S of Tx_mac_data : signal is "TRUE"; signal Tx_mac_BE : std_logic_vector( 1 downto 0 );--//big endian attribute S of Tx_mac_BE : signal is "TRUE"; signal Tx_mac_sop : std_logic; attribute S of Tx_mac_sop : signal is "TRUE"; signal Tx_mac_eop : std_logic; attribute S of Tx_mac_eop : signal is "TRUE"; --//pkg_lgth fifo signal Pkg_lgth_fifo_rd : std_logic; signal Pkg_lgth_fifo_ra : std_logic; signal Pkg_lgth_fifo_data : std_logic_vector( 15 downto 0 ); signal CSB : std_logic; signal WRB : std_logic; signal CD_in : std_logic_vector( 15 downto 0 ); signal CD_out : std_logic_vector( 15 downto 0 ); signal CA : std_logic_vector( 7 downto 0 ); --//mdx signal Mdo : std_logic; --// MII Management Data Output signal MdoEn : std_logic; --// MII Management Data Output Enable signal Mdi : std_logic; signal ethernet_speed : std_logic_vector( 2 downto 0); attribute S of ethernet_speed : signal is "TRUE"; signal GIGE_GTX_CLK_buf : std_logic; type state_type_ethernet is (arp,arp_wait,idle,wait_state,wait_state1,send_udp,wait_state2); --type of state machine. signal state_ethernet : state_type_ethernet; --current and next state declaration. --- transmisssion constants constant pkt_data_length : integer := 8 * UDP_TX_DATA_BYTE_LENGTH; constant pkt_byte_mod : integer := (UDP_TX_DATA_BYTE_LENGTH - 2) mod 4; constant pkt_data_mod : integer := (pkt_data_length - 16) mod 32; constant pkt_data_word_length : integer := (pkt_data_length - 16) / 32; constant length_ethernet_frame : integer := integer(ceil(real((UDP_TX_DATA_BYTE_LENGTH) / 4))) + 11;---12; constant length_ethernet_arp_frame : integer := 11; constant length_ethernet_arp_request_frame : integer := 11; -- receiving constants constant rcv_pkt_data_length : integer := 8 * UDP_RX_DATA_BYTE_LENGTH; constant rcv_pkt_byte_mod : integer := (UDP_RX_DATA_BYTE_LENGTH - 2) mod 4; constant rcv_pkt_data_mod : integer := (rcv_pkt_data_length - 16) mod 32; constant rcv_pkt_data_word_length : integer := (rcv_pkt_data_length - 16) / 32; constant rcv_length_ethernet_frame : integer := integer(ceil(real((UDP_RX_DATA_BYTE_LENGTH) / 4))); signal udp_rx_pkt_data_tmp : std_logic_vector(rcv_pkt_data_length - 1 downto 0) := (others => '0'); attribute S of udp_rx_pkt_data_tmp : signal is "TRUE"; type array_network is array (0 to length_ethernet_frame-1) of std_logic_vector(31 downto 0); type array_network_arp is array (0 to length_ethernet_arp_frame-1) of std_logic_vector(31 downto 0); type array_network_arp_request is array (0 to length_ethernet_arp_request_frame-1) of std_logic_vector(31 downto 0); signal eth_array : array_network; signal arp_array : array_network_arp; signal arp_request_array : array_network_arp_request; signal counter_ethernet : integer range 0 to length_ethernet_frame-1; signal Rx_clk : std_logic; attribute S of Rx_clk : signal is "TRUE"; signal Tx_clk : std_logic; attribute S of Tx_clk : signal is "TRUE"; signal Tx_er : std_logic; attribute S of Tx_er : signal is "TRUE"; signal Tx_en : std_logic; attribute S of Tx_en : signal is "TRUE"; signal Txd : std_logic_vector( 7 downto 0 ); attribute S of Txd : signal is "TRUE"; signal Rx_er : std_logic; attribute S of Rx_er : signal is "TRUE"; signal Rx_dv : std_logic; attribute S of Rx_dv : signal is "TRUE"; signal Rxd : std_logic_vector( 7 downto 0 ); attribute S of Rxd : signal is "TRUE"; signal MDC_sig : std_logic; signal calc_checksum : std_logic_vector( 15 downto 0); attribute S of calc_checksum : signal is "TRUE"; signal LED_sig : std_logic; attribute S of LED_sig : signal is "TRUE"; signal counter_ethernet_delay : integer := 0; signal counter_ethernet_rec : integer range 0 to 15; signal packet_valid : std_logic; attribute S of packet_valid : signal is "TRUE"; signal LED_data : std_logic_vector( 7 downto 0); attribute S of LED_data : signal is "TRUE"; signal Rx_mac_rd_sig : std_logic; signal arp_valid_response : std_logic; signal arp_valid_response_recieved : std_logic; signal arp_valid : std_logic; attribute S of arp_valid : signal is "TRUE"; signal arp_mac : std_logic_vector(47 downto 0); attribute S of arp_mac : signal is "TRUE"; signal arp_ip : std_logic_vector(31 downto 0); attribute S of arp_ip : signal is "TRUE"; signal arp_send : std_logic; attribute S of arp_send : signal is "TRUE"; signal arp_clear : std_logic; attribute S of arp_clear : signal is "TRUE"; -- signal for destination MAC address signal dst_mac_addr_r : std_logic_vector( 47 downto 0 ); signal gmii_phy_rst_n : std_logic; -- PHY management signal config_state : integer range 0 to 31 := 0; signal config_checked : std_logic := '0'; signal config_delay_count : integer range 0 to 250000000; signal phy_reg_addr : std_logic_vector(4 downto 0) := (others => '0'); signal Divider : std_logic_vector(7 downto 0) := x"1A"; signal CtrlData : std_logic_vector(15 downto 0); signal Rgad : std_logic_vector(4 downto 0); signal Fiad : std_logic_vector(4 downto 0) := "00001"; signal NoPre : std_logic; signal WCtrlData : std_logic; signal RStat : std_logic; signal ScanStat : std_logic; signal Busy : std_logic; signal LinkFail : std_logic; signal Nvalid : std_logic; signal Prsd : std_logic_vector(15 downto 0); signal WCtrlDataStart : std_logic; signal RStatStart : std_logic; signal UpdateMIIRX_DATAReg : std_logic; -- Udp transmission signal udp_counter : integer := 0; signal udp_rec : std_logic := '0'; signal counter_rx : integer := 0; signal packet_vld : std_logic := '0'; signal mac_init_ok : std_logic := '0'; -- Debug signals signal tx_state : std_logic_vector(2 downto 0) := "000"; signal rx_state : std_logic_vector(2 downto 0) := "000"; signal toggle : std_logic := '0'; -- 50 mhz user clock signal toggle1 : std_logic := '0'; -- 125 mhz signal toggle2 : std_logic := '0'; -- 125 mhz begin reset <= not sysclk_locked; udp_tx_rdy <= '1' when (Tx_mac_wa = '1' and state_ethernet = wait_state2) else '0'; dst_mac_addr <= dst_mac_addr_r; mac_init_done <= mac_init_ok; -- settings for ethernet MAC Ethernet_MAC_top : MAC_top port map( --//system signals Reset => reset, Clk_125M => clk_125mhz, Clk_user => clk_100mhz,--!!!!!!!!!!! Clk_reg => clk_100mhz,--!!!!!!!!!!! -- speed settings after opencore tri-mode (PDF)! -- b100 : 1000Mbit -- b010 : 100Mbit -- b001 : 10Mbit Speed => ethernet_speed, --//user interface Rx_mac_ra => Rx_mac_ra, Rx_mac_rd => Rx_mac_rd, Rx_mac_data => Rx_mac_data, Rx_mac_BE => Rx_mac_BE, Rx_mac_pa => Rx_mac_pa, Rx_mac_sop => Rx_mac_sop, Rx_mac_eop => Rx_mac_eop, --//user interface Tx_mac_wa => Tx_mac_wa, Tx_mac_wr => Tx_mac_wr, Tx_mac_data => Tx_mac_data, Tx_mac_BE => Tx_mac_BE, --//big endian Tx_mac_sop => Tx_mac_sop, Tx_mac_eop => Tx_mac_eop, --//pkg_lgth fifo -- signals for FIFO implementation of RX in core -- with clock Clk_user!! Pkg_lgth_fifo_rd => Pkg_lgth_fifo_rd, Pkg_lgth_fifo_ra => Pkg_lgth_fifo_ra, Pkg_lgth_fifo_data => Pkg_lgth_fifo_data, --//Phy interface Gtx_clk => GIGE_GTX_CLK_buf,--//used only in GMII mode Crs => GIGE_CRS, Col => GIGE_COL, Rx_clk => Rx_clk, --Tx_clk => Tx_clk, --//used only in MII mode Tx_clk => GIGE_TX_CLK, --//used only in MII mode --Tx_clk => '0', Tx_er => Tx_er, Tx_en => Tx_en, Txd => Txd, Rx_er => Rx_er, Rx_dv => Rx_dv, Rxd => Rxd, --//host interface CSB => CSB, WRB => WRB, CD_in => CD_in, CD_out => CD_out, CA => CA, --//mdx Mdo => Mdo, --// MII Management Data Output MdoEn => MdoEn, --// MII Management Data Output Enable Mdi => Mdi, Mdc => MDC_sig, --// MII Management Data Clock -- Divider => Divider, CtrlData => CtrlData, Rgad => Rgad, Fiad => Fiad, NoPre => NoPre, WCtrlData => WCtrlData, RStat => RStat, ScanStat => ScanStat, Busy => Busy, LinkFail => LinkFail, Nvalid => Nvalid, Prsd => Prsd, WCtrlDataStart => WCtrlDataStart, RStatStart => RStatStart, UpdateMIIRX_DATAReg => UpdateMIIRX_DATAReg ); -- be careful! GIGE_nRESET <= not reset; GIGE_TX_ER <= Tx_er; GIGE_TX_EN <= Tx_en; GIGE_TXD <= Txd; Rx_er <= GIGE_RX_ER; Rx_dv <= GIGE_RX_DV; Rxd <= GIGE_RXD; Rx_clk <= GIGE_RX_CLK; gmii_phy_rst_n <= not reset; -- MIIM Management GIGE_MDIO <= Mdo when MdoEn = '1' else 'Z'; Mdi <= GIGE_MDIO when MdoEn = '0' else 'Z'; CSB <= '0'; WRB <= '1'; calc_ipv4_checksum_inst : calc_ipv4_checksum port map ( clk => clk_100mhz,--!!!!!!!!!!! data => eth_array(8)(31 downto 16) & eth_array(7) & eth_array(6) & eth_array(5) & eth_array(4)& eth_array(3)(15 downto 0), --ready : out STD_LOGIC; checksum => calc_checksum, reset => reset ); Rx_mac_rd <= Rx_mac_rd_sig AND Rx_mac_ra; ethernet_data_rec_process : process(c3_rst0,clk_100mhz) begin if( c3_rst0 = '1' ) then counter_ethernet_rec <= 0; packet_valid <= '0'; Rx_mac_rd_sig <= '0'; arp_send <= '0'; arp_mac <= (others => '0'); arp_ip <= (others => '0'); dst_mac_addr_r <= (others => '0'); arp_valid <= '0'; arp_valid_response <= '0'; arp_valid_response_recieved <= '0'; elsif( rising_edge(clk_100mhz) ) then if( config_checked = '1' ) then Rx_mac_rd_sig <= '0'; if( arp_clear = '1' ) then arp_send <= '0'; end if; if( Rx_mac_ra = '1') then Rx_mac_rd_sig <= '1'; if( Rx_mac_pa = '1' ) then counter_ethernet_rec <= counter_ethernet_rec+1; -- check if dest. is our FPGA device!! -- when true then packet_valid is high else low if( counter_ethernet_rec = 0 ) then if( Rx_mac_data = own_mac_addr(47 downto 16) ) then packet_valid <= '1'; else packet_valid <= '0'; end if; elsif( counter_ethernet_rec = 1 ) then if( Rx_mac_data(31 downto 16) = own_mac_addr(15 downto 0) ) then packet_valid <= '1'; else packet_valid <= '0'; end if; end if; -- check if it is an ARP request, then arp_valid = '1'!! if( counter_ethernet_rec = 3 ) then --if( Rx_mac_data = ( x"0806" & x"0001" ) AND arp_send = '0' ) then if( Rx_mac_data = ( x"0806" & x"0001" ) ) then arp_valid <= '1'; else arp_valid <= '0'; end if; end if; -- if ARP request, process packet further if( arp_valid = '1' ) then if( counter_ethernet_rec = 4 ) then if( Rx_mac_data = ( x"0800" & x"06" & x"04" ) ) then arp_valid <= '1'; else arp_valid <= '0'; end if; elsif( counter_ethernet_rec = 5 ) then rx_state <= "000"; if( Rx_mac_data(31 downto 16) = x"0001" ) then arp_valid <= '1'; arp_mac(47 downto 32) <= Rx_mac_data(15 downto 0); elsif( Rx_mac_data(31 downto 16) = x"0002" ) then arp_valid_response <= '1'; arp_mac(47 downto 32) <= Rx_mac_data(15 downto 0); arp_valid <= '1'; else arp_valid <= '0'; end if; elsif( counter_ethernet_rec = 6 ) then rx_state <= "001"; arp_mac(31 downto 0) <= Rx_mac_data; elsif( counter_ethernet_rec = 7 ) then rx_state <= "010"; arp_ip <= Rx_mac_data; arp_valid_response <= '0'; if( Rx_mac_data = dst_ip_addr ) then arp_valid_response <= '1'; end if; elsif( counter_ethernet_rec = 8 ) then rx_state <= "011"; arp_valid_response <= '0'; if( Rx_mac_data = own_mac_addr(47 downto 16) ) then arp_valid_response <= '1'; end if; elsif( counter_ethernet_rec = 9 ) then rx_state <= "100"; if( Rx_mac_data(15 downto 0) = own_ip_addr(31 downto 16) ) then arp_valid <= '1'; else arp_valid <= '0'; end if; arp_valid_response <= '0'; if( Rx_mac_data(31 downto 16) = own_mac_addr(15 downto 0) ) then arp_valid_response <= '1'; end if; elsif( counter_ethernet_rec = 10 ) then rx_state <= "101"; arp_valid <= '0'; arp_valid_response <= '0'; if( Rx_mac_data(31 downto 16) = own_ip_addr(15 downto 0) ) then if( arp_valid_response = '1' ) then arp_valid_response_recieved <= '1'; arp_send <= '0'; dst_mac_addr_r <= arp_mac; else arp_send <= '1'; arp_valid_response_recieved <= '0'; end if; end if; end if; end if; end if; else counter_ethernet_rec <= 0; end if; end if; end if; end process; udp_packet_data_process : process(c3_rst0,clk_100mhz) begin if( c3_rst0 = '1' ) then counter_rx <= 0; packet_vld <= '0'; elsif( falling_edge(clk_100mhz) ) then if(packet_valid = '1') then packet_vld <= '1'; end if; if(counter_ethernet_rec = 10) then udp_rx_pkt_data_tmp(rcv_pkt_data_length - 1 downto rcv_pkt_data_length - 16) <= Rx_mac_data(15 downto 0); counter_rx <= 0; elsif(counter_rx < rcv_length_ethernet_frame and packet_vld = '1') then if(counter_rx < rcv_length_ethernet_frame - 1) then udp_rx_pkt_data_tmp(rcv_pkt_data_length - 17 - (counter_rx * 32) downto rcv_pkt_data_length - 16 - (counter_rx * 32) - 32) <= Rx_mac_data; else if(rcv_pkt_byte_mod > 0) then udp_rx_pkt_data_tmp(rcv_pkt_data_length - 17 - (counter_rx * 32) downto rcv_pkt_data_length - 16 - (counter_rx * 32) - rcv_pkt_data_mod) <= Rx_mac_data(31 downto 32 - rcv_pkt_data_mod); else udp_rx_pkt_data_tmp(rcv_pkt_data_length - 17 - (counter_rx * 32) downto rcv_pkt_data_length - 16 - (counter_rx * 32) - 32) <= Rx_mac_data; end if; end if; counter_rx <= counter_rx + 1; else counter_rx <= 0; end if; if(counter_rx = rcv_length_ethernet_frame) then packet_vld <= '0'; if(udp_rx_pkt_req = '1') then udp_rx_pkt_data <= udp_rx_pkt_data_tmp; udp_rx_rdy <= '1'; end if; else udp_rx_pkt_data <= (others => 'Z'); udp_rx_rdy <= '0'; end if; end if; end process; ethernet_data_process : process(c3_rst0,clk_100mhz) variable counter : integer := 0; variable ip_header_length : std_logic_vector(15 downto 0); variable udp_header_length : std_logic_vector(15 downto 0); begin Tx_mac_BE <= (others => 'Z'); -- determine ip header and udp header length attributes if(pkt_byte_mod > 0)then ip_header_length := conv_std_logic_vector((UDP_TX_DATA_BYTE_LENGTH + 28 + (4 - pkt_byte_mod)), 16); udp_header_length := conv_std_logic_vector((UDP_TX_DATA_BYTE_LENGTH + 8 + (4 - pkt_byte_mod)), 16); else ip_header_length := conv_std_logic_vector((UDP_TX_DATA_BYTE_LENGTH + 28), 16); udp_header_length := conv_std_logic_vector((UDP_TX_DATA_BYTE_LENGTH + 8), 16); end if; -- UDP packet eth_array(0) <= dst_mac_addr_r(47 downto 16); eth_array(1) <= dst_mac_addr_r(15 downto 0) & own_mac_addr(47 downto 32); eth_array(2) <= own_mac_addr(31 downto 0); -- ethernet type \| Version / Header length \| diff Services eth_array(3) <= x"0800" & "0100" & "0101" & "00000000" ; -- total length \| identification eth_array(4) <= ip_header_length & x"0000"; -- Flags , Fragment Offeset \| time to live \| protocol eth_array(5) <= "0100000000000000" & "01000000" & "00010001"; -- header checksum \| Source IP: eth_array(6) <= calc_checksum & own_ip_addr(31 downto 16); -- \| Destin IP: eth_array(7) <= own_ip_addr(15 downto 0) & dst_ip_addr(31 downto 16); -- \| source port eth_array(8) <= dst_ip_addr(15 downto 0) & udp_src_port ; -- dest port \| length eth_array(9) <= udp_dst_port & udp_header_length ; -- checksum \| data eth_array(10)(31 downto 16) <= x"0000"; -- data --eth_array(11) <= conv_std_logic_vector(udp_counter, 32);--x"6c6c6f20"; if(pkt_data_length = 8) then eth_array(10)(15 downto 0) <= (15 downto 8 => '0') & udp_tx_pkt_data; else eth_array(10)(15 downto 0) <= udp_tx_pkt_data(pkt_data_length - 1 downto pkt_data_length - 16); end if; counter := 0; for i in 11 to length_ethernet_frame - 2 loop eth_array(i) <= udp_tx_pkt_data(pkt_data_length - (counter * 32) - 17 downto pkt_data_length - (counter * 32) - 48); counter := counter + 1; end loop; if(pkt_byte_mod > 0) then eth_array(length_ethernet_frame - 1) <= udp_tx_pkt_data(pkt_data_mod - 1 downto 0) & (32 - pkt_data_mod - 1 downto 0 => '0'); else eth_array(length_ethernet_frame - 1) <= udp_tx_pkt_data(31 downto 0); end if; -- answer to ARP request from any computer arp_array(0) <= arp_mac(47 downto 16); arp_array(1) <= arp_mac(15 downto 0) & own_mac_addr(47 downto 32); arp_array(2) <= own_mac_addr(31 downto 0); arp_array(3) <= x"0806" & x"0001"; arp_array(4) <= x"0800" & x"06" & x"04"; arp_array(5) <= x"0002" & own_mac_addr(47 downto 32); arp_array(6) <= own_mac_addr(31 downto 0); arp_array(7) <= own_ip_addr; arp_array(8) <= arp_mac(47 downto 16); arp_array(9) <= arp_mac(15 downto 0) & arp_ip(31 downto 16); arp_array(10) <= arp_ip(15 downto 0) & x"0000"; -- init ARP request array arp_request_array(0) <= x"FFFFFFFF"; arp_request_array(1) <= x"FFFF" & own_mac_addr(47 downto 32); arp_request_array(2) <= own_mac_addr(31 downto 0); arp_request_array(3) <= x"0806" & x"0001"; arp_request_array(4) <= x"0800" & x"06" & x"04"; arp_request_array(5) <= x"0001" & own_mac_addr(47 downto 32); arp_request_array(6) <= own_mac_addr(31 downto 0); arp_request_array(7) <= own_ip_addr; arp_request_array(8) <= x"00000000"; arp_request_array(9) <= x"0000" & dst_ip_addr(31 downto 16); arp_request_array(10) <= dst_ip_addr(15 downto 0) & x"0000"; if( c3_rst0 = '1' ) then Tx_mac_wr <= '0'; Tx_mac_sop <= '0'; Tx_mac_eop <= '0'; counter_ethernet <= 0; counter_ethernet_delay <= 0; state_ethernet <= arp; arp_clear <= '0'; elsif( rising_edge(clk_100mhz) ) then Tx_mac_sop <= '0'; Tx_mac_eop <= '0'; Tx_mac_wr <= '0'; arp_clear <= '0'; if (config_checked = '1') then -- signal start of the frame if( Tx_mac_wa = '1' AND counter_ethernet = 0 AND counter_ethernet_delay = 0) then Tx_mac_sop <= '1'; end if; case state_ethernet is -- send ARP request to recieve the MAC of dst_ip_addr when arp => tx_state <= "000"; if( Tx_mac_wa = '1') then state_ethernet <= arp; Tx_mac_wr <= '1'; if( counter_ethernet < length_ethernet_arp_request_frame-1 ) then counter_ethernet <= counter_ethernet + 1; else state_ethernet <= arp_wait; -- signal end of the frame Tx_mac_eop <= '1'; Tx_mac_BE <= "00"; end if; Tx_mac_data <= arp_request_array(counter_ethernet); else state_ethernet <= arp_wait; end if; -- wait some time to recieve answer to ARP request when arp_wait => tx_state <= "001"; counter_ethernet <= 0; Tx_mac_data <= (others => '0'); if( counter_ethernet_delay < 2**21-1 ) then counter_ethernet_delay <= counter_ethernet_delay + 1; state_ethernet <= arp_wait; else state_ethernet <= arp; counter_ethernet_delay <= 0; end if; if( arp_valid_response_recieved = '1' ) then state_ethernet <= idle; end if; -- respond to ARP request when idle => tx_state <= "010"; if( Tx_mac_wa = '1' ) then state_ethernet <= idle; Tx_mac_wr <= '1'; if( arp_send = '1' ) then if( counter_ethernet < length_ethernet_arp_frame-1 ) then counter_ethernet <= counter_ethernet + 1; else --counter_ethernet <= 0; state_ethernet <= wait_state2; arp_clear <= '1'; -- signal end of the frame Tx_mac_BE <= "00"; Tx_mac_eop <= '1'; end if; Tx_mac_data <= arp_array(counter_ethernet); else if( counter_ethernet < length_ethernet_frame-1 ) then counter_ethernet <= counter_ethernet + 1; else --counter_ethernet <= 0; Tx_mac_eop <= '1'; -- signal end of the frame Tx_mac_BE <= "00"; state_ethernet <= wait_state2; end if; Tx_mac_data <= eth_array(counter_ethernet); end if; else state_ethernet <= wait_state; end if; -- wait some time till Tx_mac_wa is high again when wait_state => tx_state <= "101"; if( Tx_mac_wa = '1' ) then state_ethernet <= idle; else state_ethernet <= wait_state; end if; -- wait such that throughput is not as high as possible when wait_state2 => tx_state <= "110"; mac_init_ok <= '1'; counter_ethernet <= 0; counter_ethernet_delay <= 0; if(udp_tx_pkt_vld = '1' or arp_send = '1') then state_ethernet <= idle; else state_ethernet <= wait_state2; end if; when others => null; end case; end if; end if; end process; ------------------------------------------------------------------------------ -- Marvell 88E1111S initialization ------------------------------------------------------------------------------ phy_config : process(clk_100mhz) begin if(rising_edge(clk_100mhz)) then case config_state is when 0 => if(config_delay_count < 250000000) then config_delay_count <= config_delay_count + 1; --else elsif(config_checked = '0') then phy_reg_addr <= phy_reg_addr + 1; config_state <= 1; end if; when 1 => CtrlData <= x"0C61"; Rgad <= "10100"; -- Register 20 NoPre <= '0'; WCtrlData <= '1'; RStat <= '0'; ScanStat <= '0'; config_state <= 2; when 2 => if(Busy = '1') then config_state <= 3; end if; when 3 => if(Busy = '0') then config_state <= 4; elsif(MdoEn = '0') then WCtrlData <= '0'; end if; when 4 => CtrlData <= x"0000"; Rgad <= "10100"; NoPre <= '0'; WCtrlData <= '0'; RStat <= '1'; ScanStat <= '0'; config_state <= 5; when 5 => if(Busy = '1') then config_state <= 6; end if; when 6 => if(Busy = '0') then config_delay_count <= 0; config_checked <= '1'; config_state <= 0; elsif(MdoEn = '0') then RStat <= '0'; end if; when others => null; end case; end if; end process; -- ODDR2 is needed instead of the following -- GIGE_GTX_CLK <= GIGE_GTX_CLK_buf; -- because GIGE_GTX_CLK is dcm_vga_clk_125mhz -- and limiting in Spartan 6 txclk_ODDR2_inst : ODDR2 generic map ( DDR_ALIGNMENT => "NONE", INIT => '0', SRTYPE => "SYNC") port map ( Q => GIGE_GTX_CLK, -- 1-bit DDR output data C0 => GIGE_GTX_CLK_buf, -- clock is your signal from PLL C1 => not(GIGE_GTX_CLK_buf), -- n D0 => '1', -- 1-bit data input (associated with C0) D1 => '0' -- 1-bit data input (associated with C1) ); -- ODDR2 is needed instead of the following -- GIGE_GTX_CLK <= GIGE_GTX_CLK_buf; -- because GIGE_GTX_CLK is dcm_vga_clk_125mhz -- and limiting in Spartan 6 MDC_ODDR2_inst : ODDR2 generic map ( DDR_ALIGNMENT => "NONE", INIT => '0', SRTYPE => "SYNC") port map ( Q => GIGE_MDC, -- 1-bit DDR output data C0 => MDC_sig, -- clock is your signal from PLL C1 => not(MDC_sig), -- n D0 => '1', -- 1-bit data input (associated with C0) D1 => '0' -- 1-bit data input (associated with C1) ); ----------------------------------------------------------------------- -- DEBUGGING SECTION ----------------------------------------------------------------------- --icon_inst : icon --port map ( --CONTROL0 => CONTROL0, --CONTROL1 => CONTROL1, --CONTROL2 => CONTROL2); --ila0_inst : ila0 --port map ( --CONTROL => CONTROL0, --CLK => clk_100mhz, --DATA => ila_data0, --TRIG0 => TRIG0); --ila1_inst : ila1 --port map ( --CONTROL => CONTROL1, --CLK => clk_125mhz, --DATA => ila_data1, --TRIG0 => TRIG1); --vio_inst : vio --port map ( --CONTROL => CONTROL2, --ASYNC_OUT => vio_data); -- ila_data0(31 downto 0) <= Tx_mac_data; --ila_data0(63 downto 32) <= Rx_mac_data; --ila_data0(66 downto 64) <= tx_state; --ila_data0(0) <= Tx_mac_wr; --ila_data0(1) <= Rx_mac_rd; --ila_data0(2) <= Tx_mac_sop; --ila_data0(3) <= Tx_mac_eop; --ila_data0(4) <= Rx_mac_sop; --ila_data0(5) <= Rx_mac_eop; --ila_data0(6) <= Tx_mac_wa; --ila_data0(9 downto 7) <= tx_state; --ila_data0(75 downto 74) <= Tx_mac_BE; --ila_data0(297 downto 74) <= udp_rx_pkt_data_tmp; --ila_data0(298) <= packet_vld; --trig0(2 downto 0) <= tx_state; --conv_std_logic_vector(config_state,5); --tx_state; --trig0(0) <= udp_tx_pkt_vld; --ila_data1(7 downto 0) <= Txd; --ila_data1(15 downto 8) <= Rxd; --ila_data1(18 downto 16) <= ethernet_speed; --ila_data1(19) <= Tx_mac_wa; --ila_data1(20) <= Rx_mac_ra; --ila_data1(21) <= Tx_er; --ila_data1(22) <= Rx_er; --ila_data1(23) <= gmii_phy_rst_n; --ila_data1(24) <= reset; --ila_data1(25) <= Rx_mac_pa; --ila_data1(26) <= GIGE_RX_CLK; end arc;
------------------------------------------------------------------------------- -- system.vhd ------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; library UNISIM; use UNISIM.VCOMPONENTS.ALL; entity system is port ( SWs_8Bits_TRI_IO : inout std_logic_vector(7 downto 0); LEDs_8Bits_TRI_IO : out std_logic_vector(7 downto 0); BTNs_5Bits_TRI_IO : inout std_logic_vector(4 downto 0); processing_system7_0_MIO : inout std_logic_vector(53 downto 0); processing_system7_0_PS_SRSTB : in std_logic; processing_system7_0_PS_CLK : in std_logic; processing_system7_0_PS_PORB : in std_logic; processing_system7_0_DDR_Clk : inout std_logic; processing_system7_0_DDR_Clk_n : inout std_logic; processing_system7_0_DDR_CKE : inout std_logic; processing_system7_0_DDR_CS_n : inout std_logic; processing_system7_0_DDR_RAS_n : inout std_logic; processing_system7_0_DDR_CAS_n : inout std_logic; processing_system7_0_DDR_WEB_pin : out std_logic; processing_system7_0_DDR_BankAddr : inout std_logic_vector(2 downto 0); processing_system7_0_DDR_Addr : inout std_logic_vector(14 downto 0); processing_system7_0_DDR_ODT : inout std_logic; processing_system7_0_DDR_DRSTB : inout std_logic; processing_system7_0_DDR_DQ : inout std_logic_vector(31 downto 0); processing_system7_0_DDR_DM : inout std_logic_vector(3 downto 0); processing_system7_0_DDR_DQS : inout std_logic_vector(3 downto 0); processing_system7_0_DDR_DQS_n : inout std_logic_vector(3 downto 0); processing_system7_0_DDR_VRN : inout std_logic; processing_system7_0_DDR_VRP : inout std_logic; fmc_imageon_iic_0_Sda_pin : inout std_logic; fmc_imageon_iic_0_Scl_pin : inout std_logic; fmc_imageon_hdmi_out_0_io_hdmio_spdif_pin : out std_logic; fmc_imageon_hdmi_out_0_io_hdmio_video_pin : out std_logic_vector(15 downto 0); fmc_imageon_hdmi_out_0_io_hdmio_clk_pin : out std_logic; fmc_imageon_hdmi_in_0_io_hdmii_spdif_pin : in std_logic; fmc_imageon_hdmi_in_0_io_hdmii_video_pin : in std_logic_vector(15 downto 0); fmc_imageon_hdmi_in_0_clk_pin : in std_logic; fmc_imageon_video_clk1_pin : in std_logic; led0 : out std_logic; led1 : out std_logic; led2 : out std_logic; led3 : out std_logic; led4 : out std_logic; led5 : out std_logic; led6 : out std_logic; led7 : out std_logic; led8 : out std_logic; led9 : out std_logic; led10 : out std_logic; led11 : out std_logic; led12 : out std_logic; led13 : out std_logic; led14 : out std_logic; led15 : out std_logic; led16 : out std_logic; led17 : out std_logic; led18 : out std_logic; led19 : out std_logic; led20 : out std_logic; led21 : out std_logic; led22 : out std_logic; led23 : out std_logic; led24 : out std_logic; led25 : out std_logic; led26 : out std_logic; led27 : out std_logic; led28 : out std_logic; led29 : out std_logic; fmc_imageon_iic_0_Reset_pin : out std_logic ); end system; architecture STRUCTURE of system is component system_axi4lite_0_wrapper is port ( INTERCONNECT_ACLK : in std_logic; INTERCONNECT_ARESETN : in std_logic; S_AXI_ARESET_OUT_N : out std_logic_vector(0 to 0); M_AXI_ARESET_OUT_N : out std_logic_vector(7 downto 0); IRQ : out std_logic; S_AXI_ACLK : in std_logic_vector(0 to 0); S_AXI_AWID : in std_logic_vector(11 downto 0); S_AXI_AWADDR : in std_logic_vector(31 downto 0); S_AXI_AWLEN : in std_logic_vector(7 downto 0); S_AXI_AWSIZE : in std_logic_vector(2 downto 0); S_AXI_AWBURST : in std_logic_vector(1 downto 0); S_AXI_AWLOCK : in std_logic_vector(1 downto 0); S_AXI_AWCACHE : in std_logic_vector(3 downto 0); S_AXI_AWPROT : in std_logic_vector(2 downto 0); S_AXI_AWQOS : in std_logic_vector(3 downto 0); S_AXI_AWUSER : in std_logic_vector(0 to 0); S_AXI_AWVALID : in std_logic_vector(0 to 0); S_AXI_AWREADY : out std_logic_vector(0 to 0); S_AXI_WID : in std_logic_vector(11 downto 0); S_AXI_WDATA : in std_logic_vector(31 downto 0); S_AXI_WSTRB : in std_logic_vector(3 downto 0); S_AXI_WLAST : in std_logic_vector(0 to 0); S_AXI_WUSER : in std_logic_vector(0 to 0); S_AXI_WVALID : in std_logic_vector(0 to 0); S_AXI_WREADY : out std_logic_vector(0 to 0); S_AXI_BID : out std_logic_vector(11 downto 0); S_AXI_BRESP : out std_logic_vector(1 downto 0); S_AXI_BUSER : out std_logic_vector(0 to 0); S_AXI_BVALID : out std_logic_vector(0 to 0); S_AXI_BREADY : in std_logic_vector(0 to 0); S_AXI_ARID : in std_logic_vector(11 downto 0); S_AXI_ARADDR : in std_logic_vector(31 downto 0); S_AXI_ARLEN : in std_logic_vector(7 downto 0); S_AXI_ARSIZE : in std_logic_vector(2 downto 0); S_AXI_ARBURST : in std_logic_vector(1 downto 0); S_AXI_ARLOCK : in std_logic_vector(1 downto 0); S_AXI_ARCACHE : in std_logic_vector(3 downto 0); S_AXI_ARPROT : in std_logic_vector(2 downto 0); S_AXI_ARQOS : in std_logic_vector(3 downto 0); S_AXI_ARUSER : in std_logic_vector(0 to 0); S_AXI_ARVALID : in std_logic_vector(0 to 0); S_AXI_ARREADY : out std_logic_vector(0 to 0); S_AXI_RID : out std_logic_vector(11 downto 0); S_AXI_RDATA : out std_logic_vector(31 downto 0); S_AXI_RRESP : out std_logic_vector(1 downto 0); S_AXI_RLAST : out std_logic_vector(0 to 0); S_AXI_RUSER : out std_logic_vector(0 to 0); S_AXI_RVALID : out std_logic_vector(0 to 0); S_AXI_RREADY : in std_logic_vector(0 to 0); M_AXI_ACLK : in std_logic_vector(7 downto 0); M_AXI_AWID : out std_logic_vector(95 downto 0); M_AXI_AWADDR : out std_logic_vector(255 downto 0); M_AXI_AWLEN : out std_logic_vector(63 downto 0); M_AXI_AWSIZE : out std_logic_vector(23 downto 0); M_AXI_AWBURST : out std_logic_vector(15 downto 0); M_AXI_AWLOCK : out std_logic_vector(15 downto 0); M_AXI_AWCACHE : out std_logic_vector(31 downto 0); M_AXI_AWPROT : out std_logic_vector(23 downto 0); M_AXI_AWREGION : out std_logic_vector(31 downto 0); M_AXI_AWQOS : out std_logic_vector(31 downto 0); M_AXI_AWUSER : out std_logic_vector(7 downto 0); M_AXI_AWVALID : out std_logic_vector(7 downto 0); M_AXI_AWREADY : in std_logic_vector(7 downto 0); M_AXI_WID : out std_logic_vector(95 downto 0); M_AXI_WDATA : out std_logic_vector(255 downto 0); M_AXI_WSTRB : out std_logic_vector(31 downto 0); M_AXI_WLAST : out std_logic_vector(7 downto 0); M_AXI_WUSER : out std_logic_vector(7 downto 0); M_AXI_WVALID : out std_logic_vector(7 downto 0); M_AXI_WREADY : in std_logic_vector(7 downto 0); M_AXI_BID : in std_logic_vector(95 downto 0); M_AXI_BRESP : in std_logic_vector(15 downto 0); M_AXI_BUSER : in std_logic_vector(7 downto 0); M_AXI_BVALID : in std_logic_vector(7 downto 0); M_AXI_BREADY : out std_logic_vector(7 downto 0); M_AXI_ARID : out std_logic_vector(95 downto 0); M_AXI_ARADDR : out std_logic_vector(255 downto 0); M_AXI_ARLEN : out std_logic_vector(63 downto 0); M_AXI_ARSIZE : out std_logic_vector(23 downto 0); M_AXI_ARBURST : out std_logic_vector(15 downto 0); M_AXI_ARLOCK : out std_logic_vector(15 downto 0); M_AXI_ARCACHE : out std_logic_vector(31 downto 0); M_AXI_ARPROT : out std_logic_vector(23 downto 0); M_AXI_ARREGION : out std_logic_vector(31 downto 0); M_AXI_ARQOS : out std_logic_vector(31 downto 0); M_AXI_ARUSER : out std_logic_vector(7 downto 0); M_AXI_ARVALID : out std_logic_vector(7 downto 0); M_AXI_ARREADY : in std_logic_vector(7 downto 0); M_AXI_RID : in std_logic_vector(95 downto 0); M_AXI_RDATA : in std_logic_vector(255 downto 0); M_AXI_RRESP : in std_logic_vector(15 downto 0); M_AXI_RLAST : in std_logic_vector(7 downto 0); M_AXI_RUSER : in std_logic_vector(7 downto 0); M_AXI_RVALID : in std_logic_vector(7 downto 0); M_AXI_RREADY : out std_logic_vector(7 downto 0); S_AXI_CTRL_AWADDR : in std_logic_vector(31 downto 0); S_AXI_CTRL_AWVALID : in std_logic; S_AXI_CTRL_AWREADY : out std_logic; S_AXI_CTRL_WDATA : in std_logic_vector(31 downto 0); S_AXI_CTRL_WVALID : in std_logic; S_AXI_CTRL_WREADY : out std_logic; S_AXI_CTRL_BRESP : out std_logic_vector(1 downto 0); S_AXI_CTRL_BVALID : out std_logic; S_AXI_CTRL_BREADY : in std_logic; S_AXI_CTRL_ARADDR : in std_logic_vector(31 downto 0); S_AXI_CTRL_ARVALID : in std_logic; S_AXI_CTRL_ARREADY : out std_logic; S_AXI_CTRL_RDATA : out std_logic_vector(31 downto 0); S_AXI_CTRL_RRESP : out std_logic_vector(1 downto 0); S_AXI_CTRL_RVALID : out std_logic; S_AXI_CTRL_RREADY : in std_logic; INTERCONNECT_ARESET_OUT_N : out std_logic; DEBUG_AW_TRANS_SEQ : out std_logic_vector(7 downto 0); DEBUG_AW_ARB_GRANT : out std_logic_vector(7 downto 0); DEBUG_AR_TRANS_SEQ : out std_logic_vector(7 downto 0); DEBUG_AR_ARB_GRANT : out std_logic_vector(7 downto 0); DEBUG_AW_TRANS_QUAL : out std_logic_vector(0 to 0); DEBUG_AW_ACCEPT_CNT : out std_logic_vector(7 downto 0); DEBUG_AW_ACTIVE_THREAD : out std_logic_vector(15 downto 0); DEBUG_AW_ACTIVE_TARGET : out std_logic_vector(7 downto 0); DEBUG_AW_ACTIVE_REGION : out std_logic_vector(7 downto 0); DEBUG_AW_ERROR : out std_logic_vector(7 downto 0); DEBUG_AW_TARGET : out std_logic_vector(7 downto 0); DEBUG_AR_TRANS_QUAL : out std_logic_vector(0 to 0); DEBUG_AR_ACCEPT_CNT : out std_logic_vector(7 downto 0); DEBUG_AR_ACTIVE_THREAD : out std_logic_vector(15 downto 0); DEBUG_AR_ACTIVE_TARGET : out std_logic_vector(7 downto 0); DEBUG_AR_ACTIVE_REGION : out std_logic_vector(7 downto 0); DEBUG_AR_ERROR : out std_logic_vector(7 downto 0); DEBUG_AR_TARGET : out std_logic_vector(7 downto 0); DEBUG_B_TRANS_SEQ : out std_logic_vector(7 downto 0); DEBUG_R_BEAT_CNT : out std_logic_vector(7 downto 0); DEBUG_R_TRANS_SEQ : out std_logic_vector(7 downto 0); DEBUG_AW_ISSUING_CNT : out std_logic_vector(7 downto 0); DEBUG_AR_ISSUING_CNT : out std_logic_vector(7 downto 0); DEBUG_W_BEAT_CNT : out std_logic_vector(7 downto 0); DEBUG_W_TRANS_SEQ : out std_logic_vector(7 downto 0); DEBUG_BID_TARGET : out std_logic_vector(7 downto 0); DEBUG_BID_ERROR : out std_logic; DEBUG_RID_TARGET : out std_logic_vector(7 downto 0); DEBUG_RID_ERROR : out std_logic; DEBUG_SR_SC_ARADDR : out std_logic_vector(31 downto 0); DEBUG_SR_SC_ARADDRCONTROL : out std_logic_vector(34 downto 0); DEBUG_SR_SC_AWADDR : out std_logic_vector(31 downto 0); DEBUG_SR_SC_AWADDRCONTROL : out std_logic_vector(34 downto 0); DEBUG_SR_SC_BRESP : out std_logic_vector(15 downto 0); DEBUG_SR_SC_RDATA : out std_logic_vector(31 downto 0); DEBUG_SR_SC_RDATACONTROL : out std_logic_vector(16 downto 0); DEBUG_SR_SC_WDATA : out std_logic_vector(31 downto 0); DEBUG_SR_SC_WDATACONTROL : out std_logic_vector(6 downto 0); DEBUG_SC_SF_ARADDR : out std_logic_vector(31 downto 0); DEBUG_SC_SF_ARADDRCONTROL : out std_logic_vector(34 downto 0); DEBUG_SC_SF_AWADDR : out std_logic_vector(31 downto 0); DEBUG_SC_SF_AWADDRCONTROL : out std_logic_vector(34 downto 0); DEBUG_SC_SF_BRESP : out std_logic_vector(15 downto 0); DEBUG_SC_SF_RDATA : out std_logic_vector(31 downto 0); DEBUG_SC_SF_RDATACONTROL : out std_logic_vector(16 downto 0); DEBUG_SC_SF_WDATA : out std_logic_vector(31 downto 0); DEBUG_SC_SF_WDATACONTROL : out std_logic_vector(6 downto 0); DEBUG_SF_CB_ARADDR : out std_logic_vector(31 downto 0); DEBUG_SF_CB_ARADDRCONTROL : out std_logic_vector(34 downto 0); DEBUG_SF_CB_AWADDR : out std_logic_vector(31 downto 0); DEBUG_SF_CB_AWADDRCONTROL : out std_logic_vector(34 downto 0); DEBUG_SF_CB_BRESP : out std_logic_vector(15 downto 0); DEBUG_SF_CB_RDATA : out std_logic_vector(31 downto 0); DEBUG_SF_CB_RDATACONTROL : out std_logic_vector(16 downto 0); DEBUG_SF_CB_WDATA : out std_logic_vector(31 downto 0); DEBUG_SF_CB_WDATACONTROL : out std_logic_vector(6 downto 0); DEBUG_CB_MF_ARADDR : out std_logic_vector(31 downto 0); DEBUG_CB_MF_ARADDRCONTROL : out std_logic_vector(34 downto 0); DEBUG_CB_MF_AWADDR : out std_logic_vector(31 downto 0); DEBUG_CB_MF_AWADDRCONTROL : out std_logic_vector(34 downto 0); DEBUG_CB_MF_BRESP : out std_logic_vector(15 downto 0); DEBUG_CB_MF_RDATA : out std_logic_vector(31 downto 0); DEBUG_CB_MF_RDATACONTROL : out std_logic_vector(16 downto 0); DEBUG_CB_MF_WDATA : out std_logic_vector(31 downto 0); DEBUG_CB_MF_WDATACONTROL : out std_logic_vector(6 downto 0); DEBUG_MF_MC_ARADDR : out std_logic_vector(31 downto 0); DEBUG_MF_MC_ARADDRCONTROL : out std_logic_vector(34 downto 0); DEBUG_MF_MC_AWADDR : out std_logic_vector(31 downto 0); DEBUG_MF_MC_AWADDRCONTROL : out std_logic_vector(34 downto 0); DEBUG_MF_MC_BRESP : out std_logic_vector(15 downto 0); DEBUG_MF_MC_RDATA : out std_logic_vector(31 downto 0); DEBUG_MF_MC_RDATACONTROL : out std_logic_vector(16 downto 0); DEBUG_MF_MC_WDATA : out std_logic_vector(31 downto 0); DEBUG_MF_MC_WDATACONTROL : out std_logic_vector(6 downto 0); DEBUG_MC_MP_ARADDR : out std_logic_vector(31 downto 0); DEBUG_MC_MP_ARADDRCONTROL : out std_logic_vector(34 downto 0); DEBUG_MC_MP_AWADDR : out std_logic_vector(31 downto 0); DEBUG_MC_MP_AWADDRCONTROL : out std_logic_vector(34 downto 0); DEBUG_MC_MP_BRESP : out std_logic_vector(15 downto 0); DEBUG_MC_MP_RDATA : out std_logic_vector(31 downto 0); DEBUG_MC_MP_RDATACONTROL : out std_logic_vector(16 downto 0); DEBUG_MC_MP_WDATA : out std_logic_vector(31 downto 0); DEBUG_MC_MP_WDATACONTROL : out std_logic_vector(6 downto 0); DEBUG_MP_MR_ARADDR : out std_logic_vector(31 downto 0); DEBUG_MP_MR_ARADDRCONTROL : out std_logic_vector(34 downto 0); DEBUG_MP_MR_AWADDR : out std_logic_vector(31 downto 0); DEBUG_MP_MR_AWADDRCONTROL : out std_logic_vector(34 downto 0); DEBUG_MP_MR_BRESP : out std_logic_vector(15 downto 0); DEBUG_MP_MR_RDATA : out std_logic_vector(31 downto 0); DEBUG_MP_MR_RDATACONTROL : out std_logic_vector(16 downto 0); DEBUG_MP_MR_WDATA : out std_logic_vector(31 downto 0); DEBUG_MP_MR_WDATACONTROL : out std_logic_vector(6 downto 0) ); end component; component system_sws_8bits_wrapper is port ( S_AXI_ACLK : in std_logic; S_AXI_ARESETN : in std_logic; S_AXI_AWADDR : in std_logic_vector(8 downto 0); S_AXI_AWVALID : in std_logic; S_AXI_AWREADY : out std_logic; S_AXI_WDATA : in std_logic_vector(31 downto 0); S_AXI_WSTRB : in std_logic_vector(3 downto 0); S_AXI_WVALID : in std_logic; S_AXI_WREADY : out std_logic; S_AXI_BRESP : out std_logic_vector(1 downto 0); S_AXI_BVALID : out std_logic; S_AXI_BREADY : in std_logic; S_AXI_ARADDR : in std_logic_vector(8 downto 0); S_AXI_ARVALID : in std_logic; S_AXI_ARREADY : out std_logic; S_AXI_RDATA : out std_logic_vector(31 downto 0); S_AXI_RRESP : out std_logic_vector(1 downto 0); S_AXI_RVALID : out std_logic; S_AXI_RREADY : in std_logic; IP2INTC_Irpt : out std_logic; GPIO_IO_I : in std_logic_vector(7 downto 0); GPIO_IO_O : out std_logic_vector(7 downto 0); GPIO_IO_T : out std_logic_vector(7 downto 0); GPIO2_IO_I : in std_logic_vector(31 downto 0); GPIO2_IO_O : out std_logic_vector(31 downto 0); GPIO2_IO_T : out std_logic_vector(31 downto 0) ); end component; component system_leds_8bits_wrapper is port ( S_AXI_ACLK : in std_logic; S_AXI_ARESETN : in std_logic; S_AXI_AWADDR : in std_logic_vector(8 downto 0); S_AXI_AWVALID : in std_logic; S_AXI_AWREADY : out std_logic; S_AXI_WDATA : in std_logic_vector(31 downto 0); S_AXI_WSTRB : in std_logic_vector(3 downto 0); S_AXI_WVALID : in std_logic; S_AXI_WREADY : out std_logic; S_AXI_BRESP : out std_logic_vector(1 downto 0); S_AXI_BVALID : out std_logic; S_AXI_BREADY : in std_logic; S_AXI_ARADDR : in std_logic_vector(8 downto 0); S_AXI_ARVALID : in std_logic; S_AXI_ARREADY : out std_logic; S_AXI_RDATA : out std_logic_vector(31 downto 0); S_AXI_RRESP : out std_logic_vector(1 downto 0); S_AXI_RVALID : out std_logic; S_AXI_RREADY : in std_logic; IP2INTC_Irpt : out std_logic; GPIO_IO_I : in std_logic_vector(7 downto 0); GPIO_IO_O : out std_logic_vector(7 downto 0); GPIO_IO_T : out std_logic_vector(7 downto 0); GPIO2_IO_I : in std_logic_vector(31 downto 0); GPIO2_IO_O : out std_logic_vector(31 downto 0); GPIO2_IO_T : out std_logic_vector(31 downto 0) ); end component; component system_btns_5bits_wrapper is port ( S_AXI_ACLK : in std_logic; S_AXI_ARESETN : in std_logic; S_AXI_AWADDR : in std_logic_vector(8 downto 0); S_AXI_AWVALID : in std_logic; S_AXI_AWREADY : out std_logic; S_AXI_WDATA : in std_logic_vector(31 downto 0); S_AXI_WSTRB : in std_logic_vector(3 downto 0); S_AXI_WVALID : in std_logic; S_AXI_WREADY : out std_logic; S_AXI_BRESP : out std_logic_vector(1 downto 0); S_AXI_BVALID : out std_logic; S_AXI_BREADY : in std_logic; S_AXI_ARADDR : in std_logic_vector(8 downto 0); S_AXI_ARVALID : in std_logic; S_AXI_ARREADY : out std_logic; S_AXI_RDATA : out std_logic_vector(31 downto 0); S_AXI_RRESP : out std_logic_vector(1 downto 0); S_AXI_RVALID : out std_logic; S_AXI_RREADY : in std_logic; IP2INTC_Irpt : out std_logic; GPIO_IO_I : in std_logic_vector(4 downto 0); GPIO_IO_O : out std_logic_vector(4 downto 0); GPIO_IO_T : out std_logic_vector(4 downto 0); GPIO2_IO_I : in std_logic_vector(31 downto 0); GPIO2_IO_O : out std_logic_vector(31 downto 0); GPIO2_IO_T : out std_logic_vector(31 downto 0) ); end component; component system_processing_system7_0_wrapper is port ( CAN0_PHY_TX : out std_logic; CAN0_PHY_RX : in std_logic; CAN1_PHY_TX : out std_logic; CAN1_PHY_RX : in std_logic; ENET0_GMII_TX_EN : out std_logic; ENET0_GMII_TX_ER : out std_logic; ENET0_MDIO_MDC : out std_logic; ENET0_MDIO_O : out std_logic; ENET0_MDIO_T : out std_logic; ENET0_PTP_DELAY_REQ_RX : out std_logic; ENET0_PTP_DELAY_REQ_TX : out std_logic; ENET0_PTP_PDELAY_REQ_RX : out std_logic; ENET0_PTP_PDELAY_REQ_TX : out std_logic; ENET0_PTP_PDELAY_RESP_RX : out std_logic; ENET0_PTP_PDELAY_RESP_TX : out std_logic; ENET0_PTP_SYNC_FRAME_RX : out std_logic; ENET0_PTP_SYNC_FRAME_TX : out std_logic; ENET0_SOF_RX : out std_logic; ENET0_SOF_TX : out std_logic; ENET0_GMII_TXD : out std_logic_vector(7 downto 0); ENET0_GMII_COL : in std_logic; ENET0_GMII_CRS : in std_logic; ENET0_EXT_INTIN : in std_logic; ENET0_GMII_RX_CLK : in std_logic; ENET0_GMII_RX_DV : in std_logic; ENET0_GMII_RX_ER : in std_logic; ENET0_GMII_TX_CLK : in std_logic; ENET0_MDIO_I : in std_logic; ENET0_GMII_RXD : in std_logic_vector(7 downto 0); ENET1_GMII_TX_EN : out std_logic; ENET1_GMII_TX_ER : out std_logic; ENET1_MDIO_MDC : out std_logic; ENET1_MDIO_O : out std_logic; ENET1_MDIO_T : out std_logic; ENET1_PTP_DELAY_REQ_RX : out std_logic; ENET1_PTP_DELAY_REQ_TX : out std_logic; ENET1_PTP_PDELAY_REQ_RX : out std_logic; ENET1_PTP_PDELAY_REQ_TX : out std_logic; ENET1_PTP_PDELAY_RESP_RX : out std_logic; ENET1_PTP_PDELAY_RESP_TX : out std_logic; ENET1_PTP_SYNC_FRAME_RX : out std_logic; ENET1_PTP_SYNC_FRAME_TX : out std_logic; ENET1_SOF_RX : out std_logic; ENET1_SOF_TX : out std_logic; ENET1_GMII_TXD : out std_logic_vector(7 downto 0); ENET1_GMII_COL : in std_logic; ENET1_GMII_CRS : in std_logic; ENET1_EXT_INTIN : in std_logic; ENET1_GMII_RX_CLK : in std_logic; ENET1_GMII_RX_DV : in std_logic; ENET1_GMII_RX_ER : in std_logic; ENET1_GMII_TX_CLK : in std_logic; ENET1_MDIO_I : in std_logic; ENET1_GMII_RXD : in std_logic_vector(7 downto 0); GPIO_I : in std_logic_vector(63 downto 0); GPIO_O : out std_logic_vector(63 downto 0); GPIO_T : out std_logic_vector(63 downto 0); I2C0_SDA_I : in std_logic; I2C0_SDA_O : out std_logic; I2C0_SDA_T : out std_logic; I2C0_SCL_I : in std_logic; I2C0_SCL_O : out std_logic; I2C0_SCL_T : out std_logic; I2C1_SDA_I : in std_logic; I2C1_SDA_O : out std_logic; I2C1_SDA_T : out std_logic; I2C1_SCL_I : in std_logic; I2C1_SCL_O : out std_logic; I2C1_SCL_T : out std_logic; PJTAG_TCK : in std_logic; PJTAG_TMS : in std_logic; PJTAG_TD_I : in std_logic; PJTAG_TD_T : out std_logic; PJTAG_TD_O : out std_logic; SDIO0_CLK : out std_logic; SDIO0_CLK_FB : in std_logic; SDIO0_CMD_O : out std_logic; SDIO0_CMD_I : in std_logic; SDIO0_CMD_T : out std_logic; SDIO0_DATA_I : in std_logic_vector(3 downto 0); SDIO0_DATA_O : out std_logic_vector(3 downto 0); SDIO0_DATA_T : out std_logic_vector(3 downto 0); SDIO0_LED : out std_logic; SDIO0_CDN : in std_logic; SDIO0_WP : in std_logic; SDIO0_BUSPOW : out std_logic; SDIO0_BUSVOLT : out std_logic_vector(2 downto 0); SDIO1_CLK : out std_logic; SDIO1_CLK_FB : in std_logic; SDIO1_CMD_O : out std_logic; SDIO1_CMD_I : in std_logic; SDIO1_CMD_T : out std_logic; SDIO1_DATA_I : in std_logic_vector(3 downto 0); SDIO1_DATA_O : out std_logic_vector(3 downto 0); SDIO1_DATA_T : out std_logic_vector(3 downto 0); SDIO1_LED : out std_logic; SDIO1_CDN : in std_logic; SDIO1_WP : in std_logic; SDIO1_BUSPOW : out std_logic; SDIO1_BUSVOLT : out std_logic_vector(2 downto 0); SPI0_SCLK_I : in std_logic; SPI0_SCLK_O : out std_logic; SPI0_SCLK_T : out std_logic; SPI0_MOSI_I : in std_logic; SPI0_MOSI_O : out std_logic; SPI0_MOSI_T : out std_logic; SPI0_MISO_I : in std_logic; SPI0_MISO_O : out std_logic; SPI0_MISO_T : out std_logic; SPI0_SS_I : in std_logic; SPI0_SS_O : out std_logic; SPI0_SS1_O : out std_logic; SPI0_SS2_O : out std_logic; SPI0_SS_T : out std_logic; SPI1_SCLK_I : in std_logic; SPI1_SCLK_O : out std_logic; SPI1_SCLK_T : out std_logic; SPI1_MOSI_I : in std_logic; SPI1_MOSI_O : out std_logic; SPI1_MOSI_T : out std_logic; SPI1_MISO_I : in std_logic; SPI1_MISO_O : out std_logic; SPI1_MISO_T : out std_logic; SPI1_SS_I : in std_logic; SPI1_SS_O : out std_logic; SPI1_SS1_O : out std_logic; SPI1_SS2_O : out std_logic; SPI1_SS_T : out std_logic; UART0_DTRN : out std_logic; UART0_RTSN : out std_logic; UART0_TX : out std_logic; UART0_CTSN : in std_logic; UART0_DCDN : in std_logic; UART0_DSRN : in std_logic; UART0_RIN : in std_logic; UART0_RX : in std_logic; UART1_DTRN : out std_logic; UART1_RTSN : out std_logic; UART1_TX : out std_logic; UART1_CTSN : in std_logic; UART1_DCDN : in std_logic; UART1_DSRN : in std_logic; UART1_RIN : in std_logic; UART1_RX : in std_logic; TTC0_WAVE0_OUT : out std_logic; TTC0_WAVE1_OUT : out std_logic; TTC0_WAVE2_OUT : out std_logic; TTC0_CLK0_IN : in std_logic; TTC0_CLK1_IN : in std_logic; TTC0_CLK2_IN : in std_logic; TTC1_WAVE0_OUT : out std_logic; TTC1_WAVE1_OUT : out std_logic; TTC1_WAVE2_OUT : out std_logic; TTC1_CLK0_IN : in std_logic; TTC1_CLK1_IN : in std_logic; TTC1_CLK2_IN : in std_logic; WDT_CLK_IN : in std_logic; WDT_RST_OUT : out std_logic; TRACE_CLK : in std_logic; TRACE_CTL : out std_logic; TRACE_DATA : out std_logic_vector(31 downto 0); USB0_PORT_INDCTL : out std_logic_vector(1 downto 0); USB1_PORT_INDCTL : out std_logic_vector(1 downto 0); USB0_VBUS_PWRSELECT : out std_logic; USB1_VBUS_PWRSELECT : out std_logic; USB0_VBUS_PWRFAULT : in std_logic; USB1_VBUS_PWRFAULT : in std_logic; SRAM_INTIN : in std_logic; M_AXI_GP0_ARESETN : out std_logic; M_AXI_GP0_ARVALID : out std_logic; M_AXI_GP0_AWVALID : out std_logic; M_AXI_GP0_BREADY : out std_logic; M_AXI_GP0_RREADY : out std_logic; M_AXI_GP0_WLAST : out std_logic; M_AXI_GP0_WVALID : out std_logic; M_AXI_GP0_ARID : out std_logic_vector(11 downto 0); M_AXI_GP0_AWID : out std_logic_vector(11 downto 0); M_AXI_GP0_WID : out std_logic_vector(11 downto 0); M_AXI_GP0_ARBURST : out std_logic_vector(1 downto 0); M_AXI_GP0_ARLOCK : out std_logic_vector(1 downto 0); M_AXI_GP0_ARSIZE : out std_logic_vector(2 downto 0); M_AXI_GP0_AWBURST : out std_logic_vector(1 downto 0); M_AXI_GP0_AWLOCK : out std_logic_vector(1 downto 0); M_AXI_GP0_AWSIZE : out std_logic_vector(2 downto 0); M_AXI_GP0_ARPROT : out std_logic_vector(2 downto 0); M_AXI_GP0_AWPROT : out std_logic_vector(2 downto 0); M_AXI_GP0_ARADDR : out std_logic_vector(31 downto 0); M_AXI_GP0_AWADDR : out std_logic_vector(31 downto 0); M_AXI_GP0_WDATA : out std_logic_vector(31 downto 0); M_AXI_GP0_ARCACHE : out std_logic_vector(3 downto 0); M_AXI_GP0_ARLEN : out std_logic_vector(3 downto 0); M_AXI_GP0_ARQOS : out std_logic_vector(3 downto 0); M_AXI_GP0_AWCACHE : out std_logic_vector(3 downto 0); M_AXI_GP0_AWLEN : out std_logic_vector(3 downto 0); M_AXI_GP0_AWQOS : out std_logic_vector(3 downto 0); M_AXI_GP0_WSTRB : out std_logic_vector(3 downto 0); M_AXI_GP0_ACLK : in std_logic; M_AXI_GP0_ARREADY : in std_logic; M_AXI_GP0_AWREADY : in std_logic; M_AXI_GP0_BVALID : in std_logic; M_AXI_GP0_RLAST : in std_logic; M_AXI_GP0_RVALID : in std_logic; M_AXI_GP0_WREADY : in std_logic; M_AXI_GP0_BID : in std_logic_vector(11 downto 0); M_AXI_GP0_RID : in std_logic_vector(11 downto 0); M_AXI_GP0_BRESP : in std_logic_vector(1 downto 0); M_AXI_GP0_RRESP : in std_logic_vector(1 downto 0); M_AXI_GP0_RDATA : in std_logic_vector(31 downto 0); M_AXI_GP1_ARESETN : out std_logic; M_AXI_GP1_ARVALID : out std_logic; M_AXI_GP1_AWVALID : out std_logic; M_AXI_GP1_BREADY : out std_logic; M_AXI_GP1_RREADY : out std_logic; M_AXI_GP1_WLAST : out std_logic; M_AXI_GP1_WVALID : out std_logic; M_AXI_GP1_ARID : out std_logic_vector(11 downto 0); M_AXI_GP1_AWID : out std_logic_vector(11 downto 0); M_AXI_GP1_WID : out std_logic_vector(11 downto 0); M_AXI_GP1_ARBURST : out std_logic_vector(1 downto 0); M_AXI_GP1_ARLOCK : out std_logic_vector(1 downto 0); M_AXI_GP1_ARSIZE : out std_logic_vector(2 downto 0); M_AXI_GP1_AWBURST : out std_logic_vector(1 downto 0); M_AXI_GP1_AWLOCK : out std_logic_vector(1 downto 0); M_AXI_GP1_AWSIZE : out std_logic_vector(2 downto 0); M_AXI_GP1_ARPROT : out std_logic_vector(2 downto 0); M_AXI_GP1_AWPROT : out std_logic_vector(2 downto 0); M_AXI_GP1_ARADDR : out std_logic_vector(31 downto 0); M_AXI_GP1_AWADDR : out std_logic_vector(31 downto 0); M_AXI_GP1_WDATA : out std_logic_vector(31 downto 0); M_AXI_GP1_ARCACHE : out std_logic_vector(3 downto 0); M_AXI_GP1_ARLEN : out std_logic_vector(3 downto 0); M_AXI_GP1_ARQOS : out std_logic_vector(3 downto 0); M_AXI_GP1_AWCACHE : out std_logic_vector(3 downto 0); M_AXI_GP1_AWLEN : out std_logic_vector(3 downto 0); M_AXI_GP1_AWQOS : out std_logic_vector(3 downto 0); M_AXI_GP1_WSTRB : out std_logic_vector(3 downto 0); M_AXI_GP1_ACLK : in std_logic; M_AXI_GP1_ARREADY : in std_logic; M_AXI_GP1_AWREADY : in std_logic; M_AXI_GP1_BVALID : in std_logic; M_AXI_GP1_RLAST : in std_logic; M_AXI_GP1_RVALID : in std_logic; M_AXI_GP1_WREADY : in std_logic; M_AXI_GP1_BID : in std_logic_vector(11 downto 0); M_AXI_GP1_RID : in std_logic_vector(11 downto 0); M_AXI_GP1_BRESP : in std_logic_vector(1 downto 0); M_AXI_GP1_RRESP : in std_logic_vector(1 downto 0); M_AXI_GP1_RDATA : in std_logic_vector(31 downto 0); S_AXI_GP0_ARESETN : out std_logic; S_AXI_GP0_ARREADY : out std_logic; S_AXI_GP0_AWREADY : out std_logic; S_AXI_GP0_BVALID : out std_logic; S_AXI_GP0_RLAST : out std_logic; S_AXI_GP0_RVALID : out std_logic; S_AXI_GP0_WREADY : out std_logic; S_AXI_GP0_BRESP : out std_logic_vector(1 downto 0); S_AXI_GP0_RRESP : out std_logic_vector(1 downto 0); S_AXI_GP0_RDATA : out std_logic_vector(31 downto 0); S_AXI_GP0_BID : out std_logic_vector(5 downto 0); S_AXI_GP0_RID : out std_logic_vector(5 downto 0); S_AXI_GP0_ACLK : in std_logic; S_AXI_GP0_ARVALID : in std_logic; S_AXI_GP0_AWVALID : in std_logic; S_AXI_GP0_BREADY : in std_logic; S_AXI_GP0_RREADY : in std_logic; S_AXI_GP0_WLAST : in std_logic; S_AXI_GP0_WVALID : in std_logic; S_AXI_GP0_ARBURST : in std_logic_vector(1 downto 0); S_AXI_GP0_ARLOCK : in std_logic_vector(1 downto 0); S_AXI_GP0_ARSIZE : in std_logic_vector(2 downto 0); S_AXI_GP0_AWBURST : in std_logic_vector(1 downto 0); S_AXI_GP0_AWLOCK : in std_logic_vector(1 downto 0); S_AXI_GP0_AWSIZE : in std_logic_vector(2 downto 0); S_AXI_GP0_ARPROT : in std_logic_vector(2 downto 0); S_AXI_GP0_AWPROT : in std_logic_vector(2 downto 0); S_AXI_GP0_ARADDR : in std_logic_vector(31 downto 0); S_AXI_GP0_AWADDR : in std_logic_vector(31 downto 0); S_AXI_GP0_WDATA : in std_logic_vector(31 downto 0); S_AXI_GP0_ARCACHE : in std_logic_vector(3 downto 0); S_AXI_GP0_ARLEN : in std_logic_vector(3 downto 0); S_AXI_GP0_ARQOS : in std_logic_vector(3 downto 0); S_AXI_GP0_AWCACHE : in std_logic_vector(3 downto 0); S_AXI_GP0_AWLEN : in std_logic_vector(3 downto 0); S_AXI_GP0_AWQOS : in std_logic_vector(3 downto 0); S_AXI_GP0_WSTRB : in std_logic_vector(3 downto 0); S_AXI_GP0_ARID : in std_logic_vector(5 downto 0); S_AXI_GP0_AWID : in std_logic_vector(5 downto 0); S_AXI_GP0_WID : in std_logic_vector(5 downto 0); S_AXI_GP1_ARESETN : out std_logic; S_AXI_GP1_ARREADY : out std_logic; S_AXI_GP1_AWREADY : out std_logic; S_AXI_GP1_BVALID : out std_logic; S_AXI_GP1_RLAST : out std_logic; S_AXI_GP1_RVALID : out std_logic; S_AXI_GP1_WREADY : out std_logic; S_AXI_GP1_BRESP : out std_logic_vector(1 downto 0); S_AXI_GP1_RRESP : out std_logic_vector(1 downto 0); S_AXI_GP1_RDATA : out std_logic_vector(31 downto 0); S_AXI_GP1_BID : out std_logic_vector(5 downto 0); S_AXI_GP1_RID : out std_logic_vector(5 downto 0); S_AXI_GP1_ACLK : in std_logic; S_AXI_GP1_ARVALID : in std_logic; S_AXI_GP1_AWVALID : in std_logic; S_AXI_GP1_BREADY : in std_logic; S_AXI_GP1_RREADY : in std_logic; S_AXI_GP1_WLAST : in std_logic; S_AXI_GP1_WVALID : in std_logic; S_AXI_GP1_ARBURST : in std_logic_vector(1 downto 0); S_AXI_GP1_ARLOCK : in std_logic_vector(1 downto 0); S_AXI_GP1_ARSIZE : in std_logic_vector(2 downto 0); S_AXI_GP1_AWBURST : in std_logic_vector(1 downto 0); S_AXI_GP1_AWLOCK : in std_logic_vector(1 downto 0); S_AXI_GP1_AWSIZE : in std_logic_vector(2 downto 0); S_AXI_GP1_ARPROT : in std_logic_vector(2 downto 0); S_AXI_GP1_AWPROT : in std_logic_vector(2 downto 0); S_AXI_GP1_ARADDR : in std_logic_vector(31 downto 0); S_AXI_GP1_AWADDR : in std_logic_vector(31 downto 0); S_AXI_GP1_WDATA : in std_logic_vector(31 downto 0); S_AXI_GP1_ARCACHE : in std_logic_vector(3 downto 0); S_AXI_GP1_ARLEN : in std_logic_vector(3 downto 0); S_AXI_GP1_ARQOS : in std_logic_vector(3 downto 0); S_AXI_GP1_AWCACHE : in std_logic_vector(3 downto 0); S_AXI_GP1_AWLEN : in std_logic_vector(3 downto 0); S_AXI_GP1_AWQOS : in std_logic_vector(3 downto 0); S_AXI_GP1_WSTRB : in std_logic_vector(3 downto 0); S_AXI_GP1_ARID : in std_logic_vector(5 downto 0); S_AXI_GP1_AWID : in std_logic_vector(5 downto 0); S_AXI_GP1_WID : in std_logic_vector(5 downto 0); S_AXI_ACP_ARESETN : out std_logic; S_AXI_ACP_AWREADY : out std_logic; S_AXI_ACP_ARREADY : out std_logic; S_AXI_ACP_BVALID : out std_logic; S_AXI_ACP_RLAST : out std_logic; S_AXI_ACP_RVALID : out std_logic; S_AXI_ACP_WREADY : out std_logic; S_AXI_ACP_BRESP : out std_logic_vector(1 downto 0); S_AXI_ACP_RRESP : out std_logic_vector(1 downto 0); S_AXI_ACP_BID : out std_logic_vector(2 downto 0); S_AXI_ACP_RID : out std_logic_vector(2 downto 0); S_AXI_ACP_RDATA : out std_logic_vector(63 downto 0); S_AXI_ACP_ACLK : in std_logic; S_AXI_ACP_ARVALID : in std_logic; S_AXI_ACP_AWVALID : in std_logic; S_AXI_ACP_BREADY : in std_logic; S_AXI_ACP_RREADY : in std_logic; S_AXI_ACP_WLAST : in std_logic; S_AXI_ACP_WVALID : in std_logic; S_AXI_ACP_ARID : in std_logic_vector(2 downto 0); S_AXI_ACP_ARPROT : in std_logic_vector(2 downto 0); S_AXI_ACP_AWID : in std_logic_vector(2 downto 0); S_AXI_ACP_AWPROT : in std_logic_vector(2 downto 0); S_AXI_ACP_WID : in std_logic_vector(2 downto 0); S_AXI_ACP_ARADDR : in std_logic_vector(31 downto 0); S_AXI_ACP_AWADDR : in std_logic_vector(31 downto 0); S_AXI_ACP_ARCACHE : in std_logic_vector(3 downto 0); S_AXI_ACP_ARLEN : in std_logic_vector(3 downto 0); S_AXI_ACP_ARQOS : in std_logic_vector(3 downto 0); S_AXI_ACP_AWCACHE : in std_logic_vector(3 downto 0); S_AXI_ACP_AWLEN : in std_logic_vector(3 downto 0); S_AXI_ACP_AWQOS : in std_logic_vector(3 downto 0); S_AXI_ACP_ARBURST : in std_logic_vector(1 downto 0); S_AXI_ACP_ARLOCK : in std_logic_vector(1 downto 0); S_AXI_ACP_ARSIZE : in std_logic_vector(2 downto 0); S_AXI_ACP_AWBURST : in std_logic_vector(1 downto 0); S_AXI_ACP_AWLOCK : in std_logic_vector(1 downto 0); S_AXI_ACP_AWSIZE : in std_logic_vector(2 downto 0); S_AXI_ACP_ARUSER : in std_logic_vector(4 downto 0); S_AXI_ACP_AWUSER : in std_logic_vector(4 downto 0); S_AXI_ACP_WDATA : in std_logic_vector(63 downto 0); S_AXI_ACP_WSTRB : in std_logic_vector(7 downto 0); S_AXI_HP0_ARESETN : out std_logic; S_AXI_HP0_ARREADY : out std_logic; S_AXI_HP0_AWREADY : out std_logic; S_AXI_HP0_BVALID : out std_logic; S_AXI_HP0_RLAST : out std_logic; S_AXI_HP0_RVALID : out std_logic; S_AXI_HP0_WREADY : out std_logic; S_AXI_HP0_BRESP : out std_logic_vector(1 downto 0); S_AXI_HP0_RRESP : out std_logic_vector(1 downto 0); S_AXI_HP0_BID : out std_logic_vector(0 to 0); S_AXI_HP0_RID : out std_logic_vector(0 to 0); S_AXI_HP0_RDATA : out std_logic_vector(63 downto 0); S_AXI_HP0_RCOUNT : out std_logic_vector(7 downto 0); S_AXI_HP0_WCOUNT : out std_logic_vector(7 downto 0); S_AXI_HP0_RACOUNT : out std_logic_vector(2 downto 0); S_AXI_HP0_WACOUNT : out std_logic_vector(5 downto 0); S_AXI_HP0_ACLK : in std_logic; S_AXI_HP0_ARVALID : in std_logic; S_AXI_HP0_AWVALID : in std_logic; S_AXI_HP0_BREADY : in std_logic; S_AXI_HP0_RDISSUECAP1_EN : in std_logic; S_AXI_HP0_RREADY : in std_logic; S_AXI_HP0_WLAST : in std_logic; S_AXI_HP0_WRISSUECAP1_EN : in std_logic; S_AXI_HP0_WVALID : in std_logic; S_AXI_HP0_ARBURST : in std_logic_vector(1 downto 0); S_AXI_HP0_ARLOCK : in std_logic_vector(1 downto 0); S_AXI_HP0_ARSIZE : in std_logic_vector(2 downto 0); S_AXI_HP0_AWBURST : in std_logic_vector(1 downto 0); S_AXI_HP0_AWLOCK : in std_logic_vector(1 downto 0); S_AXI_HP0_AWSIZE : in std_logic_vector(2 downto 0); S_AXI_HP0_ARPROT : in std_logic_vector(2 downto 0); S_AXI_HP0_AWPROT : in std_logic_vector(2 downto 0); S_AXI_HP0_ARADDR : in std_logic_vector(31 downto 0); S_AXI_HP0_AWADDR : in std_logic_vector(31 downto 0); S_AXI_HP0_ARCACHE : in std_logic_vector(3 downto 0); S_AXI_HP0_ARLEN : in std_logic_vector(3 downto 0); S_AXI_HP0_ARQOS : in std_logic_vector(3 downto 0); S_AXI_HP0_AWCACHE : in std_logic_vector(3 downto 0); S_AXI_HP0_AWLEN : in std_logic_vector(3 downto 0); S_AXI_HP0_AWQOS : in std_logic_vector(3 downto 0); S_AXI_HP0_ARID : in std_logic_vector(0 to 0); S_AXI_HP0_AWID : in std_logic_vector(0 to 0); S_AXI_HP0_WID : in std_logic_vector(0 to 0); S_AXI_HP0_WDATA : in std_logic_vector(63 downto 0); S_AXI_HP0_WSTRB : in std_logic_vector(7 downto 0); S_AXI_HP1_ARESETN : out std_logic; S_AXI_HP1_ARREADY : out std_logic; S_AXI_HP1_AWREADY : out std_logic; S_AXI_HP1_BVALID : out std_logic; S_AXI_HP1_RLAST : out std_logic; S_AXI_HP1_RVALID : out std_logic; S_AXI_HP1_WREADY : out std_logic; S_AXI_HP1_BRESP : out std_logic_vector(1 downto 0); S_AXI_HP1_RRESP : out std_logic_vector(1 downto 0); S_AXI_HP1_BID : out std_logic_vector(5 downto 0); S_AXI_HP1_RID : out std_logic_vector(5 downto 0); S_AXI_HP1_RDATA : out std_logic_vector(63 downto 0); S_AXI_HP1_RCOUNT : out std_logic_vector(7 downto 0); S_AXI_HP1_WCOUNT : out std_logic_vector(7 downto 0); S_AXI_HP1_RACOUNT : out std_logic_vector(2 downto 0); S_AXI_HP1_WACOUNT : out std_logic_vector(5 downto 0); S_AXI_HP1_ACLK : in std_logic; S_AXI_HP1_ARVALID : in std_logic; S_AXI_HP1_AWVALID : in std_logic; S_AXI_HP1_BREADY : in std_logic; S_AXI_HP1_RDISSUECAP1_EN : in std_logic; S_AXI_HP1_RREADY : in std_logic; S_AXI_HP1_WLAST : in std_logic; S_AXI_HP1_WRISSUECAP1_EN : in std_logic; S_AXI_HP1_WVALID : in std_logic; S_AXI_HP1_ARBURST : in std_logic_vector(1 downto 0); S_AXI_HP1_ARLOCK : in std_logic_vector(1 downto 0); S_AXI_HP1_ARSIZE : in std_logic_vector(2 downto 0); S_AXI_HP1_AWBURST : in std_logic_vector(1 downto 0); S_AXI_HP1_AWLOCK : in std_logic_vector(1 downto 0); S_AXI_HP1_AWSIZE : in std_logic_vector(2 downto 0); S_AXI_HP1_ARPROT : in std_logic_vector(2 downto 0); S_AXI_HP1_AWPROT : in std_logic_vector(2 downto 0); S_AXI_HP1_ARADDR : in std_logic_vector(31 downto 0); S_AXI_HP1_AWADDR : in std_logic_vector(31 downto 0); S_AXI_HP1_ARCACHE : in std_logic_vector(3 downto 0); S_AXI_HP1_ARLEN : in std_logic_vector(3 downto 0); S_AXI_HP1_ARQOS : in std_logic_vector(3 downto 0); S_AXI_HP1_AWCACHE : in std_logic_vector(3 downto 0); S_AXI_HP1_AWLEN : in std_logic_vector(3 downto 0); S_AXI_HP1_AWQOS : in std_logic_vector(3 downto 0); S_AXI_HP1_ARID : in std_logic_vector(5 downto 0); S_AXI_HP1_AWID : in std_logic_vector(5 downto 0); S_AXI_HP1_WID : in std_logic_vector(5 downto 0); S_AXI_HP1_WDATA : in std_logic_vector(63 downto 0); S_AXI_HP1_WSTRB : in std_logic_vector(7 downto 0); S_AXI_HP2_ARESETN : out std_logic; S_AXI_HP2_ARREADY : out std_logic; S_AXI_HP2_AWREADY : out std_logic; S_AXI_HP2_BVALID : out std_logic; S_AXI_HP2_RLAST : out std_logic; S_AXI_HP2_RVALID : out std_logic; S_AXI_HP2_WREADY : out std_logic; S_AXI_HP2_BRESP : out std_logic_vector(1 downto 0); S_AXI_HP2_RRESP : out std_logic_vector(1 downto 0); S_AXI_HP2_BID : out std_logic_vector(5 downto 0); S_AXI_HP2_RID : out std_logic_vector(5 downto 0); S_AXI_HP2_RDATA : out std_logic_vector(63 downto 0); S_AXI_HP2_RCOUNT : out std_logic_vector(7 downto 0); S_AXI_HP2_WCOUNT : out std_logic_vector(7 downto 0); S_AXI_HP2_RACOUNT : out std_logic_vector(2 downto 0); S_AXI_HP2_WACOUNT : out std_logic_vector(5 downto 0); S_AXI_HP2_ACLK : in std_logic; S_AXI_HP2_ARVALID : in std_logic; S_AXI_HP2_AWVALID : in std_logic; S_AXI_HP2_BREADY : in std_logic; S_AXI_HP2_RDISSUECAP1_EN : in std_logic; S_AXI_HP2_RREADY : in std_logic; S_AXI_HP2_WLAST : in std_logic; S_AXI_HP2_WRISSUECAP1_EN : in std_logic; S_AXI_HP2_WVALID : in std_logic; S_AXI_HP2_ARBURST : in std_logic_vector(1 downto 0); S_AXI_HP2_ARLOCK : in std_logic_vector(1 downto 0); S_AXI_HP2_ARSIZE : in std_logic_vector(2 downto 0); S_AXI_HP2_AWBURST : in std_logic_vector(1 downto 0); S_AXI_HP2_AWLOCK : in std_logic_vector(1 downto 0); S_AXI_HP2_AWSIZE : in std_logic_vector(2 downto 0); S_AXI_HP2_ARPROT : in std_logic_vector(2 downto 0); S_AXI_HP2_AWPROT : in std_logic_vector(2 downto 0); S_AXI_HP2_ARADDR : in std_logic_vector(31 downto 0); S_AXI_HP2_AWADDR : in std_logic_vector(31 downto 0); S_AXI_HP2_ARCACHE : in std_logic_vector(3 downto 0); S_AXI_HP2_ARLEN : in std_logic_vector(3 downto 0); S_AXI_HP2_ARQOS : in std_logic_vector(3 downto 0); S_AXI_HP2_AWCACHE : in std_logic_vector(3 downto 0); S_AXI_HP2_AWLEN : in std_logic_vector(3 downto 0); S_AXI_HP2_AWQOS : in std_logic_vector(3 downto 0); S_AXI_HP2_ARID : in std_logic_vector(5 downto 0); S_AXI_HP2_AWID : in std_logic_vector(5 downto 0); S_AXI_HP2_WID : in std_logic_vector(5 downto 0); S_AXI_HP2_WDATA : in std_logic_vector(63 downto 0); S_AXI_HP2_WSTRB : in std_logic_vector(7 downto 0); S_AXI_HP3_ARESETN : out std_logic; S_AXI_HP3_ARREADY : out std_logic; S_AXI_HP3_AWREADY : out std_logic; S_AXI_HP3_BVALID : out std_logic; S_AXI_HP3_RLAST : out std_logic; S_AXI_HP3_RVALID : out std_logic; S_AXI_HP3_WREADY : out std_logic; S_AXI_HP3_BRESP : out std_logic_vector(1 downto 0); S_AXI_HP3_RRESP : out std_logic_vector(1 downto 0); S_AXI_HP3_BID : out std_logic_vector(5 downto 0); S_AXI_HP3_RID : out std_logic_vector(5 downto 0); S_AXI_HP3_RDATA : out std_logic_vector(63 downto 0); S_AXI_HP3_RCOUNT : out std_logic_vector(7 downto 0); S_AXI_HP3_WCOUNT : out std_logic_vector(7 downto 0); S_AXI_HP3_RACOUNT : out std_logic_vector(2 downto 0); S_AXI_HP3_WACOUNT : out std_logic_vector(5 downto 0); S_AXI_HP3_ACLK : in std_logic; S_AXI_HP3_ARVALID : in std_logic; S_AXI_HP3_AWVALID : in std_logic; S_AXI_HP3_BREADY : in std_logic; S_AXI_HP3_RDISSUECAP1_EN : in std_logic; S_AXI_HP3_RREADY : in std_logic; S_AXI_HP3_WLAST : in std_logic; S_AXI_HP3_WRISSUECAP1_EN : in std_logic; S_AXI_HP3_WVALID : in std_logic; S_AXI_HP3_ARBURST : in std_logic_vector(1 downto 0); S_AXI_HP3_ARLOCK : in std_logic_vector(1 downto 0); S_AXI_HP3_ARSIZE : in std_logic_vector(2 downto 0); S_AXI_HP3_AWBURST : in std_logic_vector(1 downto 0); S_AXI_HP3_AWLOCK : in std_logic_vector(1 downto 0); S_AXI_HP3_AWSIZE : in std_logic_vector(2 downto 0); S_AXI_HP3_ARPROT : in std_logic_vector(2 downto 0); S_AXI_HP3_AWPROT : in std_logic_vector(2 downto 0); S_AXI_HP3_ARADDR : in std_logic_vector(31 downto 0); S_AXI_HP3_AWADDR : in std_logic_vector(31 downto 0); S_AXI_HP3_ARCACHE : in std_logic_vector(3 downto 0); S_AXI_HP3_ARLEN : in std_logic_vector(3 downto 0); S_AXI_HP3_ARQOS : in std_logic_vector(3 downto 0); S_AXI_HP3_AWCACHE : in std_logic_vector(3 downto 0); S_AXI_HP3_AWLEN : in std_logic_vector(3 downto 0); S_AXI_HP3_AWQOS : in std_logic_vector(3 downto 0); S_AXI_HP3_ARID : in std_logic_vector(5 downto 0); S_AXI_HP3_AWID : in std_logic_vector(5 downto 0); S_AXI_HP3_WID : in std_logic_vector(5 downto 0); S_AXI_HP3_WDATA : in std_logic_vector(63 downto 0); S_AXI_HP3_WSTRB : in std_logic_vector(7 downto 0); DMA0_DATYPE : out std_logic_vector(1 downto 0); DMA0_DAVALID : out std_logic; DMA0_DRREADY : out std_logic; DMA0_RSTN : out std_logic; DMA0_ACLK : in std_logic; DMA0_DAREADY : in std_logic; DMA0_DRLAST : in std_logic; DMA0_DRVALID : in std_logic; DMA0_DRTYPE : in std_logic_vector(1 downto 0); DMA1_DATYPE : out std_logic_vector(1 downto 0); DMA1_DAVALID : out std_logic; DMA1_DRREADY : out std_logic; DMA1_RSTN : out std_logic; DMA1_ACLK : in std_logic; DMA1_DAREADY : in std_logic; DMA1_DRLAST : in std_logic; DMA1_DRVALID : in std_logic; DMA1_DRTYPE : in std_logic_vector(1 downto 0); DMA2_DATYPE : out std_logic_vector(1 downto 0); DMA2_DAVALID : out std_logic; DMA2_DRREADY : out std_logic; DMA2_RSTN : out std_logic; DMA2_ACLK : in std_logic; DMA2_DAREADY : in std_logic; DMA2_DRLAST : in std_logic; DMA2_DRVALID : in std_logic; DMA3_DRVALID : in std_logic; DMA3_DATYPE : out std_logic_vector(1 downto 0); DMA3_DAVALID : out std_logic; DMA3_DRREADY : out std_logic; DMA3_RSTN : out std_logic; DMA3_ACLK : in std_logic; DMA3_DAREADY : in std_logic; DMA3_DRLAST : in std_logic; DMA2_DRTYPE : in std_logic_vector(1 downto 0); DMA3_DRTYPE : in std_logic_vector(1 downto 0); FTMD_TRACEIN_DATA : in std_logic_vector(31 downto 0); FTMD_TRACEIN_VALID : in std_logic; FTMD_TRACEIN_CLK : in std_logic; FTMD_TRACEIN_ATID : in std_logic_vector(3 downto 0); FTMT_F2P_TRIG : in std_logic_vector(3 downto 0); FTMT_F2P_TRIGACK : out std_logic_vector(3 downto 0); FTMT_F2P_DEBUG : in std_logic_vector(31 downto 0); FTMT_P2F_TRIGACK : in std_logic_vector(3 downto 0); FTMT_P2F_TRIG : out std_logic_vector(3 downto 0); FTMT_P2F_DEBUG : out std_logic_vector(31 downto 0); FCLK_CLK3 : out std_logic; FCLK_CLK2 : out std_logic; FCLK_CLK1 : out std_logic; FCLK_CLK0 : out std_logic; FCLK_CLKTRIG3_N : in std_logic; FCLK_CLKTRIG2_N : in std_logic; FCLK_CLKTRIG1_N : in std_logic; FCLK_CLKTRIG0_N : in std_logic; FCLK_RESET3_N : out std_logic; FCLK_RESET2_N : out std_logic; FCLK_RESET1_N : out std_logic; FCLK_RESET0_N : out std_logic; FPGA_IDLE_N : in std_logic; DDR_ARB : in std_logic_vector(3 downto 0); IRQ_F2P : in std_logic_vector(0 to 0); Core0_nFIQ : in std_logic; Core0_nIRQ : in std_logic; Core1_nFIQ : in std_logic; Core1_nIRQ : in std_logic; EVENT_EVENTO : out std_logic; EVENT_STANDBYWFE : out std_logic_vector(1 downto 0); EVENT_STANDBYWFI : out std_logic_vector(1 downto 0); EVENT_EVENTI : in std_logic; MIO : inout std_logic_vector(53 downto 0); DDR_Clk : inout std_logic; DDR_Clk_n : inout std_logic; DDR_CKE : inout std_logic; DDR_CS_n : inout std_logic; DDR_RAS_n : inout std_logic; DDR_CAS_n : inout std_logic; DDR_WEB : out std_logic; DDR_BankAddr : inout std_logic_vector(2 downto 0); DDR_Addr : inout std_logic_vector(14 downto 0); DDR_ODT : inout std_logic; DDR_DRSTB : inout std_logic; DDR_DQ : inout std_logic_vector(31 downto 0); DDR_DM : inout std_logic_vector(3 downto 0); DDR_DQS : inout std_logic_vector(3 downto 0); DDR_DQS_n : inout std_logic_vector(3 downto 0); DDR_VRN : inout std_logic; DDR_VRP : inout std_logic; PS_SRSTB : in std_logic; PS_CLK : in std_logic; PS_PORB : in std_logic; IRQ_P2F_DMAC_ABORT : out std_logic; IRQ_P2F_DMAC0 : out std_logic; IRQ_P2F_DMAC1 : out std_logic; IRQ_P2F_DMAC2 : out std_logic; IRQ_P2F_DMAC3 : out std_logic; IRQ_P2F_DMAC4 : out std_logic; IRQ_P2F_DMAC5 : out std_logic; IRQ_P2F_DMAC6 : out std_logic; IRQ_P2F_DMAC7 : out std_logic; IRQ_P2F_SMC : out std_logic; IRQ_P2F_QSPI : out std_logic; IRQ_P2F_CTI : out std_logic; IRQ_P2F_GPIO : out std_logic; IRQ_P2F_USB0 : out std_logic; IRQ_P2F_ENET0 : out std_logic; IRQ_P2F_ENET_WAKE0 : out std_logic; IRQ_P2F_SDIO0 : out std_logic; IRQ_P2F_I2C0 : out std_logic; IRQ_P2F_SPI0 : out std_logic; IRQ_P2F_UART0 : out std_logic; IRQ_P2F_CAN0 : out std_logic; IRQ_P2F_USB1 : out std_logic; IRQ_P2F_ENET1 : out std_logic; IRQ_P2F_ENET_WAKE1 : out std_logic; IRQ_P2F_SDIO1 : out std_logic; IRQ_P2F_I2C1 : out std_logic; IRQ_P2F_SPI1 : out std_logic; IRQ_P2F_UART1 : out std_logic; IRQ_P2F_CAN1 : out std_logic ); end component; component system_fmc_imageon_iic_0_wrapper is port ( S_AXI_ACLK : in std_logic; S_AXI_ARESETN : in std_logic; IIC2INTC_Irpt : out std_logic; S_AXI_AWADDR : in std_logic_vector(8 downto 0); S_AXI_AWVALID : in std_logic; S_AXI_AWREADY : out std_logic; S_AXI_WDATA : in std_logic_vector(31 downto 0); S_AXI_WSTRB : in std_logic_vector(3 downto 0); S_AXI_WVALID : in std_logic; S_AXI_WREADY : out std_logic; S_AXI_BRESP : out std_logic_vector(1 downto 0); S_AXI_BVALID : out std_logic; S_AXI_BREADY : in std_logic; S_AXI_ARADDR : in std_logic_vector(8 downto 0); S_AXI_ARVALID : in std_logic; S_AXI_ARREADY : out std_logic; S_AXI_RDATA : out std_logic_vector(31 downto 0); S_AXI_RRESP : out std_logic_vector(1 downto 0); S_AXI_RVALID : out std_logic; S_AXI_RREADY : in std_logic; Sda_I : in std_logic; Sda_O : out std_logic; Sda_T : out std_logic; Scl_I : in std_logic; Scl_O : out std_logic; Scl_T : out std_logic; Gpo : out std_logic_vector(0 to 0) ); end component; component system_fmc_imageon_hdmi_out_0_wrapper is port ( clk : in std_logic; reset : in std_logic; oe : in std_logic; embed_syncs : in std_logic; audio_spdif : in std_logic; xsvi_vblank_i : in std_logic; xsvi_hblank_i : in std_logic; xsvi_active_video_i : in std_logic; xsvi_video_data_i : in std_logic_vector(15 downto 0); io_hdmio_spdif : out std_logic; io_hdmio_video : out std_logic_vector(15 downto 0); io_hdmio_clk : out std_logic; debug_o : out std_logic_vector(39 downto 0) ); end component; component system_v_vid_in_axi4s_0_wrapper is port ( vid_in_clk : in std_logic; rst : in std_logic; vid_de : in std_logic; vid_vblank : in std_logic; vid_hblank : in std_logic; vid_vsync : in std_logic; vid_hsync : in std_logic; vid_data : in std_logic_vector(15 downto 0); aclk : in std_logic; aresetn : in std_logic; aclken : in std_logic; m_axis_video_tdata : out std_logic_vector(15 downto 0); m_axis_video_tvalid : out std_logic; m_axis_video_tready : in std_logic; m_axis_video_tuser : out std_logic; m_axis_video_tlast : out std_logic; vtd_active_video : out std_logic; vtd_vblank : out std_logic; vtd_hblank : out std_logic; vtd_vsync : out std_logic; vtd_hsync : out std_logic; wr_error : out std_logic; empty : out std_logic; axis_enable : in std_logic ); end component; component system_v_axi4s_vid_out_0_wrapper is port ( aclk : in std_logic; rst : in std_logic; aresetn : in std_logic; aclken : in std_logic; s_axis_video_tdata : in std_logic_vector(15 downto 0); s_axis_video_tvalid : in std_logic; s_axis_video_tready : out std_logic; s_axis_video_tuser : in std_logic; s_axis_video_tlast : in std_logic; video_out_clk : in std_logic; video_de : out std_logic; video_vsync : out std_logic; video_hsync : out std_logic; video_vblank : out std_logic; video_hblank : out std_logic; video_data : out std_logic_vector(15 downto 0); vtg_vsync : in std_logic; vtg_hsync : in std_logic; vtg_vblank : in std_logic; vtg_hblank : in std_logic; vtg_act_vid : in std_logic; vtg_ce : out std_logic; vtg_fsync : out std_logic; locked : out std_logic; wr_error : out std_logic; empty : out std_logic ); end component; component system_axi_vdma_0_wrapper is port ( s_axi_lite_aclk : in std_logic; m_axi_sg_aclk : in std_logic; m_axi_mm2s_aclk : in std_logic; m_axi_s2mm_aclk : in std_logic; m_axis_mm2s_aclk : in std_logic; s_axis_s2mm_aclk : in std_logic; axi_resetn : in std_logic; s_axi_lite_awvalid : in std_logic; s_axi_lite_awready : out std_logic; s_axi_lite_awaddr : in std_logic_vector(8 downto 0); s_axi_lite_wvalid : in std_logic; s_axi_lite_wready : out std_logic; s_axi_lite_wdata : in std_logic_vector(31 downto 0); s_axi_lite_bresp : out std_logic_vector(1 downto 0); s_axi_lite_bvalid : out std_logic; s_axi_lite_bready : in std_logic; s_axi_lite_arvalid : in std_logic; s_axi_lite_arready : out std_logic; s_axi_lite_araddr : in std_logic_vector(8 downto 0); s_axi_lite_rvalid : out std_logic; s_axi_lite_rready : in std_logic; s_axi_lite_rdata : out std_logic_vector(31 downto 0); s_axi_lite_rresp : out std_logic_vector(1 downto 0); m_axi_sg_araddr : out std_logic_vector(31 downto 0); m_axi_sg_arlen : out std_logic_vector(7 downto 0); m_axi_sg_arsize : out std_logic_vector(2 downto 0); m_axi_sg_arburst : out std_logic_vector(1 downto 0); m_axi_sg_arprot : out std_logic_vector(2 downto 0); m_axi_sg_arcache : out std_logic_vector(3 downto 0); m_axi_sg_arvalid : out std_logic; m_axi_sg_arready : in std_logic; m_axi_sg_rdata : in std_logic_vector(31 downto 0); m_axi_sg_rresp : in std_logic_vector(1 downto 0); m_axi_sg_rlast : in std_logic; m_axi_sg_rvalid : in std_logic; m_axi_sg_rready : out std_logic; m_axi_mm2s_araddr : out std_logic_vector(31 downto 0); m_axi_mm2s_arlen : out std_logic_vector(7 downto 0); m_axi_mm2s_arsize : out std_logic_vector(2 downto 0); m_axi_mm2s_arburst : out std_logic_vector(1 downto 0); m_axi_mm2s_arprot : out std_logic_vector(2 downto 0); m_axi_mm2s_arcache : out std_logic_vector(3 downto 0); m_axi_mm2s_arvalid : out std_logic; m_axi_mm2s_arready : in std_logic; m_axi_mm2s_rdata : in std_logic_vector(63 downto 0); m_axi_mm2s_rresp : in std_logic_vector(1 downto 0); m_axi_mm2s_rlast : in std_logic; m_axi_mm2s_rvalid : in std_logic; m_axi_mm2s_rready : out std_logic; mm2s_prmry_reset_out_n : out std_logic; m_axis_mm2s_tdata : out std_logic_vector(15 downto 0); m_axis_mm2s_tkeep : out std_logic_vector(1 downto 0); m_axis_mm2s_tvalid : out std_logic; m_axis_mm2s_tready : in std_logic; m_axis_mm2s_tlast : out std_logic; m_axis_mm2s_tuser : out std_logic_vector(0 to 0); m_axi_s2mm_awaddr : out std_logic_vector(31 downto 0); m_axi_s2mm_awlen : out std_logic_vector(7 downto 0); m_axi_s2mm_awsize : out std_logic_vector(2 downto 0); m_axi_s2mm_awburst : out std_logic_vector(1 downto 0); m_axi_s2mm_awprot : out std_logic_vector(2 downto 0); m_axi_s2mm_awcache : out std_logic_vector(3 downto 0); m_axi_s2mm_awvalid : out std_logic; m_axi_s2mm_awready : in std_logic; m_axi_s2mm_wdata : out std_logic_vector(63 downto 0); m_axi_s2mm_wstrb : out std_logic_vector(7 downto 0); m_axi_s2mm_wlast : out std_logic; m_axi_s2mm_wvalid : out std_logic; m_axi_s2mm_wready : in std_logic; m_axi_s2mm_bresp : in std_logic_vector(1 downto 0); m_axi_s2mm_bvalid : in std_logic; m_axi_s2mm_bready : out std_logic; s2mm_prmry_reset_out_n : out std_logic; s_axis_s2mm_tdata : in std_logic_vector(15 downto 0); s_axis_s2mm_tkeep : in std_logic_vector(1 downto 0); s_axis_s2mm_tvalid : in std_logic; s_axis_s2mm_tready : out std_logic; s_axis_s2mm_tlast : in std_logic; s_axis_s2mm_tuser : in std_logic_vector(0 to 0); mm2s_fsync : in std_logic; mm2s_frame_ptr_in : in std_logic_vector(5 downto 0); mm2s_frame_ptr_out : out std_logic_vector(5 downto 0); mm2s_fsync_out : out std_logic; mm2s_prmtr_update : out std_logic; mm2s_buffer_empty : out std_logic; mm2s_buffer_almost_empty : out std_logic; s2mm_fsync : in std_logic; s2mm_frame_ptr_in : in std_logic_vector(5 downto 0); s2mm_frame_ptr_out : out std_logic_vector(5 downto 0); s2mm_fsync_out : out std_logic; s2mm_buffer_full : out std_logic; s2mm_buffer_almost_full : out std_logic; s2mm_prmtr_update : out std_logic; mm2s_introut : out std_logic; s2mm_introut : out std_logic; axi_vdma_tstvec : out std_logic_vector(63 downto 0) ); end component; component system_axi_interconnect_1_wrapper is port ( INTERCONNECT_ACLK : in std_logic; INTERCONNECT_ARESETN : in std_logic; S_AXI_ARESET_OUT_N : out std_logic_vector(1 downto 0); M_AXI_ARESET_OUT_N : out std_logic_vector(0 to 0); IRQ : out std_logic; S_AXI_ACLK : in std_logic_vector(1 downto 0); S_AXI_AWID : in std_logic_vector(1 downto 0); S_AXI_AWADDR : in std_logic_vector(63 downto 0); S_AXI_AWLEN : in std_logic_vector(15 downto 0); S_AXI_AWSIZE : in std_logic_vector(5 downto 0); S_AXI_AWBURST : in std_logic_vector(3 downto 0); S_AXI_AWLOCK : in std_logic_vector(3 downto 0); S_AXI_AWCACHE : in std_logic_vector(7 downto 0); S_AXI_AWPROT : in std_logic_vector(5 downto 0); S_AXI_AWQOS : in std_logic_vector(7 downto 0); S_AXI_AWUSER : in std_logic_vector(1 downto 0); S_AXI_AWVALID : in std_logic_vector(1 downto 0); S_AXI_AWREADY : out std_logic_vector(1 downto 0); S_AXI_WID : in std_logic_vector(1 downto 0); S_AXI_WDATA : in std_logic_vector(127 downto 0); S_AXI_WSTRB : in std_logic_vector(15 downto 0); S_AXI_WLAST : in std_logic_vector(1 downto 0); S_AXI_WUSER : in std_logic_vector(1 downto 0); S_AXI_WVALID : in std_logic_vector(1 downto 0); S_AXI_WREADY : out std_logic_vector(1 downto 0); S_AXI_BID : out std_logic_vector(1 downto 0); S_AXI_BRESP : out std_logic_vector(3 downto 0); S_AXI_BUSER : out std_logic_vector(1 downto 0); S_AXI_BVALID : out std_logic_vector(1 downto 0); S_AXI_BREADY : in std_logic_vector(1 downto 0); S_AXI_ARID : in std_logic_vector(1 downto 0); S_AXI_ARADDR : in std_logic_vector(63 downto 0); S_AXI_ARLEN : in std_logic_vector(15 downto 0); S_AXI_ARSIZE : in std_logic_vector(5 downto 0); S_AXI_ARBURST : in std_logic_vector(3 downto 0); S_AXI_ARLOCK : in std_logic_vector(3 downto 0); S_AXI_ARCACHE : in std_logic_vector(7 downto 0); S_AXI_ARPROT : in std_logic_vector(5 downto 0); S_AXI_ARQOS : in std_logic_vector(7 downto 0); S_AXI_ARUSER : in std_logic_vector(1 downto 0); S_AXI_ARVALID : in std_logic_vector(1 downto 0); S_AXI_ARREADY : out std_logic_vector(1 downto 0); S_AXI_RID : out std_logic_vector(1 downto 0); S_AXI_RDATA : out std_logic_vector(127 downto 0); S_AXI_RRESP : out std_logic_vector(3 downto 0); S_AXI_RLAST : out std_logic_vector(1 downto 0); S_AXI_RUSER : out std_logic_vector(1 downto 0); S_AXI_RVALID : out std_logic_vector(1 downto 0); S_AXI_RREADY : in std_logic_vector(1 downto 0); M_AXI_ACLK : in std_logic_vector(0 to 0); M_AXI_AWID : out std_logic_vector(0 to 0); M_AXI_AWADDR : out std_logic_vector(31 downto 0); M_AXI_AWLEN : out std_logic_vector(7 downto 0); M_AXI_AWSIZE : out std_logic_vector(2 downto 0); M_AXI_AWBURST : out std_logic_vector(1 downto 0); M_AXI_AWLOCK : out std_logic_vector(1 downto 0); M_AXI_AWCACHE : out std_logic_vector(3 downto 0); M_AXI_AWPROT : out std_logic_vector(2 downto 0); M_AXI_AWREGION : out std_logic_vector(3 downto 0); M_AXI_AWQOS : out std_logic_vector(3 downto 0); M_AXI_AWUSER : out std_logic_vector(0 to 0); M_AXI_AWVALID : out std_logic_vector(0 to 0); M_AXI_AWREADY : in std_logic_vector(0 to 0); M_AXI_WID : out std_logic_vector(0 to 0); M_AXI_WDATA : out std_logic_vector(63 downto 0); M_AXI_WSTRB : out std_logic_vector(7 downto 0); M_AXI_WLAST : out std_logic_vector(0 to 0); M_AXI_WUSER : out std_logic_vector(0 to 0); M_AXI_WVALID : out std_logic_vector(0 to 0); M_AXI_WREADY : in std_logic_vector(0 to 0); M_AXI_BID : in std_logic_vector(0 to 0); M_AXI_BRESP : in std_logic_vector(1 downto 0); M_AXI_BUSER : in std_logic_vector(0 to 0); M_AXI_BVALID : in std_logic_vector(0 to 0); M_AXI_BREADY : out std_logic_vector(0 to 0); M_AXI_ARID : out std_logic_vector(0 to 0); M_AXI_ARADDR : out std_logic_vector(31 downto 0); M_AXI_ARLEN : out std_logic_vector(7 downto 0); M_AXI_ARSIZE : out std_logic_vector(2 downto 0); M_AXI_ARBURST : out std_logic_vector(1 downto 0); M_AXI_ARLOCK : out std_logic_vector(1 downto 0); M_AXI_ARCACHE : out std_logic_vector(3 downto 0); M_AXI_ARPROT : out std_logic_vector(2 downto 0); M_AXI_ARREGION : out std_logic_vector(3 downto 0); M_AXI_ARQOS : out std_logic_vector(3 downto 0); M_AXI_ARUSER : out std_logic_vector(0 to 0); M_AXI_ARVALID : out std_logic_vector(0 to 0); M_AXI_ARREADY : in std_logic_vector(0 to 0); M_AXI_RID : in std_logic_vector(0 to 0); M_AXI_RDATA : in std_logic_vector(63 downto 0); M_AXI_RRESP : in std_logic_vector(1 downto 0); M_AXI_RLAST : in std_logic_vector(0 to 0); M_AXI_RUSER : in std_logic_vector(0 to 0); M_AXI_RVALID : in std_logic_vector(0 to 0); M_AXI_RREADY : out std_logic_vector(0 to 0); S_AXI_CTRL_AWADDR : in std_logic_vector(31 downto 0); S_AXI_CTRL_AWVALID : in std_logic; S_AXI_CTRL_AWREADY : out std_logic; S_AXI_CTRL_WDATA : in std_logic_vector(31 downto 0); S_AXI_CTRL_WVALID : in std_logic; S_AXI_CTRL_WREADY : out std_logic; S_AXI_CTRL_BRESP : out std_logic_vector(1 downto 0); S_AXI_CTRL_BVALID : out std_logic; S_AXI_CTRL_BREADY : in std_logic; S_AXI_CTRL_ARADDR : in std_logic_vector(31 downto 0); S_AXI_CTRL_ARVALID : in std_logic; S_AXI_CTRL_ARREADY : out std_logic; S_AXI_CTRL_RDATA : out std_logic_vector(31 downto 0); S_AXI_CTRL_RRESP : out std_logic_vector(1 downto 0); S_AXI_CTRL_RVALID : out std_logic; S_AXI_CTRL_RREADY : in std_logic; INTERCONNECT_ARESET_OUT_N : out std_logic; DEBUG_AW_TRANS_SEQ : out std_logic_vector(7 downto 0); DEBUG_AW_ARB_GRANT : out std_logic_vector(7 downto 0); DEBUG_AR_TRANS_SEQ : out std_logic_vector(7 downto 0); DEBUG_AR_ARB_GRANT : out std_logic_vector(7 downto 0); DEBUG_AW_TRANS_QUAL : out std_logic_vector(0 to 0); DEBUG_AW_ACCEPT_CNT : out std_logic_vector(7 downto 0); DEBUG_AW_ACTIVE_THREAD : out std_logic_vector(15 downto 0); DEBUG_AW_ACTIVE_TARGET : out std_logic_vector(7 downto 0); DEBUG_AW_ACTIVE_REGION : out std_logic_vector(7 downto 0); DEBUG_AW_ERROR : out std_logic_vector(7 downto 0); DEBUG_AW_TARGET : out std_logic_vector(7 downto 0); DEBUG_AR_TRANS_QUAL : out std_logic_vector(0 to 0); DEBUG_AR_ACCEPT_CNT : out std_logic_vector(7 downto 0); DEBUG_AR_ACTIVE_THREAD : out std_logic_vector(15 downto 0); DEBUG_AR_ACTIVE_TARGET : out std_logic_vector(7 downto 0); DEBUG_AR_ACTIVE_REGION : out std_logic_vector(7 downto 0); DEBUG_AR_ERROR : out std_logic_vector(7 downto 0); DEBUG_AR_TARGET : out std_logic_vector(7 downto 0); DEBUG_B_TRANS_SEQ : out std_logic_vector(7 downto 0); DEBUG_R_BEAT_CNT : out std_logic_vector(7 downto 0); DEBUG_R_TRANS_SEQ : out std_logic_vector(7 downto 0); DEBUG_AW_ISSUING_CNT : out std_logic_vector(7 downto 0); DEBUG_AR_ISSUING_CNT : out std_logic_vector(7 downto 0); DEBUG_W_BEAT_CNT : out std_logic_vector(7 downto 0); DEBUG_W_TRANS_SEQ : out std_logic_vector(7 downto 0); DEBUG_BID_TARGET : out std_logic_vector(7 downto 0); DEBUG_BID_ERROR : out std_logic; DEBUG_RID_TARGET : out std_logic_vector(7 downto 0); DEBUG_RID_ERROR : out std_logic; DEBUG_SR_SC_ARADDR : out std_logic_vector(31 downto 0); DEBUG_SR_SC_ARADDRCONTROL : out std_logic_vector(23 downto 0); DEBUG_SR_SC_AWADDR : out std_logic_vector(31 downto 0); DEBUG_SR_SC_AWADDRCONTROL : out std_logic_vector(23 downto 0); DEBUG_SR_SC_BRESP : out std_logic_vector(4 downto 0); DEBUG_SR_SC_RDATA : out std_logic_vector(63 downto 0); DEBUG_SR_SC_RDATACONTROL : out std_logic_vector(5 downto 0); DEBUG_SR_SC_WDATA : out std_logic_vector(63 downto 0); DEBUG_SR_SC_WDATACONTROL : out std_logic_vector(10 downto 0); DEBUG_SC_SF_ARADDR : out std_logic_vector(31 downto 0); DEBUG_SC_SF_ARADDRCONTROL : out std_logic_vector(23 downto 0); DEBUG_SC_SF_AWADDR : out std_logic_vector(31 downto 0); DEBUG_SC_SF_AWADDRCONTROL : out std_logic_vector(23 downto 0); DEBUG_SC_SF_BRESP : out std_logic_vector(4 downto 0); DEBUG_SC_SF_RDATA : out std_logic_vector(63 downto 0); DEBUG_SC_SF_RDATACONTROL : out std_logic_vector(5 downto 0); DEBUG_SC_SF_WDATA : out std_logic_vector(63 downto 0); DEBUG_SC_SF_WDATACONTROL : out std_logic_vector(10 downto 0); DEBUG_SF_CB_ARADDR : out std_logic_vector(31 downto 0); DEBUG_SF_CB_ARADDRCONTROL : out std_logic_vector(23 downto 0); DEBUG_SF_CB_AWADDR : out std_logic_vector(31 downto 0); DEBUG_SF_CB_AWADDRCONTROL : out std_logic_vector(23 downto 0); DEBUG_SF_CB_BRESP : out std_logic_vector(4 downto 0); DEBUG_SF_CB_RDATA : out std_logic_vector(63 downto 0); DEBUG_SF_CB_RDATACONTROL : out std_logic_vector(5 downto 0); DEBUG_SF_CB_WDATA : out std_logic_vector(63 downto 0); DEBUG_SF_CB_WDATACONTROL : out std_logic_vector(10 downto 0); DEBUG_CB_MF_ARADDR : out std_logic_vector(31 downto 0); DEBUG_CB_MF_ARADDRCONTROL : out std_logic_vector(23 downto 0); DEBUG_CB_MF_AWADDR : out std_logic_vector(31 downto 0); DEBUG_CB_MF_AWADDRCONTROL : out std_logic_vector(23 downto 0); DEBUG_CB_MF_BRESP : out std_logic_vector(4 downto 0); DEBUG_CB_MF_RDATA : out std_logic_vector(63 downto 0); DEBUG_CB_MF_RDATACONTROL : out std_logic_vector(5 downto 0); DEBUG_CB_MF_WDATA : out std_logic_vector(63 downto 0); DEBUG_CB_MF_WDATACONTROL : out std_logic_vector(10 downto 0); DEBUG_MF_MC_ARADDR : out std_logic_vector(31 downto 0); DEBUG_MF_MC_ARADDRCONTROL : out std_logic_vector(23 downto 0); DEBUG_MF_MC_AWADDR : out std_logic_vector(31 downto 0); DEBUG_MF_MC_AWADDRCONTROL : out std_logic_vector(23 downto 0); DEBUG_MF_MC_BRESP : out std_logic_vector(4 downto 0); DEBUG_MF_MC_RDATA : out std_logic_vector(63 downto 0); DEBUG_MF_MC_RDATACONTROL : out std_logic_vector(5 downto 0); DEBUG_MF_MC_WDATA : out std_logic_vector(63 downto 0); DEBUG_MF_MC_WDATACONTROL : out std_logic_vector(10 downto 0); DEBUG_MC_MP_ARADDR : out std_logic_vector(31 downto 0); DEBUG_MC_MP_ARADDRCONTROL : out std_logic_vector(23 downto 0); DEBUG_MC_MP_AWADDR : out std_logic_vector(31 downto 0); DEBUG_MC_MP_AWADDRCONTROL : out std_logic_vector(23 downto 0); DEBUG_MC_MP_BRESP : out std_logic_vector(4 downto 0); DEBUG_MC_MP_RDATA : out std_logic_vector(63 downto 0); DEBUG_MC_MP_RDATACONTROL : out std_logic_vector(5 downto 0); DEBUG_MC_MP_WDATA : out std_logic_vector(63 downto 0); DEBUG_MC_MP_WDATACONTROL : out std_logic_vector(10 downto 0); DEBUG_MP_MR_ARADDR : out std_logic_vector(31 downto 0); DEBUG_MP_MR_ARADDRCONTROL : out std_logic_vector(23 downto 0); DEBUG_MP_MR_AWADDR : out std_logic_vector(31 downto 0); DEBUG_MP_MR_AWADDRCONTROL : out std_logic_vector(23 downto 0); DEBUG_MP_MR_BRESP : out std_logic_vector(4 downto 0); DEBUG_MP_MR_RDATA : out std_logic_vector(63 downto 0); DEBUG_MP_MR_RDATACONTROL : out std_logic_vector(5 downto 0); DEBUG_MP_MR_WDATA : out std_logic_vector(63 downto 0); DEBUG_MP_MR_WDATACONTROL : out std_logic_vector(10 downto 0) ); end component; component system_led_pwm_0_wrapper is port ( led0 : out std_logic; led1 : out std_logic; led2 : out std_logic; led3 : out std_logic; led4 : out std_logic; led5 : out std_logic; led6 : out std_logic; led7 : out std_logic; led8 : out std_logic; led9 : out std_logic; led10 : out std_logic; led11 : out std_logic; led12 : out std_logic; led13 : out std_logic; led14 : out std_logic; led15 : out std_logic; led16 : out std_logic; led17 : out std_logic; led18 : out std_logic; led19 : out std_logic; led20 : out std_logic; led21 : out std_logic; led22 : out std_logic; led23 : out std_logic; led24 : out std_logic; led25 : out std_logic; led26 : out std_logic; led27 : out std_logic; led28 : out std_logic; led29 : out std_logic; S_AXI_ACLK : in std_logic; S_AXI_ARESETN : in std_logic; S_AXI_AWADDR : in std_logic_vector(31 downto 0); S_AXI_AWVALID : in std_logic; S_AXI_WDATA : in std_logic_vector(31 downto 0); S_AXI_WSTRB : in std_logic_vector(3 downto 0); S_AXI_WVALID : in std_logic; S_AXI_BREADY : in std_logic; S_AXI_ARADDR : in std_logic_vector(31 downto 0); S_AXI_ARVALID : in std_logic; S_AXI_RREADY : in std_logic; S_AXI_ARREADY : out std_logic; S_AXI_RDATA : out std_logic_vector(31 downto 0); S_AXI_RRESP : out std_logic_vector(1 downto 0); S_AXI_RVALID : out std_logic; S_AXI_WREADY : out std_logic; S_AXI_BRESP : out std_logic_vector(1 downto 0); S_AXI_BVALID : out std_logic; S_AXI_AWREADY : out std_logic ); end component; component system_fmc_imageon_hdmi_in_0_wrapper is port ( clk : in std_logic; io_hdmii_spdif : in std_logic; io_hdmii_video : in std_logic_vector(15 downto 0); video_vblank : out std_logic; video_hblank : out std_logic; video_de : out std_logic; video_data : out std_logic_vector(15 downto 0); audio_spdif : out std_logic; debug_o : out std_logic_vector(23 downto 0) ); end component; component system_v_tc_vid_in_0_wrapper is port ( s_axi_aclk : in std_logic; s_axi_aresetn : in std_logic; s_axi_aclken : in std_logic; s_axi_awaddr : in std_logic_vector(8 downto 0); s_axi_awvalid : in std_logic; s_axi_awready : out std_logic; s_axi_wdata : in std_logic_vector(31 downto 0); s_axi_wstrb : in std_logic_vector(3 downto 0); s_axi_wvalid : in std_logic; s_axi_wready : out std_logic; s_axi_bresp : out std_logic_vector(1 downto 0); s_axi_bvalid : out std_logic; s_axi_bready : in std_logic; s_axi_araddr : in std_logic_vector(8 downto 0); s_axi_arvalid : in std_logic; s_axi_arready : out std_logic; s_axi_rdata : out std_logic_vector(31 downto 0); s_axi_rresp : out std_logic_vector(1 downto 0); s_axi_rvalid : out std_logic; s_axi_rready : in std_logic; irq : out std_logic; intc_if : out std_logic_vector(31 downto 0); clk : in std_logic; resetn : in std_logic; clken : in std_logic; det_clken : in std_logic; gen_clken : in std_logic; fsync_in : in std_logic; vblank_in : in std_logic; vsync_in : in std_logic; hblank_in : in std_logic; hsync_in : in std_logic; active_video_in : in std_logic; active_chroma_in : in std_logic; vblank_out : out std_logic; vsync_out : out std_logic; hblank_out : out std_logic; hsync_out : out std_logic; active_video_out : out std_logic; active_chroma_out : out std_logic; fsync_out : out std_logic_vector(0 to 0) ); end component; component system_v_tc_vid_out_0_wrapper is port ( s_axi_aclk : in std_logic; s_axi_aresetn : in std_logic; s_axi_aclken : in std_logic; s_axi_awaddr : in std_logic_vector(8 downto 0); s_axi_awvalid : in std_logic; s_axi_awready : out std_logic; s_axi_wdata : in std_logic_vector(31 downto 0); s_axi_wstrb : in std_logic_vector(3 downto 0); s_axi_wvalid : in std_logic; s_axi_wready : out std_logic; s_axi_bresp : out std_logic_vector(1 downto 0); s_axi_bvalid : out std_logic; s_axi_bready : in std_logic; s_axi_araddr : in std_logic_vector(8 downto 0); s_axi_arvalid : in std_logic; s_axi_arready : out std_logic; s_axi_rdata : out std_logic_vector(31 downto 0); s_axi_rresp : out std_logic_vector(1 downto 0); s_axi_rvalid : out std_logic; s_axi_rready : in std_logic; irq : out std_logic; intc_if : out std_logic_vector(31 downto 0); clk : in std_logic; resetn : in std_logic; clken : in std_logic; det_clken : in std_logic; gen_clken : in std_logic; fsync_in : in std_logic; vblank_in : in std_logic; vsync_in : in std_logic; hblank_in : in std_logic; hsync_in : in std_logic; active_video_in : in std_logic; active_chroma_in : in std_logic; vblank_out : out std_logic; vsync_out : out std_logic; hblank_out : out std_logic; hsync_out : out std_logic; active_video_out : out std_logic; active_chroma_out : out std_logic; fsync_out : out std_logic_vector(0 to 0) ); end component; component IOBUF is port ( I : in std_logic; IO : inout std_logic; O : out std_logic; T : in std_logic ); end component; -- Internal signals signal BTNs_5Bits_TRI_IO_I : std_logic_vector(4 downto 0); signal BTNs_5Bits_TRI_IO_O : std_logic_vector(4 downto 0); signal BTNs_5Bits_TRI_IO_T : std_logic_vector(4 downto 0); signal SWs_8Bits_TRI_IO_I : std_logic_vector(7 downto 0); signal SWs_8Bits_TRI_IO_O : std_logic_vector(7 downto 0); signal SWs_8Bits_TRI_IO_T : std_logic_vector(7 downto 0); signal axi4lite_0_M_ARADDR : std_logic_vector(255 downto 0); signal axi4lite_0_M_ARESETN : std_logic_vector(7 downto 0); signal axi4lite_0_M_ARREADY : std_logic_vector(7 downto 0); signal axi4lite_0_M_ARVALID : std_logic_vector(7 downto 0); signal axi4lite_0_M_AWADDR : std_logic_vector(255 downto 0); signal axi4lite_0_M_AWREADY : std_logic_vector(7 downto 0); signal axi4lite_0_M_AWVALID : std_logic_vector(7 downto 0); signal axi4lite_0_M_BREADY : std_logic_vector(7 downto 0); signal axi4lite_0_M_BRESP : std_logic_vector(15 downto 0); signal axi4lite_0_M_BVALID : std_logic_vector(7 downto 0); signal axi4lite_0_M_RDATA : std_logic_vector(255 downto 0); signal axi4lite_0_M_RREADY : std_logic_vector(7 downto 0); signal axi4lite_0_M_RRESP : std_logic_vector(15 downto 0); signal axi4lite_0_M_RVALID : std_logic_vector(7 downto 0); signal axi4lite_0_M_WDATA : std_logic_vector(255 downto 0); signal axi4lite_0_M_WREADY : std_logic_vector(7 downto 0); signal axi4lite_0_M_WSTRB : std_logic_vector(31 downto 0); signal axi4lite_0_M_WVALID : std_logic_vector(7 downto 0); signal axi4lite_0_S_ARADDR : std_logic_vector(31 downto 0); signal axi4lite_0_S_ARBURST : std_logic_vector(1 downto 0); signal axi4lite_0_S_ARCACHE : std_logic_vector(3 downto 0); signal axi4lite_0_S_ARID : std_logic_vector(11 downto 0); signal axi4lite_0_S_ARLEN : std_logic_vector(7 downto 0); signal axi4lite_0_S_ARLOCK : std_logic_vector(1 downto 0); signal axi4lite_0_S_ARPROT : std_logic_vector(2 downto 0); signal axi4lite_0_S_ARQOS : std_logic_vector(3 downto 0); signal axi4lite_0_S_ARREADY : std_logic_vector(0 to 0); signal axi4lite_0_S_ARSIZE : std_logic_vector(2 downto 0); signal axi4lite_0_S_ARVALID : std_logic_vector(0 to 0); signal axi4lite_0_S_AWADDR : std_logic_vector(31 downto 0); signal axi4lite_0_S_AWBURST : std_logic_vector(1 downto 0); signal axi4lite_0_S_AWCACHE : std_logic_vector(3 downto 0); signal axi4lite_0_S_AWID : std_logic_vector(11 downto 0); signal axi4lite_0_S_AWLEN : std_logic_vector(7 downto 0); signal axi4lite_0_S_AWLOCK : std_logic_vector(1 downto 0); signal axi4lite_0_S_AWPROT : std_logic_vector(2 downto 0); signal axi4lite_0_S_AWQOS : std_logic_vector(3 downto 0); signal axi4lite_0_S_AWREADY : std_logic_vector(0 to 0); signal axi4lite_0_S_AWSIZE : std_logic_vector(2 downto 0); signal axi4lite_0_S_AWVALID : std_logic_vector(0 to 0); signal axi4lite_0_S_BID : std_logic_vector(11 downto 0); signal axi4lite_0_S_BREADY : std_logic_vector(0 to 0); signal axi4lite_0_S_BRESP : std_logic_vector(1 downto 0); signal axi4lite_0_S_BVALID : std_logic_vector(0 to 0); signal axi4lite_0_S_RDATA : std_logic_vector(31 downto 0); signal axi4lite_0_S_RID : std_logic_vector(11 downto 0); signal axi4lite_0_S_RLAST : std_logic_vector(0 to 0); signal axi4lite_0_S_RREADY : std_logic_vector(0 to 0); signal axi4lite_0_S_RRESP : std_logic_vector(1 downto 0); signal axi4lite_0_S_RVALID : std_logic_vector(0 to 0); signal axi4lite_0_S_WDATA : std_logic_vector(31 downto 0); signal axi4lite_0_S_WID : std_logic_vector(11 downto 0); signal axi4lite_0_S_WLAST : std_logic_vector(0 to 0); signal axi4lite_0_S_WREADY : std_logic_vector(0 to 0); signal axi4lite_0_S_WSTRB : std_logic_vector(3 downto 0); signal axi4lite_0_S_WVALID : std_logic_vector(0 to 0); signal axi_interconnect_1_M_ARADDR : std_logic_vector(31 downto 0); signal axi_interconnect_1_M_ARBURST : std_logic_vector(1 downto 0); signal axi_interconnect_1_M_ARCACHE : std_logic_vector(3 downto 0); signal axi_interconnect_1_M_ARID : std_logic_vector(0 to 0); signal axi_interconnect_1_M_ARLEN : std_logic_vector(7 downto 0); signal axi_interconnect_1_M_ARLOCK : std_logic_vector(1 downto 0); signal axi_interconnect_1_M_ARPROT : std_logic_vector(2 downto 0); signal axi_interconnect_1_M_ARQOS : std_logic_vector(3 downto 0); signal axi_interconnect_1_M_ARREADY : std_logic_vector(0 to 0); signal axi_interconnect_1_M_ARSIZE : std_logic_vector(2 downto 0); signal axi_interconnect_1_M_ARVALID : std_logic_vector(0 to 0); signal axi_interconnect_1_M_AWADDR : std_logic_vector(31 downto 0); signal axi_interconnect_1_M_AWBURST : std_logic_vector(1 downto 0); signal axi_interconnect_1_M_AWCACHE : std_logic_vector(3 downto 0); signal axi_interconnect_1_M_AWID : std_logic_vector(0 to 0); signal axi_interconnect_1_M_AWLEN : std_logic_vector(7 downto 0); signal axi_interconnect_1_M_AWLOCK : std_logic_vector(1 downto 0); signal axi_interconnect_1_M_AWPROT : std_logic_vector(2 downto 0); signal axi_interconnect_1_M_AWQOS : std_logic_vector(3 downto 0); signal axi_interconnect_1_M_AWREADY : std_logic_vector(0 to 0); signal axi_interconnect_1_M_AWSIZE : std_logic_vector(2 downto 0); signal axi_interconnect_1_M_AWVALID : std_logic_vector(0 to 0); signal axi_interconnect_1_M_BID : std_logic_vector(0 to 0); signal axi_interconnect_1_M_BREADY : std_logic_vector(0 to 0); signal axi_interconnect_1_M_BRESP : std_logic_vector(1 downto 0); signal axi_interconnect_1_M_BVALID : std_logic_vector(0 to 0); signal axi_interconnect_1_M_RDATA : std_logic_vector(63 downto 0); signal axi_interconnect_1_M_RID : std_logic_vector(0 to 0); signal axi_interconnect_1_M_RLAST : std_logic_vector(0 to 0); signal axi_interconnect_1_M_RREADY : std_logic_vector(0 to 0); signal axi_interconnect_1_M_RRESP : std_logic_vector(1 downto 0); signal axi_interconnect_1_M_RVALID : std_logic_vector(0 to 0); signal axi_interconnect_1_M_WDATA : std_logic_vector(63 downto 0); signal axi_interconnect_1_M_WID : std_logic_vector(0 to 0); signal axi_interconnect_1_M_WLAST : std_logic_vector(0 to 0); signal axi_interconnect_1_M_WREADY : std_logic_vector(0 to 0); signal axi_interconnect_1_M_WSTRB : std_logic_vector(7 downto 0); signal axi_interconnect_1_M_WVALID : std_logic_vector(0 to 0); signal axi_interconnect_1_S_ARADDR : std_logic_vector(63 downto 0); signal axi_interconnect_1_S_ARBURST : std_logic_vector(3 downto 0); signal axi_interconnect_1_S_ARCACHE : std_logic_vector(7 downto 0); signal axi_interconnect_1_S_ARLEN : std_logic_vector(15 downto 0); signal axi_interconnect_1_S_ARPROT : std_logic_vector(5 downto 0); signal axi_interconnect_1_S_ARREADY : std_logic_vector(1 downto 0); signal axi_interconnect_1_S_ARSIZE : std_logic_vector(5 downto 0); signal axi_interconnect_1_S_ARVALID : std_logic_vector(1 downto 0); signal axi_interconnect_1_S_AWADDR : std_logic_vector(63 downto 0); signal axi_interconnect_1_S_AWBURST : std_logic_vector(3 downto 0); signal axi_interconnect_1_S_AWCACHE : std_logic_vector(7 downto 0); signal axi_interconnect_1_S_AWLEN : std_logic_vector(15 downto 0); signal axi_interconnect_1_S_AWPROT : std_logic_vector(5 downto 0); signal axi_interconnect_1_S_AWREADY : std_logic_vector(1 downto 0); signal axi_interconnect_1_S_AWSIZE : std_logic_vector(5 downto 0); signal axi_interconnect_1_S_AWVALID : std_logic_vector(1 downto 0); signal axi_interconnect_1_S_BREADY : std_logic_vector(1 downto 0); signal axi_interconnect_1_S_BRESP : std_logic_vector(3 downto 0); signal axi_interconnect_1_S_BVALID : std_logic_vector(1 downto 0); signal axi_interconnect_1_S_RDATA : std_logic_vector(127 downto 0); signal axi_interconnect_1_S_RLAST : std_logic_vector(1 downto 0); signal axi_interconnect_1_S_RREADY : std_logic_vector(1 downto 0); signal axi_interconnect_1_S_RRESP : std_logic_vector(3 downto 0); signal axi_interconnect_1_S_RVALID : std_logic_vector(1 downto 0); signal axi_interconnect_1_S_WDATA : std_logic_vector(127 downto 0); signal axi_interconnect_1_S_WLAST : std_logic_vector(1 downto 0); signal axi_interconnect_1_S_WREADY : std_logic_vector(1 downto 0); signal axi_interconnect_1_S_WSTRB : std_logic_vector(15 downto 0); signal axi_interconnect_1_S_WVALID : std_logic_vector(1 downto 0); signal axi_vdma_0_M_AXIS_MM2S_tdata : std_logic_vector(15 downto 0); signal axi_vdma_0_M_AXIS_MM2S_tlast : std_logic; signal axi_vdma_0_M_AXIS_MM2S_tready : std_logic; signal axi_vdma_0_M_AXIS_MM2S_tuser : std_logic_vector(0 to 0); signal axi_vdma_0_M_AXIS_MM2S_tvalid : std_logic; signal fmc_imageon_hdmi_in_0_video_data : std_logic_vector(15 downto 0); signal fmc_imageon_hdmi_in_0_video_de : std_logic; signal fmc_imageon_hdmi_in_0_video_hblank : std_logic; signal fmc_imageon_hdmi_in_0_video_vblank : std_logic; signal fmc_imageon_hdmi_out_0_io_hdmio_clk : std_logic; signal fmc_imageon_hdmi_out_0_io_hdmio_spdif : std_logic; signal fmc_imageon_hdmi_out_0_io_hdmio_video : std_logic_vector(15 downto 0); signal fmc_imageon_iic_0_Gpo : std_logic_vector(0 to 0); signal fmc_imageon_iic_0_Scl_I : std_logic; signal fmc_imageon_iic_0_Scl_O : std_logic; signal fmc_imageon_iic_0_Scl_T : std_logic; signal fmc_imageon_iic_0_Sda_I : std_logic; signal fmc_imageon_iic_0_Sda_O : std_logic; signal fmc_imageon_iic_0_Sda_T : std_logic; signal fmc_imageon_video_clk1 : std_logic; signal led_pwm_0_led0 : std_logic; signal led_pwm_0_led1 : std_logic; signal led_pwm_0_led2 : std_logic; signal led_pwm_0_led3 : std_logic; signal led_pwm_0_led4 : std_logic; signal led_pwm_0_led5 : std_logic; signal led_pwm_0_led6 : std_logic; signal led_pwm_0_led7 : std_logic; signal led_pwm_0_led8 : std_logic; signal led_pwm_0_led9 : std_logic; signal led_pwm_0_led10 : std_logic; signal led_pwm_0_led11 : std_logic; signal led_pwm_0_led12 : std_logic; signal led_pwm_0_led13 : std_logic; signal led_pwm_0_led14 : std_logic; signal led_pwm_0_led15 : std_logic; signal led_pwm_0_led16 : std_logic; signal led_pwm_0_led17 : std_logic; signal led_pwm_0_led18 : std_logic; signal led_pwm_0_led19 : std_logic; signal led_pwm_0_led20 : std_logic; signal led_pwm_0_led21 : std_logic; signal led_pwm_0_led22 : std_logic; signal led_pwm_0_led23 : std_logic; signal led_pwm_0_led24 : std_logic; signal led_pwm_0_led25 : std_logic; signal led_pwm_0_led26 : std_logic; signal led_pwm_0_led27 : std_logic; signal led_pwm_0_led28 : std_logic; signal led_pwm_0_led29 : std_logic; signal net_fmc_imageon_hdmi_in_0_clk_pin : std_logic; signal net_fmc_imageon_hdmi_in_0_io_hdmii_spdif_pin : std_logic; signal net_fmc_imageon_hdmi_in_0_io_hdmii_video_pin : std_logic_vector(15 downto 0); signal net_gnd0 : std_logic; signal net_gnd1 : std_logic_vector(0 to 0); signal net_gnd2 : std_logic_vector(1 downto 0); signal net_gnd3 : std_logic_vector(2 downto 0); signal net_gnd4 : std_logic_vector(3 downto 0); signal net_gnd5 : std_logic_vector(4 downto 0); signal net_gnd6 : std_logic_vector(5 downto 0); signal net_gnd8 : std_logic_vector(7 downto 0); signal net_gnd12 : std_logic_vector(11 downto 0); signal net_gnd32 : std_logic_vector(31 downto 0); signal net_gnd64 : std_logic_vector(63 downto 0); signal net_gnd96 : std_logic_vector(95 downto 0); signal net_vcc0 : std_logic; signal net_vcc2 : std_logic_vector(1 downto 0); signal pgassign1 : std_logic_vector(7 downto 0); signal pgassign2 : std_logic_vector(1 downto 0); signal processing_system7_0_DDR_WEB : std_logic; signal processing_system7_0_FCLK_CLK0 : std_logic_vector(0 to 0); signal processing_system7_0_FCLK_CLK1 : std_logic_vector(0 to 0); signal processing_system7_0_FCLK_RESET0_N_0 : std_logic; signal v_axi4s_vid_out_0_video_data : std_logic_vector(15 downto 0); signal v_axi4s_vid_out_0_video_de : std_logic; signal v_axi4s_vid_out_0_video_hblank : std_logic; signal v_axi4s_vid_out_0_video_vblank : std_logic; signal v_axi4s_vid_out_0_vtg_ce : std_logic; signal v_tc_vid_out_0_VTIMING_OUT_active_video : std_logic; signal v_tc_vid_out_0_VTIMING_OUT_hblank : std_logic; signal v_tc_vid_out_0_VTIMING_OUT_hsync : std_logic; signal v_tc_vid_out_0_VTIMING_OUT_vblank : std_logic; signal v_tc_vid_out_0_VTIMING_OUT_vsync : std_logic; signal v_vid_in_axi4s_0_M_AXIS_VIDEO_tdata : std_logic_vector(15 downto 0); signal v_vid_in_axi4s_0_M_AXIS_VIDEO_tlast : std_logic; signal v_vid_in_axi4s_0_M_AXIS_VIDEO_tready : std_logic; signal v_vid_in_axi4s_0_M_AXIS_VIDEO_tuser : std_logic_vector(0 to 0); signal v_vid_in_axi4s_0_M_AXIS_VIDEO_tvalid : std_logic; signal v_vid_in_axi4s_0_VTIMING_OUT_active_video : std_logic; signal v_vid_in_axi4s_0_VTIMING_OUT_hblank : std_logic; signal v_vid_in_axi4s_0_VTIMING_OUT_hsync : std_logic; signal v_vid_in_axi4s_0_VTIMING_OUT_vblank : std_logic; signal v_vid_in_axi4s_0_VTIMING_OUT_vsync : std_logic; attribute BOX_TYPE : STRING; attribute BOX_TYPE of system_axi4lite_0_wrapper : component is "user_black_box"; attribute BOX_TYPE of system_sws_8bits_wrapper : component is "user_black_box"; attribute BOX_TYPE of system_leds_8bits_wrapper : component is "user_black_box"; attribute BOX_TYPE of system_btns_5bits_wrapper : component is "user_black_box"; attribute BOX_TYPE of system_processing_system7_0_wrapper : component is "user_black_box"; attribute BOX_TYPE of system_fmc_imageon_iic_0_wrapper : component is "user_black_box"; attribute BOX_TYPE of system_fmc_imageon_hdmi_out_0_wrapper : component is "user_black_box"; attribute BOX_TYPE of system_v_vid_in_axi4s_0_wrapper : component is "user_black_box"; attribute BOX_TYPE of system_v_axi4s_vid_out_0_wrapper : component is "user_black_box"; attribute BOX_TYPE of system_axi_vdma_0_wrapper : component is "user_black_box"; attribute BOX_TYPE of system_axi_interconnect_1_wrapper : component is "user_black_box"; attribute BOX_TYPE of system_led_pwm_0_wrapper : component is "user_black_box"; attribute BOX_TYPE of system_fmc_imageon_hdmi_in_0_wrapper : component is "user_black_box"; attribute BOX_TYPE of system_v_tc_vid_in_0_wrapper : component is "user_black_box"; attribute BOX_TYPE of system_v_tc_vid_out_0_wrapper : component is "user_black_box"; begin -- Internal assignments processing_system7_0_DDR_WEB_pin <= processing_system7_0_DDR_WEB; fmc_imageon_hdmi_out_0_io_hdmio_spdif_pin <= fmc_imageon_hdmi_out_0_io_hdmio_spdif; fmc_imageon_hdmi_out_0_io_hdmio_video_pin <= fmc_imageon_hdmi_out_0_io_hdmio_video; fmc_imageon_hdmi_out_0_io_hdmio_clk_pin <= fmc_imageon_hdmi_out_0_io_hdmio_clk; net_fmc_imageon_hdmi_in_0_io_hdmii_spdif_pin <= fmc_imageon_hdmi_in_0_io_hdmii_spdif_pin; net_fmc_imageon_hdmi_in_0_io_hdmii_video_pin <= fmc_imageon_hdmi_in_0_io_hdmii_video_pin; net_fmc_imageon_hdmi_in_0_clk_pin <= fmc_imageon_hdmi_in_0_clk_pin; fmc_imageon_video_clk1 <= fmc_imageon_video_clk1_pin; led0 <= led_pwm_0_led0; led1 <= led_pwm_0_led1; led2 <= led_pwm_0_led2; led3 <= led_pwm_0_led3; led4 <= led_pwm_0_led4; led5 <= led_pwm_0_led5; led6 <= led_pwm_0_led6; led7 <= led_pwm_0_led7; led8 <= led_pwm_0_led8; led9 <= led_pwm_0_led9; led10 <= led_pwm_0_led10; led11 <= led_pwm_0_led11; led12 <= led_pwm_0_led12; led13 <= led_pwm_0_led13; led14 <= led_pwm_0_led14; led15 <= led_pwm_0_led15; led16 <= led_pwm_0_led16; led17 <= led_pwm_0_led17; led18 <= led_pwm_0_led18; led19 <= led_pwm_0_led19; led20 <= led_pwm_0_led20; led21 <= led_pwm_0_led21; led22 <= led_pwm_0_led22; led23 <= led_pwm_0_led23; led24 <= led_pwm_0_led24; led25 <= led_pwm_0_led25; led26 <= led_pwm_0_led26; led27 <= led_pwm_0_led27; led28 <= led_pwm_0_led28; led29 <= led_pwm_0_led29; fmc_imageon_iic_0_Reset_pin <= fmc_imageon_iic_0_Gpo(0); axi_interconnect_1_S_ARADDR(63 downto 32) <= B"00000000000000000000000000000000"; axi_interconnect_1_S_ARLEN(15 downto 8) <= B"00000000"; axi_interconnect_1_S_ARSIZE(5 downto 3) <= B"000"; axi_interconnect_1_S_ARBURST(3 downto 2) <= B"00"; axi_interconnect_1_S_ARPROT(5 downto 3) <= B"000"; axi_interconnect_1_S_ARCACHE(7 downto 4) <= B"0000"; axi_interconnect_1_S_ARVALID(1 downto 1) <= B"0"; axi_interconnect_1_S_RREADY(1 downto 1) <= B"0"; axi_interconnect_1_S_AWADDR(31 downto 0) <= B"00000000000000000000000000000000"; axi_interconnect_1_S_AWLEN(7 downto 0) <= B"00000000"; axi_interconnect_1_S_AWSIZE(2 downto 0) <= B"000"; axi_interconnect_1_S_AWBURST(1 downto 0) <= B"00"; axi_interconnect_1_S_AWPROT(2 downto 0) <= B"000"; axi_interconnect_1_S_AWCACHE(3 downto 0) <= B"0000"; axi_interconnect_1_S_AWVALID(0 downto 0) <= B"0"; axi_interconnect_1_S_WDATA(63 downto 0) <= B"0000000000000000000000000000000000000000000000000000000000000000"; axi_interconnect_1_S_WSTRB(7 downto 0) <= B"00000000"; axi_interconnect_1_S_WLAST(0 downto 0) <= B"0"; axi_interconnect_1_S_WVALID(0 downto 0) <= B"0"; axi_interconnect_1_S_BREADY(0 downto 0) <= B"0"; pgassign1(7 downto 7) <= processing_system7_0_FCLK_CLK0(0 to 0); pgassign1(6 downto 6) <= processing_system7_0_FCLK_CLK0(0 to 0); pgassign1(5 downto 5) <= processing_system7_0_FCLK_CLK0(0 to 0); pgassign1(4 downto 4) <= processing_system7_0_FCLK_CLK0(0 to 0); pgassign1(3 downto 3) <= processing_system7_0_FCLK_CLK0(0 to 0); pgassign1(2 downto 2) <= processing_system7_0_FCLK_CLK0(0 to 0); pgassign1(1 downto 1) <= processing_system7_0_FCLK_CLK0(0 to 0); pgassign1(0 downto 0) <= processing_system7_0_FCLK_CLK0(0 to 0); pgassign2(1 downto 1) <= processing_system7_0_FCLK_CLK1(0 to 0); pgassign2(0 downto 0) <= processing_system7_0_FCLK_CLK1(0 to 0); net_gnd0 <= '0'; net_gnd1(0 to 0) <= B"0"; net_gnd12(11 downto 0) <= B"000000000000"; net_gnd2(1 downto 0) <= B"00"; net_gnd3(2 downto 0) <= B"000"; net_gnd32(31 downto 0) <= B"00000000000000000000000000000000"; net_gnd4(3 downto 0) <= B"0000"; net_gnd5(4 downto 0) <= B"00000"; net_gnd6(5 downto 0) <= B"000000"; net_gnd64(63 downto 0) <= B"0000000000000000000000000000000000000000000000000000000000000000"; net_gnd8(7 downto 0) <= B"00000000"; net_gnd96(95 downto 0) <= B"000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000"; net_vcc0 <= '1'; net_vcc2(1 downto 0) <= B"11"; axi4lite_0 : system_axi4lite_0_wrapper port map ( INTERCONNECT_ACLK => pgassign1(7), INTERCONNECT_ARESETN => processing_system7_0_FCLK_RESET0_N_0, S_AXI_ARESET_OUT_N => open, M_AXI_ARESET_OUT_N => axi4lite_0_M_ARESETN, IRQ => open, S_AXI_ACLK => pgassign1(7 downto 7), S_AXI_AWID => axi4lite_0_S_AWID, S_AXI_AWADDR => axi4lite_0_S_AWADDR, S_AXI_AWLEN => axi4lite_0_S_AWLEN, S_AXI_AWSIZE => axi4lite_0_S_AWSIZE, S_AXI_AWBURST => axi4lite_0_S_AWBURST, S_AXI_AWLOCK => axi4lite_0_S_AWLOCK, S_AXI_AWCACHE => axi4lite_0_S_AWCACHE, S_AXI_AWPROT => axi4lite_0_S_AWPROT, S_AXI_AWQOS => axi4lite_0_S_AWQOS, S_AXI_AWUSER => net_gnd1(0 to 0), S_AXI_AWVALID => axi4lite_0_S_AWVALID(0 to 0), S_AXI_AWREADY => axi4lite_0_S_AWREADY(0 to 0), S_AXI_WID => axi4lite_0_S_WID, S_AXI_WDATA => axi4lite_0_S_WDATA, S_AXI_WSTRB => axi4lite_0_S_WSTRB, S_AXI_WLAST => axi4lite_0_S_WLAST(0 to 0), S_AXI_WUSER => net_gnd1(0 to 0), S_AXI_WVALID => axi4lite_0_S_WVALID(0 to 0), S_AXI_WREADY => axi4lite_0_S_WREADY(0 to 0), S_AXI_BID => axi4lite_0_S_BID, S_AXI_BRESP => axi4lite_0_S_BRESP, S_AXI_BUSER => open, S_AXI_BVALID => axi4lite_0_S_BVALID(0 to 0), S_AXI_BREADY => axi4lite_0_S_BREADY(0 to 0), S_AXI_ARID => axi4lite_0_S_ARID, S_AXI_ARADDR => axi4lite_0_S_ARADDR, S_AXI_ARLEN => axi4lite_0_S_ARLEN, S_AXI_ARSIZE => axi4lite_0_S_ARSIZE, S_AXI_ARBURST => axi4lite_0_S_ARBURST, S_AXI_ARLOCK => axi4lite_0_S_ARLOCK, S_AXI_ARCACHE => axi4lite_0_S_ARCACHE, S_AXI_ARPROT => axi4lite_0_S_ARPROT, S_AXI_ARQOS => axi4lite_0_S_ARQOS, S_AXI_ARUSER => net_gnd1(0 to 0), S_AXI_ARVALID => axi4lite_0_S_ARVALID(0 to 0), S_AXI_ARREADY => axi4lite_0_S_ARREADY(0 to 0), S_AXI_RID => axi4lite_0_S_RID, S_AXI_RDATA => axi4lite_0_S_RDATA, S_AXI_RRESP => axi4lite_0_S_RRESP, S_AXI_RLAST => axi4lite_0_S_RLAST(0 to 0), S_AXI_RUSER => open, S_AXI_RVALID => axi4lite_0_S_RVALID(0 to 0), S_AXI_RREADY => axi4lite_0_S_RREADY(0 to 0), M_AXI_ACLK => pgassign1, M_AXI_AWID => open, M_AXI_AWADDR => axi4lite_0_M_AWADDR, M_AXI_AWLEN => open, M_AXI_AWSIZE => open, M_AXI_AWBURST => open, M_AXI_AWLOCK => open, M_AXI_AWCACHE => open, M_AXI_AWPROT => open, M_AXI_AWREGION => open, M_AXI_AWQOS => open, M_AXI_AWUSER => open, M_AXI_AWVALID => axi4lite_0_M_AWVALID, M_AXI_AWREADY => axi4lite_0_M_AWREADY, M_AXI_WID => open, M_AXI_WDATA => axi4lite_0_M_WDATA, M_AXI_WSTRB => axi4lite_0_M_WSTRB, M_AXI_WLAST => open, M_AXI_WUSER => open, M_AXI_WVALID => axi4lite_0_M_WVALID, M_AXI_WREADY => axi4lite_0_M_WREADY, M_AXI_BID => net_gnd96, M_AXI_BRESP => axi4lite_0_M_BRESP, M_AXI_BUSER => net_gnd8, M_AXI_BVALID => axi4lite_0_M_BVALID, M_AXI_BREADY => axi4lite_0_M_BREADY, M_AXI_ARID => open, M_AXI_ARADDR => axi4lite_0_M_ARADDR, M_AXI_ARLEN => open, M_AXI_ARSIZE => open, M_AXI_ARBURST => open, M_AXI_ARLOCK => open, M_AXI_ARCACHE => open, M_AXI_ARPROT => open, M_AXI_ARREGION => open, M_AXI_ARQOS => open, M_AXI_ARUSER => open, M_AXI_ARVALID => axi4lite_0_M_ARVALID, M_AXI_ARREADY => axi4lite_0_M_ARREADY, M_AXI_RID => net_gnd96, M_AXI_RDATA => axi4lite_0_M_RDATA, M_AXI_RRESP => axi4lite_0_M_RRESP, M_AXI_RLAST => net_gnd8, M_AXI_RUSER => net_gnd8, M_AXI_RVALID => axi4lite_0_M_RVALID, M_AXI_RREADY => axi4lite_0_M_RREADY, S_AXI_CTRL_AWADDR => net_gnd32, S_AXI_CTRL_AWVALID => net_gnd0, S_AXI_CTRL_AWREADY => open, S_AXI_CTRL_WDATA => net_gnd32, S_AXI_CTRL_WVALID => net_gnd0, S_AXI_CTRL_WREADY => open, S_AXI_CTRL_BRESP => open, S_AXI_CTRL_BVALID => open, S_AXI_CTRL_BREADY => net_gnd0, S_AXI_CTRL_ARADDR => net_gnd32, S_AXI_CTRL_ARVALID => net_gnd0, S_AXI_CTRL_ARREADY => open, S_AXI_CTRL_RDATA => open, S_AXI_CTRL_RRESP => open, S_AXI_CTRL_RVALID => open, S_AXI_CTRL_RREADY => net_gnd0, INTERCONNECT_ARESET_OUT_N => open, DEBUG_AW_TRANS_SEQ => open, DEBUG_AW_ARB_GRANT => open, DEBUG_AR_TRANS_SEQ => open, DEBUG_AR_ARB_GRANT => open, DEBUG_AW_TRANS_QUAL => open, DEBUG_AW_ACCEPT_CNT => open, DEBUG_AW_ACTIVE_THREAD => open, DEBUG_AW_ACTIVE_TARGET => open, DEBUG_AW_ACTIVE_REGION => open, DEBUG_AW_ERROR => open, DEBUG_AW_TARGET => open, DEBUG_AR_TRANS_QUAL => open, DEBUG_AR_ACCEPT_CNT => open, DEBUG_AR_ACTIVE_THREAD => open, DEBUG_AR_ACTIVE_TARGET => open, DEBUG_AR_ACTIVE_REGION => open, DEBUG_AR_ERROR => open, DEBUG_AR_TARGET => open, DEBUG_B_TRANS_SEQ => open, DEBUG_R_BEAT_CNT => open, DEBUG_R_TRANS_SEQ => open, DEBUG_AW_ISSUING_CNT => open, DEBUG_AR_ISSUING_CNT => open, DEBUG_W_BEAT_CNT => open, DEBUG_W_TRANS_SEQ => open, DEBUG_BID_TARGET => open, DEBUG_BID_ERROR => open, DEBUG_RID_TARGET => open, DEBUG_RID_ERROR => open, DEBUG_SR_SC_ARADDR => open, DEBUG_SR_SC_ARADDRCONTROL => open, DEBUG_SR_SC_AWADDR => open, DEBUG_SR_SC_AWADDRCONTROL => open, DEBUG_SR_SC_BRESP => open, DEBUG_SR_SC_RDATA => open, DEBUG_SR_SC_RDATACONTROL => open, DEBUG_SR_SC_WDATA => open, DEBUG_SR_SC_WDATACONTROL => open, DEBUG_SC_SF_ARADDR => open, DEBUG_SC_SF_ARADDRCONTROL => open, DEBUG_SC_SF_AWADDR => open, DEBUG_SC_SF_AWADDRCONTROL => open, DEBUG_SC_SF_BRESP => open, DEBUG_SC_SF_RDATA => open, DEBUG_SC_SF_RDATACONTROL => open, DEBUG_SC_SF_WDATA => open, DEBUG_SC_SF_WDATACONTROL => open, DEBUG_SF_CB_ARADDR => open, DEBUG_SF_CB_ARADDRCONTROL => open, DEBUG_SF_CB_AWADDR => open, DEBUG_SF_CB_AWADDRCONTROL => open, DEBUG_SF_CB_BRESP => open, DEBUG_SF_CB_RDATA => open, DEBUG_SF_CB_RDATACONTROL => open, DEBUG_SF_CB_WDATA => open, DEBUG_SF_CB_WDATACONTROL => open, DEBUG_CB_MF_ARADDR => open, DEBUG_CB_MF_ARADDRCONTROL => open, DEBUG_CB_MF_AWADDR => open, DEBUG_CB_MF_AWADDRCONTROL => open, DEBUG_CB_MF_BRESP => open, DEBUG_CB_MF_RDATA => open, DEBUG_CB_MF_RDATACONTROL => open, DEBUG_CB_MF_WDATA => open, DEBUG_CB_MF_WDATACONTROL => open, DEBUG_MF_MC_ARADDR => open, DEBUG_MF_MC_ARADDRCONTROL => open, DEBUG_MF_MC_AWADDR => open, DEBUG_MF_MC_AWADDRCONTROL => open, DEBUG_MF_MC_BRESP => open, DEBUG_MF_MC_RDATA => open, DEBUG_MF_MC_RDATACONTROL => open, DEBUG_MF_MC_WDATA => open, DEBUG_MF_MC_WDATACONTROL => open, DEBUG_MC_MP_ARADDR => open, DEBUG_MC_MP_ARADDRCONTROL => open, DEBUG_MC_MP_AWADDR => open, DEBUG_MC_MP_AWADDRCONTROL => open, DEBUG_MC_MP_BRESP => open, DEBUG_MC_MP_RDATA => open, DEBUG_MC_MP_RDATACONTROL => open, DEBUG_MC_MP_WDATA => open, DEBUG_MC_MP_WDATACONTROL => open, DEBUG_MP_MR_ARADDR => open, DEBUG_MP_MR_ARADDRCONTROL => open, DEBUG_MP_MR_AWADDR => open, DEBUG_MP_MR_AWADDRCONTROL => open, DEBUG_MP_MR_BRESP => open, DEBUG_MP_MR_RDATA => open, DEBUG_MP_MR_RDATACONTROL => open, DEBUG_MP_MR_WDATA => open, DEBUG_MP_MR_WDATACONTROL => open ); SWs_8Bits : system_sws_8bits_wrapper port map ( S_AXI_ACLK => pgassign1(7), S_AXI_ARESETN => axi4lite_0_M_ARESETN(0), S_AXI_AWADDR => axi4lite_0_M_AWADDR(8 downto 0), S_AXI_AWVALID => axi4lite_0_M_AWVALID(0), S_AXI_AWREADY => axi4lite_0_M_AWREADY(0), S_AXI_WDATA => axi4lite_0_M_WDATA(31 downto 0), S_AXI_WSTRB => axi4lite_0_M_WSTRB(3 downto 0), S_AXI_WVALID => axi4lite_0_M_WVALID(0), S_AXI_WREADY => axi4lite_0_M_WREADY(0), S_AXI_BRESP => axi4lite_0_M_BRESP(1 downto 0), S_AXI_BVALID => axi4lite_0_M_BVALID(0), S_AXI_BREADY => axi4lite_0_M_BREADY(0), S_AXI_ARADDR => axi4lite_0_M_ARADDR(8 downto 0), S_AXI_ARVALID => axi4lite_0_M_ARVALID(0), S_AXI_ARREADY => axi4lite_0_M_ARREADY(0), S_AXI_RDATA => axi4lite_0_M_RDATA(31 downto 0), S_AXI_RRESP => axi4lite_0_M_RRESP(1 downto 0), S_AXI_RVALID => axi4lite_0_M_RVALID(0), S_AXI_RREADY => axi4lite_0_M_RREADY(0), IP2INTC_Irpt => open, GPIO_IO_I => SWs_8Bits_TRI_IO_I, GPIO_IO_O => SWs_8Bits_TRI_IO_O, GPIO_IO_T => SWs_8Bits_TRI_IO_T, GPIO2_IO_I => net_gnd32, GPIO2_IO_O => open, GPIO2_IO_T => open ); LEDs_8Bits : system_leds_8bits_wrapper port map ( S_AXI_ACLK => pgassign1(7), S_AXI_ARESETN => axi4lite_0_M_ARESETN(1), S_AXI_AWADDR => axi4lite_0_M_AWADDR(40 downto 32), S_AXI_AWVALID => axi4lite_0_M_AWVALID(1), S_AXI_AWREADY => axi4lite_0_M_AWREADY(1), S_AXI_WDATA => axi4lite_0_M_WDATA(63 downto 32), S_AXI_WSTRB => axi4lite_0_M_WSTRB(7 downto 4), S_AXI_WVALID => axi4lite_0_M_WVALID(1), S_AXI_WREADY => axi4lite_0_M_WREADY(1), S_AXI_BRESP => axi4lite_0_M_BRESP(3 downto 2), S_AXI_BVALID => axi4lite_0_M_BVALID(1), S_AXI_BREADY => axi4lite_0_M_BREADY(1), S_AXI_ARADDR => axi4lite_0_M_ARADDR(40 downto 32), S_AXI_ARVALID => axi4lite_0_M_ARVALID(1), S_AXI_ARREADY => axi4lite_0_M_ARREADY(1), S_AXI_RDATA => axi4lite_0_M_RDATA(63 downto 32), S_AXI_RRESP => axi4lite_0_M_RRESP(3 downto 2), S_AXI_RVALID => axi4lite_0_M_RVALID(1), S_AXI_RREADY => axi4lite_0_M_RREADY(1), IP2INTC_Irpt => open, GPIO_IO_I => net_gnd8, GPIO_IO_O => LEDs_8Bits_TRI_IO, GPIO_IO_T => open, GPIO2_IO_I => net_gnd32, GPIO2_IO_O => open, GPIO2_IO_T => open ); BTNs_5Bits : system_btns_5bits_wrapper port map ( S_AXI_ACLK => pgassign1(7), S_AXI_ARESETN => axi4lite_0_M_ARESETN(2), S_AXI_AWADDR => axi4lite_0_M_AWADDR(72 downto 64), S_AXI_AWVALID => axi4lite_0_M_AWVALID(2), S_AXI_AWREADY => axi4lite_0_M_AWREADY(2), S_AXI_WDATA => axi4lite_0_M_WDATA(95 downto 64), S_AXI_WSTRB => axi4lite_0_M_WSTRB(11 downto 8), S_AXI_WVALID => axi4lite_0_M_WVALID(2), S_AXI_WREADY => axi4lite_0_M_WREADY(2), S_AXI_BRESP => axi4lite_0_M_BRESP(5 downto 4), S_AXI_BVALID => axi4lite_0_M_BVALID(2), S_AXI_BREADY => axi4lite_0_M_BREADY(2), S_AXI_ARADDR => axi4lite_0_M_ARADDR(72 downto 64), S_AXI_ARVALID => axi4lite_0_M_ARVALID(2), S_AXI_ARREADY => axi4lite_0_M_ARREADY(2), S_AXI_RDATA => axi4lite_0_M_RDATA(95 downto 64), S_AXI_RRESP => axi4lite_0_M_RRESP(5 downto 4), S_AXI_RVALID => axi4lite_0_M_RVALID(2), S_AXI_RREADY => axi4lite_0_M_RREADY(2), IP2INTC_Irpt => open, GPIO_IO_I => BTNs_5Bits_TRI_IO_I, GPIO_IO_O => BTNs_5Bits_TRI_IO_O, GPIO_IO_T => BTNs_5Bits_TRI_IO_T, GPIO2_IO_I => net_gnd32, GPIO2_IO_O => open, GPIO2_IO_T => open ); processing_system7_0 : system_processing_system7_0_wrapper port map ( CAN0_PHY_TX => open, CAN0_PHY_RX => net_gnd0, CAN1_PHY_TX => open, CAN1_PHY_RX => net_gnd0, ENET0_GMII_TX_EN => open, ENET0_GMII_TX_ER => open, ENET0_MDIO_MDC => open, ENET0_MDIO_O => open, ENET0_MDIO_T => open, ENET0_PTP_DELAY_REQ_RX => open, ENET0_PTP_DELAY_REQ_TX => open, ENET0_PTP_PDELAY_REQ_RX => open, ENET0_PTP_PDELAY_REQ_TX => open, ENET0_PTP_PDELAY_RESP_RX => open, ENET0_PTP_PDELAY_RESP_TX => open, ENET0_PTP_SYNC_FRAME_RX => open, ENET0_PTP_SYNC_FRAME_TX => open, ENET0_SOF_RX => open, ENET0_SOF_TX => open, ENET0_GMII_TXD => open, ENET0_GMII_COL => net_gnd0, ENET0_GMII_CRS => net_gnd0, ENET0_EXT_INTIN => net_gnd0, ENET0_GMII_RX_CLK => net_gnd0, ENET0_GMII_RX_DV => net_gnd0, ENET0_GMII_RX_ER => net_gnd0, ENET0_GMII_TX_CLK => net_gnd0, ENET0_MDIO_I => net_gnd0, ENET0_GMII_RXD => net_gnd8, ENET1_GMII_TX_EN => open, ENET1_GMII_TX_ER => open, ENET1_MDIO_MDC => open, ENET1_MDIO_O => open, ENET1_MDIO_T => open, ENET1_PTP_DELAY_REQ_RX => open, ENET1_PTP_DELAY_REQ_TX => open, ENET1_PTP_PDELAY_REQ_RX => open, ENET1_PTP_PDELAY_REQ_TX => open, ENET1_PTP_PDELAY_RESP_RX => open, ENET1_PTP_PDELAY_RESP_TX => open, ENET1_PTP_SYNC_FRAME_RX => open, ENET1_PTP_SYNC_FRAME_TX => open, ENET1_SOF_RX => open, ENET1_SOF_TX => open, ENET1_GMII_TXD => open, ENET1_GMII_COL => net_gnd0, ENET1_GMII_CRS => net_gnd0, ENET1_EXT_INTIN => net_gnd0, ENET1_GMII_RX_CLK => net_gnd0, ENET1_GMII_RX_DV => net_gnd0, ENET1_GMII_RX_ER => net_gnd0, ENET1_GMII_TX_CLK => net_gnd0, ENET1_MDIO_I => net_gnd0, ENET1_GMII_RXD => net_gnd8, GPIO_I => net_gnd64, GPIO_O => open, GPIO_T => open, I2C0_SDA_I => net_gnd0, I2C0_SDA_O => open, I2C0_SDA_T => open, I2C0_SCL_I => net_gnd0, I2C0_SCL_O => open, I2C0_SCL_T => open, I2C1_SDA_I => net_gnd0, I2C1_SDA_O => open, I2C1_SDA_T => open, I2C1_SCL_I => net_gnd0, I2C1_SCL_O => open, I2C1_SCL_T => open, PJTAG_TCK => net_gnd0, PJTAG_TMS => net_gnd0, PJTAG_TD_I => net_gnd0, PJTAG_TD_T => open, PJTAG_TD_O => open, SDIO0_CLK => open, SDIO0_CLK_FB => net_gnd0, SDIO0_CMD_O => open, SDIO0_CMD_I => net_gnd0, SDIO0_CMD_T => open, SDIO0_DATA_I => net_gnd4, SDIO0_DATA_O => open, SDIO0_DATA_T => open, SDIO0_LED => open, SDIO0_CDN => net_gnd0, SDIO0_WP => net_gnd0, SDIO0_BUSPOW => open, SDIO0_BUSVOLT => open, SDIO1_CLK => open, SDIO1_CLK_FB => net_gnd0, SDIO1_CMD_O => open, SDIO1_CMD_I => net_gnd0, SDIO1_CMD_T => open, SDIO1_DATA_I => net_gnd4, SDIO1_DATA_O => open, SDIO1_DATA_T => open, SDIO1_LED => open, SDIO1_CDN => net_gnd0, SDIO1_WP => net_gnd0, SDIO1_BUSPOW => open, SDIO1_BUSVOLT => open, SPI0_SCLK_I => net_gnd0, SPI0_SCLK_O => open, SPI0_SCLK_T => open, SPI0_MOSI_I => net_gnd0, SPI0_MOSI_O => open, SPI0_MOSI_T => open, SPI0_MISO_I => net_gnd0, SPI0_MISO_O => open, SPI0_MISO_T => open, SPI0_SS_I => net_gnd0, SPI0_SS_O => open, SPI0_SS1_O => open, SPI0_SS2_O => open, SPI0_SS_T => open, SPI1_SCLK_I => net_gnd0, SPI1_SCLK_O => open, SPI1_SCLK_T => open, SPI1_MOSI_I => net_gnd0, SPI1_MOSI_O => open, SPI1_MOSI_T => open, SPI1_MISO_I => net_gnd0, SPI1_MISO_O => open, SPI1_MISO_T => open, SPI1_SS_I => net_gnd0, SPI1_SS_O => open, SPI1_SS1_O => open, SPI1_SS2_O => open, SPI1_SS_T => open, UART0_DTRN => open, UART0_RTSN => open, UART0_TX => open, UART0_CTSN => net_gnd0, UART0_DCDN => net_gnd0, UART0_DSRN => net_gnd0, UART0_RIN => net_gnd0, UART0_RX => net_gnd0, UART1_DTRN => open, UART1_RTSN => open, UART1_TX => open, UART1_CTSN => net_gnd0, UART1_DCDN => net_gnd0, UART1_DSRN => net_gnd0, UART1_RIN => net_gnd0, UART1_RX => net_gnd0, TTC0_WAVE0_OUT => open, TTC0_WAVE1_OUT => open, TTC0_WAVE2_OUT => open, TTC0_CLK0_IN => net_gnd0, TTC0_CLK1_IN => net_gnd0, TTC0_CLK2_IN => net_gnd0, TTC1_WAVE0_OUT => open, TTC1_WAVE1_OUT => open, TTC1_WAVE2_OUT => open, TTC1_CLK0_IN => net_gnd0, TTC1_CLK1_IN => net_gnd0, TTC1_CLK2_IN => net_gnd0, WDT_CLK_IN => net_gnd0, WDT_RST_OUT => open, TRACE_CLK => net_gnd0, TRACE_CTL => open, TRACE_DATA => open, USB0_PORT_INDCTL => open, USB1_PORT_INDCTL => open, USB0_VBUS_PWRSELECT => open, USB1_VBUS_PWRSELECT => open, USB0_VBUS_PWRFAULT => net_gnd0, USB1_VBUS_PWRFAULT => net_gnd0, SRAM_INTIN => net_gnd0, M_AXI_GP0_ARESETN => open, M_AXI_GP0_ARVALID => axi4lite_0_S_ARVALID(0), M_AXI_GP0_AWVALID => axi4lite_0_S_AWVALID(0), M_AXI_GP0_BREADY => axi4lite_0_S_BREADY(0), M_AXI_GP0_RREADY => axi4lite_0_S_RREADY(0), M_AXI_GP0_WLAST => axi4lite_0_S_WLAST(0), M_AXI_GP0_WVALID => axi4lite_0_S_WVALID(0), M_AXI_GP0_ARID => axi4lite_0_S_ARID, M_AXI_GP0_AWID => axi4lite_0_S_AWID, M_AXI_GP0_WID => axi4lite_0_S_WID, M_AXI_GP0_ARBURST => axi4lite_0_S_ARBURST, M_AXI_GP0_ARLOCK => axi4lite_0_S_ARLOCK, M_AXI_GP0_ARSIZE => axi4lite_0_S_ARSIZE, M_AXI_GP0_AWBURST => axi4lite_0_S_AWBURST, M_AXI_GP0_AWLOCK => axi4lite_0_S_AWLOCK, M_AXI_GP0_AWSIZE => axi4lite_0_S_AWSIZE, M_AXI_GP0_ARPROT => axi4lite_0_S_ARPROT, M_AXI_GP0_AWPROT => axi4lite_0_S_AWPROT, M_AXI_GP0_ARADDR => axi4lite_0_S_ARADDR, M_AXI_GP0_AWADDR => axi4lite_0_S_AWADDR, M_AXI_GP0_WDATA => axi4lite_0_S_WDATA, M_AXI_GP0_ARCACHE => axi4lite_0_S_ARCACHE, M_AXI_GP0_ARLEN => axi4lite_0_S_ARLEN(3 downto 0), M_AXI_GP0_ARQOS => axi4lite_0_S_ARQOS, M_AXI_GP0_AWCACHE => axi4lite_0_S_AWCACHE, M_AXI_GP0_AWLEN => axi4lite_0_S_AWLEN(3 downto 0), M_AXI_GP0_AWQOS => axi4lite_0_S_AWQOS, M_AXI_GP0_WSTRB => axi4lite_0_S_WSTRB, M_AXI_GP0_ACLK => pgassign1(7), M_AXI_GP0_ARREADY => axi4lite_0_S_ARREADY(0), M_AXI_GP0_AWREADY => axi4lite_0_S_AWREADY(0), M_AXI_GP0_BVALID => axi4lite_0_S_BVALID(0), M_AXI_GP0_RLAST => axi4lite_0_S_RLAST(0), M_AXI_GP0_RVALID => axi4lite_0_S_RVALID(0), M_AXI_GP0_WREADY => axi4lite_0_S_WREADY(0), M_AXI_GP0_BID => axi4lite_0_S_BID, M_AXI_GP0_RID => axi4lite_0_S_RID, M_AXI_GP0_BRESP => axi4lite_0_S_BRESP, M_AXI_GP0_RRESP => axi4lite_0_S_RRESP, M_AXI_GP0_RDATA => axi4lite_0_S_RDATA, M_AXI_GP1_ARESETN => open, M_AXI_GP1_ARVALID => open, M_AXI_GP1_AWVALID => open, M_AXI_GP1_BREADY => open, M_AXI_GP1_RREADY => open, M_AXI_GP1_WLAST => open, M_AXI_GP1_WVALID => open, M_AXI_GP1_ARID => open, M_AXI_GP1_AWID => open, M_AXI_GP1_WID => open, M_AXI_GP1_ARBURST => open, M_AXI_GP1_ARLOCK => open, M_AXI_GP1_ARSIZE => open, M_AXI_GP1_AWBURST => open, M_AXI_GP1_AWLOCK => open, M_AXI_GP1_AWSIZE => open, M_AXI_GP1_ARPROT => open, M_AXI_GP1_AWPROT => open, M_AXI_GP1_ARADDR => open, M_AXI_GP1_AWADDR => open, M_AXI_GP1_WDATA => open, M_AXI_GP1_ARCACHE => open, M_AXI_GP1_ARLEN => open, M_AXI_GP1_ARQOS => open, M_AXI_GP1_AWCACHE => open, M_AXI_GP1_AWLEN => open, M_AXI_GP1_AWQOS => open, M_AXI_GP1_WSTRB => open, M_AXI_GP1_ACLK => net_gnd0, M_AXI_GP1_ARREADY => net_gnd0, M_AXI_GP1_AWREADY => net_gnd0, M_AXI_GP1_BVALID => net_gnd0, M_AXI_GP1_RLAST => net_gnd0, M_AXI_GP1_RVALID => net_gnd0, M_AXI_GP1_WREADY => net_gnd0, M_AXI_GP1_BID => net_gnd12, M_AXI_GP1_RID => net_gnd12, M_AXI_GP1_BRESP => net_gnd2, M_AXI_GP1_RRESP => net_gnd2, M_AXI_GP1_RDATA => net_gnd32, S_AXI_GP0_ARESETN => open, S_AXI_GP0_ARREADY => open, S_AXI_GP0_AWREADY => open, S_AXI_GP0_BVALID => open, S_AXI_GP0_RLAST => open, S_AXI_GP0_RVALID => open, S_AXI_GP0_WREADY => open, S_AXI_GP0_BRESP => open, S_AXI_GP0_RRESP => open, S_AXI_GP0_RDATA => open, S_AXI_GP0_BID => open, S_AXI_GP0_RID => open, S_AXI_GP0_ACLK => net_gnd0, S_AXI_GP0_ARVALID => net_gnd0, S_AXI_GP0_AWVALID => net_gnd0, S_AXI_GP0_BREADY => net_gnd0, S_AXI_GP0_RREADY => net_gnd0, S_AXI_GP0_WLAST => net_gnd0, S_AXI_GP0_WVALID => net_gnd0, S_AXI_GP0_ARBURST => net_gnd2, S_AXI_GP0_ARLOCK => net_gnd2, S_AXI_GP0_ARSIZE => net_gnd3, S_AXI_GP0_AWBURST => net_gnd2, S_AXI_GP0_AWLOCK => net_gnd2, S_AXI_GP0_AWSIZE => net_gnd3, S_AXI_GP0_ARPROT => net_gnd3, S_AXI_GP0_AWPROT => net_gnd3, S_AXI_GP0_ARADDR => net_gnd32, S_AXI_GP0_AWADDR => net_gnd32, S_AXI_GP0_WDATA => net_gnd32, S_AXI_GP0_ARCACHE => net_gnd4, S_AXI_GP0_ARLEN => net_gnd4, S_AXI_GP0_ARQOS => net_gnd4, S_AXI_GP0_AWCACHE => net_gnd4, S_AXI_GP0_AWLEN => net_gnd4, S_AXI_GP0_AWQOS => net_gnd4, S_AXI_GP0_WSTRB => net_gnd4, S_AXI_GP0_ARID => net_gnd6, S_AXI_GP0_AWID => net_gnd6, S_AXI_GP0_WID => net_gnd6, S_AXI_GP1_ARESETN => open, S_AXI_GP1_ARREADY => open, S_AXI_GP1_AWREADY => open, S_AXI_GP1_BVALID => open, S_AXI_GP1_RLAST => open, S_AXI_GP1_RVALID => open, S_AXI_GP1_WREADY => open, S_AXI_GP1_BRESP => open, S_AXI_GP1_RRESP => open, S_AXI_GP1_RDATA => open, S_AXI_GP1_BID => open, S_AXI_GP1_RID => open, S_AXI_GP1_ACLK => net_gnd0, S_AXI_GP1_ARVALID => net_gnd0, S_AXI_GP1_AWVALID => net_gnd0, S_AXI_GP1_BREADY => net_gnd0, S_AXI_GP1_RREADY => net_gnd0, S_AXI_GP1_WLAST => net_gnd0, S_AXI_GP1_WVALID => net_gnd0, S_AXI_GP1_ARBURST => net_gnd2, S_AXI_GP1_ARLOCK => net_gnd2, S_AXI_GP1_ARSIZE => net_gnd3, S_AXI_GP1_AWBURST => net_gnd2, S_AXI_GP1_AWLOCK => net_gnd2, S_AXI_GP1_AWSIZE => net_gnd3, S_AXI_GP1_ARPROT => net_gnd3, S_AXI_GP1_AWPROT => net_gnd3, S_AXI_GP1_ARADDR => net_gnd32, S_AXI_GP1_AWADDR => net_gnd32, S_AXI_GP1_WDATA => net_gnd32, S_AXI_GP1_ARCACHE => net_gnd4, S_AXI_GP1_ARLEN => net_gnd4, S_AXI_GP1_ARQOS => net_gnd4, S_AXI_GP1_AWCACHE => net_gnd4, S_AXI_GP1_AWLEN => net_gnd4, S_AXI_GP1_AWQOS => net_gnd4, S_AXI_GP1_WSTRB => net_gnd4, S_AXI_GP1_ARID => net_gnd6, S_AXI_GP1_AWID => net_gnd6, S_AXI_GP1_WID => net_gnd6, S_AXI_ACP_ARESETN => open, S_AXI_ACP_AWREADY => open, S_AXI_ACP_ARREADY => open, S_AXI_ACP_BVALID => open, S_AXI_ACP_RLAST => open, S_AXI_ACP_RVALID => open, S_AXI_ACP_WREADY => open, S_AXI_ACP_BRESP => open, S_AXI_ACP_RRESP => open, S_AXI_ACP_BID => open, S_AXI_ACP_RID => open, S_AXI_ACP_RDATA => open, S_AXI_ACP_ACLK => net_gnd0, S_AXI_ACP_ARVALID => net_gnd0, S_AXI_ACP_AWVALID => net_gnd0, S_AXI_ACP_BREADY => net_gnd0, S_AXI_ACP_RREADY => net_gnd0, S_AXI_ACP_WLAST => net_gnd0, S_AXI_ACP_WVALID => net_gnd0, S_AXI_ACP_ARID => net_gnd3, S_AXI_ACP_ARPROT => net_gnd3, S_AXI_ACP_AWID => net_gnd3, S_AXI_ACP_AWPROT => net_gnd3, S_AXI_ACP_WID => net_gnd3, S_AXI_ACP_ARADDR => net_gnd32, S_AXI_ACP_AWADDR => net_gnd32, S_AXI_ACP_ARCACHE => net_gnd4, S_AXI_ACP_ARLEN => net_gnd4, S_AXI_ACP_ARQOS => net_gnd4, S_AXI_ACP_AWCACHE => net_gnd4, S_AXI_ACP_AWLEN => net_gnd4, S_AXI_ACP_AWQOS => net_gnd4, S_AXI_ACP_ARBURST => net_gnd2, S_AXI_ACP_ARLOCK => net_gnd2, S_AXI_ACP_ARSIZE => net_gnd3, S_AXI_ACP_AWBURST => net_gnd2, S_AXI_ACP_AWLOCK => net_gnd2, S_AXI_ACP_AWSIZE => net_gnd3, S_AXI_ACP_ARUSER => net_gnd5, S_AXI_ACP_AWUSER => net_gnd5, S_AXI_ACP_WDATA => net_gnd64, S_AXI_ACP_WSTRB => net_gnd8, S_AXI_HP0_ARESETN => open, S_AXI_HP0_ARREADY => axi_interconnect_1_M_ARREADY(0), S_AXI_HP0_AWREADY => axi_interconnect_1_M_AWREADY(0), S_AXI_HP0_BVALID => axi_interconnect_1_M_BVALID(0), S_AXI_HP0_RLAST => axi_interconnect_1_M_RLAST(0), S_AXI_HP0_RVALID => axi_interconnect_1_M_RVALID(0), S_AXI_HP0_WREADY => axi_interconnect_1_M_WREADY(0), S_AXI_HP0_BRESP => axi_interconnect_1_M_BRESP, S_AXI_HP0_RRESP => axi_interconnect_1_M_RRESP, S_AXI_HP0_BID => axi_interconnect_1_M_BID(0 to 0), S_AXI_HP0_RID => axi_interconnect_1_M_RID(0 to 0), S_AXI_HP0_RDATA => axi_interconnect_1_M_RDATA, S_AXI_HP0_RCOUNT => open, S_AXI_HP0_WCOUNT => open, S_AXI_HP0_RACOUNT => open, S_AXI_HP0_WACOUNT => open, S_AXI_HP0_ACLK => pgassign2(1), S_AXI_HP0_ARVALID => axi_interconnect_1_M_ARVALID(0), S_AXI_HP0_AWVALID => axi_interconnect_1_M_AWVALID(0), S_AXI_HP0_BREADY => axi_interconnect_1_M_BREADY(0), S_AXI_HP0_RDISSUECAP1_EN => net_gnd0, S_AXI_HP0_RREADY => axi_interconnect_1_M_RREADY(0), S_AXI_HP0_WLAST => axi_interconnect_1_M_WLAST(0), S_AXI_HP0_WRISSUECAP1_EN => net_gnd0, S_AXI_HP0_WVALID => axi_interconnect_1_M_WVALID(0), S_AXI_HP0_ARBURST => axi_interconnect_1_M_ARBURST, S_AXI_HP0_ARLOCK => axi_interconnect_1_M_ARLOCK, S_AXI_HP0_ARSIZE => axi_interconnect_1_M_ARSIZE, S_AXI_HP0_AWBURST => axi_interconnect_1_M_AWBURST, S_AXI_HP0_AWLOCK => axi_interconnect_1_M_AWLOCK, S_AXI_HP0_AWSIZE => axi_interconnect_1_M_AWSIZE, S_AXI_HP0_ARPROT => axi_interconnect_1_M_ARPROT, S_AXI_HP0_AWPROT => axi_interconnect_1_M_AWPROT, S_AXI_HP0_ARADDR => axi_interconnect_1_M_ARADDR, S_AXI_HP0_AWADDR => axi_interconnect_1_M_AWADDR, S_AXI_HP0_ARCACHE => axi_interconnect_1_M_ARCACHE, S_AXI_HP0_ARLEN => axi_interconnect_1_M_ARLEN(3 downto 0), S_AXI_HP0_ARQOS => axi_interconnect_1_M_ARQOS, S_AXI_HP0_AWCACHE => axi_interconnect_1_M_AWCACHE, S_AXI_HP0_AWLEN => axi_interconnect_1_M_AWLEN(3 downto 0), S_AXI_HP0_AWQOS => axi_interconnect_1_M_AWQOS, S_AXI_HP0_ARID => axi_interconnect_1_M_ARID(0 to 0), S_AXI_HP0_AWID => axi_interconnect_1_M_AWID(0 to 0), S_AXI_HP0_WID => axi_interconnect_1_M_WID(0 to 0), S_AXI_HP0_WDATA => axi_interconnect_1_M_WDATA, S_AXI_HP0_WSTRB => axi_interconnect_1_M_WSTRB, S_AXI_HP1_ARESETN => open, S_AXI_HP1_ARREADY => open, S_AXI_HP1_AWREADY => open, S_AXI_HP1_BVALID => open, S_AXI_HP1_RLAST => open, S_AXI_HP1_RVALID => open, S_AXI_HP1_WREADY => open, S_AXI_HP1_BRESP => open, S_AXI_HP1_RRESP => open, S_AXI_HP1_BID => open, S_AXI_HP1_RID => open, S_AXI_HP1_RDATA => open, S_AXI_HP1_RCOUNT => open, S_AXI_HP1_WCOUNT => open, S_AXI_HP1_RACOUNT => open, S_AXI_HP1_WACOUNT => open, S_AXI_HP1_ACLK => net_gnd0, S_AXI_HP1_ARVALID => net_gnd0, S_AXI_HP1_AWVALID => net_gnd0, S_AXI_HP1_BREADY => net_gnd0, S_AXI_HP1_RDISSUECAP1_EN => net_gnd0, S_AXI_HP1_RREADY => net_gnd0, S_AXI_HP1_WLAST => net_gnd0, S_AXI_HP1_WRISSUECAP1_EN => net_gnd0, S_AXI_HP1_WVALID => net_gnd0, S_AXI_HP1_ARBURST => net_gnd2, S_AXI_HP1_ARLOCK => net_gnd2, S_AXI_HP1_ARSIZE => net_gnd3, S_AXI_HP1_AWBURST => net_gnd2, S_AXI_HP1_AWLOCK => net_gnd2, S_AXI_HP1_AWSIZE => net_gnd3, S_AXI_HP1_ARPROT => net_gnd3, S_AXI_HP1_AWPROT => net_gnd3, S_AXI_HP1_ARADDR => net_gnd32, S_AXI_HP1_AWADDR => net_gnd32, S_AXI_HP1_ARCACHE => net_gnd4, S_AXI_HP1_ARLEN => net_gnd4, S_AXI_HP1_ARQOS => net_gnd4, S_AXI_HP1_AWCACHE => net_gnd4, S_AXI_HP1_AWLEN => net_gnd4, S_AXI_HP1_AWQOS => net_gnd4, S_AXI_HP1_ARID => net_gnd6, S_AXI_HP1_AWID => net_gnd6, S_AXI_HP1_WID => net_gnd6, S_AXI_HP1_WDATA => net_gnd64, S_AXI_HP1_WSTRB => net_gnd8, S_AXI_HP2_ARESETN => open, S_AXI_HP2_ARREADY => open, S_AXI_HP2_AWREADY => open, S_AXI_HP2_BVALID => open, S_AXI_HP2_RLAST => open, S_AXI_HP2_RVALID => open, S_AXI_HP2_WREADY => open, S_AXI_HP2_BRESP => open, S_AXI_HP2_RRESP => open, S_AXI_HP2_BID => open, S_AXI_HP2_RID => open, S_AXI_HP2_RDATA => open, S_AXI_HP2_RCOUNT => open, S_AXI_HP2_WCOUNT => open, S_AXI_HP2_RACOUNT => open, S_AXI_HP2_WACOUNT => open, S_AXI_HP2_ACLK => net_gnd0, S_AXI_HP2_ARVALID => net_gnd0, S_AXI_HP2_AWVALID => net_gnd0, S_AXI_HP2_BREADY => net_gnd0, S_AXI_HP2_RDISSUECAP1_EN => net_gnd0, S_AXI_HP2_RREADY => net_gnd0, S_AXI_HP2_WLAST => net_gnd0, S_AXI_HP2_WRISSUECAP1_EN => net_gnd0, S_AXI_HP2_WVALID => net_gnd0, S_AXI_HP2_ARBURST => net_gnd2, S_AXI_HP2_ARLOCK => net_gnd2, S_AXI_HP2_ARSIZE => net_gnd3, S_AXI_HP2_AWBURST => net_gnd2, S_AXI_HP2_AWLOCK => net_gnd2, S_AXI_HP2_AWSIZE => net_gnd3, S_AXI_HP2_ARPROT => net_gnd3, S_AXI_HP2_AWPROT => net_gnd3, S_AXI_HP2_ARADDR => net_gnd32, S_AXI_HP2_AWADDR => net_gnd32, S_AXI_HP2_ARCACHE => net_gnd4, S_AXI_HP2_ARLEN => net_gnd4, S_AXI_HP2_ARQOS => net_gnd4, S_AXI_HP2_AWCACHE => net_gnd4, S_AXI_HP2_AWLEN => net_gnd4, S_AXI_HP2_AWQOS => net_gnd4, S_AXI_HP2_ARID => net_gnd6, S_AXI_HP2_AWID => net_gnd6, S_AXI_HP2_WID => net_gnd6, S_AXI_HP2_WDATA => net_gnd64, S_AXI_HP2_WSTRB => net_gnd8, S_AXI_HP3_ARESETN => open, S_AXI_HP3_ARREADY => open, S_AXI_HP3_AWREADY => open, S_AXI_HP3_BVALID => open, S_AXI_HP3_RLAST => open, S_AXI_HP3_RVALID => open, S_AXI_HP3_WREADY => open, S_AXI_HP3_BRESP => open, S_AXI_HP3_RRESP => open, S_AXI_HP3_BID => open, S_AXI_HP3_RID => open, S_AXI_HP3_RDATA => open, S_AXI_HP3_RCOUNT => open, S_AXI_HP3_WCOUNT => open, S_AXI_HP3_RACOUNT => open, S_AXI_HP3_WACOUNT => open, S_AXI_HP3_ACLK => net_gnd0, S_AXI_HP3_ARVALID => net_gnd0, S_AXI_HP3_AWVALID => net_gnd0, S_AXI_HP3_BREADY => net_gnd0, S_AXI_HP3_RDISSUECAP1_EN => net_gnd0, S_AXI_HP3_RREADY => net_gnd0, S_AXI_HP3_WLAST => net_gnd0, S_AXI_HP3_WRISSUECAP1_EN => net_gnd0, S_AXI_HP3_WVALID => net_gnd0, S_AXI_HP3_ARBURST => net_gnd2, S_AXI_HP3_ARLOCK => net_gnd2, S_AXI_HP3_ARSIZE => net_gnd3, S_AXI_HP3_AWBURST => net_gnd2, S_AXI_HP3_AWLOCK => net_gnd2, S_AXI_HP3_AWSIZE => net_gnd3, S_AXI_HP3_ARPROT => net_gnd3, S_AXI_HP3_AWPROT => net_gnd3, S_AXI_HP3_ARADDR => net_gnd32, S_AXI_HP3_AWADDR => net_gnd32, S_AXI_HP3_ARCACHE => net_gnd4, S_AXI_HP3_ARLEN => net_gnd4, S_AXI_HP3_ARQOS => net_gnd4, S_AXI_HP3_AWCACHE => net_gnd4, S_AXI_HP3_AWLEN => net_gnd4, S_AXI_HP3_AWQOS => net_gnd4, S_AXI_HP3_ARID => net_gnd6, S_AXI_HP3_AWID => net_gnd6, S_AXI_HP3_WID => net_gnd6, S_AXI_HP3_WDATA => net_gnd64, S_AXI_HP3_WSTRB => net_gnd8, DMA0_DATYPE => open, DMA0_DAVALID => open, DMA0_DRREADY => open, DMA0_RSTN => open, DMA0_ACLK => net_gnd0, DMA0_DAREADY => net_gnd0, DMA0_DRLAST => net_gnd0, DMA0_DRVALID => net_gnd0, DMA0_DRTYPE => net_gnd2, DMA1_DATYPE => open, DMA1_DAVALID => open, DMA1_DRREADY => open, DMA1_RSTN => open, DMA1_ACLK => net_gnd0, DMA1_DAREADY => net_gnd0, DMA1_DRLAST => net_gnd0, DMA1_DRVALID => net_gnd0, DMA1_DRTYPE => net_gnd2, DMA2_DATYPE => open, DMA2_DAVALID => open, DMA2_DRREADY => open, DMA2_RSTN => open, DMA2_ACLK => net_gnd0, DMA2_DAREADY => net_gnd0, DMA2_DRLAST => net_gnd0, DMA2_DRVALID => net_gnd0, DMA3_DRVALID => net_gnd0, DMA3_DATYPE => open, DMA3_DAVALID => open, DMA3_DRREADY => open, DMA3_RSTN => open, DMA3_ACLK => net_gnd0, DMA3_DAREADY => net_gnd0, DMA3_DRLAST => net_gnd0, DMA2_DRTYPE => net_gnd2, DMA3_DRTYPE => net_gnd2, FTMD_TRACEIN_DATA => net_gnd32, FTMD_TRACEIN_VALID => net_gnd0, FTMD_TRACEIN_CLK => net_gnd0, FTMD_TRACEIN_ATID => net_gnd4, FTMT_F2P_TRIG => net_gnd4, FTMT_F2P_TRIGACK => open, FTMT_F2P_DEBUG => net_gnd32, FTMT_P2F_TRIGACK => net_gnd4, FTMT_P2F_TRIG => open, FTMT_P2F_DEBUG => open, FCLK_CLK3 => open, FCLK_CLK2 => open, FCLK_CLK1 => processing_system7_0_FCLK_CLK1(0), FCLK_CLK0 => processing_system7_0_FCLK_CLK0(0), FCLK_CLKTRIG3_N => net_gnd0, FCLK_CLKTRIG2_N => net_gnd0, FCLK_CLKTRIG1_N => net_gnd0, FCLK_CLKTRIG0_N => net_gnd0, FCLK_RESET3_N => open, FCLK_RESET2_N => open, FCLK_RESET1_N => open, FCLK_RESET0_N => processing_system7_0_FCLK_RESET0_N_0, FPGA_IDLE_N => net_gnd0, DDR_ARB => net_gnd4, IRQ_F2P => net_gnd1(0 to 0), Core0_nFIQ => net_gnd0, Core0_nIRQ => net_gnd0, Core1_nFIQ => net_gnd0, Core1_nIRQ => net_gnd0, EVENT_EVENTO => open, EVENT_STANDBYWFE => open, EVENT_STANDBYWFI => open, EVENT_EVENTI => net_gnd0, MIO => processing_system7_0_MIO, DDR_Clk => processing_system7_0_DDR_Clk, DDR_Clk_n => processing_system7_0_DDR_Clk_n, DDR_CKE => processing_system7_0_DDR_CKE, DDR_CS_n => processing_system7_0_DDR_CS_n, DDR_RAS_n => processing_system7_0_DDR_RAS_n, DDR_CAS_n => processing_system7_0_DDR_CAS_n, DDR_WEB => processing_system7_0_DDR_WEB, DDR_BankAddr => processing_system7_0_DDR_BankAddr, DDR_Addr => processing_system7_0_DDR_Addr, DDR_ODT => processing_system7_0_DDR_ODT, DDR_DRSTB => processing_system7_0_DDR_DRSTB, DDR_DQ => processing_system7_0_DDR_DQ, DDR_DM => processing_system7_0_DDR_DM, DDR_DQS => processing_system7_0_DDR_DQS, DDR_DQS_n => processing_system7_0_DDR_DQS_n, DDR_VRN => processing_system7_0_DDR_VRN, DDR_VRP => processing_system7_0_DDR_VRP, PS_SRSTB => processing_system7_0_PS_SRSTB, PS_CLK => processing_system7_0_PS_CLK, PS_PORB => processing_system7_0_PS_PORB, IRQ_P2F_DMAC_ABORT => open, IRQ_P2F_DMAC0 => open, IRQ_P2F_DMAC1 => open, IRQ_P2F_DMAC2 => open, IRQ_P2F_DMAC3 => open, IRQ_P2F_DMAC4 => open, IRQ_P2F_DMAC5 => open, IRQ_P2F_DMAC6 => open, IRQ_P2F_DMAC7 => open, IRQ_P2F_SMC => open, IRQ_P2F_QSPI => open, IRQ_P2F_CTI => open, IRQ_P2F_GPIO => open, IRQ_P2F_USB0 => open, IRQ_P2F_ENET0 => open, IRQ_P2F_ENET_WAKE0 => open, IRQ_P2F_SDIO0 => open, IRQ_P2F_I2C0 => open, IRQ_P2F_SPI0 => open, IRQ_P2F_UART0 => open, IRQ_P2F_CAN0 => open, IRQ_P2F_USB1 => open, IRQ_P2F_ENET1 => open, IRQ_P2F_ENET_WAKE1 => open, IRQ_P2F_SDIO1 => open, IRQ_P2F_I2C1 => open, IRQ_P2F_SPI1 => open, IRQ_P2F_UART1 => open, IRQ_P2F_CAN1 => open ); fmc_imageon_iic_0 : system_fmc_imageon_iic_0_wrapper port map ( S_AXI_ACLK => pgassign1(7), S_AXI_ARESETN => axi4lite_0_M_ARESETN(3), IIC2INTC_Irpt => open, S_AXI_AWADDR => axi4lite_0_M_AWADDR(104 downto 96), S_AXI_AWVALID => axi4lite_0_M_AWVALID(3), S_AXI_AWREADY => axi4lite_0_M_AWREADY(3), S_AXI_WDATA => axi4lite_0_M_WDATA(127 downto 96), S_AXI_WSTRB => axi4lite_0_M_WSTRB(15 downto 12), S_AXI_WVALID => axi4lite_0_M_WVALID(3), S_AXI_WREADY => axi4lite_0_M_WREADY(3), S_AXI_BRESP => axi4lite_0_M_BRESP(7 downto 6), S_AXI_BVALID => axi4lite_0_M_BVALID(3), S_AXI_BREADY => axi4lite_0_M_BREADY(3), S_AXI_ARADDR => axi4lite_0_M_ARADDR(104 downto 96), S_AXI_ARVALID => axi4lite_0_M_ARVALID(3), S_AXI_ARREADY => axi4lite_0_M_ARREADY(3), S_AXI_RDATA => axi4lite_0_M_RDATA(127 downto 96), S_AXI_RRESP => axi4lite_0_M_RRESP(7 downto 6), S_AXI_RVALID => axi4lite_0_M_RVALID(3), S_AXI_RREADY => axi4lite_0_M_RREADY(3), Sda_I => fmc_imageon_iic_0_Sda_I, Sda_O => fmc_imageon_iic_0_Sda_O, Sda_T => fmc_imageon_iic_0_Sda_T, Scl_I => fmc_imageon_iic_0_Scl_I, Scl_O => fmc_imageon_iic_0_Scl_O, Scl_T => fmc_imageon_iic_0_Scl_T, Gpo => fmc_imageon_iic_0_Gpo(0 to 0) ); fmc_imageon_hdmi_out_0 : system_fmc_imageon_hdmi_out_0_wrapper port map ( clk => fmc_imageon_video_clk1, reset => net_gnd0, oe => net_vcc0, embed_syncs => net_vcc0, audio_spdif => net_gnd0, xsvi_vblank_i => v_axi4s_vid_out_0_video_vblank, xsvi_hblank_i => v_axi4s_vid_out_0_video_hblank, xsvi_active_video_i => v_axi4s_vid_out_0_video_de, xsvi_video_data_i => v_axi4s_vid_out_0_video_data, io_hdmio_spdif => fmc_imageon_hdmi_out_0_io_hdmio_spdif, io_hdmio_video => fmc_imageon_hdmi_out_0_io_hdmio_video, io_hdmio_clk => fmc_imageon_hdmi_out_0_io_hdmio_clk, debug_o => open ); v_vid_in_axi4s_0 : system_v_vid_in_axi4s_0_wrapper port map ( vid_in_clk => net_fmc_imageon_hdmi_in_0_clk_pin, rst => net_gnd0, vid_de => fmc_imageon_hdmi_in_0_video_de, vid_vblank => fmc_imageon_hdmi_in_0_video_vblank, vid_hblank => fmc_imageon_hdmi_in_0_video_hblank, vid_vsync => net_gnd0, vid_hsync => net_gnd0, vid_data => fmc_imageon_hdmi_in_0_video_data, aclk => pgassign2(1), aresetn => net_vcc0, aclken => net_vcc0, m_axis_video_tdata => v_vid_in_axi4s_0_M_AXIS_VIDEO_tdata, m_axis_video_tvalid => v_vid_in_axi4s_0_M_AXIS_VIDEO_tvalid, m_axis_video_tready => v_vid_in_axi4s_0_M_AXIS_VIDEO_tready, m_axis_video_tuser => v_vid_in_axi4s_0_M_AXIS_VIDEO_tuser(0), m_axis_video_tlast => v_vid_in_axi4s_0_M_AXIS_VIDEO_tlast, vtd_active_video => v_vid_in_axi4s_0_VTIMING_OUT_active_video, vtd_vblank => v_vid_in_axi4s_0_VTIMING_OUT_vblank, vtd_hblank => v_vid_in_axi4s_0_VTIMING_OUT_hblank, vtd_vsync => v_vid_in_axi4s_0_VTIMING_OUT_vsync, vtd_hsync => v_vid_in_axi4s_0_VTIMING_OUT_hsync, wr_error => open, empty => open, axis_enable => net_vcc0 ); v_axi4s_vid_out_0 : system_v_axi4s_vid_out_0_wrapper port map ( aclk => pgassign2(1), rst => net_gnd0, aresetn => net_vcc0, aclken => net_vcc0, s_axis_video_tdata => axi_vdma_0_M_AXIS_MM2S_tdata, s_axis_video_tvalid => axi_vdma_0_M_AXIS_MM2S_tvalid, s_axis_video_tready => axi_vdma_0_M_AXIS_MM2S_tready, s_axis_video_tuser => axi_vdma_0_M_AXIS_MM2S_tuser(0), s_axis_video_tlast => axi_vdma_0_M_AXIS_MM2S_tlast, video_out_clk => fmc_imageon_video_clk1, video_de => v_axi4s_vid_out_0_video_de, video_vsync => open, video_hsync => open, video_vblank => v_axi4s_vid_out_0_video_vblank, video_hblank => v_axi4s_vid_out_0_video_hblank, video_data => v_axi4s_vid_out_0_video_data, vtg_vsync => v_tc_vid_out_0_VTIMING_OUT_vsync, vtg_hsync => v_tc_vid_out_0_VTIMING_OUT_hsync, vtg_vblank => v_tc_vid_out_0_VTIMING_OUT_vblank, vtg_hblank => v_tc_vid_out_0_VTIMING_OUT_hblank, vtg_act_vid => v_tc_vid_out_0_VTIMING_OUT_active_video, vtg_ce => v_axi4s_vid_out_0_vtg_ce, vtg_fsync => open, locked => open, wr_error => open, empty => open ); axi_vdma_0 : system_axi_vdma_0_wrapper port map ( s_axi_lite_aclk => pgassign1(7), m_axi_sg_aclk => net_gnd0, m_axi_mm2s_aclk => pgassign2(1), m_axi_s2mm_aclk => pgassign2(1), m_axis_mm2s_aclk => pgassign2(1), s_axis_s2mm_aclk => pgassign2(1), axi_resetn => axi4lite_0_M_ARESETN(4), s_axi_lite_awvalid => axi4lite_0_M_AWVALID(4), s_axi_lite_awready => axi4lite_0_M_AWREADY(4), s_axi_lite_awaddr => axi4lite_0_M_AWADDR(136 downto 128), s_axi_lite_wvalid => axi4lite_0_M_WVALID(4), s_axi_lite_wready => axi4lite_0_M_WREADY(4), s_axi_lite_wdata => axi4lite_0_M_WDATA(159 downto 128), s_axi_lite_bresp => axi4lite_0_M_BRESP(9 downto 8), s_axi_lite_bvalid => axi4lite_0_M_BVALID(4), s_axi_lite_bready => axi4lite_0_M_BREADY(4), s_axi_lite_arvalid => axi4lite_0_M_ARVALID(4), s_axi_lite_arready => axi4lite_0_M_ARREADY(4), s_axi_lite_araddr => axi4lite_0_M_ARADDR(136 downto 128), s_axi_lite_rvalid => axi4lite_0_M_RVALID(4), s_axi_lite_rready => axi4lite_0_M_RREADY(4), s_axi_lite_rdata => axi4lite_0_M_RDATA(159 downto 128), s_axi_lite_rresp => axi4lite_0_M_RRESP(9 downto 8), m_axi_sg_araddr => open, m_axi_sg_arlen => open, m_axi_sg_arsize => open, m_axi_sg_arburst => open, m_axi_sg_arprot => open, m_axi_sg_arcache => open, m_axi_sg_arvalid => open, m_axi_sg_arready => net_gnd0, m_axi_sg_rdata => net_gnd32, m_axi_sg_rresp => net_gnd2, m_axi_sg_rlast => net_gnd0, m_axi_sg_rvalid => net_gnd0, m_axi_sg_rready => open, m_axi_mm2s_araddr => axi_interconnect_1_S_ARADDR(31 downto 0), m_axi_mm2s_arlen => axi_interconnect_1_S_ARLEN(7 downto 0), m_axi_mm2s_arsize => axi_interconnect_1_S_ARSIZE(2 downto 0), m_axi_mm2s_arburst => axi_interconnect_1_S_ARBURST(1 downto 0), m_axi_mm2s_arprot => axi_interconnect_1_S_ARPROT(2 downto 0), m_axi_mm2s_arcache => axi_interconnect_1_S_ARCACHE(3 downto 0), m_axi_mm2s_arvalid => axi_interconnect_1_S_ARVALID(0), m_axi_mm2s_arready => axi_interconnect_1_S_ARREADY(0), m_axi_mm2s_rdata => axi_interconnect_1_S_RDATA(63 downto 0), m_axi_mm2s_rresp => axi_interconnect_1_S_RRESP(1 downto 0), m_axi_mm2s_rlast => axi_interconnect_1_S_RLAST(0), m_axi_mm2s_rvalid => axi_interconnect_1_S_RVALID(0), m_axi_mm2s_rready => axi_interconnect_1_S_RREADY(0), mm2s_prmry_reset_out_n => open, m_axis_mm2s_tdata => axi_vdma_0_M_AXIS_MM2S_tdata, m_axis_mm2s_tkeep => open, m_axis_mm2s_tvalid => axi_vdma_0_M_AXIS_MM2S_tvalid, m_axis_mm2s_tready => axi_vdma_0_M_AXIS_MM2S_tready, m_axis_mm2s_tlast => axi_vdma_0_M_AXIS_MM2S_tlast, m_axis_mm2s_tuser => axi_vdma_0_M_AXIS_MM2S_tuser(0 to 0), m_axi_s2mm_awaddr => axi_interconnect_1_S_AWADDR(63 downto 32), m_axi_s2mm_awlen => axi_interconnect_1_S_AWLEN(15 downto 8), m_axi_s2mm_awsize => axi_interconnect_1_S_AWSIZE(5 downto 3), m_axi_s2mm_awburst => axi_interconnect_1_S_AWBURST(3 downto 2), m_axi_s2mm_awprot => axi_interconnect_1_S_AWPROT(5 downto 3), m_axi_s2mm_awcache => axi_interconnect_1_S_AWCACHE(7 downto 4), m_axi_s2mm_awvalid => axi_interconnect_1_S_AWVALID(1), m_axi_s2mm_awready => axi_interconnect_1_S_AWREADY(1), m_axi_s2mm_wdata => axi_interconnect_1_S_WDATA(127 downto 64), m_axi_s2mm_wstrb => axi_interconnect_1_S_WSTRB(15 downto 8), m_axi_s2mm_wlast => axi_interconnect_1_S_WLAST(1), m_axi_s2mm_wvalid => axi_interconnect_1_S_WVALID(1), m_axi_s2mm_wready => axi_interconnect_1_S_WREADY(1), m_axi_s2mm_bresp => axi_interconnect_1_S_BRESP(3 downto 2), m_axi_s2mm_bvalid => axi_interconnect_1_S_BVALID(1), m_axi_s2mm_bready => axi_interconnect_1_S_BREADY(1), s2mm_prmry_reset_out_n => open, s_axis_s2mm_tdata => v_vid_in_axi4s_0_M_AXIS_VIDEO_tdata, s_axis_s2mm_tkeep => net_vcc2, s_axis_s2mm_tvalid => v_vid_in_axi4s_0_M_AXIS_VIDEO_tvalid, s_axis_s2mm_tready => v_vid_in_axi4s_0_M_AXIS_VIDEO_tready, s_axis_s2mm_tlast => v_vid_in_axi4s_0_M_AXIS_VIDEO_tlast, s_axis_s2mm_tuser => v_vid_in_axi4s_0_M_AXIS_VIDEO_tuser(0 to 0), mm2s_fsync => net_gnd0, mm2s_frame_ptr_in => net_gnd6, mm2s_frame_ptr_out => open, mm2s_fsync_out => open, mm2s_prmtr_update => open, mm2s_buffer_empty => open, mm2s_buffer_almost_empty => open, s2mm_fsync => net_gnd0, s2mm_frame_ptr_in => net_gnd6, s2mm_frame_ptr_out => open, s2mm_fsync_out => open, s2mm_buffer_full => open, s2mm_buffer_almost_full => open, s2mm_prmtr_update => open, mm2s_introut => open, s2mm_introut => open, axi_vdma_tstvec => open ); axi_interconnect_1 : system_axi_interconnect_1_wrapper port map ( INTERCONNECT_ACLK => pgassign2(1), INTERCONNECT_ARESETN => processing_system7_0_FCLK_RESET0_N_0, S_AXI_ARESET_OUT_N => open, M_AXI_ARESET_OUT_N => open, IRQ => open, S_AXI_ACLK => pgassign2, S_AXI_AWID => net_gnd2, S_AXI_AWADDR => axi_interconnect_1_S_AWADDR, S_AXI_AWLEN => axi_interconnect_1_S_AWLEN, S_AXI_AWSIZE => axi_interconnect_1_S_AWSIZE, S_AXI_AWBURST => axi_interconnect_1_S_AWBURST, S_AXI_AWLOCK => net_gnd4, S_AXI_AWCACHE => axi_interconnect_1_S_AWCACHE, S_AXI_AWPROT => axi_interconnect_1_S_AWPROT, S_AXI_AWQOS => net_gnd8, S_AXI_AWUSER => net_gnd2, S_AXI_AWVALID => axi_interconnect_1_S_AWVALID, S_AXI_AWREADY => axi_interconnect_1_S_AWREADY, S_AXI_WID => net_gnd2, S_AXI_WDATA => axi_interconnect_1_S_WDATA, S_AXI_WSTRB => axi_interconnect_1_S_WSTRB, S_AXI_WLAST => axi_interconnect_1_S_WLAST, S_AXI_WUSER => net_gnd2, S_AXI_WVALID => axi_interconnect_1_S_WVALID, S_AXI_WREADY => axi_interconnect_1_S_WREADY, S_AXI_BID => open, S_AXI_BRESP => axi_interconnect_1_S_BRESP, S_AXI_BUSER => open, S_AXI_BVALID => axi_interconnect_1_S_BVALID, S_AXI_BREADY => axi_interconnect_1_S_BREADY, S_AXI_ARID => net_gnd2, S_AXI_ARADDR => axi_interconnect_1_S_ARADDR, S_AXI_ARLEN => axi_interconnect_1_S_ARLEN, S_AXI_ARSIZE => axi_interconnect_1_S_ARSIZE, S_AXI_ARBURST => axi_interconnect_1_S_ARBURST, S_AXI_ARLOCK => net_gnd4, S_AXI_ARCACHE => axi_interconnect_1_S_ARCACHE, S_AXI_ARPROT => axi_interconnect_1_S_ARPROT, S_AXI_ARQOS => net_gnd8, S_AXI_ARUSER => net_gnd2, S_AXI_ARVALID => axi_interconnect_1_S_ARVALID, S_AXI_ARREADY => axi_interconnect_1_S_ARREADY, S_AXI_RID => open, S_AXI_RDATA => axi_interconnect_1_S_RDATA, S_AXI_RRESP => axi_interconnect_1_S_RRESP, S_AXI_RLAST => axi_interconnect_1_S_RLAST, S_AXI_RUSER => open, S_AXI_RVALID => axi_interconnect_1_S_RVALID, S_AXI_RREADY => axi_interconnect_1_S_RREADY, M_AXI_ACLK => pgassign2(1 downto 1), M_AXI_AWID => axi_interconnect_1_M_AWID(0 to 0), M_AXI_AWADDR => axi_interconnect_1_M_AWADDR, M_AXI_AWLEN => axi_interconnect_1_M_AWLEN, M_AXI_AWSIZE => axi_interconnect_1_M_AWSIZE, M_AXI_AWBURST => axi_interconnect_1_M_AWBURST, M_AXI_AWLOCK => axi_interconnect_1_M_AWLOCK, M_AXI_AWCACHE => axi_interconnect_1_M_AWCACHE, M_AXI_AWPROT => axi_interconnect_1_M_AWPROT, M_AXI_AWREGION => open, M_AXI_AWQOS => axi_interconnect_1_M_AWQOS, M_AXI_AWUSER => open, M_AXI_AWVALID => axi_interconnect_1_M_AWVALID(0 to 0), M_AXI_AWREADY => axi_interconnect_1_M_AWREADY(0 to 0), M_AXI_WID => axi_interconnect_1_M_WID(0 to 0), M_AXI_WDATA => axi_interconnect_1_M_WDATA, M_AXI_WSTRB => axi_interconnect_1_M_WSTRB, M_AXI_WLAST => axi_interconnect_1_M_WLAST(0 to 0), M_AXI_WUSER => open, M_AXI_WVALID => axi_interconnect_1_M_WVALID(0 to 0), M_AXI_WREADY => axi_interconnect_1_M_WREADY(0 to 0), M_AXI_BID => axi_interconnect_1_M_BID(0 to 0), M_AXI_BRESP => axi_interconnect_1_M_BRESP, M_AXI_BUSER => net_gnd1(0 to 0), M_AXI_BVALID => axi_interconnect_1_M_BVALID(0 to 0), M_AXI_BREADY => axi_interconnect_1_M_BREADY(0 to 0), M_AXI_ARID => axi_interconnect_1_M_ARID(0 to 0), M_AXI_ARADDR => axi_interconnect_1_M_ARADDR, M_AXI_ARLEN => axi_interconnect_1_M_ARLEN, M_AXI_ARSIZE => axi_interconnect_1_M_ARSIZE, M_AXI_ARBURST => axi_interconnect_1_M_ARBURST, M_AXI_ARLOCK => axi_interconnect_1_M_ARLOCK, M_AXI_ARCACHE => axi_interconnect_1_M_ARCACHE, M_AXI_ARPROT => axi_interconnect_1_M_ARPROT, M_AXI_ARREGION => open, M_AXI_ARQOS => axi_interconnect_1_M_ARQOS, M_AXI_ARUSER => open, M_AXI_ARVALID => axi_interconnect_1_M_ARVALID(0 to 0), M_AXI_ARREADY => axi_interconnect_1_M_ARREADY(0 to 0), M_AXI_RID => axi_interconnect_1_M_RID(0 to 0), M_AXI_RDATA => axi_interconnect_1_M_RDATA, M_AXI_RRESP => axi_interconnect_1_M_RRESP, M_AXI_RLAST => axi_interconnect_1_M_RLAST(0 to 0), M_AXI_RUSER => net_gnd1(0 to 0), M_AXI_RVALID => axi_interconnect_1_M_RVALID(0 to 0), M_AXI_RREADY => axi_interconnect_1_M_RREADY(0 to 0), S_AXI_CTRL_AWADDR => net_gnd32, S_AXI_CTRL_AWVALID => net_gnd0, S_AXI_CTRL_AWREADY => open, S_AXI_CTRL_WDATA => net_gnd32, S_AXI_CTRL_WVALID => net_gnd0, S_AXI_CTRL_WREADY => open, S_AXI_CTRL_BRESP => open, S_AXI_CTRL_BVALID => open, S_AXI_CTRL_BREADY => net_gnd0, S_AXI_CTRL_ARADDR => net_gnd32, S_AXI_CTRL_ARVALID => net_gnd0, S_AXI_CTRL_ARREADY => open, S_AXI_CTRL_RDATA => open, S_AXI_CTRL_RRESP => open, S_AXI_CTRL_RVALID => open, S_AXI_CTRL_RREADY => net_gnd0, INTERCONNECT_ARESET_OUT_N => open, DEBUG_AW_TRANS_SEQ => open, DEBUG_AW_ARB_GRANT => open, DEBUG_AR_TRANS_SEQ => open, DEBUG_AR_ARB_GRANT => open, DEBUG_AW_TRANS_QUAL => open, DEBUG_AW_ACCEPT_CNT => open, DEBUG_AW_ACTIVE_THREAD => open, DEBUG_AW_ACTIVE_TARGET => open, DEBUG_AW_ACTIVE_REGION => open, DEBUG_AW_ERROR => open, DEBUG_AW_TARGET => open, DEBUG_AR_TRANS_QUAL => open, DEBUG_AR_ACCEPT_CNT => open, DEBUG_AR_ACTIVE_THREAD => open, DEBUG_AR_ACTIVE_TARGET => open, DEBUG_AR_ACTIVE_REGION => open, DEBUG_AR_ERROR => open, DEBUG_AR_TARGET => open, DEBUG_B_TRANS_SEQ => open, DEBUG_R_BEAT_CNT => open, DEBUG_R_TRANS_SEQ => open, DEBUG_AW_ISSUING_CNT => open, DEBUG_AR_ISSUING_CNT => open, DEBUG_W_BEAT_CNT => open, DEBUG_W_TRANS_SEQ => open, DEBUG_BID_TARGET => open, DEBUG_BID_ERROR => open, DEBUG_RID_TARGET => open, DEBUG_RID_ERROR => open, DEBUG_SR_SC_ARADDR => open, DEBUG_SR_SC_ARADDRCONTROL => open, DEBUG_SR_SC_AWADDR => open, DEBUG_SR_SC_AWADDRCONTROL => open, DEBUG_SR_SC_BRESP => open, DEBUG_SR_SC_RDATA => open, DEBUG_SR_SC_RDATACONTROL => open, DEBUG_SR_SC_WDATA => open, DEBUG_SR_SC_WDATACONTROL => open, DEBUG_SC_SF_ARADDR => open, DEBUG_SC_SF_ARADDRCONTROL => open, DEBUG_SC_SF_AWADDR => open, DEBUG_SC_SF_AWADDRCONTROL => open, DEBUG_SC_SF_BRESP => open, DEBUG_SC_SF_RDATA => open, DEBUG_SC_SF_RDATACONTROL => open, DEBUG_SC_SF_WDATA => open, DEBUG_SC_SF_WDATACONTROL => open, DEBUG_SF_CB_ARADDR => open, DEBUG_SF_CB_ARADDRCONTROL => open, DEBUG_SF_CB_AWADDR => open, DEBUG_SF_CB_AWADDRCONTROL => open, DEBUG_SF_CB_BRESP => open, DEBUG_SF_CB_RDATA => open, DEBUG_SF_CB_RDATACONTROL => open, DEBUG_SF_CB_WDATA => open, DEBUG_SF_CB_WDATACONTROL => open, DEBUG_CB_MF_ARADDR => open, DEBUG_CB_MF_ARADDRCONTROL => open, DEBUG_CB_MF_AWADDR => open, DEBUG_CB_MF_AWADDRCONTROL => open, DEBUG_CB_MF_BRESP => open, DEBUG_CB_MF_RDATA => open, DEBUG_CB_MF_RDATACONTROL => open, DEBUG_CB_MF_WDATA => open, DEBUG_CB_MF_WDATACONTROL => open, DEBUG_MF_MC_ARADDR => open, DEBUG_MF_MC_ARADDRCONTROL => open, DEBUG_MF_MC_AWADDR => open, DEBUG_MF_MC_AWADDRCONTROL => open, DEBUG_MF_MC_BRESP => open, DEBUG_MF_MC_RDATA => open, DEBUG_MF_MC_RDATACONTROL => open, DEBUG_MF_MC_WDATA => open, DEBUG_MF_MC_WDATACONTROL => open, DEBUG_MC_MP_ARADDR => open, DEBUG_MC_MP_ARADDRCONTROL => open, DEBUG_MC_MP_AWADDR => open, DEBUG_MC_MP_AWADDRCONTROL => open, DEBUG_MC_MP_BRESP => open, DEBUG_MC_MP_RDATA => open, DEBUG_MC_MP_RDATACONTROL => open, DEBUG_MC_MP_WDATA => open, DEBUG_MC_MP_WDATACONTROL => open, DEBUG_MP_MR_ARADDR => open, DEBUG_MP_MR_ARADDRCONTROL => open, DEBUG_MP_MR_AWADDR => open, DEBUG_MP_MR_AWADDRCONTROL => open, DEBUG_MP_MR_BRESP => open, DEBUG_MP_MR_RDATA => open, DEBUG_MP_MR_RDATACONTROL => open, DEBUG_MP_MR_WDATA => open, DEBUG_MP_MR_WDATACONTROL => open ); led_pwm_0 : system_led_pwm_0_wrapper port map ( led0 => led_pwm_0_led0, led1 => led_pwm_0_led1, led2 => led_pwm_0_led2, led3 => led_pwm_0_led3, led4 => led_pwm_0_led4, led5 => led_pwm_0_led5, led6 => led_pwm_0_led6, led7 => led_pwm_0_led7, led8 => led_pwm_0_led8, led9 => led_pwm_0_led9, led10 => led_pwm_0_led10, led11 => led_pwm_0_led11, led12 => led_pwm_0_led12, led13 => led_pwm_0_led13, led14 => led_pwm_0_led14, led15 => led_pwm_0_led15, led16 => led_pwm_0_led16, led17 => led_pwm_0_led17, led18 => led_pwm_0_led18, led19 => led_pwm_0_led19, led20 => led_pwm_0_led20, led21 => led_pwm_0_led21, led22 => led_pwm_0_led22, led23 => led_pwm_0_led23, led24 => led_pwm_0_led24, led25 => led_pwm_0_led25, led26 => led_pwm_0_led26, led27 => led_pwm_0_led27, led28 => led_pwm_0_led28, led29 => led_pwm_0_led29, S_AXI_ACLK => pgassign1(7), S_AXI_ARESETN => axi4lite_0_M_ARESETN(5), S_AXI_AWADDR => axi4lite_0_M_AWADDR(191 downto 160), S_AXI_AWVALID => axi4lite_0_M_AWVALID(5), S_AXI_WDATA => axi4lite_0_M_WDATA(191 downto 160), S_AXI_WSTRB => axi4lite_0_M_WSTRB(23 downto 20), S_AXI_WVALID => axi4lite_0_M_WVALID(5), S_AXI_BREADY => axi4lite_0_M_BREADY(5), S_AXI_ARADDR => axi4lite_0_M_ARADDR(191 downto 160), S_AXI_ARVALID => axi4lite_0_M_ARVALID(5), S_AXI_RREADY => axi4lite_0_M_RREADY(5), S_AXI_ARREADY => axi4lite_0_M_ARREADY(5), S_AXI_RDATA => axi4lite_0_M_RDATA(191 downto 160), S_AXI_RRESP => axi4lite_0_M_RRESP(11 downto 10), S_AXI_RVALID => axi4lite_0_M_RVALID(5), S_AXI_WREADY => axi4lite_0_M_WREADY(5), S_AXI_BRESP => axi4lite_0_M_BRESP(11 downto 10), S_AXI_BVALID => axi4lite_0_M_BVALID(5), S_AXI_AWREADY => axi4lite_0_M_AWREADY(5) ); fmc_imageon_hdmi_in_0 : system_fmc_imageon_hdmi_in_0_wrapper port map ( clk => net_fmc_imageon_hdmi_in_0_clk_pin, io_hdmii_spdif => net_fmc_imageon_hdmi_in_0_io_hdmii_spdif_pin, io_hdmii_video => net_fmc_imageon_hdmi_in_0_io_hdmii_video_pin, video_vblank => fmc_imageon_hdmi_in_0_video_vblank, video_hblank => fmc_imageon_hdmi_in_0_video_hblank, video_de => fmc_imageon_hdmi_in_0_video_de, video_data => fmc_imageon_hdmi_in_0_video_data, audio_spdif => open, debug_o => open ); v_tc_vid_in_0 : system_v_tc_vid_in_0_wrapper port map ( s_axi_aclk => pgassign1(7), s_axi_aresetn => axi4lite_0_M_ARESETN(6), s_axi_aclken => net_vcc0, s_axi_awaddr => axi4lite_0_M_AWADDR(200 downto 192), s_axi_awvalid => axi4lite_0_M_AWVALID(6), s_axi_awready => axi4lite_0_M_AWREADY(6), s_axi_wdata => axi4lite_0_M_WDATA(223 downto 192), s_axi_wstrb => axi4lite_0_M_WSTRB(27 downto 24), s_axi_wvalid => axi4lite_0_M_WVALID(6), s_axi_wready => axi4lite_0_M_WREADY(6), s_axi_bresp => axi4lite_0_M_BRESP(13 downto 12), s_axi_bvalid => axi4lite_0_M_BVALID(6), s_axi_bready => axi4lite_0_M_BREADY(6), s_axi_araddr => axi4lite_0_M_ARADDR(200 downto 192), s_axi_arvalid => axi4lite_0_M_ARVALID(6), s_axi_arready => axi4lite_0_M_ARREADY(6), s_axi_rdata => axi4lite_0_M_RDATA(223 downto 192), s_axi_rresp => axi4lite_0_M_RRESP(13 downto 12), s_axi_rvalid => axi4lite_0_M_RVALID(6), s_axi_rready => axi4lite_0_M_RREADY(6), irq => open, intc_if => open, clk => net_fmc_imageon_hdmi_in_0_clk_pin, resetn => net_vcc0, clken => net_vcc0, det_clken => net_vcc0, gen_clken => net_vcc0, fsync_in => net_gnd0, vblank_in => v_vid_in_axi4s_0_VTIMING_OUT_vblank, vsync_in => v_vid_in_axi4s_0_VTIMING_OUT_vsync, hblank_in => v_vid_in_axi4s_0_VTIMING_OUT_hblank, hsync_in => v_vid_in_axi4s_0_VTIMING_OUT_hsync, active_video_in => v_vid_in_axi4s_0_VTIMING_OUT_active_video, active_chroma_in => net_gnd0, vblank_out => open, vsync_out => open, hblank_out => open, hsync_out => open, active_video_out => open, active_chroma_out => open, fsync_out => open ); v_tc_vid_out_0 : system_v_tc_vid_out_0_wrapper port map ( s_axi_aclk => pgassign1(7), s_axi_aresetn => axi4lite_0_M_ARESETN(7), s_axi_aclken => net_vcc0, s_axi_awaddr => axi4lite_0_M_AWADDR(232 downto 224), s_axi_awvalid => axi4lite_0_M_AWVALID(7), s_axi_awready => axi4lite_0_M_AWREADY(7), s_axi_wdata => axi4lite_0_M_WDATA(255 downto 224), s_axi_wstrb => axi4lite_0_M_WSTRB(31 downto 28), s_axi_wvalid => axi4lite_0_M_WVALID(7), s_axi_wready => axi4lite_0_M_WREADY(7), s_axi_bresp => axi4lite_0_M_BRESP(15 downto 14), s_axi_bvalid => axi4lite_0_M_BVALID(7), s_axi_bready => axi4lite_0_M_BREADY(7), s_axi_araddr => axi4lite_0_M_ARADDR(232 downto 224), s_axi_arvalid => axi4lite_0_M_ARVALID(7), s_axi_arready => axi4lite_0_M_ARREADY(7), s_axi_rdata => axi4lite_0_M_RDATA(255 downto 224), s_axi_rresp => axi4lite_0_M_RRESP(15 downto 14), s_axi_rvalid => axi4lite_0_M_RVALID(7), s_axi_rready => axi4lite_0_M_RREADY(7), irq => open, intc_if => open, clk => fmc_imageon_video_clk1, resetn => net_vcc0, clken => net_vcc0, det_clken => net_vcc0, gen_clken => v_axi4s_vid_out_0_vtg_ce, fsync_in => net_gnd0, vblank_in => net_gnd0, vsync_in => net_gnd0, hblank_in => net_gnd0, hsync_in => net_gnd0, active_video_in => net_gnd0, active_chroma_in => net_gnd0, vblank_out => v_tc_vid_out_0_VTIMING_OUT_vblank, vsync_out => v_tc_vid_out_0_VTIMING_OUT_vsync, hblank_out => v_tc_vid_out_0_VTIMING_OUT_hblank, hsync_out => v_tc_vid_out_0_VTIMING_OUT_hsync, active_video_out => v_tc_vid_out_0_VTIMING_OUT_active_video, active_chroma_out => open, fsync_out => open ); iobuf_0 : IOBUF port map ( I => SWs_8Bits_TRI_IO_O(7), IO => SWs_8Bits_TRI_IO(7), O => SWs_8Bits_TRI_IO_I(7), T => SWs_8Bits_TRI_IO_T(7) ); iobuf_1 : IOBUF port map ( I => SWs_8Bits_TRI_IO_O(6), IO => SWs_8Bits_TRI_IO(6), O => SWs_8Bits_TRI_IO_I(6), T => SWs_8Bits_TRI_IO_T(6) ); iobuf_2 : IOBUF port map ( I => SWs_8Bits_TRI_IO_O(5), IO => SWs_8Bits_TRI_IO(5), O => SWs_8Bits_TRI_IO_I(5), T => SWs_8Bits_TRI_IO_T(5) ); iobuf_3 : IOBUF port map ( I => SWs_8Bits_TRI_IO_O(4), IO => SWs_8Bits_TRI_IO(4), O => SWs_8Bits_TRI_IO_I(4), T => SWs_8Bits_TRI_IO_T(4) ); iobuf_4 : IOBUF port map ( I => SWs_8Bits_TRI_IO_O(3), IO => SWs_8Bits_TRI_IO(3), O => SWs_8Bits_TRI_IO_I(3), T => SWs_8Bits_TRI_IO_T(3) ); iobuf_5 : IOBUF port map ( I => SWs_8Bits_TRI_IO_O(2), IO => SWs_8Bits_TRI_IO(2), O => SWs_8Bits_TRI_IO_I(2), T => SWs_8Bits_TRI_IO_T(2) ); iobuf_6 : IOBUF port map ( I => SWs_8Bits_TRI_IO_O(1), IO => SWs_8Bits_TRI_IO(1), O => SWs_8Bits_TRI_IO_I(1), T => SWs_8Bits_TRI_IO_T(1) ); iobuf_7 : IOBUF port map ( I => SWs_8Bits_TRI_IO_O(0), IO => SWs_8Bits_TRI_IO(0), O => SWs_8Bits_TRI_IO_I(0), T => SWs_8Bits_TRI_IO_T(0) ); iobuf_8 : IOBUF port map ( I => BTNs_5Bits_TRI_IO_O(4), IO => BTNs_5Bits_TRI_IO(4), O => BTNs_5Bits_TRI_IO_I(4), T => BTNs_5Bits_TRI_IO_T(4) ); iobuf_9 : IOBUF port map ( I => BTNs_5Bits_TRI_IO_O(3), IO => BTNs_5Bits_TRI_IO(3), O => BTNs_5Bits_TRI_IO_I(3), T => BTNs_5Bits_TRI_IO_T(3) ); iobuf_10 : IOBUF port map ( I => BTNs_5Bits_TRI_IO_O(2), IO => BTNs_5Bits_TRI_IO(2), O => BTNs_5Bits_TRI_IO_I(2), T => BTNs_5Bits_TRI_IO_T(2) ); iobuf_11 : IOBUF port map ( I => BTNs_5Bits_TRI_IO_O(1), IO => BTNs_5Bits_TRI_IO(1), O => BTNs_5Bits_TRI_IO_I(1), T => BTNs_5Bits_TRI_IO_T(1) ); iobuf_12 : IOBUF port map ( I => BTNs_5Bits_TRI_IO_O(0), IO => BTNs_5Bits_TRI_IO(0), O => BTNs_5Bits_TRI_IO_I(0), T => BTNs_5Bits_TRI_IO_T(0) ); iobuf_13 : IOBUF port map ( I => fmc_imageon_iic_0_Sda_O, IO => fmc_imageon_iic_0_Sda_pin, O => fmc_imageon_iic_0_Sda_I, T => fmc_imageon_iic_0_Sda_T ); iobuf_14 : IOBUF port map ( I => fmc_imageon_iic_0_Scl_O, IO => fmc_imageon_iic_0_Scl_pin, O => fmc_imageon_iic_0_Scl_I, T => fmc_imageon_iic_0_Scl_T ); end architecture STRUCTURE;
library verilog; use verilog.vl_types.all; entity usb_system_mm_interconnect_0_router_003_default_decode is generic( DEFAULT_CHANNEL : integer := 0; \DEFAULT_WR_CHANNEL\: integer := -1; \DEFAULT_RD_CHANNEL\: integer := -1; DEFAULT_DESTID : integer := 0 ); port( default_destination_id: out vl_logic_vector(2 downto 0); default_wr_channel: out vl_logic_vector(5 downto 0); default_rd_channel: out vl_logic_vector(5 downto 0); default_src_channel: out vl_logic_vector(5 downto 0) ); attribute mti_svvh_generic_type : integer; attribute mti_svvh_generic_type of DEFAULT_CHANNEL : constant is 1; attribute mti_svvh_generic_type of \DEFAULT_WR_CHANNEL\ : constant is 1; attribute mti_svvh_generic_type of \DEFAULT_RD_CHANNEL\ : constant is 1; attribute mti_svvh_generic_type of DEFAULT_DESTID : constant is 1; end usb_system_mm_interconnect_0_router_003_default_decode;
-- ------------------------------------------------------------- -- -- File Name: hdl_prj/hdlsrc/hdl_ofdm_tx/TWDLROM_3_11.vhd -- Created: 2018-02-27 13:25:18 -- -- Generated by MATLAB 9.3 and HDL Coder 3.11 -- -- ------------------------------------------------------------- -- ------------------------------------------------------------- -- -- Module: TWDLROM_3_11 -- Source Path: hdl_ofdm_tx/ifft/TWDLROM_3_11 -- Hierarchy Level: 2 -- -- ------------------------------------------------------------- LIBRARY IEEE; USE IEEE.std_logic_1164.ALL; USE IEEE.numeric_std.ALL; USE work.hdl_ofdm_tx_pkg.ALL; ENTITY TWDLROM_3_11 IS PORT( clk : IN std_logic; reset : IN std_logic; enb_1_16_0 : IN std_logic; dout_2_vld : IN std_logic; softReset : IN std_logic; twdl_3_11_re : OUT std_logic_vector(15 DOWNTO 0); -- sfix16_En14 twdl_3_11_im : OUT std_logic_vector(15 DOWNTO 0); -- sfix16_En14 twdl_3_11_vld : OUT std_logic ); END TWDLROM_3_11; ARCHITECTURE rtl OF TWDLROM_3_11 IS -- Constants CONSTANT Twiddle_re_table_data : vector_of_signed16(0 TO 1) := (to_signed(16#4000#, 16), to_signed(16#3B21#, 16)); -- sfix16 [2] CONSTANT Twiddle_im_table_data : vector_of_signed16(0 TO 1) := (to_signed(16#0000#, 16), to_signed(-16#187E#, 16)); -- sfix16 [2] -- Signals SIGNAL Radix22TwdlMapping_cnt : unsigned(1 DOWNTO 0); -- ufix2 SIGNAL Radix22TwdlMapping_phase : unsigned(1 DOWNTO 0); -- ufix2 SIGNAL Radix22TwdlMapping_octantReg1 : unsigned(2 DOWNTO 0); -- ufix3 SIGNAL Radix22TwdlMapping_twdlAddr_raw : unsigned(3 DOWNTO 0); -- ufix4 SIGNAL Radix22TwdlMapping_twdlAddrMap : std_logic; -- ufix1 SIGNAL Radix22TwdlMapping_twdl45Reg : std_logic; SIGNAL Radix22TwdlMapping_dvldReg1 : std_logic; SIGNAL Radix22TwdlMapping_dvldReg2 : std_logic; SIGNAL Radix22TwdlMapping_cnt_next : unsigned(1 DOWNTO 0); -- ufix2 SIGNAL Radix22TwdlMapping_phase_next : unsigned(1 DOWNTO 0); -- ufix2 SIGNAL Radix22TwdlMapping_octantReg1_next : unsigned(2 DOWNTO 0); -- ufix3 SIGNAL Radix22TwdlMapping_twdlAddr_raw_next : unsigned(3 DOWNTO 0); -- ufix4 SIGNAL Radix22TwdlMapping_twdlAddrMap_next : std_logic; -- ufix1 SIGNAL Radix22TwdlMapping_twdl45Reg_next : std_logic; SIGNAL Radix22TwdlMapping_dvldReg1_next : std_logic; SIGNAL Radix22TwdlMapping_dvldReg2_next : std_logic; SIGNAL twdlAddr : std_logic; -- ufix1 SIGNAL twdlAddrVld : std_logic; SIGNAL twdlOctant : unsigned(2 DOWNTO 0); -- ufix3 SIGNAL twdl45 : std_logic; SIGNAL Twiddle_re_cast : signed(31 DOWNTO 0); -- int32 SIGNAL twiddleS_re : signed(15 DOWNTO 0); -- sfix16_En14 SIGNAL twiddleReg_re : signed(15 DOWNTO 0); -- sfix16_En14 SIGNAL Twiddle_im_cast : signed(31 DOWNTO 0); -- int32 SIGNAL twiddleS_im : signed(15 DOWNTO 0); -- sfix16_En14 SIGNAL twiddleReg_im : signed(15 DOWNTO 0); -- sfix16_En14 SIGNAL twdlOctantReg : unsigned(2 DOWNTO 0); -- ufix3 SIGNAL twdl45Reg : std_logic; SIGNAL twdl_3_11_re_tmp : signed(15 DOWNTO 0); -- sfix16_En14 SIGNAL twdl_3_11_im_tmp : signed(15 DOWNTO 0); -- sfix16_En14 BEGIN -- Radix22TwdlMapping Radix22TwdlMapping_process : PROCESS (clk, reset) BEGIN IF reset = '1' THEN Radix22TwdlMapping_octantReg1 <= to_unsigned(16#0#, 3); Radix22TwdlMapping_twdlAddr_raw <= to_unsigned(16#0#, 4); Radix22TwdlMapping_twdlAddrMap <= '0'; Radix22TwdlMapping_twdl45Reg <= '0'; Radix22TwdlMapping_dvldReg1 <= '0'; Radix22TwdlMapping_dvldReg2 <= '0'; Radix22TwdlMapping_cnt <= to_unsigned(16#2#, 2); Radix22TwdlMapping_phase <= to_unsigned(16#2#, 2); ELSIF clk'EVENT AND clk = '1' THEN IF enb_1_16_0 = '1' THEN Radix22TwdlMapping_cnt <= Radix22TwdlMapping_cnt_next; Radix22TwdlMapping_phase <= Radix22TwdlMapping_phase_next; Radix22TwdlMapping_octantReg1 <= Radix22TwdlMapping_octantReg1_next; Radix22TwdlMapping_twdlAddr_raw <= Radix22TwdlMapping_twdlAddr_raw_next; Radix22TwdlMapping_twdlAddrMap <= Radix22TwdlMapping_twdlAddrMap_next; Radix22TwdlMapping_twdl45Reg <= Radix22TwdlMapping_twdl45Reg_next; Radix22TwdlMapping_dvldReg1 <= Radix22TwdlMapping_dvldReg1_next; Radix22TwdlMapping_dvldReg2 <= Radix22TwdlMapping_dvldReg2_next; END IF; END IF; END PROCESS Radix22TwdlMapping_process; Radix22TwdlMapping_output : PROCESS (Radix22TwdlMapping_cnt, Radix22TwdlMapping_phase, Radix22TwdlMapping_octantReg1, Radix22TwdlMapping_twdlAddr_raw, Radix22TwdlMapping_twdlAddrMap, Radix22TwdlMapping_twdl45Reg, Radix22TwdlMapping_dvldReg1, Radix22TwdlMapping_dvldReg2, dout_2_vld) VARIABLE octant : unsigned(2 DOWNTO 0); VARIABLE addr_cast : unsigned(3 DOWNTO 0); VARIABLE c : unsigned(1 DOWNTO 0); VARIABLE sub_cast : signed(9 DOWNTO 0); VARIABLE sub_temp : signed(9 DOWNTO 0); VARIABLE sub_cast_0 : signed(5 DOWNTO 0); VARIABLE sub_temp_0 : signed(5 DOWNTO 0); VARIABLE sub_cast_1 : signed(5 DOWNTO 0); VARIABLE sub_temp_1 : signed(5 DOWNTO 0); VARIABLE sub_cast_2 : signed(9 DOWNTO 0); VARIABLE sub_temp_2 : signed(9 DOWNTO 0); VARIABLE sub_cast_3 : signed(9 DOWNTO 0); VARIABLE sub_temp_3 : signed(9 DOWNTO 0); BEGIN Radix22TwdlMapping_cnt_next <= Radix22TwdlMapping_cnt; Radix22TwdlMapping_phase_next <= Radix22TwdlMapping_phase; Radix22TwdlMapping_twdlAddr_raw_next <= Radix22TwdlMapping_twdlAddr_raw; Radix22TwdlMapping_twdlAddrMap_next <= Radix22TwdlMapping_twdlAddrMap; Radix22TwdlMapping_twdl45Reg_next <= Radix22TwdlMapping_twdl45Reg; Radix22TwdlMapping_dvldReg2_next <= Radix22TwdlMapping_dvldReg1; Radix22TwdlMapping_dvldReg1_next <= dout_2_vld; CASE Radix22TwdlMapping_twdlAddr_raw IS WHEN "0010" => octant := to_unsigned(16#0#, 3); Radix22TwdlMapping_twdl45Reg_next <= '1'; WHEN "0100" => octant := to_unsigned(16#1#, 3); Radix22TwdlMapping_twdl45Reg_next <= '0'; WHEN "0110" => octant := to_unsigned(16#2#, 3); Radix22TwdlMapping_twdl45Reg_next <= '1'; WHEN "1000" => octant := to_unsigned(16#3#, 3); Radix22TwdlMapping_twdl45Reg_next <= '0'; WHEN "1010" => octant := to_unsigned(16#4#, 3); Radix22TwdlMapping_twdl45Reg_next <= '1'; WHEN OTHERS => octant := Radix22TwdlMapping_twdlAddr_raw(3 DOWNTO 1); Radix22TwdlMapping_twdl45Reg_next <= '0'; END CASE; Radix22TwdlMapping_octantReg1_next <= octant; CASE octant IS WHEN "000" => Radix22TwdlMapping_twdlAddrMap_next <= Radix22TwdlMapping_twdlAddr_raw(0); WHEN "001" => sub_cast_0 := signed(resize(Radix22TwdlMapping_twdlAddr_raw, 6)); sub_temp_0 := to_signed(16#04#, 6) - sub_cast_0; Radix22TwdlMapping_twdlAddrMap_next <= sub_temp_0(0); WHEN "010" => sub_cast_1 := signed(resize(Radix22TwdlMapping_twdlAddr_raw, 6)); sub_temp_1 := sub_cast_1 - to_signed(16#04#, 6); Radix22TwdlMapping_twdlAddrMap_next <= sub_temp_1(0); WHEN "011" => sub_cast_2 := signed(resize(Radix22TwdlMapping_twdlAddr_raw & '0', 10)); sub_temp_2 := to_signed(16#010#, 10) - sub_cast_2; Radix22TwdlMapping_twdlAddrMap_next <= sub_temp_2(1); WHEN "100" => sub_cast_3 := signed(resize(Radix22TwdlMapping_twdlAddr_raw & '0', 10)); sub_temp_3 := sub_cast_3 - to_signed(16#010#, 10); Radix22TwdlMapping_twdlAddrMap_next <= sub_temp_3(1); WHEN OTHERS => sub_cast := signed(resize(Radix22TwdlMapping_twdlAddr_raw & '0', 10)); sub_temp := to_signed(16#018#, 10) - sub_cast; Radix22TwdlMapping_twdlAddrMap_next <= sub_temp(1); END CASE; c := unsigned'(Radix22TwdlMapping_cnt(0) & Radix22TwdlMapping_cnt(1)); IF Radix22TwdlMapping_phase = to_unsigned(16#0#, 2) THEN Radix22TwdlMapping_twdlAddr_raw_next <= to_unsigned(16#0#, 4); ELSIF Radix22TwdlMapping_phase = to_unsigned(16#1#, 2) THEN Radix22TwdlMapping_twdlAddr_raw_next <= resize(c, 4); ELSIF Radix22TwdlMapping_phase = to_unsigned(16#2#, 2) THEN Radix22TwdlMapping_twdlAddr_raw_next <= resize(c, 4) sll 1; ELSE addr_cast := resize(c, 4); Radix22TwdlMapping_twdlAddr_raw_next <= (addr_cast sll 1) + addr_cast; END IF; IF dout_2_vld = '1' THEN Radix22TwdlMapping_cnt_next <= Radix22TwdlMapping_cnt + to_unsigned(16#000000004#, 2); END IF; twdlAddr <= Radix22TwdlMapping_twdlAddrMap; twdlAddrVld <= Radix22TwdlMapping_dvldReg2; twdlOctant <= Radix22TwdlMapping_octantReg1; twdl45 <= Radix22TwdlMapping_twdl45Reg; END PROCESS Radix22TwdlMapping_output; -- Twiddle ROM1 Twiddle_re_cast <= '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & twdlAddr; twiddleS_re <= Twiddle_re_table_data(to_integer(Twiddle_re_cast)); TWIDDLEROM_RE_process : PROCESS (clk, reset) BEGIN IF reset = '1' THEN twiddleReg_re <= to_signed(16#0000#, 16); ELSIF clk'EVENT AND clk = '1' THEN IF enb_1_16_0 = '1' THEN twiddleReg_re <= twiddleS_re; END IF; END IF; END PROCESS TWIDDLEROM_RE_process; -- Twiddle ROM2 Twiddle_im_cast <= '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & twdlAddr; twiddleS_im <= Twiddle_im_table_data(to_integer(Twiddle_im_cast)); TWIDDLEROM_IM_process : PROCESS (clk, reset) BEGIN IF reset = '1' THEN twiddleReg_im <= to_signed(16#0000#, 16); ELSIF clk'EVENT AND clk = '1' THEN IF enb_1_16_0 = '1' THEN twiddleReg_im <= twiddleS_im; END IF; END IF; END PROCESS TWIDDLEROM_IM_process; intdelay_process : PROCESS (clk, reset) BEGIN IF reset = '1' THEN twdlOctantReg <= to_unsigned(16#0#, 3); ELSIF clk'EVENT AND clk = '1' THEN IF enb_1_16_0 = '1' THEN twdlOctantReg <= twdlOctant; END IF; END IF; END PROCESS intdelay_process; intdelay_1_process : PROCESS (clk, reset) BEGIN IF reset = '1' THEN twdl45Reg <= '0'; ELSIF clk'EVENT AND clk = '1' THEN IF enb_1_16_0 = '1' THEN twdl45Reg <= twdl45; END IF; END IF; END PROCESS intdelay_1_process; -- Radix22TwdlOctCorr Radix22TwdlOctCorr_output : PROCESS (twiddleReg_re, twiddleReg_im, twdlOctantReg, twdl45Reg) VARIABLE twdlIn_re : signed(15 DOWNTO 0); VARIABLE twdlIn_im : signed(15 DOWNTO 0); VARIABLE cast : signed(16 DOWNTO 0); VARIABLE cast_0 : signed(16 DOWNTO 0); VARIABLE cast_1 : signed(16 DOWNTO 0); VARIABLE cast_2 : signed(16 DOWNTO 0); VARIABLE cast_3 : signed(16 DOWNTO 0); VARIABLE cast_4 : signed(16 DOWNTO 0); VARIABLE cast_5 : signed(16 DOWNTO 0); VARIABLE cast_6 : signed(16 DOWNTO 0); VARIABLE cast_7 : signed(16 DOWNTO 0); VARIABLE cast_8 : signed(16 DOWNTO 0); VARIABLE cast_9 : signed(16 DOWNTO 0); VARIABLE cast_10 : signed(16 DOWNTO 0); BEGIN twdlIn_re := twiddleReg_re; twdlIn_im := twiddleReg_im; IF twdl45Reg = '1' THEN CASE twdlOctantReg IS WHEN "000" => twdlIn_re := to_signed(16#2D41#, 16); twdlIn_im := to_signed(-16#2D41#, 16); WHEN "010" => twdlIn_re := to_signed(-16#2D41#, 16); twdlIn_im := to_signed(-16#2D41#, 16); WHEN "100" => twdlIn_re := to_signed(-16#2D41#, 16); twdlIn_im := to_signed(16#2D41#, 16); WHEN OTHERS => twdlIn_re := to_signed(16#2D41#, 16); twdlIn_im := to_signed(-16#2D41#, 16); END CASE; ELSE CASE twdlOctantReg IS WHEN "000" => NULL; WHEN "001" => cast := resize(twiddleReg_im, 17); cast_0 := - (cast); twdlIn_re := cast_0(15 DOWNTO 0); cast_5 := resize(twiddleReg_re, 17); cast_6 := - (cast_5); twdlIn_im := cast_6(15 DOWNTO 0); WHEN "010" => twdlIn_re := twiddleReg_im; cast_7 := resize(twiddleReg_re, 17); cast_8 := - (cast_7); twdlIn_im := cast_8(15 DOWNTO 0); WHEN "011" => cast_1 := resize(twiddleReg_re, 17); cast_2 := - (cast_1); twdlIn_re := cast_2(15 DOWNTO 0); twdlIn_im := twiddleReg_im; WHEN "100" => cast_3 := resize(twiddleReg_re, 17); cast_4 := - (cast_3); twdlIn_re := cast_4(15 DOWNTO 0); cast_9 := resize(twiddleReg_im, 17); cast_10 := - (cast_9); twdlIn_im := cast_10(15 DOWNTO 0); WHEN OTHERS => twdlIn_re := twiddleReg_im; twdlIn_im := twiddleReg_re; END CASE; END IF; twdl_3_11_re_tmp <= twdlIn_re; twdl_3_11_im_tmp <= twdlIn_im; END PROCESS Radix22TwdlOctCorr_output; twdl_3_11_re <= std_logic_vector(twdl_3_11_re_tmp); twdl_3_11_im <= std_logic_vector(twdl_3_11_im_tmp); intdelay_2_process : PROCESS (clk, reset) BEGIN IF reset = '1' THEN twdl_3_11_vld <= '0'; ELSIF clk'EVENT AND clk = '1' THEN IF enb_1_16_0 = '1' THEN twdl_3_11_vld <= twdlAddrVld; END IF; END IF; END PROCESS intdelay_2_process; END rtl;
-- ------------------------------------------------------------- -- -- Generated Architecture Declaration for struct of clkgen -- -- Generated -- by: wig -- on: Thu Feb 10 19:03:15 2005 -- cmd: H:/work/eclipse/MIX/mix_0.pl -strip -nodelta ../../bugver.xls -- -- !!! Do not edit this file! Autogenerated by MIX !!! -- $Author: wig $ -- $Id: clkgen-struct-a.vhd,v 1.2 2005/04/14 06:52:59 wig Exp $ -- $Date: 2005/04/14 06:52:59 $ -- $Log: clkgen-struct-a.vhd,v $ -- Revision 1.2 2005/04/14 06:52:59 wig -- Updates: fixed import errors and adjusted I2C parser -- -- -- Based on Mix Architecture Template built into RCSfile: MixWriter.pm,v -- Id: MixWriter.pm,v 1.49 2005/01/27 08:20:30 wig Exp -- -- Generator: mix_0.pl Revision: 1.33 , wilfried.gaensheimer@micronas.com -- (C) 2003 Micronas GmbH -- -- -------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; -- No project specific VHDL libraries/arch -- -- -- Start of Generated Architecture struct of clkgen -- architecture struct of clkgen is -- Generated Constant Declarations -- -- Components -- -- Generated Components component clkgen_sc -- -- No Generated Generics -- No Generated Port end component; -- --------- -- -- Nets -- -- -- Generated Signal List -- -- -- End of Generated Signal List -- begin -- -- Generated Concurrent Statements -- -- Generated Signal Assignments -- -- Generated Instances -- -- Generated Instances and Port Mappings -- Generated Instance Port Map for i_clkgen_sc i_clkgen_sc: clkgen_sc ; -- End of Generated Instance Port Map for i_clkgen_sc end struct; -- --!End of Architecture/s -- --------------------------------------------------------------
-------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 23:06:23 07/21/2014 -- Design Name: -- Module Name: /home/qfi/Documents/aeshw/aes-core/aes-core/aes_module_tb.vhd -- Project Name: aes-core -- Target Device: -- Tool versions: -- Description: -- -- VHDL Test Bench Created by ISE for module: aes_module -- -- Dependencies: -- -- Revision: -- Revision 0.01 - File Created -- Additional Comments: -- -- Notes: -- This testbench has been automatically generated using types std_logic and -- std_logic_vector for the ports of the unit under test. Xilinx recommends -- that these types always be used for the top-level I/O of a design in order -- to guarantee that the testbench will bind correctly to the post-implementation -- simulation model. -------------------------------------------------------------------------------- LIBRARY ieee; USE ieee.std_logic_1164.ALL; use work.types.all; -- Uncomment the following library declaration if using -- arithmetic functions with Signed or Unsigned values --USE ieee.numeric_std.ALL; ENTITY aes_module_tb IS END aes_module_tb; ARCHITECTURE behavior OF aes_module_tb IS -- Component Declaration for the Unit Under Test (UUT) COMPONENT aes_module PORT( clk : IN std_logic; reset : IN std_logic; din : IN std_logic_vector(127 downto 0); dout : OUT std_logic_vector(127 downto 0); mode : IN aes_mode; aes_start : IN std_logic; aes_done : OUT std_logic ); END COMPONENT; --Inputs signal clk : std_logic := '0'; signal reset : std_logic := '0'; signal din : std_logic_vector(127 downto 0) := (others => '0'); signal mode : aes_mode := ENCRYPT; signal aes_start : std_logic := '0'; --Outputs signal dout : std_logic_vector(127 downto 0); signal aes_done : std_logic; -- Clock period definitions constant clk_period : time := 10 ns; BEGIN -- Instantiate the Unit Under Test (UUT) uut: aes_module PORT MAP ( clk => clk, reset => reset, din => din, dout => dout, mode => mode, aes_start => aes_start, aes_done => aes_done ); -- Clock process definitions clk_process :process begin for i in 0 to 50 loop clk <= '0'; wait for clk_period/2; clk <= '1'; wait for clk_period/2; end loop; end process; stim_proc: process begin -- key expansion mode <= EXPAND_KEY; din <= x"000102030405060708090a0b0c0d0e0f"; aes_start <= '1'; wait for clk_period; assert aes_done = '0' report "key expansion : wrong done signal" severity failure; wait for clk_period11; assert aes_done = '0' report "key expansion : wrong done signal" severity failure; wait for clk_period; assert aes_done = '1' report "key expansion : wrong done signal" severity failure; aes_start <= '0'; wait for clk_period; assert aes_done = '1' report "key expansion : wrong done signal" severity failure; -- encryption (first time) mode <= ENCRYPT; din <= x"00112233445566778899aabbccddeeff"; aes_start <= '1'; wait for clk_period; assert aes_done = '0' report "encryption : wrong done signal" severity failure; wait for clk_period12; assert aes_done = '0' report "encryption : wrong done signal" severity failure; wait for clk_period; assert aes_done = '1' report "encryption : wrong done signal" severity failure; assert dout = x"69c4e0d86a7b0430d8cdb78070b4c55a" report "encryption : wrong result" severity failure; aes_start <= '0'; -- idle (hold previous result) wait for clk_period10; assert aes_done = '1' report "idle: failure" severity failure; assert dout = x"69c4e0d86a7b0430d8cdb78070b4c55a" report "idle: wrong result" severity failure; -- encryption (second time) mode <= ENCRYPT; din <= x"00112233445566778899aabbccddeeff"; aes_start <= '1'; wait for clk_period; assert aes_done = '0' report "encryption : wrong done signal" severity failure; wait for clk_period12; assert aes_done = '0' report "encryption : wrong done signal" severity failure; wait for clk_period; assert aes_done = '1' report "encryption : wrong done signal" severity failure; assert dout = x"69c4e0d86a7b0430d8cdb78070b4c55a" report "encryption module: wrong result" severity failure; aes_start <= '0'; -- decryption (first time) mode <= DECRYPT; din <= x"69c4e0d86a7b0430d8cdb78070b4c55a"; aes_start <= '1'; wait for clk_period; assert aes_done = '0' report "decryption : wrong done signal" severity failure; wait for clk_period*12; assert aes_done = '0' report "decryption : wrong done signal" severity failure; wait for clk_period; assert aes_done = '1' report "decryption : wrong done signal" severity failure; assert dout = x"00112233445566778899aabbccddeeff" report "decryption : wrong result" severity failure; aes_start <= '0'; wait; end process; END;
-- LCD SVGA controller constant CFG_LCD_ENABLE : integer := CONFIG_LCD_ENABLE; -- LCD 3-wire serial interface constant CFG_LCD3T_ENABLE : integer := CONFIG_LCD3T_ENABLE;
-- Copyright (C) 2002 Morgan Kaufmann Publishers, Inc -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA entity tb_counter is end entity tb_counter; ---------------------------------------------------------------- architecture test_behavior of tb_counter is signal clk : bit := '0'; signal count : natural; begin dut : entity work.counter(behavior) port map ( clk => clk, count => count ); stimulus : process is begin for cycle_count in 1 to 100 loop wait for 20 ns; clk <= '1', '0' after 10 ns; end loop; wait; end process stimulus; end architecture test_behavior;
-- Copyright (C) 2002 Morgan Kaufmann Publishers, Inc -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA entity tb_counter is end entity tb_counter; ---------------------------------------------------------------- architecture test_behavior of tb_counter is signal clk : bit := '0'; signal count : natural; begin dut : entity work.counter(behavior) port map ( clk => clk, count => count ); stimulus : process is begin for cycle_count in 1 to 100 loop wait for 20 ns; clk <= '1', '0' after 10 ns; end loop; wait; end process stimulus; end architecture test_behavior;
-- Copyright (C) 2002 Morgan Kaufmann Publishers, Inc -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA entity tb_counter is end entity tb_counter; ---------------------------------------------------------------- architecture test_behavior of tb_counter is signal clk : bit := '0'; signal count : natural; begin dut : entity work.counter(behavior) port map ( clk => clk, count => count ); stimulus : process is begin for cycle_count in 1 to 100 loop wait for 20 ns; clk <= '1', '0' after 10 ns; end loop; wait; end process stimulus; end architecture test_behavior;
-- $Id: sys_conf.vhd 1181 2019-07-08 17:00:50Z mueller $ -- SPDX-License-Identifier: GPL-3.0-or-later -- Copyright 2018-2019 by Walter F.J. Mueller <W.F.J.Mueller@gsi.de> -- ------------------------------------------------------------------------------ -- Package Name: sys_conf -- Description: Definitions for sys_w11a_br_artys7 (for synthesis) -- -- Dependencies: - -- Tool versions: viv 2017.2-2018.3; ghdl 0.34-0.35 -- Revision History: -- Date Rev Version Comment -- 2019-04-28 1142 1.1.1 add sys_conf_ibd_m9312 -- 2019-02-09 1110 1.1 use typ for DL,PC,LP; add dz11,ibtst -- 2018-09-22 1050 1.0.2 add sys_conf_dmpcnt -- 2018-09-08 1043 1.0.1 add sys_conf_ibd_kw11p -- 2018-08-11 1038 1.0 Initial version (derived from _aa7 version) ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; use work.slvtypes.all; package sys_conf is -- configure clocks -------------------------------------------------------- constant sys_conf_clksys_vcodivide : positive := 1; constant sys_conf_clksys_vcomultiply : positive := 8; -- vco 800 MHz constant sys_conf_clksys_outdivide : positive := 10; -- sys 80 MHz constant sys_conf_clksys_gentype : string := "MMCM"; -- dual clock design, clkser = 120 MHz constant sys_conf_clkser_vcodivide : positive := 1; constant sys_conf_clkser_vcomultiply : positive := 12; -- vco 1200 MHz constant sys_conf_clkser_outdivide : positive := 10; -- sys 120 MHz constant sys_conf_clkser_gentype : string := "PLL"; -- configure rlink and hio interfaces -------------------------------------- constant sys_conf_ser2rri_defbaud : integer := 115200; -- default 115k baud constant sys_conf_hio_debounce : boolean := true; -- instantiate debouncers -- configure memory controller --------------------------------------------- constant sys_conf_memctl_mawidth : positive := 4; constant sys_conf_memctl_nblock : positive := 16; -- configure debug and monitoring units ------------------------------------ constant sys_conf_rbmon_awidth : integer := 0; -- no rbmon to save BRAMs constant sys_conf_ibmon_awidth : integer := 0; -- no ibmon to save BRAMs constant sys_conf_ibtst : boolean := true; constant sys_conf_dmscnt : boolean := false; constant sys_conf_dmpcnt : boolean := true; constant sys_conf_dmhbpt_nunit : integer := 2; -- use 0 to disable constant sys_conf_dmcmon_awidth : integer := 0; -- no dmcmon to save BRAMs constant sys_conf_rbd_sysmon : boolean := true; -- SYSMON(XADC) -- configure w11 cpu core -------------------------------------------------- -- sys_conf_mem_losize is highest 64 byte MMU block number -- the bram_memcnt uses 44kB memory blocks => 1 MEM block = 256 MMU blocks constant sys_conf_mem_losize : natural := 256sys_conf_memctl_nblock-1; constant sys_conf_cache_fmiss : slbit := '0'; -- cache enabled constant sys_conf_cache_twidth : integer := 9; -- 8kB cache -- configure w11 system devices -------------------------------------------- -- configure character and communication devices -- typ for DL,DZ,PC,LP: -1->none; 0->unbuffered; 4-7 buffered (typ=AWIDTH) constant sys_conf_ibd_dl11_0 : integer := 6; -- 1st DL11 constant sys_conf_ibd_dl11_1 : integer := 6; -- 2nd DL11 constant sys_conf_ibd_dz11 : integer := 6; -- DZ11 constant sys_conf_ibd_pc11 : integer := 6; -- PC11 constant sys_conf_ibd_lp11 : integer := 7; -- LP11 constant sys_conf_ibd_deuna : boolean := true; -- DEUNA -- configure mass storage devices constant sys_conf_ibd_rk11 : boolean := true; -- RK11 constant sys_conf_ibd_rl11 : boolean := true; -- RL11 constant sys_conf_ibd_rhrp : boolean := true; -- RHRP constant sys_conf_ibd_tm11 : boolean := true; -- TM11 -- configure other devices constant sys_conf_ibd_iist : boolean := true; -- IIST constant sys_conf_ibd_kw11p : boolean := true; -- KW11P constant sys_conf_ibd_m9312 : boolean := true; -- M9312 -- derived constants ======================================================= constant sys_conf_clksys : integer := ((100000000/sys_conf_clksys_vcodivide)sys_conf_clksys_vcomultiply) / sys_conf_clksys_outdivide; constant sys_conf_clksys_mhz : integer := sys_conf_clksys/1000000; constant sys_conf_clkser : integer := ((100000000/sys_conf_clkser_vcodivide)sys_conf_clkser_vcomultiply) / sys_conf_clkser_outdivide; constant sys_conf_clkser_mhz : integer := sys_conf_clkser/1000000; constant sys_conf_ser2rri_cdinit : integer := (sys_conf_clkser/sys_conf_ser2rri_defbaud)-1; end package sys_conf;
------------------------------------------------------------------------------- -- Copyright (C) 2022 Nick Gasson -- -- Licensed under the Apache License, Version 2.0 (the "License"); -- you may not use this file except in compliance with the License. -- You may obtain a copy of the License at -- -- http://www.apache.org/licenses/LICENSE-2.0 -- -- Unless required by applicable law or agreed to in writing, software -- distributed under the License is distributed on an "AS IS" BASIS, -- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -- See the License for the specific language governing permissions and -- limitations under the License. ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- -- IEEE 1076-2008 section 16.9 ------------------------------------------------------------------------------- context IEEE_BIT_CONTEXT is library IEEE; use IEEE.NUMERIC_BIT.all; end context IEEE_BIT_CONTEXT;

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