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library verilog; use verilog.vl_types.all; entity ama_multiplier_function is generic( width_data_in_a : integer := 1; width_data_in_b : integer := 1; width_data_out : integer := 1; number_of_multipliers: integer := 1; multiplier_input_representation_a: string := "UNSIGNED"; multiplier_input_representation_b: string := "UNSIGNED"; multiplier_register0: string := "UNREGISTERED"; multiplier_register1: string := "UNREGISTERED"; multiplier_register2: string := "UNREGISTERED"; multiplier_register3: string := "UNREGISTERED"; multiplier_aclr0: string := "NONE"; multiplier_aclr1: string := "NONE"; multiplier_aclr2: string := "NONE"; multiplier_aclr3: string := "NONE"; width_data_in_a_msb: vl_notype; width_data_in_b_msb: vl_notype; width_data_out_msb: vl_notype; width_mult_input_a: vl_notype; width_mult_input_a_msb: vl_notype; width_mult_input_b: vl_notype; width_mult_input_b_msb: vl_notype; width_mult_output: vl_notype ); port( clock : in vl_logic_vector(3 downto 0); aclr : in vl_logic_vector(3 downto 0); ena : in vl_logic_vector(3 downto 0); data_in_a0 : in vl_logic_vector; data_in_a1 : in vl_logic_vector; data_in_a2 : in vl_logic_vector; data_in_a3 : in vl_logic_vector; data_in_b0 : in vl_logic_vector; data_in_b1 : in vl_logic_vector; data_in_b2 : in vl_logic_vector; data_in_b3 : in vl_logic_vector; data_out_0 : out vl_logic_vector; data_out_1 : out vl_logic_vector; data_out_2 : out vl_logic_vector; data_out_3 : out vl_logic_vector ); attribute mti_svvh_generic_type : integer; attribute mti_svvh_generic_type of width_data_in_a : constant is 1; attribute mti_svvh_generic_type of width_data_in_b : constant is 1; attribute mti_svvh_generic_type of width_data_out : constant is 1; attribute mti_svvh_generic_type of number_of_multipliers : constant is 1; attribute mti_svvh_generic_type of multiplier_input_representation_a : constant is 1; attribute mti_svvh_generic_type of multiplier_input_representation_b : constant is 1; attribute mti_svvh_generic_type of multiplier_register0 : constant is 1; attribute mti_svvh_generic_type of multiplier_register1 : constant is 1; attribute mti_svvh_generic_type of multiplier_register2 : constant is 1; attribute mti_svvh_generic_type of multiplier_register3 : constant is 1; attribute mti_svvh_generic_type of multiplier_aclr0 : constant is 1; attribute mti_svvh_generic_type of multiplier_aclr1 : constant is 1; attribute mti_svvh_generic_type of multiplier_aclr2 : constant is 1; attribute mti_svvh_generic_type of multiplier_aclr3 : constant is 1; attribute mti_svvh_generic_type of width_data_in_a_msb : constant is 3; attribute mti_svvh_generic_type of width_data_in_b_msb : constant is 3; attribute mti_svvh_generic_type of width_data_out_msb : constant is 3; attribute mti_svvh_generic_type of width_mult_input_a : constant is 3; attribute mti_svvh_generic_type of width_mult_input_a_msb : constant is 3; attribute mti_svvh_generic_type of width_mult_input_b : constant is 3; attribute mti_svvh_generic_type of width_mult_input_b_msb : constant is 3; attribute mti_svvh_generic_type of width_mult_output : constant is 3; end ama_multiplier_function;
------------------------------------------------------------------------------- -- File Name : DC_CR_ROM.vhd -- -- Project : JPEG_ENC -- -- Module : DC_CR_ROM -- -- Content : DC_CR_ROM Chrominance -- -- Description : -- -- Spec. : -- -- Author : Michal Krepa -- ------------------------------------------------------------------------------- -- History : -- 20090329: (MK): Initial Creation. ------------------------------------------------------------------------------- -- ////////////////////////////////////////////////////////////////////////////// -- /// Copyright (c) 2013, Jahanzeb Ahmad -- /// 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. -- /// -- /// 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 HOLDER 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. -- /// -- /// -- /// * http://opensource.org/licenses/MIT -- /// * http://copyfree.org/licenses/mit/license.txt -- /// -- ////////////////////////////////////////////////////////////////////////////// ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- ----------------------------------- LIBRARY/PACKAGE --------------------------- ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- -- generic packages/libraries: ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; ------------------------------------------------------------------------------- -- user packages/libraries: ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- ----------------------------------- ENTITY ------------------------------------ ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- entity DC_CR_ROM is port ( CLK : in std_logic; RST : in std_logic; VLI_size : in std_logic_vector(3 downto 0); VLC_DC_size : out std_logic_vector(3 downto 0); VLC_DC : out unsigned(10 downto 0) ); end entity DC_CR_ROM; ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- ----------------------------------- ARCHITECTURE ------------------------------ ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- architecture RTL of DC_CR_ROM is ------------------------------------------------------------------------------- -- Architecture: begin ------------------------------------------------------------------------------- begin ------------------------------------------------------------------- -- DC-ROM ------------------------------------------------------------------- p_DC_CR_ROM : process(CLK, RST) begin if RST = '1' then VLC_DC_size <= X"0"; VLC_DC <= (others => '0'); elsif CLK'event and CLK = '1' then case VLI_size is when X"0" => VLC_DC_size <= X"2"; VLC_DC <= resize("00", VLC_DC'length); when X"1" => VLC_DC_size <= X"2"; VLC_DC <= resize("01", VLC_DC'length); when X"2" => VLC_DC_size <= X"2"; VLC_DC <= resize("10", VLC_DC'length); when X"3" => VLC_DC_size <= X"3"; VLC_DC <= resize("110", VLC_DC'length); when X"4" => VLC_DC_size <= X"4"; VLC_DC <= resize("1110", VLC_DC'length); when X"5" => VLC_DC_size <= X"5"; VLC_DC <= resize("11110", VLC_DC'length); when X"6" => VLC_DC_size <= X"6"; VLC_DC <= resize("111110", VLC_DC'length); when X"7" => VLC_DC_size <= X"7"; VLC_DC <= resize("1111110", VLC_DC'length); when X"8" => VLC_DC_size <= X"8"; VLC_DC <= resize("11111110", VLC_DC'length); when X"9" => VLC_DC_size <= X"9"; VLC_DC <= resize("111111110", VLC_DC'length); when X"A" => VLC_DC_size <= X"A"; VLC_DC <= resize("1111111110", VLC_DC'length); when X"B" => VLC_DC_size <= X"B"; VLC_DC <= resize("11111111110", VLC_DC'length); when others => VLC_DC_size <= X"0"; VLC_DC <= (others => '0'); end case; end if; end process; end architecture RTL; ------------------------------------------------------------------------------- -- Architecture: end -------------------------------------------------------------------------------
------------------------------------------------------------------------------- -- File Name : DC_CR_ROM.vhd -- -- Project : JPEG_ENC -- -- Module : DC_CR_ROM -- -- Content : DC_CR_ROM Chrominance -- -- Description : -- -- Spec. : -- -- Author : Michal Krepa -- ------------------------------------------------------------------------------- -- History : -- 20090329: (MK): Initial Creation. ------------------------------------------------------------------------------- -- ////////////////////////////////////////////////////////////////////////////// -- /// Copyright (c) 2013, Jahanzeb Ahmad -- /// 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. -- /// -- /// 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 HOLDER 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. -- /// -- /// -- /// * http://opensource.org/licenses/MIT -- /// * http://copyfree.org/licenses/mit/license.txt -- /// -- ////////////////////////////////////////////////////////////////////////////// ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- ----------------------------------- LIBRARY/PACKAGE --------------------------- ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- -- generic packages/libraries: ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; ------------------------------------------------------------------------------- -- user packages/libraries: ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- ----------------------------------- ENTITY ------------------------------------ ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- entity DC_CR_ROM is port ( CLK : in std_logic; RST : in std_logic; VLI_size : in std_logic_vector(3 downto 0); VLC_DC_size : out std_logic_vector(3 downto 0); VLC_DC : out unsigned(10 downto 0) ); end entity DC_CR_ROM; ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- ----------------------------------- ARCHITECTURE ------------------------------ ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- architecture RTL of DC_CR_ROM is ------------------------------------------------------------------------------- -- Architecture: begin ------------------------------------------------------------------------------- begin ------------------------------------------------------------------- -- DC-ROM ------------------------------------------------------------------- p_DC_CR_ROM : process(CLK, RST) begin if RST = '1' then VLC_DC_size <= X"0"; VLC_DC <= (others => '0'); elsif CLK'event and CLK = '1' then case VLI_size is when X"0" => VLC_DC_size <= X"2"; VLC_DC <= resize("00", VLC_DC'length); when X"1" => VLC_DC_size <= X"2"; VLC_DC <= resize("01", VLC_DC'length); when X"2" => VLC_DC_size <= X"2"; VLC_DC <= resize("10", VLC_DC'length); when X"3" => VLC_DC_size <= X"3"; VLC_DC <= resize("110", VLC_DC'length); when X"4" => VLC_DC_size <= X"4"; VLC_DC <= resize("1110", VLC_DC'length); when X"5" => VLC_DC_size <= X"5"; VLC_DC <= resize("11110", VLC_DC'length); when X"6" => VLC_DC_size <= X"6"; VLC_DC <= resize("111110", VLC_DC'length); when X"7" => VLC_DC_size <= X"7"; VLC_DC <= resize("1111110", VLC_DC'length); when X"8" => VLC_DC_size <= X"8"; VLC_DC <= resize("11111110", VLC_DC'length); when X"9" => VLC_DC_size <= X"9"; VLC_DC <= resize("111111110", VLC_DC'length); when X"A" => VLC_DC_size <= X"A"; VLC_DC <= resize("1111111110", VLC_DC'length); when X"B" => VLC_DC_size <= X"B"; VLC_DC <= resize("11111111110", VLC_DC'length); when others => VLC_DC_size <= X"0"; VLC_DC <= (others => '0'); end case; end if; end process; end architecture RTL; ------------------------------------------------------------------------------- -- Architecture: end -------------------------------------------------------------------------------
------------------------------------------------------------------------------- -- File Name : DC_CR_ROM.vhd -- -- Project : JPEG_ENC -- -- Module : DC_CR_ROM -- -- Content : DC_CR_ROM Chrominance -- -- Description : -- -- Spec. : -- -- Author : Michal Krepa -- ------------------------------------------------------------------------------- -- History : -- 20090329: (MK): Initial Creation. ------------------------------------------------------------------------------- -- ////////////////////////////////////////////////////////////////////////////// -- /// Copyright (c) 2013, Jahanzeb Ahmad -- /// 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. -- /// -- /// 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 HOLDER 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. -- /// -- /// -- /// * http://opensource.org/licenses/MIT -- /// * http://copyfree.org/licenses/mit/license.txt -- /// -- ////////////////////////////////////////////////////////////////////////////// ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- ----------------------------------- LIBRARY/PACKAGE --------------------------- ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- -- generic packages/libraries: ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; ------------------------------------------------------------------------------- -- user packages/libraries: ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- ----------------------------------- ENTITY ------------------------------------ ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- entity DC_CR_ROM is port ( CLK : in std_logic; RST : in std_logic; VLI_size : in std_logic_vector(3 downto 0); VLC_DC_size : out std_logic_vector(3 downto 0); VLC_DC : out unsigned(10 downto 0) ); end entity DC_CR_ROM; ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- ----------------------------------- ARCHITECTURE ------------------------------ ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- architecture RTL of DC_CR_ROM is ------------------------------------------------------------------------------- -- Architecture: begin ------------------------------------------------------------------------------- begin ------------------------------------------------------------------- -- DC-ROM ------------------------------------------------------------------- p_DC_CR_ROM : process(CLK, RST) begin if RST = '1' then VLC_DC_size <= X"0"; VLC_DC <= (others => '0'); elsif CLK'event and CLK = '1' then case VLI_size is when X"0" => VLC_DC_size <= X"2"; VLC_DC <= resize("00", VLC_DC'length); when X"1" => VLC_DC_size <= X"2"; VLC_DC <= resize("01", VLC_DC'length); when X"2" => VLC_DC_size <= X"2"; VLC_DC <= resize("10", VLC_DC'length); when X"3" => VLC_DC_size <= X"3"; VLC_DC <= resize("110", VLC_DC'length); when X"4" => VLC_DC_size <= X"4"; VLC_DC <= resize("1110", VLC_DC'length); when X"5" => VLC_DC_size <= X"5"; VLC_DC <= resize("11110", VLC_DC'length); when X"6" => VLC_DC_size <= X"6"; VLC_DC <= resize("111110", VLC_DC'length); when X"7" => VLC_DC_size <= X"7"; VLC_DC <= resize("1111110", VLC_DC'length); when X"8" => VLC_DC_size <= X"8"; VLC_DC <= resize("11111110", VLC_DC'length); when X"9" => VLC_DC_size <= X"9"; VLC_DC <= resize("111111110", VLC_DC'length); when X"A" => VLC_DC_size <= X"A"; VLC_DC <= resize("1111111110", VLC_DC'length); when X"B" => VLC_DC_size <= X"B"; VLC_DC <= resize("11111111110", VLC_DC'length); when others => VLC_DC_size <= X"0"; VLC_DC <= (others => '0'); end case; end if; end process; end architecture RTL; ------------------------------------------------------------------------------- -- Architecture: end -------------------------------------------------------------------------------
-- $Id: serport_uart_tx.vhd 417 2011-10-22 10:30:29Z mueller $ -- -- Copyright 2007-2011 by Walter F.J. Mueller <W.F.J.Mueller@gsi.de> -- -- This program is free software; you may redistribute and/or modify it under -- the terms of the GNU General Public License as published by the Free -- Software Foundation, either version 2, or at your option any later version. -- -- This program 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 complete details. -- ------------------------------------------------------------------------------ -- Module Name: serport_uart_tx - syn -- Description: serial port UART - transmitter -- -- Dependencies: - -- Test bench: tb/tb_serport_uart_rxtx -- Target Devices: generic -- Tool versions: xst 8.2, 9.1, 9.2, 13.1; ghdl 0.18-0.29 -- Revision History: -- Date Rev Version Comment -- 2011-10-22 417 1.0.4 now numeric_std clean -- 2007-10-21 91 1.0.3 use 1 stop bits (redesigned _rx allows this) -- 2007-10-19 90 1.0.2 use 2 stop bits (allow CLKDIV=0 operation in sim) -- 2007-10-12 88 1.0.1 avoid ieee.std_logic_unsigned, use cast to unsigned -- 2007-06-30 62 1.0 Initial version ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use work.slvtypes.all; entity serport_uart_tx is -- serial port uart: transmit part generic ( CDWIDTH : positive := 13); -- clk divider width port ( CLK : in slbit; -- clock RESET : in slbit; -- reset CLKDIV : in slv(CDWIDTH-1 downto 0); -- clock divider setting TXSD : out slbit; -- transmit serial data (uart view) TXDATA : in slv8; -- transmit data in TXENA : in slbit; -- transmit data enable TXBUSY : out slbit -- transmit busy ); end serport_uart_tx; architecture syn of serport_uart_tx is type regs_type is record ccnt : slv(CDWIDTH-1 downto 0); -- clock divider counter bcnt : slv4; -- bit counter sreg : slv9; -- output shift register busy : slbit; end record regs_type; constant cntzero : slv(CDWIDTH-1 downto 0) := (others=>'0'); constant regs_init : regs_type := ( cntzero, (others=>'0'), (others=>'1'), -- sreg to all 1 !! '0' ); signal R_REGS : regs_type := regs_init; -- state registers signal N_REGS : regs_type := regs_init; -- next value state regs begin proc_regs: process (CLK) begin if rising_edge(CLK) then R_REGS <= N_REGS; end if; end process proc_regs; proc_next: process (R_REGS, RESET, CLKDIV, TXDATA, TXENA) variable r : regs_type := regs_init; variable n : regs_type := regs_init; variable ld_ccnt : slbit := '0'; begin r := R_REGS; n := R_REGS; ld_ccnt := '0'; if r.busy = '0' then ld_ccnt := '1'; n.bcnt := (others=>'0'); if TXENA = '1' then n.sreg := TXDATA & '0'; -- add start (0) bit n.busy := '1'; end if; else if unsigned(r.ccnt) = 0 then ld_ccnt := '1'; n.sreg := '1' & r.sreg(8 downto 1); n.bcnt := slv(unsigned(r.bcnt) + 1); if unsigned(r.bcnt) = 9 then -- if 10 bits send n.busy := '0'; -- declare all done end if; end if; end if; if RESET = '1' then ld_ccnt := '1'; n.busy := '0'; end if; if ld_ccnt = '1' then n.ccnt := CLKDIV; else n.ccnt := slv(unsigned(r.ccnt) - 1); end if; N_REGS <= n; TXBUSY <= r.busy; TXSD <= r.sreg(0); end process proc_next; end syn;
-- $Id: serport_uart_tx.vhd 417 2011-10-22 10:30:29Z mueller $ -- -- Copyright 2007-2011 by Walter F.J. Mueller <W.F.J.Mueller@gsi.de> -- -- This program is free software; you may redistribute and/or modify it under -- the terms of the GNU General Public License as published by the Free -- Software Foundation, either version 2, or at your option any later version. -- -- This program 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 complete details. -- ------------------------------------------------------------------------------ -- Module Name: serport_uart_tx - syn -- Description: serial port UART - transmitter -- -- Dependencies: - -- Test bench: tb/tb_serport_uart_rxtx -- Target Devices: generic -- Tool versions: xst 8.2, 9.1, 9.2, 13.1; ghdl 0.18-0.29 -- Revision History: -- Date Rev Version Comment -- 2011-10-22 417 1.0.4 now numeric_std clean -- 2007-10-21 91 1.0.3 use 1 stop bits (redesigned _rx allows this) -- 2007-10-19 90 1.0.2 use 2 stop bits (allow CLKDIV=0 operation in sim) -- 2007-10-12 88 1.0.1 avoid ieee.std_logic_unsigned, use cast to unsigned -- 2007-06-30 62 1.0 Initial version ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use work.slvtypes.all; entity serport_uart_tx is -- serial port uart: transmit part generic ( CDWIDTH : positive := 13); -- clk divider width port ( CLK : in slbit; -- clock RESET : in slbit; -- reset CLKDIV : in slv(CDWIDTH-1 downto 0); -- clock divider setting TXSD : out slbit; -- transmit serial data (uart view) TXDATA : in slv8; -- transmit data in TXENA : in slbit; -- transmit data enable TXBUSY : out slbit -- transmit busy ); end serport_uart_tx; architecture syn of serport_uart_tx is type regs_type is record ccnt : slv(CDWIDTH-1 downto 0); -- clock divider counter bcnt : slv4; -- bit counter sreg : slv9; -- output shift register busy : slbit; end record regs_type; constant cntzero : slv(CDWIDTH-1 downto 0) := (others=>'0'); constant regs_init : regs_type := ( cntzero, (others=>'0'), (others=>'1'), -- sreg to all 1 !! '0' ); signal R_REGS : regs_type := regs_init; -- state registers signal N_REGS : regs_type := regs_init; -- next value state regs begin proc_regs: process (CLK) begin if rising_edge(CLK) then R_REGS <= N_REGS; end if; end process proc_regs; proc_next: process (R_REGS, RESET, CLKDIV, TXDATA, TXENA) variable r : regs_type := regs_init; variable n : regs_type := regs_init; variable ld_ccnt : slbit := '0'; begin r := R_REGS; n := R_REGS; ld_ccnt := '0'; if r.busy = '0' then ld_ccnt := '1'; n.bcnt := (others=>'0'); if TXENA = '1' then n.sreg := TXDATA & '0'; -- add start (0) bit n.busy := '1'; end if; else if unsigned(r.ccnt) = 0 then ld_ccnt := '1'; n.sreg := '1' & r.sreg(8 downto 1); n.bcnt := slv(unsigned(r.bcnt) + 1); if unsigned(r.bcnt) = 9 then -- if 10 bits send n.busy := '0'; -- declare all done end if; end if; end if; if RESET = '1' then ld_ccnt := '1'; n.busy := '0'; end if; if ld_ccnt = '1' then n.ccnt := CLKDIV; else n.ccnt := slv(unsigned(r.ccnt) - 1); end if; N_REGS <= n; TXBUSY <= r.busy; TXSD <= r.sreg(0); end process proc_next; end syn;
-- ----------------------------------------------------------------------- -- -- Syntiac VHDL support files. -- -- ----------------------------------------------------------------------- -- Copyright 2005-2009 by Peter Wendrich (pwsoft@syntiac.com) -- http://www.syntiac.com -- -- 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 3 of the License, or -- (at your option) any later version. -- -- This source file 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 program. If not, see <http://www.gnu.org/licenses/>. -- -- ----------------------------------------------------------------------- -- -- Test bench for audio_sigmadelta_dac -- -- ----------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.numeric_std.ALL; -- ----------------------------------------------------------------------- entity audio_sigmadelta_dac_tb is end entity; -- ----------------------------------------------------------------------- architecture rtl of audio_sigmadelta_dac_tb is signal clk : std_logic; signal audio : signed(15 downto 0) := (others => '0'); signal singlebit : std_logic; begin mySigmaDelta : entity work.audio_sigmadelta_dac port map ( clk => clk, d => audio, q => singlebit ); process begin clk <= '0'; wait for 10 ns; clk <= '1'; wait for 10 ns; end process; process(clk) begin if rising_edge(clk) then audio <= audio + 1; end if; end process; end architecture;
library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.STD_LOGIC_ARITH.ALL; use IEEE.STD_LOGIC_UNSIGNED.ALL; ------------------------------------------------------------------------- -- Entity for ARBITER ------------------------------------------------------------------------- entity RAM_ARBITER_NEW is generic ( ------------------------------------------------------------------------- -- Generics for scalability ------------------------------------------------------------------------- G_ADDR_WIDTH: integer := 4; G_DATA_WIDTH: integer := 8; G_REGISTERED_DATA: integer :=0 -- G_ADDR_WIDTH = Number of bits required to address the ram -- G_DATA_WIDTH = Number of bits in a data -- G_REGISTERED_DATA =1 for registered data in output 0 for nonregistered ------------------------------------------------------------------------- ); port ( ------------------------------------------------------------------------- -- General Inputs & output ------------------------------------------------------------------------- RST_N: in std_logic; CLOCK: in std_logic; RST_DONE: out std_logic; ------------------------------------------------------------------------- -- Inputs from --------client1-------------- ------------------------------------------------------------------------- RD_EN_C1: in std_logic; --read enb-- WR_EN_C1: in std_logic; --write enb-- RDADDR_C1: in std_logic_vector(G_ADDR_WIDTH-1 downto 0);--read addr--- WRADDR_C1: in std_logic_vector(G_ADDR_WIDTH-1 downto 0);--write addr-- WRDATA_C1: in std_logic_vector(G_DATA_WIDTH-1 downto 0);--data in---- ------------------------------------------------------------------------- -- Inputs from --------client2-------------- ------------------------------------------------------------------------- DATAIN_C2: in std_logic_vector(G_DATA_WIDTH-1 downto 0);--input data-- REQUEST_C2: in std_logic; --request to access memory-- RD_NOT_WRITE_C2: in std_logic; --if '0' then write or read-- ADDR_C2: in std_logic_vector(G_ADDR_WIDTH-1 downto 0);--addr for rd or wr-- ------------------------------------------------------------------------- -- Output from --------client1-------------- ------------------------------------------------------------------------- RDDATA_C1: out std_logic_vector(G_DATA_WIDTH-1 downto 0);--data out-- ------------------------------------------------------------------------- -- Output from --------client2-------------- ------------------------------------------------------------------------- DATAOUT_C2: out std_logic_vector(G_DATA_WIDTH-1 downto 0);--out data-- ACK_C2: out std_logic); --acknowlwdgement-- end RAM_ARBITER_NEW; ------------------------------------------------------------------------- Architecture RTL of RAM_ARBITER_NEW is signal WR_DATA: std_logic_vector(G_DATA_WIDTH-1 downto 0);-- temp WR data -- signal RD_DATA1: std_logic_vector(G_DATA_WIDTH-1 downto 0);-- temp RD data -- signal WR_ADDR:std_logic_vector(G_ADDR_WIDTH-1 downto 0); ---temp write address---- signal RD_ADDR:std_logic_vector(G_ADDR_WIDTH-1 downto 0); ---temp read address----- signal RD_EN:std_logic; signal WR_EN:std_logic; component RAM is generic ( ------------------------------------------------------------------------- -- Generics for scalability ------------------------------------------------------------------------- G_ADDR_WIDTH: integer; G_DATA_WIDTH: integer -- G_ADDR_WIDTH = Number of bits required to address the ram -- G_DATA_WIDTH = Number of bits in a data ------------------------------------------------------------------------- ); port ( ------------------------------------------------------------------------- -- RAM Inputs ------------------------------------------------------------------------- CLOCK: in std_logic; RST_N: in std_logic; RD_EN: in std_logic; --read enb-- WR_EN: in std_logic; --write enb-- RD_ADDR: in std_logic_vector(G_ADDR_WIDTH-1 downto 0);--read addr--- WR_ADDR: in std_logic_vector(G_ADDR_WIDTH-1 downto 0);--write addr-- WR_DATA: in std_logic_vector(G_DATA_WIDTH-1 downto 0);--data input---- RD_DATA: out std_logic_vector(G_DATA_WIDTH-1 downto 0) --data output-- ); end component; COMPONENT ARBITER_NEW is generic ( ------------------------------------------------------------------------- -- Generics for scalability ------------------------------------------------------------------------- G_ADDR_WIDTH: integer; G_DATA_WIDTH: integer; G_REGISTERED_DATA: integer -- G_ADDR_WIDTH = Number of bits required to address the ram -- G_DATA_WIDTH = Number of bits in a data -- G_REGISTERED_DATA =1 for registered data in output 0 for nonregistered ------------------------------------------------------------------------- ); port ( ------------------------------------------------------------------------- -- General Inputs & output ------------------------------------------------------------------------- RST_N: in std_logic; CLOCK: in std_logic; RST_DONE: out std_logic; ------------------------------------------------------------------------- -- Inputs from --------client1-------------- ------------------------------------------------------------------------- RD_EN_C1: in std_logic; --read enb-- WR_EN_C1: in std_logic; --write enb-- RDADDR_C1: in std_logic_vector(G_ADDR_WIDTH-1 downto 0);--read addr--- WRADDR_C1: in std_logic_vector(G_ADDR_WIDTH-1 downto 0);--write addr-- WRDATA_C1: in std_logic_vector(G_DATA_WIDTH-1 downto 0);--data in---- ------------------------------------------------------------------------- -- Inputs from --------client2-------------- ------------------------------------------------------------------------- DATAIN_C2: in std_logic_vector(G_DATA_WIDTH-1 downto 0);--input data-- REQUEST_C2: in std_logic; --request to access memory-- RD_NOT_WRITE_C2: in std_logic; --if '0' then write or read-- ADDR_C2: in std_logic_vector(G_ADDR_WIDTH-1 downto 0);--addr for rd or wr-- ------------------------------------------------------------------------- -- Output from --------client1-------------- ------------------------------------------------------------------------- RDDATA_C1: out std_logic_vector(G_DATA_WIDTH-1 downto 0);--data out-- ------------------------------------------------------------------------- -- Output from --------client2-------------- ------------------------------------------------------------------------- DATAOUT_C2: out std_logic_vector(G_DATA_WIDTH-1 downto 0);--out data-- ACK_C2: out std_logic; --acknowlwdgement-- RD_EN: out std_logic; WR_EN: out std_logic; WR_ADDR: out std_logic_vector(G_ADDR_WIDTH-1 downto 0); RD_ADDR: out std_logic_vector(G_ADDR_WIDTH-1 downto 0); WR_DATA: out std_logic_vector(G_DATA_WIDTH-1 downto 0); RD_DATA: in std_logic_vector(G_DATA_WIDTH-1 downto 0)); end COMPONENT; begin RAMCLIENT:RAM GENERIC MAP(G_ADDR_WIDTH,G_DATA_WIDTH) PORT MAP(CLOCK => CLOCK, RST_N => RST_N, RD_EN => RD_EN, WR_EN => WR_EN, RD_ADDR=> RD_ADDR, WR_ADDR=> WR_ADDR, WR_DATA=> WR_DATA, RD_DATA=> RD_DATA1); ARBITERCLIENT:ARBITER_NEW GENERIC MAP(G_ADDR_WIDTH,G_DATA_WIDTH,G_REGISTERED_DATA) PORT MAP(RST_N => RST_N, CLOCK => CLOCK, RST_DONE => RST_DONE, RD_EN_C1 => RD_EN_C1, WR_EN_C1 => WR_EN_C1, RDADDR_C1 => RDADDR_C1, WRADDR_C1 => WRADDR_C1, WRDATA_C1 => WRDATA_C1, REQUEST_C2 => REQUEST_C2, RD_NOT_WRITE_C2=> RD_NOT_WRITE_C2, ADDR_C2 => ADDR_C2, DATAIN_C2 => DATAIN_C2, RD_EN => RD_EN, WR_EN => WR_EN, RD_ADDR => RD_ADDR, WR_ADDR => WR_ADDR, WR_DATA => WR_DATA, RD_DATA => RD_DATA1, DATAOUT_C2 => DATAOUT_C2, ACK_C2 => ACK_C2, RDDATA_C1 => RDDATA_C1); end RTL;
------------------------------------------------------------------------------ -- The MIT License (MIT) -- -- Copyright (c) <2013> <Shimafuji Electric Inc., Osaka University, JAXA> -- -- Permission is hereby granted, free of charge, to any person obtaining a copy -- of this software and associated documentation files (the "Software"), to deal -- in the Software without restriction, including without limitation the rights -- to use, copy, modify, merge, publish, distribute, sublicense, and/or sell -- copies of the Software, and to permit persons to whom the Software is -- furnished to do so, subject to the following conditions: -- -- The above copyright notice and this permission notice shall be included in -- all copies or substantial portions of the Software. -- -- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR -- IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, -- FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE -- AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER -- LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, -- OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN -- THE SOFTWARE. ------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.all; use IEEE.STD_LOGIC_ARITH.all; use IEEE.STD_LOGIC_UNSIGNED.all; entity SpaceWireCODECIPTimer is generic ( gTimer6p4usValue : integer := 640; gTimer12p8usValue : integer := 1280 ); port ( clock : in std_logic; reset : in std_logic; timer6p4usReset : in std_logic; timer12p8usStart : in std_logic; after6p4us : out std_logic; after12p8us : out std_logic ); end SpaceWireCODECIPTimer; architecture Behavioral of SpaceWireCODECIPTimer is signal iTimerState12p8us : std_logic; signal iTimerCount6p4us : std_logic_vector (9 downto 0); signal iTimerCount12p8us : std_logic_vector (10 downto 0); signal iAfter6p4us : std_logic; signal iAfter12p8us : std_logic; begin after6p4us <= iAfter6p4us; after12p8us <= iAfter12p8us; ---------------------------------------------------------------------- -- ECSS-E-ST-50-12C 8.4.7 Timer. -- The timer provides the After 6.4 us and After 12.8 us timeouts used -- in link initialization. ---------------------------------------------------------------------- ---------------------------------------------------------------------- -- After 6.4us. ---------------------------------------------------------------------- controlTimer64 : process (clock, reset, timer6p4usReset) begin if (reset = '1' or timer6p4usReset = '1') then iTimerCount6p4us <= (others => '0'); iAfter6p4us <= '0'; elsif (clock'event and clock = '1') then if (iTimerCount6p4us < gTimer6p4usValue) then iTimerCount6p4us <= iTimerCount6p4us + 1; iAfter6p4us <= '0'; else iTimerCount6p4us <= (others => '0'); iAfter6p4us <= '1'; end if; end if; end process; ---------------------------------------------------------------------- -- After 12.8us. ---------------------------------------------------------------------- controlTimer128 : process (clock, reset, timer12p8usStart, timer6p4usReset) begin if (reset = '1' or timer6p4usReset = '1') then iTimerState12p8us <= '0'; iTimerCount12p8us <= (others => '0'); iAfter12p8us <= '0'; elsif (clock'event and clock = '1') then if (iTimerState12p8us = '0') then iAfter12p8us <= '0'; if (timer12p8usStart = '1') then iTimerState12p8us <= '1'; end if; else if (iTimerCount12p8us < gTimer12p8usValue) then iTimerCount12p8us <= iTimerCount12p8us + 1; iAfter12p8us <= '0'; else iTimerCount12p8us <= (others => '0'); iTimerState12p8us <= '0'; iAfter12p8us <= '1'; end if; end if; end if; end process; end Behavioral;
architecture RTL of FIFO is function func_1 (a : integer) return integer is constant c : integer; variable v : integer; file f : something; alias a is name; begin end function func1; function func_1 (a : integer) return integer is constant c : integer; variable v : integer; file f : something; alias a is name; begin end function func1; procedure proc_1 (a : integer) is constant c : integer; variable v : integer; file f : something; alias a is name; begin end procedure proc_1; begin end architecture RTL;
architecture test of test2 is constant foo : bar := "hel" "lo"; begin end;
library IEEE; use IEEE.STD_LOGIC_1164.ALL; -- Seeded PRNG -- Thanks wikipedia entity Prng is Generic ( BITS : integer := 32 ); Port ( seed : in std_logic_vector (BITS-1 downto 0); seed_en : in std_logic; clk : in std_logic; rnd : out std_logic_vector (BITS-1 downto 0) ); end Prng; architecture Behavioral of Prng is begin process (clk) variable tmp_a : std_logic_vector(BITS-1 downto 0) := ('1', '0', '1', others => '0'); variable tmp_b : std_logic := '0'; begin if rising_edge(clk) then if seed_en = '1' then tmp_a := seed; else tmp_b := tmp_a(BITS-1) xor tmp_a(BITS-2); tmp_a := tmp_a(BITS-2 downto 0) & tmp_b; rnd <= tmp_a; end if; end if; end process; end Behavioral;
-- 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 : Sun Apr 09 09:37:58 2017 -- Host : GILAMONSTER running 64-bit major release (build 9200) -- Command : write_vhdl -force -mode funcsim -- c:/ZyboIP/examples/ov7670_hessian_split/ov7670_hessian_split.srcs/sources_1/bd/system/ip/system_inverter_1_0/system_inverter_1_0_sim_netlist.vhdl -- Design : system_inverter_1_0 -- Purpose : This VHDL netlist is a functional simulation representation of the design and should not be modified or -- synthesized. This netlist cannot be used for SDF annotated simulation. -- Device : xc7z020clg484-1 -- -------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; library UNISIM; use UNISIM.VCOMPONENTS.ALL; entity system_inverter_1_0 is port ( x : in STD_LOGIC; x_not : out STD_LOGIC ); attribute NotValidForBitStream : boolean; attribute NotValidForBitStream of system_inverter_1_0 : entity is true; attribute CHECK_LICENSE_TYPE : string; attribute CHECK_LICENSE_TYPE of system_inverter_1_0 : entity is "system_inverter_1_0,inverter,{}"; attribute downgradeipidentifiedwarnings : string; attribute downgradeipidentifiedwarnings of system_inverter_1_0 : entity is "yes"; attribute x_core_info : string; attribute x_core_info of system_inverter_1_0 : entity is "inverter,Vivado 2016.4"; end system_inverter_1_0; architecture STRUCTURE of system_inverter_1_0 is begin x_not_INST_0: unisim.vcomponents.LUT1 generic map( INIT => X"1" ) port map ( I0 => x, O => x_not ); end STRUCTURE;
---------------------------------------------------------------------------------- -- Company: University of Queensland -- Engineer: MDS -- -- Create Date: 25/07/2014 -- Design Name: -- Module Name: pracTop - Behavioral -- Project Name: -- Target Devices: -- Tool versions: -- Description: -- -- Dependencies: -- -- Revision: -- Revision 0.01 - File Created -- Additional Comments: -- ---------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.STD_LOGIC_ARITH.ALL; use IEEE.STD_LOGIC_UNSIGNED.ALL; ---- Uncomment the following library declaration if instantiating ---- any Xilinx primitives in this code. --library UNISIM; --use UNISIM.VComponents.all; entity prac_synchro is Port ( ssegAnode : out STD_LOGIC_VECTOR (7 downto 0); ssegCathode : out STD_LOGIC_VECTOR (7 downto 0); slideSwitches : in STD_LOGIC_VECTOR (15 downto 0); pushButtons : in STD_LOGIC_VECTOR (4 downto 0); LEDs : out STD_LOGIC_VECTOR (15 downto 0); clk100mhz : in STD_LOGIC; logic_analyzer : out STD_LOGIC_VECTOR (7 downto 0) ); end prac_synchro; architecture Behavioral of prac_synchro is component ssegDriver port ( clk : in std_logic; rst : in std_logic; cathode_p : out std_logic_vector(7 downto 0); anode_p : out std_logic_vector(7 downto 0); digit1_p : in std_logic_vector(3 downto 0); digit2_p : in std_logic_vector(3 downto 0); digit3_p : in std_logic_vector(3 downto 0); digit4_p : in std_logic_vector(3 downto 0); digit5_p : in std_logic_vector(3 downto 0); digit6_p : in std_logic_vector(3 downto 0); digit7_p : in std_logic_vector(3 downto 0); digit8_p : in std_logic_vector(3 downto 0) ); end component; component clockedRegister port ( D : in STD_LOGIC_VECTOR (15 downto 0); E : in STD_LOGIC; clk : in STD_LOGIC; reset : in STD_LOGIC; Q : out STD_LOGIC_VECTOR (15 downto 0) ); end component; signal masterReset : std_logic; signal button1 : std_logic; signal button2 : std_logic; signal submitButton : std_logic; signal currentState : std_logic_vector(2 downto 0); signal openLock : std_logic := '0'; signal closeLock : std_logic := '0'; signal correctAttempts : std_logic_vector(7 downto 0) := (others => '0'); signal incorrectAttempts : std_logic_vector(7 downto 0) := (others => '0'); signal displayKey : std_logic_vector(15 downto 0); signal upperKey : std_logic_vector(7 downto 0); signal lowerKey : std_logic_vector(7 downto 0); signal checkKey : std_logic_vector(15 downto 0); signal regEnable : std_logic; signal digit5 : std_logic_vector(3 downto 0); signal digit6 : std_logic_vector(3 downto 0); signal digit7 : std_logic_vector(3 downto 0); signal digit8 : std_logic_vector(3 downto 0); signal clockScalers : std_logic_vector (26 downto 0); BEGIN u1 : ssegDriver port map ( clk => clockScalers(11), rst => masterReset, cathode_p => ssegCathode, anode_p => ssegAnode, digit1_p => displayKey (3 downto 0), digit2_p => displayKey (7 downto 4), digit3_p => displayKey (11 downto 8), digit4_p => displayKey (15 downto 12), digit5_p => digit5, digit6_p => digit6, digit7_p => digit7, digit8_p => digit8 ); u2 : clockedRegister port map ( D (7 downto 0) => lowerKey, D (15 downto 8) => upperKey, E => regEnable, clk => clockScalers(11), reset => masterReset, Q => checkKey ); masterReset <= pushButtons(3); submitButton <= pushButtons(2); button1 <= pushButtons(1); button2 <= pushButtons(0); logic_analyzer <= clockScalers(26 downto 19); process (clk100mhz, masterReset) begin if (masterReset = '1') then clockScalers <= "000000000000000000000000000"; elsif (clk100mhz'event and clk100mhz = '1')then clockScalers <= clockScalers + '1'; end if; end process; regEnable <= '1'; process (button1, button2, submitButton, clk100mhz, masterReset) begin if (masterReset = '1') then openLock <= '0'; closeLock <= '0'; lowerKey <= (others => '0'); upperKey <= (others => '0'); displayKey <= (others => '0'); elsif (clk100mhz'event and clk100mhz = '1')then if( slideSwitches(7 downto 0) /= "00000110" and slideSwitches(7 downto 0) /= "00110011") then openLock <= '0'; end if; if (button1 = '1') then openLock <= '0'; closeLock <= '0'; lowerKey <= displayKey(7 downto 0); displayKey(7 downto 0) <= slideSwitches(7 downto 0); elsif (button2 = '1') then openLock <= '0'; closeLock <= '0'; upperKey <= displayKey(15 downto 8); displayKey (15 downto 8) <= slideSwitches(7 downto 0); elsif (submitButton = '1') then if (lowerKey = "00000110" and upperKey = "00110011") then openLock <= '1'; else closeLock <= '1'; end if; end if; end if; end process; process (openLock , clockScalers) begin LEDs (15 downto 2) <= clockScalers(26 downto 13); if(openLock = '1') then LEDs(0) <= '0'; LEDs(1) <= '1'; else LEDs(0) <= '1'; LEDs(1) <= '0'; end if; end process; digit6 <= incorrectAttempts(7 downto 4); digit5 <= incorrectAttempts(3 downto 0); digit8 <= correctAttempts(7 downto 4); digit7 <= correctAttempts(3 downto 0); process (masterReset, openlock) begin if (masterReset = '1') then correctAttempts <= (others => '0'); elsif (openLock'event and openLock = '1' ) then correctAttempts <= correctAttempts + '1'; end if; end process; process (masterReset, closelock) begin if (masterReset = '1') then incorrectAttempts <= (others => '0'); elsif (closeLock'event and closeLock = '1' ) then incorrectAttempts <= incorrectAttempts + '1'; end if; end process; end Behavioral;
library verilog; use verilog.vl_types.all; entity Driver_sv_unit is end Driver_sv_unit;
library ieee; use ieee.std_logic_1164.all; package i2c is component ParToI2s generic ( SampleSize_g : natural); port ( Clk_i : in std_ulogic; Reset_i : in std_ulogic; SampleLeft_i : in std_ulogic_vector(SampleSize_g - 1 downto 0); SampleRight_i : in std_ulogic_vector(SampleSize_g - 1 downto 0); StrobeLeft_i : in std_ulogic; StrobeRight_i : in std_ulogic; SampleAck_o : out std_ulogic; WaitForSample_o : out std_ulogic; SClk_i : in std_ulogic; LRClk_i : in std_ulogic; SdnyData_o : out std_ulogic); end component; end i2c;
library ieee; use ieee.std_logic_1164.all; package i2c is component ParToI2s generic ( SampleSize_g : natural); port ( Clk_i : in std_ulogic; Reset_i : in std_ulogic; SampleLeft_i : in std_ulogic_vector(SampleSize_g - 1 downto 0); SampleRight_i : in std_ulogic_vector(SampleSize_g - 1 downto 0); StrobeLeft_i : in std_ulogic; StrobeRight_i : in std_ulogic; SampleAck_o : out std_ulogic; WaitForSample_o : out std_ulogic; SClk_i : in std_ulogic; LRClk_i : in std_ulogic; SdnyData_o : out std_ulogic); end component; end i2c;
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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `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 NqZ1vyo1IO8cfOc/DlsNpw3RouS4S0LuevuKI1fI9fEQgPdbgiJGkxX2mvm6oPmrDcoYrKMuxgmL kL3FiB1aFA== `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 Jz0RqYhajjEfWJfW3+PTOLlPXObhmyRKrrr1cSHyBb1oSfDWGFFmsJboIVct8I1bW0OEZdjpY1CX ju14Tsz0As6ag6lAwLyfmRKHiXqXST/9Shogb9cof6GW7xSLdB6WUkUZuXpFL7svaCNkjXzdwni4 xbcX3U2mRIvns/InN04= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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package pack is procedure proc; end package; package body pack is procedure proc is begin wait for 1 ns; end procedure; end package body; ------------------------------------------------------------------------------- entity ent is end entity; use work.pack.all; architecture a of ent is begin main : process procedure proc_wait is begin wait for 1 ns; end procedure; procedure proc_wait_indirect is begin proc_wait; end procedure; impure function fun return integer is begin proc_wait_indirect; -- Error proc_wait; -- Error return 42; end function; variable var : integer; begin var := fun; assert var = 42; report integer'image(var); wait until false; end process; process is function fun2 return boolean is begin proc; -- Error (not at sem) return true; end function; begin assert fun2; wait; end process; end architecture;
---------------------------------------------------------------------------------- -- Company: LARC - Escola Politecnica - University of Sao Paulo -- Engineer: Pedro Maat C. Massolino -- -- Create Date: 05/12/2012 -- Design Name: Counter_double_rst_n_bits -- Module Name: Counter_double_rst_n_bits -- Project Name: Essentials -- Target Devices: Any -- Tool versions: Xilinx ISE 13.3 WebPack -- -- Description: -- -- Counter of size bits with reset signal, that only increments when ce equals to 1. -- The reset is synchronous and the value loaded during reset is defined by reset_value. -- This counter has two different values that can be incremented. -- -- The circuits parameters -- -- size : -- -- The size of the counter in bits. -- -- increment_value_0 : -- -- The amount will be incremented each cycle, if increment_value = 0. -- -- increment_value_1 : -- -- The amount will be incremented each cycle, if increment_value = 1. -- -- Dependencies: -- VHDL-93 -- -- -- Revision: -- Revision 1.0 -- Additional Comments: -- ---------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.NUMERIC_STD.ALL; entity counter_double_rst_nbits is Generic ( size : integer; increment_value_0 : integer; increment_value_1 : integer ); Port ( clk : in STD_LOGIC; ce : in STD_LOGIC; rst : in STD_LOGIC; rst_value : in STD_LOGIC_VECTOR ((size - 1) downto 0); increment_value : in STD_LOGIC; q : out STD_LOGIC_VECTOR ((size - 1) downto 0) ); end counter_double_rst_nbits; architecture Behavioral of counter_double_rst_nbits is signal internal_value : UNSIGNED((size - 1) downto 0); begin process(clk, ce, rst) begin if(clk'event and clk = '1')then if(rst = '1') then internal_value <= unsigned(rst_value); elsif(ce = '1') then if(increment_value = '1') then internal_value <= internal_value + to_unsigned(increment_value_1, internal_value'Length); else internal_value <= internal_value + to_unsigned(increment_value_0, internal_value'Length); end if; else null; end if; end if; end process; q <= std_logic_vector(internal_value); end Behavioral;
library verilog; use verilog.vl_types.all; entity meio_somador2 is port( a : in vl_logic; b : in vl_logic; soma : out vl_logic; cout : out vl_logic ); end meio_somador2;
----------------------------------------------------------------------------- -- LEON3 Demonstration design test bench configuration -- Copyright (C) 2009 Aeroflex Gaisler ------------------------------------------------------------------------------ library techmap; use techmap.gencomp.all; package config is -- Technology and synthesis options constant CFG_FABTECH : integer := virtex2; constant CFG_MEMTECH : integer := virtex2; constant CFG_PADTECH : integer := virtex2; constant CFG_NOASYNC : integer := 0; constant CFG_SCAN : integer := 0; -- Clock generator constant CFG_CLKTECH : integer := virtex2; constant CFG_CLKMUL : integer := (2); constant CFG_CLKDIV : integer := (2); constant CFG_OCLKDIV : integer := 1; constant CFG_OCLKBDIV : integer := 0; constant CFG_OCLKCDIV : integer := 0; constant CFG_PCIDLL : integer := 0; constant CFG_PCISYSCLK: integer := 0; constant CFG_CLK_NOFB : integer := 0; -- LEON3 processor core constant CFG_LEON3 : integer := 1; constant CFG_NCPU : integer := (2); constant CFG_NWIN : integer := (8); constant CFG_V8 : integer := 0 + 4*0; constant CFG_MAC : integer := 0; constant CFG_BP : integer := 0; constant CFG_SVT : integer := 0; constant CFG_RSTADDR : integer := 16#00000#; constant CFG_LDDEL : integer := (1); constant CFG_NOTAG : integer := 0; constant CFG_NWP : integer := (0); constant CFG_PWD : integer := 1*2; constant CFG_FPU : integer := 0 + 16*0 + 32*0; constant CFG_GRFPUSH : integer := 0; constant CFG_ICEN : integer := 1; constant CFG_ISETS : integer := 1; constant CFG_ISETSZ : integer := 4; constant CFG_ILINE : integer := 8; constant CFG_IREPL : integer := 0; constant CFG_ILOCK : integer := 0; constant CFG_ILRAMEN : integer := 0; constant CFG_ILRAMADDR: integer := 16#8E#; constant CFG_ILRAMSZ : integer := 1; constant CFG_DCEN : integer := 1; constant CFG_DSETS : integer := 1; constant CFG_DSETSZ : integer := 4; constant CFG_DLINE : integer := 8; constant CFG_DREPL : integer := 0; constant CFG_DLOCK : integer := 0; constant CFG_DSNOOP : integer := 1*2 + 4*0; constant CFG_DFIXED : integer := 16#0#; constant CFG_DLRAMEN : integer := 0; constant CFG_DLRAMADDR: integer := 16#8F#; constant CFG_DLRAMSZ : integer := 1; constant CFG_MMUEN : integer := 0; constant CFG_ITLBNUM : integer := 2; constant CFG_DTLBNUM : integer := 2; constant CFG_TLB_TYPE : integer := 1 + 0*2; constant CFG_TLB_REP : integer := 1; constant CFG_MMU_PAGE : integer := 0; constant CFG_DSU : integer := 1; constant CFG_ITBSZ : integer := 2; constant CFG_ATBSZ : integer := 2; constant CFG_LEON3FT_EN : integer := 0; constant CFG_IUFT_EN : integer := 0; constant CFG_FPUFT_EN : integer := 0; constant CFG_RF_ERRINJ : integer := 0; constant CFG_CACHE_FT_EN : integer := 0; constant CFG_CACHE_ERRINJ : integer := 0; constant CFG_LEON3_NETLIST: integer := 0; constant CFG_DISAS : integer := 0 + 0; constant CFG_PCLOW : integer := 2; -- AMBA settings constant CFG_DEFMST : integer := (0); constant CFG_RROBIN : integer := 1; constant CFG_SPLIT : integer := 0; constant CFG_FPNPEN : integer := 0; constant CFG_AHBIO : integer := 16#FFF#; constant CFG_APBADDR : integer := 16#800#; constant CFG_AHB_MON : integer := 0; constant CFG_AHB_MONERR : integer := 0; constant CFG_AHB_MONWAR : integer := 0; constant CFG_AHB_DTRACE : integer := 0; -- DSU UART constant CFG_AHB_UART : integer := 1; -- JTAG based DSU interface constant CFG_AHB_JTAG : integer := 1; -- Ethernet DSU constant CFG_DSU_ETH : integer := 1 + 0 + 0; constant CFG_ETH_BUF : integer := 2; constant CFG_ETH_IPM : integer := 16#C0A8#; constant CFG_ETH_IPL : integer := 16#0033#; constant CFG_ETH_ENM : integer := 16#020000#; constant CFG_ETH_ENL : integer := 16#000017#; -- PROM/SRAM controller constant CFG_SRCTRL : integer := 0; constant CFG_SRCTRL_PROMWS : integer := 0; constant CFG_SRCTRL_RAMWS : integer := 0; constant CFG_SRCTRL_IOWS : integer := 0; constant CFG_SRCTRL_RMW : integer := 0; constant CFG_SRCTRL_8BIT : integer := 0; constant CFG_SRCTRL_SRBANKS : integer := 1; constant CFG_SRCTRL_BANKSZ : integer := 0; constant CFG_SRCTRL_ROMASEL : integer := 0; -- LEON2 memory controller constant CFG_MCTRL_LEON2 : integer := 1; constant CFG_MCTRL_RAM8BIT : integer := 1; constant CFG_MCTRL_RAM16BIT : integer := 0; constant CFG_MCTRL_5CS : integer := 0; constant CFG_MCTRL_SDEN : integer := 1; constant CFG_MCTRL_SEPBUS : integer := 0; constant CFG_MCTRL_INVCLK : integer := 0; constant CFG_MCTRL_SD64 : integer := 0; constant CFG_MCTRL_PAGE : integer := 0 + 0; -- SDRAM controller constant CFG_SDCTRL : integer := 0; constant CFG_SDCTRL_INVCLK : integer := 0; constant CFG_SDCTRL_SD64 : integer := 0; constant CFG_SDCTRL_PAGE : integer := 0 + 0; -- AHB ROM constant CFG_AHBROMEN : integer := 0; constant CFG_AHBROPIP : integer := 0; constant CFG_AHBRODDR : integer := 16#000#; constant CFG_ROMADDR : integer := 16#000#; constant CFG_ROMMASK : integer := 16#E00# + 16#000#; -- AHB RAM constant CFG_AHBRAMEN : integer := 0; constant CFG_AHBRSZ : integer := 1; constant CFG_AHBRADDR : integer := 16#A00#; constant CFG_AHBRPIPE : integer := 0; -- Gaisler Ethernet core constant CFG_GRETH : integer := 1; constant CFG_GRETH1G : integer := 0; constant CFG_ETH_FIFO : integer := 32; -- CAN 2.0 interface constant CFG_CAN : integer := 0; constant CFG_CANIO : integer := 16#0#; constant CFG_CANIRQ : integer := 0; constant CFG_CANLOOP : integer := 0; constant CFG_CAN_SYNCRST : integer := 0; constant CFG_CANFT : integer := 0; -- PCI interface constant CFG_PCI : integer := 0; constant CFG_PCIVID : integer := 16#0#; constant CFG_PCIDID : integer := 16#0#; constant CFG_PCIDEPTH : integer := 8; constant CFG_PCI_MTF : integer := 1; -- PCI arbiter constant CFG_PCI_ARB : integer := 0; constant CFG_PCI_ARBAPB : integer := 0; constant CFG_PCI_ARB_NGNT : integer := 4; -- PCI trace buffer constant CFG_PCITBUFEN: integer := 0; constant CFG_PCITBUF : integer := 256; -- Spacewire interface constant CFG_SPW_EN : integer := 0; constant CFG_SPW_NUM : integer := 1; constant CFG_SPW_AHBFIFO : integer := 4; constant CFG_SPW_RXFIFO : integer := 16; constant CFG_SPW_RMAP : integer := 0; constant CFG_SPW_RMAPBUF : integer := 4; constant CFG_SPW_RMAPCRC : integer := 0; constant CFG_SPW_NETLIST : integer := 0; constant CFG_SPW_FT : integer := 0; constant CFG_SPW_GRSPW : integer := 2; constant CFG_SPW_RXUNAL : integer := 0; constant CFG_SPW_DMACHAN : integer := 1; constant CFG_SPW_PORTS : integer := 1; constant CFG_SPW_INPUT : integer := 2; constant CFG_SPW_OUTPUT : integer := 0; constant CFG_SPW_RTSAME : integer := 0; -- UART 1 constant CFG_UART1_ENABLE : integer := 1; constant CFG_UART1_FIFO : integer := 4; -- UART 2 constant CFG_UART2_ENABLE : integer := 0; constant CFG_UART2_FIFO : integer := 1; -- LEON3 interrupt controller constant CFG_IRQ3_ENABLE : integer := 1; constant CFG_IRQ3_NSEC : integer := 0; -- Modular timer constant CFG_GPT_ENABLE : integer := 1; constant CFG_GPT_NTIM : integer := (2); constant CFG_GPT_SW : integer := (8); constant CFG_GPT_TW : integer := (32); constant CFG_GPT_IRQ : integer := (8); constant CFG_GPT_SEPIRQ : integer := 1; constant CFG_GPT_WDOGEN : integer := 1; constant CFG_GPT_WDOG : integer := 16#FFFF#; -- GPIO port constant CFG_GRGPIO_ENABLE : integer := 1; constant CFG_GRGPIO_IMASK : integer := 16#0000#; constant CFG_GRGPIO_WIDTH : integer := (12); -- GRLIB debugging constant CFG_DUART : integer := 0; end;
------------------------------------------------------------------------------- -- -- RapidIO IP Library Core -- -- This file is part of the RapidIO IP library project -- http://www.opencores.org/cores/rio/ -- -- To Do: -- - -- -- Author(s): -- - A. Demirezen, azdem@opencores.org -- ------------------------------------------------------------------------------- -- -- Copyright (C) 2013 Authors and OPENCORES.ORG -- -- 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 -- ------------------------------------------------------------------------------ ------------------------------------------------------------------------------ -- -- File name: ccs_timer.vhd -- Rev: 0.0 -- Description: This entity watches the CCS (clock compensation sequence) -- insertion according to RIO Sepec. Part-6, subchapter 4.7.1 -- ------------------------------------------------------------------------------ ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use ieee.std_logic_unsigned.all; use work.rio_common.all; entity ccs_timer is generic ( TCQ : time := 100 ps ); port ( rst_n : in std_logic; UCLK : in std_logic; send_ccs : out std_logic; ccs_timer_rst : in std_logic ); end ccs_timer; architecture RTL of ccs_timer is -------------------------------------------------------------------------------------- signal ccs_counter : std_logic_vector(11 downto 0) := (others => '0'); constant CCS_INTERVAL : std_logic_vector(11 downto 0) := x"7FF"; -- = 4096 chars -------------------------------------------------------------------------------------- begin -- CCS counter process process(rst_n, UCLK) begin if rst_n = '0' then ccs_counter <= CCS_INTERVAL; send_ccs <= '0'; elsif rising_edge(UCLK) then if ccs_timer_rst = '0' then if ccs_counter = CCS_INTERVAL then send_ccs <= '1'; else send_ccs <= '0'; ccs_counter <= ccs_counter + '1'; end if; else send_ccs <= '0'; ccs_counter <= (others => '0'); end if; end if; end process; end RTL; --------------------------------------------------------------------------------------- ------------------------------------------------------------------------------- -- -- RapidIO IP Library Core -- -- This file is part of the RapidIO IP library project -- http://www.opencores.org/cores/rio/ -- -- To Do: -- - -- -- Author(s): -- - A. Demirezen, azdem@opencores.org -- ------------------------------------------------------------------------------- -- -- Copyright (C) 2013 Authors and OPENCORES.ORG -- -- 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 -- ------------------------------------------------------------------------------ ------------------------------------------------------------------------------ -- -- File name: idle_generator.vhd -- Rev: 0.0 -- Description: This entity generates IDLE1 sequence for SRIO PHY -- RIO Sepec. Part-6, subchapter 4.7.2 -- ------------------------------------------------------------------------------ ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use ieee.std_logic_unsigned.all; use work.rio_common.all; entity idle_generator is generic ( lfsr_init : std_logic_vector(7 downto 0) := x"01"; TCQ : time := 100 ps ); port ( UCLK : in std_logic; rst_n : in std_logic; send_idle : in std_logic; send_K : out std_logic; send_A : out std_logic; send_R : out std_logic ); end idle_generator; architecture RTL of idle_generator is ------------------------------------------------------------------------------------------------------------------------------------------- signal q_pseudo_random_number : std_logic_vector(7 downto 0) := (others => '0'); signal pseudo_random_bit : std_logic := '0'; signal down_counter_load_value : std_logic_vector(4 downto 0) := (others => '0'); signal down_counter : std_logic_vector(4 downto 0) := (others => '0'); signal Acntr_eq_zero : std_logic := '0'; signal send_idle_q : std_logic := '0'; -- COMPONENT pseudo_random_number_generator GENERIC ( lfsr_init : std_logic_vector(7 downto 0) ); PORT( clk : IN std_logic; rst_n : IN std_logic; q : OUT std_logic_vector(7 downto 0) ); END COMPONENT; ------------------------------------------------------------------------------------------------------------------------------------------- begin inst_prng: pseudo_random_number_generator GENERIC MAP( lfsr_init => lfsr_init --x"01" ) PORT MAP( clk => UCLK, rst_n => rst_n, q => q_pseudo_random_number ); pseudo_random_bit <= q_pseudo_random_number(0); down_counter_load_value <= '1' & q_pseudo_random_number(6) & q_pseudo_random_number(4) & q_pseudo_random_number(3) & q_pseudo_random_number(1); -- down counter process process(rst_n, UCLK) begin if rst_n = '0' then down_counter <= (others => '0'); elsif rising_edge(UCLK) then if Acntr_eq_zero = '1' then down_counter <= down_counter_load_value; else down_counter <= down_counter - '1'; end if; end if; end process; Acntr_eq_zero <= '1' when down_counter = "00000" else '0'; -- send_idle delay process process(rst_n, UCLK) begin if rst_n = '0' then send_idle_q <= '0'; elsif rising_edge(UCLK) then send_idle_q <= send_idle; end if; end process; send_K <= send_idle and (not(send_idle_q) or (send_idle_q and not(Acntr_eq_zero) and pseudo_random_bit)); send_A <= send_idle and send_idle_q and Acntr_eq_zero; send_R <= send_idle and send_idle_q and not(Acntr_eq_zero) and not(pseudo_random_bit); end RTL; ------------------------------------------------------------------------------------------------------------------------------------------- ------------------------------------------------------------------------------- -- -- RapidIO IP Library Core -- -- This file is part of the RapidIO IP library project -- http://www.opencores.org/cores/rio/ -- -- To Do: -- - -- -- Author(s): -- - A. Demirezen, azdem@opencores.org -- ------------------------------------------------------------------------------- -- -- Copyright (C) 2013 Authors and OPENCORES.ORG -- -- 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 -- ------------------------------------------------------------------------------ ------------------------------------------------------------------------------ -- -- File name: idle_generator_dual.vhd -- Rev: 0.0 -- Description: This entity generates IDLE1 sequence for SRIO PHY -- RIO Sepec. Part-6, subchapter 4.7.2 -- ------------------------------------------------------------------------------ ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use ieee.std_logic_unsigned.all; use work.rio_common.all; entity idle_generator_dual is generic ( TCQ : time := 100 ps ); port ( UCLK : in std_logic; rst_n : in std_logic; send_idle : in std_logic_vector(1 downto 0); send_K : out std_logic_vector(1 downto 0); send_A : out std_logic_vector(1 downto 0); send_R : out std_logic_vector(1 downto 0) ); end idle_generator_dual; architecture RTL of idle_generator_dual is ------------------------------------------------------------------------------------------------------------------------------------------- COMPONENT idle_generator generic ( lfsr_init : std_logic_vector(7 downto 0); TCQ : time ); PORT( UCLK : IN std_logic; rst_n : IN std_logic; send_idle : IN std_logic; send_K : OUT std_logic; send_A : OUT std_logic; send_R : OUT std_logic ); END COMPONENT; ------------------------------------------------------------------------------------------------------------------------------------------- begin Inst_idle_generator_0: idle_generator GENERIC MAP( TCQ => 100 ps, lfsr_init => x"0F" ) PORT MAP( UCLK => UCLK, rst_n => rst_n, send_idle => send_idle(0), send_K => send_K(0), send_A => send_A(0), send_R => send_R(0) ); Inst_idle_generator_1: idle_generator GENERIC MAP( TCQ => 100 ps, lfsr_init => x"F0" ) PORT MAP( UCLK => UCLK, rst_n => rst_n, send_idle => send_idle(1), send_K => send_K(1), send_A => send_A(1), send_R => send_R(1) ); end RTL; ------------------------------------------------------------------------------------------------------------------------------------------- ------------------------------------------------------------------------------- -- -- RapidIO IP Library Core -- -- This file is part of the RapidIO IP library project -- http://www.opencores.org/cores/rio/ -- -- To Do: -- - -- -- Author(s): -- - A. Demirezen, azdem@opencores.org -- ------------------------------------------------------------------------------- -- -- Copyright (C) 2013 Authors and OPENCORES.ORG -- -- 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 -- ------------------------------------------------------------------------------ ------------------------------------------------------------------------------ -- -- File name: pcs_rx_controller.vhd -- Rev: 0.0 -- Description: This entity controls the RX stream -- -- ------------------------------------------------------------------------------ ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use ieee.std_logic_unsigned.all; use work.rio_common.all; entity pcs_rx_controller is generic ( TCQ : time := 100 ps ); port ( rst_n : in std_logic; rio_clk : in std_logic; -- ~150 MHz UCLK_x2 : in std_logic; -- 312,5 MHz UCLK : in std_logic; -- 156,25 MHz UCLK_x2_DV2 : in std_logic; -- 312,5 MHz @ x4 mode / 78,125 @ x1 (fallback mode) UCLK_or_DV4 : in std_logic; -- 156,25 MHz @ x4 mode / 39,0625 @ x1 (fallback mode) -- UCLK_DV4 : in std_logic; -- 39,0625 -- -- Interface to the RioSerial inboundRead_i : in std_logic; inboundEmpty_o : out std_logic; inboundSymbol_o : out std_logic_vector(33 downto 0); -- -- Interface to the GTX transceivers RXDATA_i : in std_logic_vector(63 downto 0); -- N = 4 RXCHARISK_i : in std_logic_vector(7 downto 0); RXCHARISvalid_i : in std_logic_vector(7 downto 0); -- -- Interface to the port init port_initalized_i : in std_logic; mode_sel_i : in std_logic; mode_0_lane_sel_i : in std_logic ); end pcs_rx_controller; architecture RTL of pcs_rx_controller is ------------------------------------------------------------------------------- COMPONENT pcs_rx_boudary_32b_out_64b_in PORT ( rst : IN STD_LOGIC; wr_clk : IN STD_LOGIC; rd_clk : IN STD_LOGIC; din : IN STD_LOGIC_VECTOR(67 DOWNTO 0); wr_en : IN STD_LOGIC; rd_en : IN STD_LOGIC; dout : OUT STD_LOGIC_VECTOR(33 DOWNTO 0); full : OUT STD_LOGIC; almost_full : OUT STD_LOGIC; empty : OUT STD_LOGIC; almost_empty : OUT STD_LOGIC; valid : OUT STD_LOGIC ); END COMPONENT; ------------------------------------------------------------------------------- signal rst : std_logic:= '0'; signal RXDATA_swap : std_logic_vector(63 downto 0) := (others => '0'); signal RXCHARISK_swap : std_logic_vector(7 downto 0) := (others => '0'); signal RXCHARISvalid_swap : std_logic_vector(7 downto 0) := (others => '0'); signal RXDATA_u : std_logic_vector(31 downto 0) := (others => '0'); signal RXCHARISK_u : std_logic_vector(3 downto 0) := (others => '0'); signal RXDATA_l : std_logic_vector(31 downto 0) := (others => '0'); signal RXCHARISK_l : std_logic_vector(3 downto 0) := (others => '0'); signal RXCHARISvalid_u : std_logic_vector(3 downto 0) := (others => '0'); signal RXCHARISvalid_l : std_logic_vector(3 downto 0) := (others => '0'); signal inboundValid : std_logic:= '0'; signal rx_fifo_wr_en : std_logic:= '0'; signal rx_fifo_wr_en_q : std_logic:= '0'; signal rx_fifo_full : std_logic:= '0'; signal rx_fifo_almost_full : std_logic:= '0'; signal rx_fifo_almost_empty : std_logic:= '0'; signal rx_fifo_data_in : std_logic_vector(67 downto 0) := (others => '0'); signal rx_fifo_data_in_q : std_logic_vector(67 downto 0) := (others => '0'); signal rx_fifo_data_swapped : std_logic_vector(67 downto 0) := (others => '0'); signal rx_fifo_full_p : std_logic:= '0'; signal port_initalized : std_logic:= '0'; signal mode_sel : std_logic:= '0'; signal mode_0_lane_sel : std_logic:= '0'; signal port_state : std_logic_vector(2 downto 0) := (others => '0'); signal upper_symbol_type : std_logic_vector(1 downto 0) := (others => '0'); signal lower_symbol_type : std_logic_vector(1 downto 0) := (others => '0'); signal upper_symbol_not_idle : std_logic:= '0'; signal lower_symbol_not_idle : std_logic:= '0'; signal upper_symbol_valid : std_logic:= '0'; signal lower_symbol_valid : std_logic:= '0'; signal upper_symbol_not_error : std_logic:= '0'; signal lower_symbol_not_error : std_logic:= '0'; -- signal RXDATA_sr : std_logic_vector(63 downto 0) := (others => '0'); -- signal RXCHARISK_sr : std_logic_vector(7 downto 0) := (others => '0'); -- signal RXCHARISvalid_sr : std_logic_vector(7 downto 0) := (others => '0'); signal RXDATA_sr_done : std_logic_vector(63 downto 0) := (others => '0'); signal RXCHARISK_sr_done : std_logic_vector(7 downto 0) := (others => '0'); signal RXCHARISvalid_sr_done : std_logic_vector(7 downto 0) := (others => '0'); signal RXDATA_sr : std_logic_vector(71 downto 0) := (others => '0'); signal RXCHARISK_sr : std_logic_vector(8 downto 0) := (others => '0'); signal RXCHARISvalid_sr : std_logic_vector(8 downto 0) := (others => '0'); signal RXDATA_R_lane : std_logic_vector(15 downto 0) := (others => '0'); signal RXCHARISK_R_lane : std_logic_vector(1 downto 0) := (others => '0'); signal RXCHARISvalid_R_lane : std_logic_vector(1 downto 0) := (others => '0'); signal valid_byte_cntr : std_logic_vector(2 downto 0) := (others => '0'); signal irregular_stream : std_logic:= '0'; signal done_cntr : std_logic_vector(1 downto 0) := (others => '0'); signal rx_done : std_logic:= '0'; signal u_l_switch : std_logic:= '0'; -- signal sr_symbol_not_idle : std_logic:= '0'; -- signal sr_symbol_not_idle_q : std_logic:= '0'; -- signal sr_symbol_not_error : std_logic:= '0'; -- signal sr_symbol_not_error_q : std_logic:= '0'; -- signal RXDATA_sr : std_logic_vector(31 downto 0) := (others => '0'); -- signal RXCHARISK_sr : std_logic_vector(3 downto 0) := (others => '0'); -- signal RXCHARISvalid_sr : std_logic_vector(3 downto 0) := (others => '0'); -- signal sr_symbol_type : std_logic_vector(1 downto 0) := (others => '0'); signal sr_u_symbol_not_idle : std_logic:= '0'; signal sr_u_symbol_not_idle_q : std_logic:= '0'; signal sr_u_symbol_not_error : std_logic:= '0'; signal sr_u_symbol_not_error_q : std_logic:= '0'; signal RXDATA_u_sr : std_logic_vector(31 downto 0) := (others => '0'); signal RXCHARISK_u_sr : std_logic_vector(3 downto 0) := (others => '0'); signal RXCHARISvalid_u_sr : std_logic_vector(3 downto 0) := (others => '0'); signal sr_u_symbol_type : std_logic_vector(1 downto 0) := (others => '0'); signal sr_l_symbol_not_idle : std_logic:= '0'; signal sr_l_symbol_not_idle_q : std_logic:= '0'; signal sr_l_symbol_not_error : std_logic:= '0'; signal sr_l_symbol_not_error_q : std_logic:= '0'; signal RXDATA_sr_l : std_logic_vector(31 downto 0) := (others => '0'); signal RXCHARISK_sr_l : std_logic_vector(3 downto 0) := (others => '0'); signal RXCHARISvalid_sr_l : std_logic_vector(3 downto 0) := (others => '0'); signal sr_l_symbol_type : std_logic_vector(1 downto 0) := (others => '0'); signal started_once : std_logic:= '0'; signal word_switch : std_logic:= '0'; signal shift_cntr : std_logic_vector(1 downto 0) := (others => '0'); ---------------------------------------------------------------------------------- begin rst <= not(rst_n); rx_boundary_fifo : pcs_rx_boudary_32b_out_64b_in -- FWFT FIFO PORT MAP ( rst => rst, rd_clk => rio_clk, rd_en => inboundRead_i, dout => inboundSymbol_o, valid => inboundValid, empty => inboundEmpty_o, almost_empty => rx_fifo_almost_empty, wr_clk => UCLK_or_DV4, wr_en => rx_fifo_wr_en_q, -- rx_fifo_wr_en, -- rx_fifo_wr_en_q, -- din => rx_fifo_data_in_q, -- rx_fifo_data_in, -- rx_fifo_data_in_q, -- full => rx_fifo_full, -- rx_fifo_full almost_full => rx_fifo_almost_full -- rx_fifo_full ); -- Pipelining RX write process(UCLK_or_DV4) begin if rising_edge(UCLK_or_DV4) then rx_fifo_wr_en_q <= rx_fifo_wr_en; rx_fifo_data_in_q <= rx_fifo_data_in; end if; end process; -- rx_fifo_data_swapped <= rx_fifo_data_in(33 downto 32) -- & rx_fifo_data_in(7 downto 0) & rx_fifo_data_in(15 downto 8) & rx_fifo_data_in(23 downto 16) & rx_fifo_data_in(31 downto 24); port_initalized <= port_initalized_i; mode_sel <= mode_sel_i; mode_0_lane_sel <= mode_0_lane_sel_i; port_state <= port_initalized & mode_sel & mode_0_lane_sel; -- RX management / FIFO write process process(rst_n, UCLK) -- _x2 begin if rst_n = '0' then rx_fifo_wr_en <= '0'; word_switch <= '0'; started_once <= '0'; rx_fifo_data_in <= (others => '0'); -- RXDATA_sr <= (others => '0'); -- RXCHARISK_sr <= (others => '1'); -- RXCHARISvalid_sr <= (others => '0'); shift_cntr <= (others => '0'); elsif rising_edge(UCLK) then -- Alternative If-Else Statement if port_initalized = '0' then -- Port has not been initialized yet rx_fifo_wr_en <= '0'; rx_fifo_data_in <= (others => '0'); else -- Port has been initialized -- if mode_sel = '1' then -- x4 mode is active if upper_symbol_valid = '1' and lower_symbol_valid = '1' then rx_fifo_data_in <= upper_symbol_type & RXDATA_u & lower_symbol_type & RXDATA_l; rx_fifo_wr_en <= not(rx_fifo_almost_full); elsif upper_symbol_valid = '1' then rx_fifo_data_in <= upper_symbol_type & RXDATA_u & SYMBOL_IDLE & x"00000000"; rx_fifo_wr_en <= not(rx_fifo_almost_full); elsif lower_symbol_valid = '1' then rx_fifo_data_in <= SYMBOL_IDLE & x"00000000" & lower_symbol_type & RXDATA_l; rx_fifo_wr_en <= not(rx_fifo_almost_full); else rx_fifo_wr_en <= '0'; end if; -- else -- x1 fallback mode is active -- if upper_symbol_valid = '1' and lower_symbol_valid = '1' then -- rx_fifo_data_in <= upper_symbol_type & RXDATA_u & lower_symbol_type & RXDATA_l; -- rx_fifo_wr_en <= not(rx_fifo_full); -- elsif upper_symbol_valid = '1' then -- rx_fifo_data_in <= upper_symbol_type & RXDATA_u & SYMBOL_IDLE & RXDATA_l; -- rx_fifo_wr_en <= not(rx_fifo_full); -- elsif lower_symbol_valid = '1' then -- rx_fifo_data_in <= SYMBOL_IDLE & RXDATA_u & lower_symbol_type & RXDATA_l; -- rx_fifo_wr_en <= not(rx_fifo_full); -- else -- rx_fifo_wr_en <= '0'; -- end if; -- end if; end if; end if; end process; ------------------------------------------------------------------------------------------------------------------------------------------------------- -- -- Pipelining RX stream -- process(UCLK) -- begin -- if rising_edge(UCLK) then -- RXDATA_swap <= RXDATA_i(15 downto 0) & RXDATA_i(31 downto 16) & RXDATA_i(47 downto 32) & RXDATA_i(63 downto 48); -- RXCHARISK_swap <= RXCHARISK_i(1 downto 0) & RXCHARISK_i(3 downto 2) & RXCHARISK_i(5 downto 4) & RXCHARISK_i(7 downto 6); -- RXCHARISvalid_swap <= RXCHARISvalid_i(1 downto 0) & RXCHARISvalid_i(3 downto 2) & RXCHARISvalid_i(5 downto 4) & RXCHARISvalid_i(7 downto 6); -- end if; -- end process; -- Pipelining RX stream process(UCLK) begin if rising_edge(UCLK) then RXDATA_swap <= RXDATA_i(15 downto 0) & RXDATA_i(31 downto 16) & RXDATA_i(47 downto 32) & RXDATA_i(63 downto 48); RXCHARISK_swap <= RXCHARISK_i(1 downto 0) & RXCHARISK_i(3 downto 2) & RXCHARISK_i(5 downto 4) & RXCHARISK_i(7 downto 6); RXCHARISvalid_swap <= RXCHARISvalid_i(1 downto 0) & RXCHARISvalid_i(3 downto 2) & RXCHARISvalid_i(5 downto 4) & RXCHARISvalid_i(7 downto 6); -- if mode_sel = '1' then -- x4 mode is active -- else -- x1 fallback mode is active -- -- RXDATA_swap <= RXDATA_sr_done ; -- RXCHARISK_swap <= RXCHARISK_sr_done ; -- RXCHARISvalid_swap <= RXCHARISvalid_sr_done ; -- -- end if; end if; end process; --- Lane 0 active Lane 2 active RXDATA_R_lane <= RXDATA_i(15 downto 0) when mode_0_lane_sel = '0' else RXDATA_i(47 downto 32) ; RXCHARISK_R_lane <= RXCHARISK_i(1 downto 0) when mode_0_lane_sel = '0' else RXCHARISK_i(5 downto 4) ; RXCHARISvalid_R_lane <= RXCHARISvalid_i(1 downto 0) when mode_0_lane_sel = '0' else RXCHARISvalid_i(5 downto 4) ; -- RXDATA shifting process for x1 mode process(UCLK) -- _x2 rst_n, begin -- if rst_n = '0' then -- -- RXDATA_sr <= (others => '0'); -- RXCHARISK_sr <= (others => '1'); -- RXCHARISvalid_sr <= (others => '0'); -- valid_byte_cntr <= (others => '0'); -- -- RXDATA_sr_done <= (others => '0'); -- RXCHARISK_sr_done <= (others => '1'); -- RXCHARISvalid_sr_done <= (others => '0'); -- -- done_cntr <= (others => '0'); -- rx_done <= '0'; -- -- els if rising_edge(UCLK) then if port_initalized = '0' then -- Port has not been initialized yet RXDATA_sr <= (others => '0'); RXCHARISK_sr <= (others => '1'); RXCHARISvalid_sr <= (others => '0'); valid_byte_cntr <= (others => '0'); RXDATA_sr_done <= (others => '0'); RXCHARISK_sr_done <= (others => '1'); RXCHARISvalid_sr_done <= (others => '0'); done_cntr <= (others => '0'); rx_done <= '0'; else done_cntr <= done_cntr + rx_done; if RXCHARISvalid_R_lane(0) = '1' and (RXCHARISK_R_lane(0) = '0' or (RXCHARISK_R_lane(0) = '1' and (RXDATA_R_lane(7 downto 0) = SC or RXDATA_R_lane(7 downto 0) = PD))) then if RXCHARISvalid_R_lane(1) = '1' and (RXCHARISK_R_lane(1) = '0' or (RXCHARISK_R_lane(1) = '1' and (RXDATA_R_lane(15 downto 8) = SC or RXDATA_R_lane(15 downto 8) = PD))) then --- [VVVV] It may appear anytime valid_byte_cntr <= valid_byte_cntr + "10"; RXDATA_sr <= RXDATA_sr(55 downto 0) & RXDATA_R_lane(15 downto 0); RXCHARISK_sr <= RXCHARISK_sr(6 downto 0) & RXCHARISK_R_lane(1 downto 0); RXCHARISvalid_sr <= RXCHARISvalid_sr(6 downto 0) & RXCHARISvalid_R_lane(1 downto 0); if valid_byte_cntr = "110" then irregular_stream <= '0'; rx_done <= '1'; done_cntr <= (others => '0'); RXDATA_sr_done <= RXDATA_sr(47 downto 0) & RXDATA_R_lane(15 downto 0); RXCHARISK_sr_done <= RXCHARISK_sr(5 downto 0) & RXCHARISK_R_lane(1 downto 0); RXCHARISvalid_sr_done <= RXCHARISvalid_sr(5 downto 0) & RXCHARISvalid_R_lane(1 downto 0); elsif valid_byte_cntr = "111" then irregular_stream <= '1'; rx_done <= '1'; done_cntr <= (others => '0'); RXDATA_sr_done <= RXDATA_sr(55 downto 0) & RXDATA_R_lane(15 downto 8); RXCHARISK_sr_done <= RXCHARISK_sr(6 downto 0) & RXCHARISK_R_lane(1); RXCHARISvalid_sr_done <= RXCHARISvalid_sr(6 downto 0) & RXCHARISvalid_R_lane(1); elsif done_cntr = "11" then rx_done <= '0'; RXCHARISK_sr_done <= (others => '1'); RXCHARISvalid_sr_done <= (others => '0'); end if; else --- [__VV] : It can appear only in the beginning if valid_byte_cntr = "100" then valid_byte_cntr <= valid_byte_cntr + '1'; else -- either it is an irregular start or something went wrong valid_byte_cntr <= "001"; irregular_stream <= '1'; end if; RXDATA_sr <= RXDATA_sr(63 downto 0) & RXDATA_R_lane(7 downto 0); RXCHARISK_sr <= RXCHARISK_sr(7 downto 0) & RXCHARISK_R_lane(0); RXCHARISvalid_sr <= RXCHARISvalid_sr(7 downto 0) & RXCHARISvalid_R_lane(0); if done_cntr = "11" then rx_done <= '0'; RXCHARISK_sr_done <= (others => '1'); RXCHARISvalid_sr_done <= (others => '0'); end if; end if; else if RXCHARISvalid_R_lane(1) = '1' and (RXCHARISK_R_lane(1) = '0' or (RXCHARISK_R_lane(1) = '1' and (RXDATA_R_lane(15 downto 8) = SC or RXDATA_R_lane(15 downto 8) = PD))) then --- [VV__] : It can appear only in the end RXDATA_sr <= RXDATA_sr(63 downto 0) & RXDATA_R_lane(15 downto 8); RXCHARISK_sr <= RXCHARISK_sr(7 downto 0) & RXCHARISK_R_lane(1); RXCHARISvalid_sr <= RXCHARISvalid_sr(7 downto 0) & RXCHARISvalid_R_lane(1); if valid_byte_cntr = "011" then valid_byte_cntr <= valid_byte_cntr + '1'; irregular_stream <= '0'; -- irregularity has been compensated for the first symbol if done_cntr = "11" then rx_done <= '0'; RXCHARISK_sr_done <= (others => '1'); RXCHARISvalid_sr_done <= (others => '0'); end if; elsif valid_byte_cntr = "111" then -- 2 symbols (2x32b) are done valid_byte_cntr <= (others => '0'); irregular_stream <= '0'; -- irregularity has been compensated for the second symbol rx_done <= '1'; done_cntr <= (others => '0'); RXDATA_sr_done <= RXDATA_sr(55 downto 0) & RXDATA_R_lane(15 downto 8); RXCHARISK_sr_done <= RXCHARISK_sr(6 downto 0) & RXCHARISK_R_lane(1); RXCHARISvalid_sr_done <= RXCHARISvalid_sr(6 downto 0) & RXCHARISvalid_R_lane(1); else -- something went wrong valid_byte_cntr <= (others => '0'); irregular_stream <= '0'; if done_cntr = "11" then rx_done <= '0'; RXCHARISK_sr_done <= (others => '1'); RXCHARISvalid_sr_done <= (others => '0'); end if; end if; else --- [____] if valid_byte_cntr /= "100" then -- No IDLE allowed, unless between two symbols: Something went wrong probably valid_byte_cntr <= "000"; irregular_stream <= '0'; end if; if done_cntr = "11" then rx_done <= '0'; RXCHARISK_sr_done <= (others => '1'); RXCHARISvalid_sr_done <= (others => '0'); end if; end if; end if; end if; end if; end process; RXDATA_u <= RXDATA_swap(63 downto 56) & RXDATA_swap(47 downto 40) & RXDATA_swap(31 downto 24) & RXDATA_swap(15 downto 8) when mode_sel = '1' else -- x4 mode RXDATA_sr_done(63 downto 32); -- x1 mode RXCHARISK_u <= RXCHARISK_swap(7) & RXCHARISK_swap(5) & RXCHARISK_swap(3) & RXCHARISK_swap(1) when mode_sel = '1' else -- x4 mode RXCHARISK_sr_done(7 downto 4); -- x1 mode RXCHARISvalid_u <= RXCHARISvalid_swap(7) & RXCHARISvalid_swap(5) & RXCHARISvalid_swap(3) & RXCHARISvalid_swap(1) when mode_sel = '1' else -- x4 mode RXCHARISvalid_sr_done(7 downto 4); -- x1 mode RXDATA_l <= RXDATA_swap(55 downto 48) & RXDATA_swap(39 downto 32) & RXDATA_swap(23 downto 16) & RXDATA_swap(7 downto 0) when mode_sel = '1' else -- x4 mode RXDATA_sr_done(31 downto 0); -- x1 mode RXCHARISK_l <= RXCHARISK_swap(6) & RXCHARISK_swap(4) & RXCHARISK_swap(2) & RXCHARISK_swap(0) when mode_sel = '1' else -- x4 mode RXCHARISK_sr_done(3 downto 0); -- x1 mode RXCHARISvalid_l <= RXCHARISvalid_swap(6) & RXCHARISvalid_swap(4) & RXCHARISvalid_swap(2) & RXCHARISvalid_swap(0) when mode_sel = '1' else -- x4 mode RXCHARISvalid_sr_done(3 downto 0); -- x1 mode -- RXDATA_u <= RXDATA_swap(63 downto 56) & RXDATA_swap(47 downto 40) & RXDATA_swap(31 downto 24) & RXDATA_swap(15 downto 8); -- RXCHARISK_u <= RXCHARISK_swap(7) & RXCHARISK_swap(5) & RXCHARISK_swap(3) & RXCHARISK_swap(1); -- RXDATA_l <= RXDATA_swap(55 downto 48) & RXDATA_swap(39 downto 32) & RXDATA_swap(23 downto 16) & RXDATA_swap(7 downto 0); -- RXCHARISK_l <= RXCHARISK_swap(6) & RXCHARISK_swap(4) & RXCHARISK_swap(2) & RXCHARISK_swap(0); -- RXCHARISvalid_u <= RXCHARISvalid_swap(7) & RXCHARISvalid_swap(5) & RXCHARISvalid_swap(3) & RXCHARISvalid_swap(1); -- RXCHARISvalid_l <= RXCHARISvalid_swap(6) & RXCHARISvalid_swap(4) & RXCHARISvalid_swap(2) & RXCHARISvalid_swap(0); upper_symbol_type <= SYMBOL_IDLE when RXCHARISK_u = "1111" and RXCHARISvalid_u = "1111" else SYMBOL_CONTROL when RXCHARISK_u = "1000" and RXCHARISvalid_u = "1111" and (RXDATA_u(31 downto 24) = SC or RXDATA_u(31 downto 24) = PD) else SYMBOL_DATA when RXCHARISK_u = "0000" and RXCHARISvalid_u = "1111" else SYMBOL_ERROR; lower_symbol_type <= SYMBOL_IDLE when RXCHARISK_l = "1111" and RXCHARISvalid_l = "1111" else SYMBOL_CONTROL when RXCHARISK_l = "1000" and RXCHARISvalid_l = "1111" and (RXDATA_l(31 downto 24) = SC or RXDATA_l(31 downto 24) = PD) else SYMBOL_DATA when RXCHARISK_l = "0000" and RXCHARISvalid_l = "1111" else SYMBOL_ERROR; -- upper_symbol_not_idle <= '0' when upper_symbol_type = SYMBOL_IDLE else '1'; lower_symbol_not_idle <= '0' when lower_symbol_type = SYMBOL_IDLE else '1'; upper_symbol_not_error <= '0' when upper_symbol_type = SYMBOL_ERROR else '1'; lower_symbol_not_error <= '0' when lower_symbol_type = SYMBOL_ERROR else '1'; upper_symbol_valid <= upper_symbol_not_idle and upper_symbol_not_error; lower_symbol_valid <= lower_symbol_not_idle and lower_symbol_not_error; end RTL; --------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------------------------------------------------------------------------- -- -- RapidIO IP Library Core -- -- This file is part of the RapidIO IP library project -- http://www.opencores.org/cores/rio/ -- -- To Do: -- - -- -- Author(s): -- - A. Demirezen, azdem@opencores.org -- ------------------------------------------------------------------------------- -- -- Copyright (C) 2013 Authors and OPENCORES.ORG -- -- 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 -- ------------------------------------------------------------------------------ ------------------------------------------------------------------------------ -- -- File name: pcs_tx_controller.vhd -- Rev: 0.0 -- Description: This entity controls the TX stream -- -- ------------------------------------------------------------------------------ ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use ieee.std_logic_unsigned.all; use work.rio_common.all; entity pcs_tx_controller is generic ( TCQ : time := 100 ps ); port ( rst_n : in std_logic; rio_clk : in std_logic; -- ~150 MHz UCLK_x2 : in std_logic; -- 312,5 MHz UCLK : in std_logic; -- 156,25 MHz UCLK_x2_DV2 : in std_logic; -- 312,5 MHz @ x4 mode / 78,125 @ x1 (fallback mode) UCLK_or_DV4 : in std_logic; -- 156,25 MHz @ x4 mode / 39,0625 @ x1 (fallback mode) -- -- Interface to the RioSerial outboundWrite_i : in std_logic; outboundFull_o : out std_logic; outboundSymbol_i : in std_logic_vector(33 downto 0); -- outboundSymbolEmpty_i : in std_logic; -- outboundSymbolRead_o : out std_logic; -- outboundSymbol_i : in std_logic_vector(33 downto 0); -- -- Interface to the GTX transceivers TXDATA_o : out std_logic_vector(63 downto 0); -- N = 4 TXCHARISK_o : out std_logic_vector(7 downto 0); -- -- Interface to the other blocks send_ccs_i : in std_logic; ccs_timer_rst_o : out std_logic; send_idle_o : out std_logic_vector(1 downto 0); send_K_i : in std_logic_vector(1 downto 0); send_A_i : in std_logic_vector(1 downto 0); send_R_i : in std_logic_vector(1 downto 0); -- -- Interface to the port init TXINHIBIT_02 : in std_logic; TXINHIBIT_others : in std_logic; port_initalized_i : in std_logic; mode_sel_i : in std_logic; mode_0_lane_sel_i : in std_logic ); end pcs_tx_controller; architecture RTL of pcs_tx_controller is ------------------------------------------------------------------------------- COMPONENT pcs_tx_boudary_32b_in_64b_out PORT ( rst : IN STD_LOGIC; wr_clk : IN STD_LOGIC; rd_clk : IN STD_LOGIC; din : IN STD_LOGIC_VECTOR(33 DOWNTO 0); wr_en : IN STD_LOGIC; rd_en : IN STD_LOGIC; dout : OUT STD_LOGIC_VECTOR(67 DOWNTO 0); full : OUT STD_LOGIC; empty : OUT STD_LOGIC; almost_empty : out STD_LOGIC; almost_full : out STD_LOGIC; valid : OUT STD_LOGIC ); END COMPONENT; ------------------------------------------------------------------------------- -- COMPONENT pcs_tx_boudary_32b_v2 -- PORT ( -- rst : IN STD_LOGIC; -- wr_clk : IN STD_LOGIC; -- rd_clk : IN STD_LOGIC; -- din : IN STD_LOGIC_VECTOR(33 DOWNTO 0); -- wr_en : IN STD_LOGIC; -- rd_en : IN STD_LOGIC; -- dout : OUT STD_LOGIC_VECTOR(33 DOWNTO 0); -- full : OUT STD_LOGIC; -- empty : OUT STD_LOGIC; -- almost_empty : OUT STD_LOGIC; -- valid : OUT STD_LOGIC -- ); -- END COMPONENT; ------------------------------------------------------------------------------- signal rst : std_logic:= '0'; signal fragment_counter : std_logic_vector(9 downto 0) := (others => '0'); signal outboundSymbolType : std_logic_vector(1 downto 0) := (others => '0'); signal outboundSymbol : std_logic_vector(33 downto 0) := (others => '0'); signal outboundSymbolRead : std_logic:= '0'; signal non_idle : std_logic:= '0'; signal decrement_frag_cntr : std_logic:= '0'; signal tx_fifo_full : std_logic:= '0'; signal symbol_empty : std_logic:= '0'; signal symbol_almost_empty : std_logic:= '0'; signal symbol_read : std_logic:= '0'; signal symbol_valid : std_logic:= '0'; -- signal symbol : std_logic_vector(33 downto 0) := (others => '0'); signal symbol : std_logic_vector(67 downto 0) := (others => '0'); signal symbol_u : std_logic_vector(33 downto 0) := (others => '0'); signal symbol_l : std_logic_vector(33 downto 0) := (others => '0'); -- signal symbol_type : std_logic_vector(1 downto 0) := (others => '0'); signal symbol_type : std_logic_vector(3 downto 0) := (others => '0'); signal symbol_type_u : std_logic_vector(1 downto 0) := (others => '0'); signal symbol_type_l : std_logic_vector(1 downto 0) := (others => '0'); signal TXDATA : std_logic_vector(63 downto 0); -- N = 4 signal TXCHARISK : std_logic_vector(7 downto 0); signal TXDATA_u : std_logic_vector(31 downto 0); signal TXCHARISK_u : std_logic_vector(3 downto 0); signal TXDATA_l : std_logic_vector(31 downto 0); signal TXCHARISK_l : std_logic_vector(3 downto 0); signal TXDATA_u_idle : std_logic_vector(31 downto 0); signal TXDATA_l_idle : std_logic_vector(31 downto 0); signal word_switch : std_logic:= '0'; signal lane_switch : std_logic_vector(1 downto 0) := (others => '0'); signal cycle_switch : std_logic_vector(1 downto 0) := (others => '0'); signal read_switch : std_logic_vector(1 downto 0) := (others => '0'); signal send_idle_q : std_logic:= '0'; signal send_idle_reg : std_logic_vector(1 downto 0) := (others => '0'); signal send_idle : std_logic_vector(1 downto 0) := (others => '0'); signal idle_char_type_0 : std_logic_vector(2 downto 0) := (others => '0'); signal idle_char_type_1 : std_logic_vector(2 downto 0) := (others => '0'); signal send_ccs_cntr : std_logic_vector(1 downto 0) := (others => '0'); signal send_K : std_logic_vector(1 downto 0) := (others => '0'); signal send_A : std_logic_vector(1 downto 0) := (others => '0'); signal send_R : std_logic_vector(1 downto 0) := (others => '0'); signal send_ccs : std_logic:= '0'; signal send_ccs_q : std_logic:= '0'; signal do_not_interrupt : std_logic:= '0'; signal be_silent : std_logic:= '0'; signal fifo_wr_selective : std_logic:= '0'; signal fifo_wr_selective_q : std_logic:= '0'; signal fifo_wr_always_even : std_logic:= '0'; signal fifo_wr_odd_or_even : std_logic:= '0'; signal fifo_wr_evenly : std_logic:= '0'; signal outboundSymbolisData : std_logic:= '0'; signal outboundSymbolisData_q : std_logic:= '0'; signal outboundSymbol_q : std_logic_vector(33 downto 0) := (others => '0'); signal fifo_wr_evenly_q : std_logic:= '0'; -- signal send_K_ccs : std_logic:= '0'; -- signal send_R_ccs : std_logic:= '0'; -- signal send_K_q : std_logic:= '0'; -- signal send_A_q : std_logic:= '0'; -- signal send_R_q : std_logic:= '0'; ---------------------------------------------------------------------------------- begin -- rst <= not(rst_n); outboundSymbolType <= outboundSymbol_i(33 downto 32); -- Filtering the ERROR symbol out outboundSymbol <= outboundSymbol_i when (outboundSymbolType = SYMBOL_DATA or outboundSymbolType = SYMBOL_CONTROL) else SYMBOL_IDLE & outboundSymbol_i(31 downto 0); fifo_wr_selective <= outboundWrite_i when (outboundSymbolType = SYMBOL_DATA or outboundSymbolType = SYMBOL_CONTROL) else '0'; fifo_wr_always_even <= fifo_wr_selective or (fifo_wr_selective_q and fifo_wr_odd_or_even); outboundSymbolisData <= '1' when outboundSymbolType = SYMBOL_DATA else '0'; fifo_wr_evenly <= fifo_wr_selective or (fifo_wr_selective_q and fifo_wr_odd_or_even and not(outboundSymbolisData_q)); -- Writing to the FIFO process(rio_clk) begin if rising_edge(rio_clk) then fifo_wr_selective_q <= fifo_wr_selective; outboundSymbolisData_q <= outboundSymbolisData; if fifo_wr_selective = '1' then fifo_wr_odd_or_even <= not(fifo_wr_odd_or_even); elsif fifo_wr_selective_q = '1' then fifo_wr_odd_or_even <= fifo_wr_odd_or_even and outboundSymbolisData_q; -- '0'; end if; outboundSymbol_q <= outboundSymbol; fifo_wr_evenly_q <= fifo_wr_evenly; end if; end process; send_K <= send_K_i; send_A <= send_A_i; send_R <= send_R_i; -- idle_char_type <= send_K & send_A & send_R; idle_char_type_0 <= send_K(0) & send_A(0) & send_R(0); idle_char_type_1 <= send_K(1) & send_A(1) & send_R(1); be_silent <= '1' when TXINHIBIT_02 = '1' and TXINHIBIT_others = '1' else '0'; -- symbol_type <= symbol(33 downto 32); symbol_type_u <= symbol_u(33 downto 32); symbol_type_l <= symbol_l(33 downto 32); symbol_u <= symbol(67 downto 34); symbol_l <= symbol(33 downto 0); send_idle(1) <= '1' when (send_ccs = '0') and ((symbol_read = '1' and symbol_type_u = SYMBOL_IDLE) or (symbol_read = '0') or (port_initalized_i = '0')) else '0'; send_idle(0) <= '1' when (send_ccs = '0') and ((symbol_read = '1' and symbol_type_l = SYMBOL_IDLE) or (symbol_read = '0') or (port_initalized_i = '0')) else '0'; send_idle_o <= send_idle; -- _reg; -- symbol_read <= not(symbol_empty) and not(send_ccs) and not(send_ccs_q); -- Pipelining process(UCLK) -- _x2 begin if rising_edge(UCLK) then send_ccs <= not(do_not_interrupt) and send_ccs_i; -- will be high only during real CCS transmission -- send_idle_reg <= send_idle; end if; end process; -- Reading from the FIFO process(UCLK_or_DV4) -- UCLK_x2_DV2 begin if rising_edge(UCLK_or_DV4) then -- case symbol_read is -- when '0' => -- symbol_read <= not(symbol_empty) and not(send_ccs) and not(send_ccs_q); -- after TCQ; -- when '1' => -- symbol_read <= not(symbol_almost_empty); -- after TCQ; -- and not(send_ccs) and not(send_ccs_q); -- when others => -- symbol_read <= '0'; -- after TCQ; -- end case; end if; end process; tx_boundary_fifo : pcs_tx_boudary_32b_in_64b_out -- FWFT FIFO PORT MAP ( rst => rst, wr_clk => rio_clk, wr_en => fifo_wr_evenly_q, --fifo_wr_always_even, --outboundWrite_i, din => outboundSymbol_q, full => open, -- outboundFull_o, almost_full => outboundFull_o, rd_clk => UCLK_or_DV4, rd_en => symbol_read, dout => symbol, empty => symbol_empty, almost_empty => symbol_almost_empty, valid => symbol_valid ); -- FIFO read / TX output process process(rst_n, UCLK) -- UCLK_x2 begin if rst_n = '0' then ccs_timer_rst_o <= '0'; do_not_interrupt <= '0'; TXDATA_u <= (others => '0'); TXCHARISK_u <= (others => '0'); TXDATA_l <= (others => '0'); TXCHARISK_l <= (others => '0'); cycle_switch <= (others => '0'); read_switch <= (others => '0'); symbol_read <= '0'; elsif rising_edge(UCLK) then if be_silent = '0' then -- Transmitters are NOT inhibitied if send_ccs = '1' or send_ccs_q = '1' then -- Transmitting the clock compensation sequence (ccs) = |K|,|R|,|R|,|R| symbol_read <= '0'; if send_ccs_q = '0' then TXDATA_u <= K_column; TXCHARISK_u <= (others => '1'); TXDATA_l <= R_column; TXCHARISK_l <= (others => '1'); ccs_timer_rst_o <= '1'; else TXDATA_u <= R_column; TXCHARISK_u <= (others => '1'); TXDATA_l <= R_column; TXCHARISK_l <= (others => '1'); end if; else -- Transmitting the IDLE sequence or the CONTROL/DATA symbols read_switch <= read_switch + '1'; if read_switch = "00" then case symbol_read is when '0' => symbol_read <= not(symbol_empty); -- and not(send_ccs) and not(send_ccs_q); -- after TCQ; do_not_interrupt <= not(symbol_empty); when '1' => symbol_read <= not(symbol_almost_empty); -- after TCQ; -- and not(send_ccs) and not(send_ccs_q); do_not_interrupt <= not(symbol_almost_empty); when others => symbol_read <= '0'; -- after TCQ; do_not_interrupt <= '0'; end case; end if; ccs_timer_rst_o <= '0'; if symbol_read = '1' then -- two symbols have been read, at least one of them is non-idle, they should be forwarded in 1 or 4 cycles case mode_sel_i is when '1' => -- Lane stripping (x4 mode: rd_clk = UCLK) case symbol_type_u is when SYMBOL_DATA => TXDATA_u <= symbol_u(31 downto 24) & symbol_u(23 downto 16) & symbol_u(15 downto 8) & symbol_u(7 downto 0); TXCHARISK_u <= (others => '0'); when SYMBOL_CONTROL => TXDATA_u <= symbol_u(31 downto 24) & symbol_u(23 downto 16) & symbol_u(15 downto 8) & symbol_u(7 downto 0); TXCHARISK_u <= "1000"; when SYMBOL_IDLE => TXDATA_u <= TXDATA_u_idle; TXCHARISK_u <= (others => '1'); when others => -- dummy TXDATA_u <= TXDATA_u_idle; TXCHARISK_u <= (others => '1'); end case; case symbol_type_l is when SYMBOL_DATA => TXDATA_l <= symbol_l(31 downto 24) & symbol_l(23 downto 16) & symbol_l(15 downto 8) & symbol_l(7 downto 0); TXCHARISK_l <= (others => '0'); when SYMBOL_CONTROL => TXDATA_l <= symbol_l(31 downto 24) & symbol_l(23 downto 16) & symbol_l(15 downto 8) & symbol_l(7 downto 0); TXCHARISK_l <= "1000"; when SYMBOL_IDLE => TXDATA_l <= TXDATA_l_idle; TXCHARISK_l <= (others => '1'); when others => -- dummy TXDATA_l <= TXDATA_l_idle; TXCHARISK_l <= (others => '1'); end case; when '0' => -- Slow motion read (x1 mode: rd_clk = UCLK_DV4) cycle_switch <= cycle_switch + '1'; -- Cycle | Symbol part to be sent ---------|---------------------- -- 00 | symbol_u(31 downto 16) -- 01 | symbol_u(15 downto 0) -- 10 | symbol_l(31 downto 16) -- 11 | symbol_l(15 downto 0) case cycle_switch(1) is when '0' => case cycle_switch(0) is when '0' => -- 00 if symbol_type_u /= SYMBOL_IDLE then TXDATA_u <= symbol_u(31 downto 24) & symbol_u(31 downto 24) & symbol_u(31 downto 24) & symbol_u(31 downto 24); if symbol_type_u = SYMBOL_DATA then TXCHARISK_u <= (others => '0'); else -- if symbol_type_u = SYMBOL_CONTROL then TXCHARISK_u <= (others => '1'); end if; TXDATA_l <= symbol_u(23 downto 16) & symbol_u(23 downto 16) & symbol_u(23 downto 16) & symbol_u(23 downto 16); TXCHARISK_l <= (others => '0'); else -- if symbol_type_u = SYMBOL_IDLE then TXDATA_u <= TXDATA_u_idle; TXCHARISK_u <= (others => '1'); TXDATA_l <= TXDATA_l_idle; TXCHARISK_l <= (others => '1'); end if; when '1' => -- 01 if symbol_type_u /= SYMBOL_IDLE then TXDATA_u <= symbol_u(15 downto 8) & symbol_u(15 downto 8) & symbol_u(15 downto 8) & symbol_u(15 downto 8); TXCHARISK_u <= (others => '0'); -- This is the second part: does not matter control or data TXDATA_l <= symbol_u(7 downto 0) & symbol_u(7 downto 0) & symbol_u(7 downto 0) & symbol_u(7 downto 0); TXCHARISK_l <= (others => '0'); else -- if symbol_type_u = SYMBOL_IDLE then TXDATA_u <= TXDATA_u_idle; TXCHARISK_u <= (others => '1'); TXDATA_l <= TXDATA_l_idle; TXCHARISK_l <= (others => '1'); end if; when others => -- dummy end case; when '1' => case cycle_switch(0) is when '0' => if symbol_type_l /= SYMBOL_IDLE then TXDATA_u <= symbol_l(31 downto 24) & symbol_l(31 downto 24) & symbol_l(31 downto 24) & symbol_l(31 downto 24); if symbol_type_l = SYMBOL_DATA then TXCHARISK_u <= (others => '0'); else -- if symbol_type_l = SYMBOL_CONTROL then TXCHARISK_u <= (others => '1'); end if; TXDATA_l <= symbol_l(23 downto 16) & symbol_l(23 downto 16) & symbol_l(23 downto 16) & symbol_l(23 downto 16); TXCHARISK_l <= (others => '0'); else -- if symbol_type_l = SYMBOL_IDLE then TXDATA_u <= TXDATA_u_idle; TXCHARISK_u <= (others => '1'); TXDATA_l <= TXDATA_l_idle; TXCHARISK_l <= (others => '1'); end if; when '1' => if symbol_type_l /= SYMBOL_IDLE then TXDATA_u <= symbol_l(15 downto 8) & symbol_l(15 downto 8) & symbol_l(15 downto 8) & symbol_l(15 downto 8); TXCHARISK_u <= (others => '0'); -- This is the second part: does not matter control or data TXDATA_l <= symbol_l(7 downto 0) & symbol_l(7 downto 0) & symbol_l(7 downto 0) & symbol_l(7 downto 0); TXCHARISK_l <= (others => '0'); else -- if symbol_type_l = SYMBOL_IDLE then TXDATA_u <= TXDATA_u_idle; TXCHARISK_u <= (others => '1'); TXDATA_l <= TXDATA_l_idle; TXCHARISK_l <= (others => '1'); end if; when others => -- dummy end case; when others => -- dummy end case; when others => -- dummy end case; ----------------------------------------------------------------------------- else -- No Symbols are present at the FIFO output: Transmitting an idle sequence: |K| or |A| or |R| TXDATA_u <= TXDATA_u_idle; TXCHARISK_u <= (others => '1'); TXDATA_l <= TXDATA_l_idle; TXCHARISK_l <= (others => '1'); end if; end if; else -- Transmitters are inhibitied TXDATA_u <= x"BCBCBCBC" ; TXCHARISK_u <= (others => '1'); TXDATA_l <= x"FDFDFDFD" ; TXCHARISK_l <= (others => '1'); end if; end if; end process; -- Combinational idle drive process process(idle_char_type_0, idle_char_type_1) begin case idle_char_type_1 is when "100" => -- |K| (~%50) TXDATA_u_idle <= K_column; when "010" => -- |A| (1/16 .. 1/32) TXDATA_u_idle <= A_column; when "001" => -- |R| (~%50) TXDATA_u_idle <= R_column; when others => -- dummy TXDATA_u_idle <= K_column; end case; case idle_char_type_0 is when "100" => -- |K| (~%50) TXDATA_l_idle <= K_column; when "010" => -- |A| (1/16 .. 1/32) TXDATA_l_idle <= A_column; when "001" => -- |R| (~%50) TXDATA_l_idle <= R_column; when others => -- dummy TXDATA_l_idle <= R_column; end case; end process; -- TXDATA buffering by UCLK process(UCLK) begin if rising_edge(UCLK) then ------------------ -- MUST BE SWAPPED TXDATA_o <= TXDATA_u( 7 downto 0) & TXDATA_l( 7 downto 0) & TXDATA_u(15 downto 8) & TXDATA_l(15 downto 8) & TXDATA_u(23 downto 16) & TXDATA_l(23 downto 16) & TXDATA_u(31 downto 24) & TXDATA_l(31 downto 24); TXCHARISK_o <= TXCHARISK_u(0) & TXCHARISK_l(0) & TXCHARISK_u(1) & TXCHARISK_l(1) & TXCHARISK_u(2) & TXCHARISK_l(2) & TXCHARISK_u(3) & TXCHARISK_l(3); ------------------ end if; end process; -- Delaying send_ccs process(UCLK) begin if rising_edge(UCLK) then if be_silent = '0' then send_ccs_q <= send_ccs; --- else send_ccs_q <= '0'; end if; end if; end process; end RTL; ---------------------------------------------------------------------------------------------------------------------------------------------------------------------- -- -- RapidIO IP Library Core -- -- This file is part of the RapidIO IP library project -- http://www.opencores.org/cores/rio/ -- -- To Do: -- - -- -- Author(s): -- - A. Demirezen, azdem@opencores.org -- ------------------------------------------------------------------------------- -- -- Copyright (C) 2013 Authors and OPENCORES.ORG -- -- 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 -- ------------------------------------------------------------------------------ ------------------------------------------------------------------------------ -- -- File name: port_init_fsms.vhd -- Rev: 0.0 -- Description: This entity does the 1x/Nx port init according to the -- RIO Sepec. Part-6, subchapter 4.2 -- ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use ieee.std_logic_unsigned.all; use work.rio_common.all; --use work.rio_common_sim.all; entity port_init_fsms is generic ( TCQ : time := 100 ps ); port ( rst_n : in std_logic; UCLK_x2 : in std_logic; UCLK : in std_logic; UCLK_DV4 : in std_logic; UCLK_DV_1024 : in std_logic; force_reinit : in std_logic:='0'; -- force retraining mode_sel : out std_logic; -- 0: x1 fallback mode / 1: xN Mode mode_0_lane_sel : out std_logic; -- If mode_sel = 0 then 0: Lane 0 is active(R), 1: Lane 2 is active else don't care port_initalized : out std_logic; -- 1: Port initialization is successfully complete lane_sync : out std_logic_vector(N-1 downto 0); -- Lane is synchoronised RXCHARISvalid : out std_logic_vector(N*2-1 downto 0); -- GTXRESET : out std_logic; TXINHIBIT_02 : out std_logic; TXINHIBIT_others : out std_logic; ENCHANSYNC : out std_logic; -- TXDATA : out std_logic_vector(N*16-1 downto 0); -- TXCHARISK : out std_logic_vector(N*2-1 downto 0); PLLLKDET : in std_logic; RXDATA : in std_logic_vector(N*16-1 downto 0); RXCHARISK : in std_logic_vector(N*2-1 downto 0); RXCHARISCOMMA : in std_logic_vector(N*2-1 downto 0); RXBYTEISALIGNED : in std_logic_vector(N-1 downto 0); RXBYTEREALIGN : in std_logic_vector(N-1 downto 0); RXELECIDLE : in std_logic_vector(N-1 downto 0); RXDISPERR : in std_logic_vector(N*2-1 downto 0); RXNOTINTABLE : in std_logic_vector(N*2-1 downto 0); RXBUFERR : in std_logic; RXBUFRST : out std_logic; CHBONDDONE : in std_logic_vector(N-1 downto 0) ); end port_init_fsms; architecture rtl of port_init_fsms is ------------------------------------------------------------------------------------------------------------------------------------------- -- Lane_Synchronization State Machine type lane_sync_states is (NO_SYNC, NO_SYNC_1, NO_SYNC_2, NO_SYNC_2a, NO_SYNC_2b, NO_SYNC_3, SYNC, SYNCa, SYNCb, SYNC_1, SYNC_2, SYNC_2a, SYNC_2b, SYNC_3, SYNC_4); type lane_sync_states_array is array (N-1 downto 0) of lane_sync_states; signal lane_sync_state_n : lane_sync_states_array := (others => NO_SYNC); signal lane_sync_n : std_logic_vector(N-1 downto 0) := (others => '0'); signal Kcounter_n : Kcounter_array_type := (others => (others => '0')); signal Vcounter_n : Vcounter_array_type := (others => (others => '0')); signal Icounter_n : Icounter_array_type := (others => (others => '0')); signal code_group_valid : std_logic_vector(N*2-1 downto 0) := (others => '0'); ------------------------------------------------------------------------------------------------------------------------------------------- -- Lane_Alignment State Machine type lane_alignment_states is (NOT_ALIGNED, NOT_ALIGNED_1, NOT_ALIGNED_2, ALIGNED, ALIGNED_1, ALIGNED_2, ALIGNED_3); signal lane_alignment_state : lane_alignment_states := NOT_ALIGNED; signal N_lanes_aligned : std_logic := '0'; signal Acounter : std_logic_vector(2 downto 0) := (others => '0'); signal Mcounter : Mcounter_type := (others => '0'); signal lane_alignment_reset : std_logic := '0'; signal N_lane_sync : std_logic := '0'; constant N_lanes_all_high : std_logic_vector(N-1 downto 0) := (others => '1'); constant N_lanes_all_low : std_logic_vector(N-1 downto 0) := (others => '0'); signal A_column_valid : std_logic := '0'; signal align_error : std_logic := '0'; signal A_column_valid_upper : std_logic := '0'; signal align_error_upper : std_logic := '0'; signal A_column_valid_lower : std_logic := '0'; signal align_error_lower : std_logic := '0'; signal RXCHARIS_A_upper : std_logic_vector(N-1 downto 0) := (others => '0'); signal RXCHARIS_A_lower : std_logic_vector(N-1 downto 0) := (others => '0'); ------------------------------------------------------------------------------------------------------------------------------------------- -- begin --dummy -- 1x/Nx Mode Init State Machine type mode_init_states is (SILENT, SEEK, DISCOVERY, x1_RECOVERY, Nx_MODE, x1_MODE_LANE0, x1_MODE_LANE2); signal mode_init_state : mode_init_states := SILENT; signal lanes02_drvr_oe : std_logic := '0'; signal N_lanes_drvr_oe : std_logic := '0'; signal Nx_mode_active : std_logic := '0'; signal receive_lane2 : std_logic := '0'; signal force_reinit_reg : std_logic := '0'; signal force_reinit_clear : std_logic := '0'; signal silence_timer_en : std_logic := '0'; signal silence_timer_done : std_logic := '0'; signal silence_timer : std_logic_vector(4 downto 0) := (others => '0'); signal disc_tmr_en : std_logic := '0'; signal disc_tmr_done : std_logic := '0'; signal disc_tmr : std_logic_vector(15 downto 0) := (others => '0'); signal port_initalized_reg : std_logic := '0'; signal idle_selected : std_logic := '1'; -- Only IDLE1 is to be used signal Nx_mode_enabled : std_logic := '1'; -- Nx mode is to be always enabled signal force_1x_mode : std_logic := '0'; -- don't force 1x mode signal force_laneR : std_logic := '0'; -- don't care, when force_1x_mode = 0 signal lane_ready_n : std_logic_vector(N-1 downto 0) := (others => '0'); signal rcvr_trained_n : std_logic_vector(N-1 downto 0) := (others => '0'); signal N_lanes_ready : std_logic := '0'; signal rxbufrst_cntr : std_logic_vector(2 downto 0) := (others => '0'); signal rxbuferr_reg : std_logic := '0'; ------------------------------------------------------------------------------------------------------------------------------------------- begin lane_sync <= lane_sync_n; ---------------------------------------------------------------- -- Figure 4-14. Lane_Synchronization State Machine for N Lanes GEN_LANE_SYNC_FSM: for i in 0 to N-1 generate code_group_valid(i*2) <= not(RXNOTINTABLE(i*2) ) and not(RXDISPERR(i*2) ); code_group_valid(i*2+1) <= not(RXNOTINTABLE(i*2+1)) and not(RXDISPERR(i*2+1)); RXCHARISvalid(i*2) <= code_group_valid(i*2) ; RXCHARISvalid(i*2+1) <= code_group_valid(i*2+1); process(rst_n, UCLK) -- (UCLK_x2) -- begin if rst_n = '0' then lane_sync_state_n(i) <= NO_SYNC; lane_sync_n(i) <= '0'; Kcounter_n(i) <= (others => '0'); Vcounter_n(i) <= (others => '0'); elsif rising_edge(UCLK) then case lane_sync_state_n(i) is when NO_SYNC => -- change(signal_detect[n]) if RXELECIDLE(i) = '1' then lane_sync_n(i) <= '0'; Kcounter_n(i) <= (others => '0'); Vcounter_n(i) <= (others => '0'); -- signal_detect[n] & /COMMA/ [ KK-- ] : /K/ is being detected at the upper half elsif (code_group_valid(i*2+1) = '1' and RXCHARISCOMMA(i*2+1) = '1') then -- signal_detect[n] & /COMMA/ [ --KK ] : /K/ is being detected also at the lower half if (code_group_valid(i*2) = '1' and RXCHARISCOMMA(i*2) = '1') then lane_sync_state_n(i) <= NO_SYNC_2; Kcounter_n(i) <= Kcounter_n(i) + "10"; Vcounter_n(i) <= Vcounter_n(i) + "10"; -- signal_detect[n] [ --VV ] : At the lower half: no comma, but valid elsif (code_group_valid(i*2) = '1') then lane_sync_state_n(i) <= NO_SYNC_2; Kcounter_n(i) <= Kcounter_n(i) + '1'; Vcounter_n(i) <= Vcounter_n(i) + "10"; -- do nothing else lane_sync_n(i) <= '0'; Kcounter_n(i) <= (others => '0'); Vcounter_n(i) <= (others => '0'); end if; ---------------------------------------------------------------------------------------------- -- signal_detect[n] & /COMMA/ [ --KK ] : /K/ is being detected only at the lower half elsif (code_group_valid(i*2) = '1' and RXCHARISCOMMA(i*2) = '1') then lane_sync_state_n(i) <= NO_SYNC_2; Kcounter_n(i) <= Kcounter_n(i) + '1'; Vcounter_n(i) <= Vcounter_n(i) + '1'; ---------------------------------------------------------------------------------------------- -- !signal_detect[n] | !/COMMA/ else lane_sync_n(i) <= '0'; Kcounter_n(i) <= (others => '0'); Vcounter_n(i) <= (others => '0'); end if; -- -- change(signal_detect[n]) -- if RXELECIDLE(i) = '1' then -- lane_sync_n(i) <= '0'; -- Kcounter_n(i) <= (others => '0'); -- Vcounter_n(i) <= (others => '0'); -- -- signal_detect[n] & /COMMA/ [ KK-- ] : /K/ is being detected at the upper half -- elsif (code_group_valid(i*2+1) = '1' and RXCHARISCOMMA(i*2+1) = '1') then -- lane_sync_state_n(i) <= NO_SYNC_2a; -- Kcounter_n(i) <= Kcounter_n(i) + '1'; -- Vcounter_n(i) <= Vcounter_n(i) + '1'; -- -- signal_detect[n] & /COMMA/ [ --KK ] : /K/ is being detected at the lower half -- elsif (code_group_valid(i*2) = '1' and RXCHARISCOMMA(i*2) = '1') then -- lane_sync_state_n(i) <= NO_SYNC_2b; -- Kcounter_n(i) <= Kcounter_n(i) + '1'; -- Vcounter_n(i) <= Vcounter_n(i) + '1'; -- -- !signal_detect[n] | !/COMMA/ -- else -- lane_sync_n(i) <= '0'; -- Kcounter_n(i) <= (others => '0'); -- Vcounter_n(i) <= (others => '0'); -- end if; -- when NO_SYNC_1 => when NO_SYNC_2 => -- [ IIXX or XXII ] -- One of both /INVALID/ if (code_group_valid(i*2) = '0' or code_group_valid(i*2+1) = '0') then lane_sync_state_n(i) <= NO_SYNC; lane_sync_n(i) <= '0'; Kcounter_n(i) <= (others => '0'); Vcounter_n(i) <= (others => '0'); -- [ KKKK ] -- Both /COMMA/ elsif (RXCHARISCOMMA(i*2) = '1' and RXCHARISCOMMA(i*2+1) = '1') then -- (Kcounter[n] > 126) & (Vcounter[n] > Vmin-1) if Kcounter_n(i) >= Kmin and Vcounter_n(i) >= Vmin then lane_sync_state_n(i) <= SYNC; -- (Kcounter[n] < 127) | (Vcounter[n] < Vmin) else Kcounter_n(i) <= Kcounter_n(i) + "10"; Vcounter_n(i) <= Vcounter_n(i) + "10"; end if; -- [ KKVV or VVKK ] -- One of both /COMMA/ elsif (RXCHARISCOMMA(i*2) = '1' or RXCHARISCOMMA(i*2+1) = '1') then -- (Kcounter[n] > 126) & (Vcounter[n] > Vmin-1) if Kcounter_n(i) >= Kmin and Vcounter_n(i) >= Vmin then lane_sync_state_n(i) <= SYNC; -- (Kcounter[n] < 127) | (Vcounter[n] < Vmin) else Kcounter_n(i) <= Kcounter_n(i) + '1' ; Vcounter_n(i) <= Vcounter_n(i) + "10"; end if; -- [ VVVV ] -- None of both /COMMA/, but both /VALID/ else -- if RXCHARISCOMMA(i*2) = '0') and RXCHARISCOMMA(i*2+1) = '0') then -- (Kcounter[n] > 126) & (Vcounter[n] > Vmin-1) if Kcounter_n(i) >= Kmin and Vcounter_n(i) >= Vmin then lane_sync_state_n(i) <= SYNC; -- (Kcounter[n] < 127) | (Vcounter[n] < Vmin) else Vcounter_n(i) <= Vcounter_n(i) + "10"; end if; end if; -- when NO_SYNC_2a => -- -- !(/COMMA/|/INVALID/) -- if (code_group_valid(i*2) = '1' and not(RXCHARISCOMMA(i*2) = '1')) then --RXCHARISK(i*2) = '1' and RXDATA(i*16+7 downto i*16) = x"BC")) then -- lane_sync_state_n(i) <= NO_SYNC_2b; -- Vcounter_n(i) <= Vcounter_n(i) + '1'; -- -- /COMMA/ -- elsif (code_group_valid(i*2) = '1' and RXCHARISCOMMA(i*2) = '1') then --RXCHARISK(i*2) = '1' and RXDATA(i*16+7 downto i*16) = x"BC") then -- -- (Kcounter[n] > 126) & (Vcounter[n] > Vmin-1) -- if Kcounter_n(i) >= Kmin and Vcounter_n(i) >= Vmin then -- lane_sync_state_n(i) <= SYNCb; -- -- (Kcounter[n] < 127) | (Vcounter[n] < Vmin) -- else -- lane_sync_state_n(i) <= NO_SYNC_2b; -- Kcounter_n(i) <= Kcounter_n(i) + '1'; -- Vcounter_n(i) <= Vcounter_n(i) + '1'; -- end if; -- -- /INVALID/ -- elsif (code_group_valid(i*2) = '0') then -- lane_sync_state_n(i) <= NO_SYNC; -- lane_sync_n(i) <= '0'; -- Kcounter_n(i) <= (others => '0'); -- Vcounter_n(i) <= (others => '0'); -- end if; -- -- when NO_SYNC_2b => -- -- !(/COMMA/|/INVALID/) -- if (code_group_valid(i*2+1) = '1' and not(RXCHARISCOMMA(i*2+1) = '1')) then --RXCHARISK(i*2+1) = '1' and RXDATA(i*16+15 downto i*16+8) = x"BC")) then -- lane_sync_state_n(i) <= NO_SYNC_2a; -- Vcounter_n(i) <= Vcounter_n(i) + '1'; -- -- /COMMA/ -- elsif (code_group_valid(i*2+1) = '1' and RXCHARISCOMMA(i*2+1) = '1') then --RXCHARISK(i*2+1) = '1' and RXDATA(i*16+15 downto i*16+8) = x"BC") then -- -- (Kcounter[n] > 126) & (Vcounter[n] > Vmin-1) -- if Kcounter_n(i) >= Kmin and Vcounter_n(i) >= Vmin then -- lane_sync_state_n(i) <= SYNCa; -- -- (Kcounter[n] < 127) | (Vcounter[n] < Vmin) -- else -- lane_sync_state_n(i) <= NO_SYNC_2a; -- Kcounter_n(i) <= Kcounter_n(i) + '1'; -- Vcounter_n(i) <= Vcounter_n(i) + '1'; -- end if; -- -- /INVALID/ -- elsif (code_group_valid(i*2+1) = '0') then -- lane_sync_state_n(i) <= NO_SYNC; -- lane_sync_n(i) <= '0'; -- Kcounter_n(i) <= (others => '0'); -- Vcounter_n(i) <= (others => '0'); -- end if; -- when NO_SYNC_3 => when SYNC => -- Both /VALID/ if (code_group_valid(i*2) = '1' and code_group_valid(i*2+1) = '1') then lane_sync_n(i) <= '1'; Icounter_n(i) <= (others => '0'); -- One of both /INVALID/ elsif (code_group_valid(i*2) = '1' or code_group_valid(i*2+1) = '1') then Icounter_n(i) <= Icounter_n(i) + '1'; lane_sync_state_n(i) <= SYNC_2; -- Both /INVALID/ else Icounter_n(i) <= Icounter_n(i) + "10"; lane_sync_state_n(i) <= SYNC_2; end if; -- -- when SYNCa => -- -- /INVALID/ -- if (code_group_valid(i*2) = '0') then -- Icounter_n(i) <= Icounter_n(i) + '1'; -- lane_sync_state_n(i) <= SYNC_2b; -- -- /VALID/ -- else -- lane_sync_state_n(i) <= SYNCb; -- lane_sync_n(i) <= '1'; -- Icounter_n(i) <= (others => '0'); -- end if; -- -- when SYNCb => -- -- /INVALID/ -- if (code_group_valid(i*2+1) = '0') then -- Icounter_n(i) <= Icounter_n(i) + '1'; -- lane_sync_state_n(i) <= SYNC_2a; -- -- /VALID/ -- else -- lane_sync_state_n(i) <= SYNCa; -- lane_sync_n(i) <= '1'; -- Icounter_n(i) <= (others => '0'); -- end if; -- when SYNC_1 => when SYNC_2 => -- Both /VALID/ if (code_group_valid(i*2) = '1' and code_group_valid(i*2+1) = '1') then Vcounter_n(i) <= Vcounter_n(i) + "10"; -- (Vcounter[n] < 255) if Vcounter_n(i) < x"FF" then -- do nothing lane_sync_state_n(i) <= SYNC_2; -- (Vcounter[n] = 255) else Icounter_n(i) <= Icounter_n(i) - '1'; Vcounter_n(i) <= (others => '0'); -- (Icounter[n] > 0) if Icounter_n(i) > Ione then -- do nothing lane_sync_state_n(i) <= SYNC_2; -- (Icounter[n] = 0) else lane_sync_state_n(i) <= SYNC; end if; end if; -- One of both /INVALID/ elsif (code_group_valid(i*2) = '1' or code_group_valid(i*2+1) = '1') then Icounter_n(i) <= Icounter_n(i) + '1'; Vcounter_n(i) <= (others => '0'); -- (Icounter[n] = Imax) if Icounter_n(i) = Imax then lane_sync_state_n(i) <= NO_SYNC; lane_sync_n(i) <= '0'; Kcounter_n(i) <= (others => '0'); -- (Icounter[n] < Imax) else -- do nothing lane_sync_state_n(i) <= SYNC_2; end if; -- Both /INVALID/ else Icounter_n(i) <= Icounter_n(i) + "10"; Vcounter_n(i) <= (others => '0'); -- (Icounter[n] = Imax) if Icounter_n(i) = Imax then lane_sync_state_n(i) <= NO_SYNC; lane_sync_n(i) <= '0'; Kcounter_n(i) <= (others => '0'); -- (Icounter[n] < Imax) else -- do nothing lane_sync_state_n(i) <= SYNC_2; end if; end if; ---------------------------------------------- -- when SYNC_2a => -- -- /INVALID/ -- if (code_group_valid(i*2+1) = '0') then -- Icounter_n(i) <= Icounter_n(i) + '1'; -- Vcounter_n(i) <= (others => '0'); -- -- (Icounter[n] = Imax) -- if Icounter_n(i) = Imax then -- lane_sync_state_n(i) <= NO_SYNC; -- lane_sync_n(i) <= '0'; -- Kcounter_n(i) <= (others => '0'); -- -- (Icounter[n] < Imax) -- else -- lane_sync_state_n(i) <= SYNC_2b; -- end if; -- -- /VALID/ -- else -- Vcounter_n(i) <= Vcounter_n(i) + '1'; -- -- (Vcounter[n] < 255) -- if Vcounter_n(i) < x"FF" then -- lane_sync_state_n(i) <= SYNC_2b; -- -- (Vcounter[n] = 255) -- else -- Icounter_n(i) <= Icounter_n(i) - '1'; -- Vcounter_n(i) <= (others => '0'); -- -- (Icounter[n] > 0) -- if Icounter_n(i) > Izero then -- lane_sync_state_n(i) <= SYNC_2b; -- -- (Icounter[n] = 0) -- else -- lane_sync_state_n(i) <= SYNCb; -- end if; -- end if; -- end if; -- -- when SYNC_2b => -- -- /INVALID/ -- if (code_group_valid(i*2+1) = '0') then -- Icounter_n(i) <= Icounter_n(i) + '1'; -- Vcounter_n(i) <= (others => '0'); -- -- (Icounter[n] = Imax) -- if Icounter_n(i) = Imax then -- lane_sync_state_n(i) <= NO_SYNC; -- lane_sync_n(i) <= '0'; -- Kcounter_n(i) <= (others => '0'); -- -- (Icounter[n] < Imax) -- else -- lane_sync_state_n(i) <= SYNC_2a; -- end if; -- -- /VALID/ -- else -- Vcounter_n(i) <= Vcounter_n(i) + '1'; -- -- (Vcounter[n] < 255) -- if Vcounter_n(i) < x"FF" then -- lane_sync_state_n(i) <= SYNC_2a; -- -- (Vcounter[n] = 255) -- else -- Icounter_n(i) <= Icounter_n(i) - '1'; -- Vcounter_n(i) <= (others => '0'); -- -- (Icounter[n] > 0) -- if Icounter_n(i) > Izero then -- lane_sync_state_n(i) <= SYNC_2a; -- -- (Icounter[n] = 0) -- else -- lane_sync_state_n(i) <= SYNCa; -- end if; -- end if; -- end if; -- when SYNC_3 => -- when SYNC_4 => when others => lane_sync_state_n(i) <= NO_SYNC; lane_sync_n(i) <= '0'; Kcounter_n(i) <= (others => '0'); Vcounter_n(i) <= (others => '0'); end case; end if; end process; end generate GEN_LANE_SYNC_FSM; ---------------------------------------------------------------- -- Figure 4-15. Lane_Alignment State Machine (for N lanes) N_lane_sync <= '1' when lane_sync_n = N_lanes_all_high else '0'; lane_alignment_reset <= N_lane_sync and rst_n; A_column_valid_upper <= '1' when (RXCHARIS_A_upper = N_lanes_all_high) else '0'; A_column_valid_lower <= '1' when (RXCHARIS_A_lower = N_lanes_all_high) else '0'; A_column_valid <= A_column_valid_upper or A_column_valid_lower; align_error_upper <= '1' when (RXCHARIS_A_upper /= N_lanes_all_low) and (RXCHARIS_A_upper /= N_lanes_all_high) else '0'; align_error_lower <= '1' when (RXCHARIS_A_lower /= N_lanes_all_low) and (RXCHARIS_A_lower /= N_lanes_all_high) else '0'; align_error <= align_error_upper or align_error_lower; GEN_CHAR_A_CHECKER: for i in 0 to N-1 generate RXCHARIS_A_upper(i) <= '1' when (code_group_valid(i*2+1) = '1') and (RXCHARISK(i*2+1) = '1') and (RXDATA(i*16+15 downto i*16+8) = A_align) else '0'; RXCHARIS_A_lower(i) <= '1' when (code_group_valid(i*2) = '1' ) and (RXCHARISK(i*2) = '1' ) and (RXDATA(i*16+7 downto i*16 ) = A_align) else '0'; end generate GEN_CHAR_A_CHECKER; process(lane_alignment_reset, UCLK) begin if lane_alignment_reset = '0' then lane_alignment_state <= NOT_ALIGNED; N_lanes_aligned <= '0'; Acounter <= (others => '0'); -- Mcounter <= (others => '0'); elsif rising_edge(UCLK) then -- if lane_alignment_reset = '1' then case lane_alignment_state is when NOT_ALIGNED => -- N_lane_sync & ||A|| if N_lane_sync = '1' and A_column_valid = '1' then Acounter <= Acounter + '1'; lane_alignment_state <= NOT_ALIGNED_2; end if; -- when NOT_ALIGNED_1 => when NOT_ALIGNED_2 => -- align_error if align_error = '1' then lane_alignment_state <= NOT_ALIGNED; N_lanes_aligned <= '0'; Acounter <= (others => '0'); -- ||A|| elsif A_column_valid = '1' then Acounter <= Acounter + '1'; -- Acounter = 4 if Acounter = "100" then lane_alignment_state <= ALIGNED; -- Acounter < 4 else lane_alignment_state <= NOT_ALIGNED_2; end if; -- !align_error & !||A|| else -- Do nothing: Wait for the next column end if; when ALIGNED => N_lanes_aligned <= '1'; Mcounter <= (others => '0'); -- align_error if align_error = '1' then Acounter <= (others => '0'); Mcounter <= Mcounter + '1'; lane_alignment_state <= ALIGNED_2; -- !(align_error) else -- Do nothing extra: Wait for the next column end if; -- when ALIGNED_1 => when ALIGNED_2 => -- align_error if align_error = '1' then Acounter <= (others => '0'); Mcounter <= Mcounter + '1'; -- Mcounter = Mmax if Mcounter = Mmax then lane_alignment_state <= NOT_ALIGNED; N_lanes_aligned <= '0'; -- Mcounter < Mmax else -- Do nothing extra: Wait for the next column end if; -- ||A|| elsif A_column_valid = '1' then Acounter <= Acounter + '1'; -- Acounter = 4 if Acounter = "100" then lane_alignment_state <= ALIGNED; -- Acounter < 4 else -- Do nothing extra: Wait for the next column end if; -- !align_error & !||A|| else -- Do nothing: Wait for the next column end if; -- when ALIGNED_3 => when others => lane_alignment_state <= NOT_ALIGNED; N_lanes_aligned <= '0'; Acounter <= (others => '0'); Mcounter <= (others => '0'); end case; -- else -- lane_alignment_state <= NOT_ALIGNED; -- N_lanes_aligned <= '0'; -- Acounter <= (others => '0'); -- end if; end if; end process; -- Figure 4-18. 1x/Nx_Initialization State Machine for N = 4 TXINHIBIT_02 <= not(lanes02_drvr_oe); TXINHIBIT_others <= not(N_lanes_drvr_oe); rcvr_trained_n <= CHBONDDONE; -- TBD lane_ready_n <= lane_sync_n and rcvr_trained_n; -- lane_ready_n <= lane_sync_n; -- and rcvr_trained_n; N_lanes_ready <= '1' when N_lanes_aligned = '1' and lane_ready_n = N_lanes_all_high else '0'; -- process(UCLK) -- begin -- if rising_edge(UCLK) then -- mode_sel <= Nx_mode_active; -- mode_0_lane_sel <= receive_lane2; -- port_initalized <= port_initalized_reg; -- end if; -- end process; mode_sel <= Nx_mode_active; mode_0_lane_sel <= receive_lane2; port_initalized <= port_initalized_reg; process(rst_n, UCLK) begin if rst_n = '0' then mode_init_state <= SILENT; disc_tmr_en <= '0'; lanes02_drvr_oe <= '0'; N_lanes_drvr_oe <= '0'; port_initalized_reg <= '0'; Nx_mode_active <= '0'; receive_lane2 <= '0'; force_reinit_clear <= '0'; silence_timer_en <= '0'; idle_selected <= '1'; elsif rising_edge(UCLK) then case mode_init_state is when SILENT => disc_tmr_en <= '0'; lanes02_drvr_oe <= '0'; N_lanes_drvr_oe <= '0'; port_initalized_reg <= '0'; Nx_mode_active <= '0'; receive_lane2 <= '0'; force_reinit_clear <= '1'; -- = force_reinit <= '0'; silence_timer_en <= '1'; -- force_reinit if force_reinit_reg = '1' then mode_init_state <= SILENT; -- silence_timer_done elsif silence_timer_done = '1' then mode_init_state <= SEEK; end if; when SEEK => lanes02_drvr_oe <= '1'; silence_timer_en <= '0'; -- (lane_sync_0 | lane_sync_2) & idle_selected if (lane_sync_n(0) = '1' or lane_sync_n(2) = '1') and idle_selected = '1' then mode_init_state <= DISCOVERY; end if; when DISCOVERY => port_initalized_reg <= '0'; Nx_mode_active <= '0'; N_lanes_drvr_oe <= Nx_mode_enabled; disc_tmr_en <= '1'; -- Nx_mode_enabled & N_lanes_ready if Nx_mode_enabled = '1' and N_lanes_ready = '1' then mode_init_state <= Nx_MODE; -- lane_ready[0] & (force_1x_mode & (!force_laneR | force_laneR & disc_tmr_done & !lane_ready[2]) -- | !force_1x_mode & disc_tmr_done & !N_lanes_ready) elsif lane_ready_n(0) = '1' and ((force_1x_mode = '1' and (force_laneR = '0' or (force_laneR = '1' and disc_tmr_done = '1' and lane_ready_n(2) = '0'))) or (force_1x_mode = '0' and disc_tmr_done = '1' and N_lanes_ready = '0')) then mode_init_state <= x1_MODE_LANE0; -- lane_ready[2] & (force_1x_mode & force_laneR | disc_tmr_done & !lane_ready[0] -- & (force_1x_mode & !force_laneR | !force_1x_mode & !N_lanes_ready)) elsif lane_ready_n(2) = '1' and ((force_1x_mode = '1' and force_laneR = '1') or (disc_tmr_done = '1' and lane_ready_n(0) = '0' and ((force_1x_mode = '1' and force_laneR = '0') or (force_1x_mode = '0' and N_lanes_ready = '0')))) then mode_init_state <= x1_MODE_LANE2; ---- -- !lane_sync[0] & !lane_sync[2] | disc_tmr_done & !lane_ready[0] & !lane_ready[2] ---- elsif (lane_sync_n(0) = '0' and lane_sync_n(2) = '0') or (disc_tmr_done = '1' and lane_ready_n(0) = '0' and lane_ready_n(2) = '0') then -- disc_tmr_done & !lane_ready[0] & !lane_ready[2] elsif (disc_tmr_done = '1' and lane_ready_n(0) = '0' and lane_ready_n(2) = '0') then mode_init_state <= SILENT; end if; when Nx_MODE => disc_tmr_en <= '0'; port_initalized_reg <= '1'; Nx_mode_active <= '1'; -- !N_lanes_ready & (lane_sync[0] | lane_sync[2]) if N_lanes_ready = '0' and (lane_sync_n(0) = '1' or lane_sync_n(2) = '1') then mode_init_state <= DISCOVERY; -- !N_lanes_ready & !lane_sync[0] & !lane_sync[2] elsif N_lanes_ready = '0' and lane_sync_n(0) = '0' and lane_sync_n(2) = '0' then mode_init_state <= SILENT; end if; when x1_MODE_LANE0 => disc_tmr_en <= '0'; N_lanes_drvr_oe <= '0'; port_initalized_reg <= '1'; -- !lane_sync[0] if lane_sync_n(0) = '0' then mode_init_state <= SILENT; -- !lane_ready[0] & lane_sync[0] elsif lane_ready_n(0) = '0' and lane_sync_n(0) = '1' then mode_init_state <= x1_RECOVERY; end if; when x1_MODE_LANE2 => disc_tmr_en <= '0'; receive_lane2 <= '1'; N_lanes_drvr_oe <= '0'; port_initalized_reg <= '1'; -- !lane_sync[2] if lane_sync_n(2) = '0' then mode_init_state <= SILENT; -- !lane_ready[2] & lane_sync[2] elsif lane_ready_n(2) = '0' and lane_sync_n(2) = '1' then mode_init_state <= x1_RECOVERY; end if; when x1_RECOVERY => port_initalized_reg <= '0'; disc_tmr_en <= '1'; -- !lane_sync[0] & !lane_sync[2] & disc_tmr_done (!!!) if lane_sync_n(0) = '0' and lane_sync_n(2) = '0' and disc_tmr_done = '1' then mode_init_state <= SILENT; -- lane_ready[0] & !receive_lane2 & !disc_tmr_done elsif lane_sync_n(0) = '1' and receive_lane2 = '0' and disc_tmr_done = '0' then mode_init_state <= x1_MODE_LANE0; -- lane_ready[2] & receive_lane2 & !disc_tmr_done elsif lane_sync_n(2) = '1' and receive_lane2 = '1' and disc_tmr_done = '0' then mode_init_state <= x1_MODE_LANE2; end if; when others => port_initalized_reg <= '0'; mode_init_state <= SILENT; end case; end if; end process; -- Sticky force_reinit set-reset register process(rst_n, UCLK) begin if rst_n = '0' then force_reinit_reg <= '0'; elsif rising_edge(UCLK) then case force_reinit_reg is when '0' => force_reinit_reg <= force_reinit or rxbuferr_reg; when '1' => -- force_reinit_reg <= not(force_reinit_clear) and not(force_reinit); force_reinit_reg <= not(force_reinit_clear and not(force_reinit) and not(rxbuferr_reg)); when others => force_reinit_reg <= '0'; end case; end if; end process; -- RXBUFRST handler process(rst_n, UCLK) begin if rst_n = '0' then rxbufrst_cntr <= (others => '0'); rxbuferr_reg <= '0'; RXBUFRST <= '0'; elsif rising_edge(UCLK) then case rxbuferr_reg is when '0' => rxbuferr_reg <= RXBUFERR; RXBUFRST <= '0'; when '1' => if rxbufrst_cntr = "111" then rxbuferr_reg <= '0'; rxbufrst_cntr <= (others => '0'); else RXBUFRST <= '1'; rxbufrst_cntr <= rxbufrst_cntr + '1'; end if; when others => rxbuferr_reg <= '0'; end case; end if; end process; -- Silence Timer Process -- silence_timer_done: Asserted when silence_timer_en has been continuously asserted -- for 120 +/- 40 µs and the state machine is in the SILENT state. The assertion of -- silence_timer_done causes silence_timer_en to be de-asserted. When the state -- machine is not in the SILENT state, silence_timer_done is de-asserted. process(rst_n, UCLK_DV_1024) begin if rst_n = '0' then silence_timer_done <= '0'; silence_timer <= (others => '0'); elsif rising_edge(UCLK_DV_1024) then case silence_timer_en is when '0' => silence_timer <= (others => '0'); silence_timer_done <= '0'; when '1' => if silence_timer = SILENT_ENOUGH then if mode_init_state = SILENT then silence_timer_done <= '1'; else silence_timer_done <= '0'; end if; else silence_timer <= silence_timer + '1'; end if; when others => silence_timer <= (others => '0'); end case; end if; end process; -- Discovery Timer Process -- disc_tmr_done: Asserted when disc_tmr_en has been continuously asserted for 28 +/- 4 ms -- and the state machine is in the DISCOVERY or a RECOVERY state. The assertion of -- disc_tmr_done causes disc_tmr_en to be de-asserted. When the state machine is in -- a state other than the DISCOVERY or a RECOVERY state, disc_tmr_done is de-asserted. process(rst_n, UCLK_DV_1024) begin if rst_n = '0' then disc_tmr_done <= '0'; disc_tmr <= (others => '0'); elsif rising_edge(UCLK_DV_1024) then case disc_tmr_en is when '0' => disc_tmr <= (others => '0'); disc_tmr_done <= '0'; when '1' => if disc_tmr = DISCOVERY_ENDS then if mode_init_state = DISCOVERY or mode_init_state = x1_RECOVERY then disc_tmr_done <= '1'; else disc_tmr_done <= '0'; end if; else disc_tmr <= disc_tmr + '1'; end if; when others => disc_tmr <= (others => '0'); end case; end if; end process; ENCHANSYNC <= '0'; end rtl; ------------------------------------------------------------------------------- -- -- RapidIO IP Library Core -- -- This file is part of the RapidIO IP library project -- http://www.opencores.org/cores/rio/ -- -- To Do: -- - -- -- Author(s): -- - A. Demirezen, azdem@opencores.org -- ------------------------------------------------------------------------------- -- -- Copyright (C) 2013 Authors and OPENCORES.ORG -- -- 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; use IEEE.NUMERIC_STD.ALL; entity pseudo_random_number_generator is Generic ( lfsr_init : std_logic_vector(7 downto 0) := x"01" ); Port ( clk : in STD_LOGIC; rst_n : in STD_LOGIC; -- Pseudo random number q : out STD_LOGIC_VECTOR(7 downto 0) ); end pseudo_random_number_generator; architecture Behavioral of pseudo_random_number_generator is signal lfsr : std_logic_vector(7 downto 0) := x"01"; signal q0 : std_logic; begin q <= lfsr; -- Polynomial: x^7 + x^6 + 1 q0 <= lfsr(7) xnor lfsr(6) xnor lfsr(0) ; process (clk, rst_n) begin if rst_n = '0' then lfsr <= lfsr_init; -- x"01"; --(others => '0'); elsif rising_edge(clk) then lfsr <= lfsr(6 downto 0) & q0; end if; end process; end Behavioral; ------------------------------------------------------------------------------- -- -- RapidIO IP Library Core -- -- This file is part of the RapidIO IP library project -- http://www.opencores.org/cores/rio/ -- -- To Do: -- - -- -- Author(s): -- - A. Demirezen, azdem@opencores.org -- ------------------------------------------------------------------------------- -- -- Copyright (C) 2013 Authors and OPENCORES.ORG -- -- 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 -- ------------------------------------------------------------------------------ ------------------------------------------------------------------------------ -- -- File name: serdes_wrapper_v0.vhd -- Rev: 0.0 -- Description: This entity instantiates 4-Lane SerDes (GTX-Quad) of Virtex-6 -- ------------------------------------------------------------------------------ ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use work.rio_common.all; entity serdes_wrapper_v0 is port ( REFCLK : in std_logic; RXUSRCLK : in std_logic; RXUSRCLK2 : in std_logic; TXUSRCLK : in std_logic; TXUSRCLK2 : in std_logic; GTXRESET : in std_logic; RXBUFRST : in std_logic; -- RXN : in std_logic_vector(N-1 downto 0); -- RXP : in std_logic_vector(N-1 downto 0); RXN : in std_logic_vector(0 to N-1); RXP : in std_logic_vector(0 to N-1); TXINHIBIT_02 : in std_logic; TXINHIBIT_others : in std_logic; ENCHANSYNC : in std_logic; TXDATA : in std_logic_vector(N*16-1 downto 0); TXCHARISK : in std_logic_vector(N*2-1 downto 0); -- TXN : out std_logic_vector(N-1 downto 0); -- TXP : out std_logic_vector(N-1 downto 0); TXN : out std_logic_vector(0 to N-1); TXP : out std_logic_vector(0 to N-1); PLLLKDET : out std_logic; RXDATA : out std_logic_vector(N*16-1 downto 0); RXCHARISK : out std_logic_vector(N*2-1 downto 0); RXCHARISCOMMA : out std_logic_vector(N*2-1 downto 0); RXBYTEISALIGNED : out std_logic_vector(N-1 downto 0); RXBYTEREALIGN : out std_logic_vector(N-1 downto 0); RXELECIDLE : out std_logic_vector(N-1 downto 0); RXDISPERR : out std_logic_vector(N*2-1 downto 0); RXNOTINTABLE : out std_logic_vector(N*2-1 downto 0); RXBUFERR : out std_logic; CHBONDDONE : out std_logic_vector(N-1 downto 0) ); end serdes_wrapper_v0; architecture struct of serdes_wrapper_v0 is COMPONENT srio_gt_wrapper_v6_4x PORT( REFCLK : IN std_logic; RXUSRCLK : IN std_logic; RXUSRCLK2 : IN std_logic; TXUSRCLK : IN std_logic; TXUSRCLK2 : IN std_logic; GTXRESET : IN std_logic; RXBUFRST : IN std_logic; RXN0 : IN std_logic; RXN1 : IN std_logic; RXN2 : IN std_logic; RXN3 : IN std_logic; RXP0 : IN std_logic; RXP1 : IN std_logic; RXP2 : IN std_logic; RXP3 : IN std_logic; TXINHIBIT_02 : IN std_logic; TXINHIBIT_13 : IN std_logic; ENCHANSYNC : IN std_logic; TXDATA0 : IN std_logic_vector(15 downto 0); TXDATA1 : IN std_logic_vector(15 downto 0); TXDATA2 : IN std_logic_vector(15 downto 0); TXDATA3 : IN std_logic_vector(15 downto 0); TXCHARISK0 : IN std_logic_vector(1 downto 0); TXCHARISK1 : IN std_logic_vector(1 downto 0); TXCHARISK2 : IN std_logic_vector(1 downto 0); TXCHARISK3 : IN std_logic_vector(1 downto 0); TXN0 : OUT std_logic; TXN1 : OUT std_logic; TXN2 : OUT std_logic; TXN3 : OUT std_logic; TXP0 : OUT std_logic; TXP1 : OUT std_logic; TXP2 : OUT std_logic; TXP3 : OUT std_logic; PLLLKDET : OUT std_logic; RXDATA0 : OUT std_logic_vector(15 downto 0); RXDATA1 : OUT std_logic_vector(15 downto 0); RXDATA2 : OUT std_logic_vector(15 downto 0); RXDATA3 : OUT std_logic_vector(15 downto 0); RXCHARISK0 : OUT std_logic_vector(1 downto 0); RXCHARISK1 : OUT std_logic_vector(1 downto 0); RXCHARISK2 : OUT std_logic_vector(1 downto 0); RXCHARISK3 : OUT std_logic_vector(1 downto 0); RXCHARISCOMMA0 : OUT std_logic_vector(1 downto 0); RXCHARISCOMMA1 : OUT std_logic_vector(1 downto 0); RXCHARISCOMMA2 : OUT std_logic_vector(1 downto 0); RXCHARISCOMMA3 : OUT std_logic_vector(1 downto 0); RXBYTEISALIGNED: OUT std_logic_vector(3 downto 0); RXBYTEREALIGN : OUT std_logic_vector(3 downto 0); RXELECIDLE : OUT std_logic_vector(3 downto 0); RXDISPERR0 : OUT std_logic_vector(1 downto 0); RXDISPERR1 : OUT std_logic_vector(1 downto 0); RXDISPERR2 : OUT std_logic_vector(1 downto 0); RXDISPERR3 : OUT std_logic_vector(1 downto 0); RXNOTINTABLE0 : OUT std_logic_vector(1 downto 0); RXNOTINTABLE1 : OUT std_logic_vector(1 downto 0); RXNOTINTABLE2 : OUT std_logic_vector(1 downto 0); RXNOTINTABLE3 : OUT std_logic_vector(1 downto 0); RXBUFERR : OUT std_logic; CHBONDDONE0 : OUT std_logic; CHBONDDONE1 : OUT std_logic; CHBONDDONE2 : OUT std_logic; CHBONDDONE3 : OUT std_logic ); END COMPONENT; begin Inst_srio_gt_wrapper_v6_4x: srio_gt_wrapper_v6_4x PORT MAP( REFCLK => REFCLK , RXUSRCLK => RXUSRCLK , RXUSRCLK2 => RXUSRCLK2 , TXUSRCLK => TXUSRCLK , TXUSRCLK2 => TXUSRCLK2 , GTXRESET => GTXRESET , RXBUFRST => RXBUFRST , RXN0 => RXN(0) , RXN1 => RXN(1) , RXN2 => RXN(2) , RXN3 => RXN(3) , RXP0 => RXP(0) , RXP1 => RXP(1) , RXP2 => RXP(2) , RXP3 => RXP(3) , TXINHIBIT_02 => TXINHIBIT_02 , TXINHIBIT_13 => TXINHIBIT_others , ENCHANSYNC => ENCHANSYNC , TXDATA0 => TXDATA(15 downto 0) , TXDATA1 => TXDATA(31 downto 16) , TXDATA2 => TXDATA(47 downto 32) , TXDATA3 => TXDATA(63 downto 48) , TXCHARISK0 => TXCHARISK(1 downto 0) , TXCHARISK1 => TXCHARISK(3 downto 2) , TXCHARISK2 => TXCHARISK(5 downto 4) , TXCHARISK3 => TXCHARISK(7 downto 6) , TXN0 => TXN(0) , TXN1 => TXN(1) , TXN2 => TXN(2) , TXN3 => TXN(3) , TXP0 => TXP(0) , TXP1 => TXP(1) , TXP2 => TXP(2) , TXP3 => TXP(3) , PLLLKDET => PLLLKDET , RXDATA0 => RXDATA(15 downto 0) , RXDATA1 => RXDATA(31 downto 16) , RXDATA2 => RXDATA(47 downto 32) , RXDATA3 => RXDATA(63 downto 48) , RXCHARISK0 => RXCHARISK(1 downto 0) , RXCHARISK1 => RXCHARISK(3 downto 2) , RXCHARISK2 => RXCHARISK(5 downto 4) , RXCHARISK3 => RXCHARISK(7 downto 6) , RXCHARISCOMMA0 => RXCHARISCOMMA(1 downto 0) , RXCHARISCOMMA1 => RXCHARISCOMMA(3 downto 2) , RXCHARISCOMMA2 => RXCHARISCOMMA(5 downto 4) , RXCHARISCOMMA3 => RXCHARISCOMMA(7 downto 6) , RXBYTEISALIGNED => RXBYTEISALIGNED , RXBYTEREALIGN => RXBYTEREALIGN , RXELECIDLE => RXELECIDLE , RXDISPERR0 => RXDISPERR(1 downto 0) , RXDISPERR1 => RXDISPERR(3 downto 2) , RXDISPERR2 => RXDISPERR(5 downto 4) , RXDISPERR3 => RXDISPERR(7 downto 6) , RXNOTINTABLE0 => RXNOTINTABLE(1 downto 0) , RXNOTINTABLE1 => RXNOTINTABLE(3 downto 2) , RXNOTINTABLE2 => RXNOTINTABLE(5 downto 4) , RXNOTINTABLE3 => RXNOTINTABLE(7 downto 6) , RXBUFERR => RXBUFERR , CHBONDDONE0 => CHBONDDONE(0) , CHBONDDONE1 => CHBONDDONE(1) , CHBONDDONE2 => CHBONDDONE(2) , CHBONDDONE3 => CHBONDDONE(3) ); end struct; ------------------------------------------------------------------------------- -- -- RapidIO IP Library Core -- -- This file is part of the RapidIO IP library project -- http://www.opencores.org/cores/rio/ -- -- To Do: -- - -- -- Author(s): -- - A. Demirezen, azdem@opencores.org -- ------------------------------------------------------------------------------- -- -- Copyright (C) 2013 Authors and OPENCORES.ORG -- -- 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; use ieee.numeric_std.ALL; library UNISIM; use UNISIM.Vcomponents.ALL; entity srio_pcs_struct is port ( CHBONDDONE : in std_logic_vector (3 downto 0); force_reinit_i : in std_logic; inboundRead_i : in std_logic; outboundSymbol_i : in std_logic_vector (33 downto 0); outboundWrite_i : in std_logic; PLLLKDET : in std_logic; rio_clk : in std_logic; rst_n : in std_logic; RXBUFERR : in std_logic; RXBYTEISALIGNED : in std_logic_vector (3 downto 0); RXBYTEREALIGN : in std_logic_vector (3 downto 0); RXCAHRISCOMMA : in std_logic_vector (7 downto 0); RXCAHRISK : in std_logic_vector (7 downto 0); RXDATA : in std_logic_vector (63 downto 0); RXDISPERR : in std_logic_vector (7 downto 0); RXELECIDLE : in std_logic_vector (3 downto 0); RXNOTINTABLE : in std_logic_vector (7 downto 0); UCLK : in std_logic; UCLK_DV4 : in std_logic; UCLK_DV1024 : in std_logic; UCLK_or_DV4 : in std_logic; UCLK_x2 : in std_logic; UCLK_x2_DV2 : in std_logic; ENCHANSYNC : out std_logic; inboundEmpty_o : out std_logic; inboundSymbol_o : out std_logic_vector (33 downto 0); lane_sync_o : out std_logic_vector (3 downto 0); mode_sel_o : out std_logic; mode_0_lane_sel_o : out std_logic; outboundFull_o : out std_logic; port_initialized_o : out std_logic; RXBUFRST : out std_logic; TXCAHRISK : out std_logic_vector (7 downto 0); TXDATA : out std_logic_vector (63 downto 0); TXINHIBIT_others : out std_logic; TXINHIBIT_02 : out std_logic); end srio_pcs_struct; architecture BEHAVIORAL of srio_pcs_struct is signal ccs_timer_rst : std_logic; signal RXCAHRISvalid : std_logic_vector (7 downto 0); signal send_A : std_logic_vector (1 downto 0); signal send_ccs : std_logic; signal send_idle : std_logic_vector (1 downto 0); signal send_K : std_logic_vector (1 downto 0); signal send_R : std_logic_vector (1 downto 0); signal mode_0_lane_sel_o_DUMMY : std_logic; signal TXINHIBIT_02_DUMMY : std_logic; signal mode_sel_o_DUMMY : std_logic; signal port_initialized_o_DUMMY : std_logic; signal TXINHIBIT_others_DUMMY : std_logic; component ccs_timer port ( rst_n : in std_logic; ccs_timer_rst : in std_logic; send_ccs : out std_logic; UCLK : in std_logic); end component; component idle_generator_dual port ( UCLK : in std_logic; rst_n : in std_logic; send_K : out std_logic_vector (1 downto 0); send_A : out std_logic_vector (1 downto 0); send_R : out std_logic_vector (1 downto 0); send_idle : in std_logic_vector (1 downto 0)); end component; component port_init_fsms port ( rst_n : in std_logic; UCLK_x2 : in std_logic; UCLK : in std_logic; UCLK_DV4 : in std_logic; UCLK_DV_1024 : in std_logic; force_reinit : in std_logic; PLLLKDET : in std_logic; RXBUFERR : in std_logic; RXDATA : in std_logic_vector (63 downto 0); RXCHARISK : in std_logic_vector (7 downto 0); RXCHARISCOMMA : in std_logic_vector (7 downto 0); RXBYTEISALIGNED : in std_logic_vector (3 downto 0); RXBYTEREALIGN : in std_logic_vector (3 downto 0); RXELECIDLE : in std_logic_vector (3 downto 0); RXDISPERR : in std_logic_vector (7 downto 0); RXNOTINTABLE : in std_logic_vector (7 downto 0); CHBONDDONE : in std_logic_vector (3 downto 0); mode_sel : out std_logic; port_initalized : out std_logic; TXINHIBIT_02 : out std_logic; TXINHIBIT_others : out std_logic; ENCHANSYNC : out std_logic; RXBUFRST : out std_logic; lane_sync : out std_logic_vector (3 downto 0); mode_0_lane_sel : out std_logic; RXCHARISvalid : out std_logic_vector (7 downto 0)); end component; component pcs_rx_controller port ( rst_n : in std_logic; rio_clk : in std_logic; UCLK_x2 : in std_logic; UCLK : in std_logic; UCLK_x2_DV2 : in std_logic; inboundRead_i : in std_logic; port_initalized_i : in std_logic; mode_sel_i : in std_logic; mode_0_lane_sel_i : in std_logic; RXDATA_i : in std_logic_vector (63 downto 0); RXCHARISK_i : in std_logic_vector (7 downto 0); RXCHARISvalid_i : in std_logic_vector (7 downto 0); inboundEmpty_o : out std_logic; inboundSymbol_o : out std_logic_vector (33 downto 0); UCLK_or_DV4 : in std_logic); end component; component pcs_tx_controller port ( rst_n : in std_logic; rio_clk : in std_logic; UCLK_x2 : in std_logic; UCLK : in std_logic; UCLK_x2_DV2 : in std_logic; UCLK_or_DV4 : in std_logic; outboundWrite_i : in std_logic; send_ccs_i : in std_logic; TXINHIBIT_02 : in std_logic; TXINHIBIT_others : in std_logic; port_initalized_i : in std_logic; mode_sel_i : in std_logic; mode_0_lane_sel_i : in std_logic; outboundSymbol_i : in std_logic_vector (33 downto 0); send_K_i : in std_logic_vector (1 downto 0); send_A_i : in std_logic_vector (1 downto 0); send_R_i : in std_logic_vector (1 downto 0); outboundFull_o : out std_logic; ccs_timer_rst_o : out std_logic; TXDATA_o : out std_logic_vector (63 downto 0); TXCHARISK_o : out std_logic_vector (7 downto 0); send_idle_o : out std_logic_vector (1 downto 0)); end component; begin mode_sel_o <= mode_sel_o_DUMMY; mode_0_lane_sel_o <= mode_0_lane_sel_o_DUMMY; port_initialized_o <= port_initialized_o_DUMMY; TXINHIBIT_others <= TXINHIBIT_others_DUMMY; TXINHIBIT_02 <= TXINHIBIT_02_DUMMY; ccs_timer_inst : ccs_timer port map (ccs_timer_rst=>ccs_timer_rst, rst_n=>rst_n, UCLK=>UCLK, send_ccs=>send_ccs); dual_idle_generator : idle_generator_dual port map (rst_n=>rst_n, send_idle(1 downto 0)=>send_idle(1 downto 0), UCLK=>UCLK, send_A(1 downto 0)=>send_A(1 downto 0), send_K(1 downto 0)=>send_K(1 downto 0), send_R(1 downto 0)=>send_R(1 downto 0)); port_init_fsms_inst : port_init_fsms port map (CHBONDDONE(3 downto 0)=>CHBONDDONE(3 downto 0), force_reinit=>force_reinit_i, PLLLKDET=>PLLLKDET, rst_n=>rst_n, RXBUFERR=>RXBUFERR, RXBYTEISALIGNED(3 downto 0)=>RXBYTEISALIGNED(3 downto 0), RXBYTEREALIGN(3 downto 0)=>RXBYTEREALIGN(3 downto 0), RXCHARISCOMMA(7 downto 0)=>RXCAHRISCOMMA(7 downto 0), RXCHARISK(7 downto 0)=>RXCAHRISK(7 downto 0), RXDATA(63 downto 0)=>RXDATA(63 downto 0), RXDISPERR(7 downto 0)=>RXDISPERR(7 downto 0), RXELECIDLE(3 downto 0)=>RXELECIDLE(3 downto 0), RXNOTINTABLE(7 downto 0)=>RXNOTINTABLE(7 downto 0), UCLK=>UCLK, UCLK_DV_1024=>UCLK_DV1024, UCLK_DV4=>UCLK_DV4, UCLK_x2=>UCLK_x2, ENCHANSYNC=>ENCHANSYNC, lane_sync(3 downto 0)=>lane_sync_o(3 downto 0), mode_sel=>mode_sel_o_DUMMY, mode_0_lane_sel=>mode_0_lane_sel_o_DUMMY, port_initalized=>port_initialized_o_DUMMY, RXBUFRST=>RXBUFRST, RXCHARISvalid(7 downto 0)=>RXCAHRISvalid(7 downto 0), TXINHIBIT_others=>TXINHIBIT_others_DUMMY, TXINHIBIT_02=>TXINHIBIT_02_DUMMY); rx_controller_inst : pcs_rx_controller port map (inboundRead_i=>inboundRead_i, mode_sel_i=>mode_sel_o_DUMMY, mode_0_lane_sel_i=>mode_0_lane_sel_o_DUMMY, port_initalized_i=>port_initialized_o_DUMMY, rio_clk=>rio_clk, rst_n=>rst_n, RXCHARISK_i(7 downto 0)=>RXCAHRISK(7 downto 0), RXCHARISvalid_i(7 downto 0)=>RXCAHRISvalid(7 downto 0), RXDATA_i(63 downto 0)=>RXDATA(63 downto 0), UCLK=>UCLK, UCLK_or_DV4=>UCLK_or_DV4, UCLK_x2=>UCLK_x2, UCLK_x2_DV2=>UCLK_x2_DV2, inboundEmpty_o=>inboundEmpty_o, inboundSymbol_o(33 downto 0)=>inboundSymbol_o(33 downto 0)); tx_controller_inst : pcs_tx_controller port map (mode_sel_i=>mode_sel_o_DUMMY, mode_0_lane_sel_i=>mode_0_lane_sel_o_DUMMY, outboundSymbol_i(33 downto 0)=>outboundSymbol_i(33 downto 0), outboundWrite_i=>outboundWrite_i, port_initalized_i=>port_initialized_o_DUMMY, rio_clk=>rio_clk, rst_n=>rst_n, send_A_i(1 downto 0)=>send_A(1 downto 0), send_ccs_i=>send_ccs, send_K_i(1 downto 0)=>send_K(1 downto 0), send_R_i(1 downto 0)=>send_R(1 downto 0), TXINHIBIT_others=>TXINHIBIT_others_DUMMY, TXINHIBIT_02=>TXINHIBIT_02_DUMMY, UCLK=>UCLK, UCLK_or_DV4=>UCLK_or_DV4, UCLK_x2=>UCLK_x2, UCLK_x2_DV2=>UCLK_x2_DV2, ccs_timer_rst_o=>ccs_timer_rst, outboundFull_o=>outboundFull_o, send_idle_o(1 downto 0)=>send_idle(1 downto 0), TXCHARISK_o(7 downto 0)=>TXCAHRISK(7 downto 0), TXDATA_o(63 downto 0)=>TXDATA(63 downto 0)); end BEHAVIORAL;
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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 GEmIRPTs+hNRwpxGfJrtN5gzhI2ZGLrHa3EGoQEq6XAlku2fFIiT5hrMrBwOQzoyYE+24/EH2q8a PrqfFoLkFQ== `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 NY9bq2jCtkpPSY2GfVyxyzZ8UMjEArt+6K1zKTnl/nqvHivVyzZDaykypurGvfTk9EyadqcTsG+k GRbfSIqp3wcQZ3JPAYSzXTxpUm6bZ3P7ZbtBWQ0Ky5jW1fl46iRX85NcEyZcmQa92iuUghjUaUJJ bLpPPUeYvDgxwwld4aY= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block fJSFxMdJdNJy36f6jiTiTSyczbLCSbB2fHmy7K0bzbVN7NSAMP6yvJtp5xAPh8NpDvfGgsg9XGft phCXcQGh1JzteJfbEm9pzfN3lSIfCVzA5svg791y3toRE1mYjGPhDT/AuNJINwmCBjRldYOlLQzS 5ksPDGdVoDeRDb5Zbt3d+pBqPuMKy9wZNC5P1Zzv7VetU1RZG6aA69s9azA0o6nX5F/ksgkCBqRP PAQusRI1kPvvM3uxA5WB0n+ZBaNSPSuuRQTOwz4N+4JUxO4t5yLeCF7XirTCfQUvbOPIRUAbXFCN NsJ228G3dMYrBMLMO45jd+cyPiy3m+TUNrCT8A== `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 JJfyK5xWEeksViI4ZGnB/AFHEWbMoq592Ww7OMXpCu5/Dv0TI96dyLK9KvHVqEbeK29iPSYv3W/o zFQzHAO4F2sxyDQcld82eeF06QKWTNnyFavcEh7tegV44TsNU3n6TT0DGXuflvUy+fpIfD+fOcFH rFCBkGZz+33guenT9qU= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Y8I58ZGqq00yXDv8tK06SGgCQkR1VnF2uoN9tOe36G/0houFVGagbYFpM/UqXT/x6GIu5E2uAggj 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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 GEmIRPTs+hNRwpxGfJrtN5gzhI2ZGLrHa3EGoQEq6XAlku2fFIiT5hrMrBwOQzoyYE+24/EH2q8a PrqfFoLkFQ== `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 NY9bq2jCtkpPSY2GfVyxyzZ8UMjEArt+6K1zKTnl/nqvHivVyzZDaykypurGvfTk9EyadqcTsG+k GRbfSIqp3wcQZ3JPAYSzXTxpUm6bZ3P7ZbtBWQ0Ky5jW1fl46iRX85NcEyZcmQa92iuUghjUaUJJ bLpPPUeYvDgxwwld4aY= `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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entity tb_case02 is end tb_case02; library ieee; use ieee.std_logic_1164.all; architecture behav of tb_case02 is signal a : std_logic_vector (1 downto 0); signal o : std_logic; begin dut: entity work.case02 port map (a, o); process begin a <= "00"; wait for 1 ns; assert o = '0'; a <= "01"; wait for 1 ns; assert o = '1'; a <= "10"; wait for 1 ns; assert o = '0'; wait; end process; end behav;
------------------------------------------------------------------------------ -- Copyright (c) 2009 Xilinx, Inc. -- This design is confidential and proprietary of Xilinx, All Rights Reserved. ------------------------------------------------------------------------------ -- ____ ____ -- / /\/ / -- /___/ \ / Vendor: Xilinx -- \ \ \/ Version: 1.0 -- \ \ Filename: serdes_n_to_1_s16_diff.vhd -- / / Date Last Modified: November 5 2009 -- /___/ /\ Date Created: August 1 2008 -- \ \ / \ -- \___\/\___\ -- --Device: Spartan 6 --Purpose: D-bit generic n:1 transmitter module -- Takes in n bits of data and serialises this to 1 bit -- data is transmitted LSB first -- Parallel input word -- DS, DS-1 ..... 1, 0 -- Serial output words -- Line0 : 0, ...... DS-(S+1) -- Line1 : 1, ...... DS-(S+2) -- Line(D-1) : . . -- Line0(D) : D-1, ...... DS -- Data inversion can be accomplished via the TX_SWAP_MASK parameter if required -- --Reference: -- --Revision History: -- Rev 1.0 - First created (nicks) ------------------------------------------------------------------------------ -- -- 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. -- ------------------------------------------------------------------------------ library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all ; library unisim ; use unisim.vcomponents.all ; entity serdes_n_to_1_s16_diff is generic ( S : integer := 10 ; -- Parameter to set the serdes factor 1..8 D : integer := 16) ; -- Set the number of inputs and outputs port ( txioclk : in std_logic ; -- IO Clock network txserdesstrobe : in std_logic ; -- Parallel data capture strobe reset : in std_logic ; -- Reset tx_bufg_pll_x2 : in std_logic ; -- Global clock tx_bufg_pll_x1 : in std_logic ; -- Global clock datain : in std_logic_vector((D*S)-1 downto 0) ; -- Data for output clkin : in std_logic_vector(S-1 downto 0) ; -- Data for clock dataout_p : out std_logic_vector(D-1 downto 0) ; -- output dataout_n : out std_logic_vector(D-1 downto 0) ; -- output clkout_p : out std_logic ; -- output clkout_n : out std_logic) ; -- output end serdes_n_to_1_s16_diff ; architecture arch_serdes_n_to_1_s16_diff of serdes_n_to_1_s16_diff is signal cascade_di : std_logic_vector(D-1 downto 0) ; signal cascade_do : std_logic_vector(D-1 downto 0) ; signal cascade_ti : std_logic_vector(D-1 downto 0) ; signal cascade_to : std_logic_vector(D-1 downto 0) ; signal mdatain : std_logic_vector(D*8 downto 0) ; signal tx_data_out : std_logic_vector((D*S/2)-1 downto 0) ; signal txd_int : std_logic_vector(D*S/2-1 downto 0) ; signal tx_clk_int : std_logic_vector(7 downto 0) ; signal old_tx_toggle : std_logic ; signal tx_toggle : std_logic ; signal tx_clk_out : std_logic ; signal cascade_tci : std_logic ; signal cascade_dci : std_logic ; signal cascade_tco : std_logic ; signal cascade_dco : std_logic ; constant TX_SWAP_MASK : std_logic_vector(D-1 downto 0) := (others => '0') ; -- pinswap mask for input bits (0 = no swap (default), 1 = swap). Allows inputs to be connected the wrong way round to ease PCB routing. begin process (tx_bufg_pll_x1, reset) begin if reset = '1' then tx_toggle <= '0' ; elsif tx_bufg_pll_x1'event and tx_bufg_pll_x1 = '1' then tx_toggle <= not tx_toggle after 1 pS; -- The 1 pS solves a simulation timing issue end if ; end process ; process (tx_bufg_pll_x2) begin if tx_bufg_pll_x2'event and tx_bufg_pll_x2 = '1' then old_tx_toggle <= tx_toggle ; if tx_toggle /= old_tx_toggle then txd_int <= datain((D*S/2)-1 downto 0) ; tx_clk_int((S/2)-1 downto 0) <= clkin((S/2)-1 downto 0) ; else txd_int <= datain((D*S)-1 downto D*S/2) ; tx_clk_int((S/2)-1 downto 0) <= clkin(S-1 downto S/2) ; end if ; end if ; end process ; io_clk_out : obufds port map ( O => clkout_p, OB => clkout_n, I => tx_clk_out); loop0 : for i in 0 to (D - 1) generate io_data_out : obufds port map ( O => dataout_p(i), OB => dataout_n(i), I => tx_data_out(i)); loop2 : for j in 0 to (S/2 - 1) generate -- re-arrange data bits for transmission and invert lines as given by the mask -- NOTE If pin inversion is required (non-zero SWAP MASK) then inverters will occur in fabric, as there are no inverters in the ISERDES2 -- This can be avoided by doing the inversion (if necessary) in the user logic mdatain((8*i)+j) <= txd_int((i)+(D*j)) xor TX_SWAP_MASK(i) ; end generate ; oserdes_m : OSERDES2 generic map ( DATA_WIDTH => S/2, -- SERDES word width. This should match the setting is BUFPLL DATA_RATE_OQ => "SDR", -- <SDR>, DDR DATA_RATE_OT => "SDR", -- <SDR>, DDR SERDES_MODE => "MASTER", -- <DEFAULT>, MASTER, SLAVE OUTPUT_MODE => "DIFFERENTIAL") port map ( OQ => tx_data_out(i), OCE => '1', CLK0 => txioclk, CLK1 => '0', IOCE => txserdesstrobe, RST => reset, CLKDIV => tx_bufg_pll_x2, D4 => mdatain((8*i)+7), D3 => mdatain((8*i)+6), D2 => mdatain((8*i)+5), D1 => mdatain((8*i)+4), TQ => open, T1 => '0', T2 => '0', T3 => '0', T4 => '0', TRAIN => '0', TCE => '1', SHIFTIN1 => '1', -- Dummy input in Master SHIFTIN2 => '1', -- Dummy input in Master SHIFTIN3 => cascade_do(i), -- Cascade output D data from slave SHIFTIN4 => cascade_to(i), -- Cascade output T data from slave SHIFTOUT1 => cascade_di(i), -- Cascade input D data to slave SHIFTOUT2 => cascade_ti(i), -- Cascade input T data to slave SHIFTOUT3 => open, -- Dummy output in Master SHIFTOUT4 => open) ; -- Dummy output in Master oserdes_s : OSERDES2 generic map( DATA_WIDTH => S/2, -- SERDES word width. This should match the setting is BUFPLL DATA_RATE_OQ => "SDR", -- <SDR>, DDR DATA_RATE_OT => "SDR", -- <SDR>, DDR SERDES_MODE => "SLAVE", -- <DEFAULT>, MASTER, SLAVE OUTPUT_MODE => "DIFFERENTIAL") port map ( OQ => open, OCE => '1', CLK0 => txioclk, CLK1 => '0', IOCE => txserdesstrobe, RST => reset, CLKDIV => tx_bufg_pll_x2, D4 => mdatain((8*i)+3), D3 => mdatain((8*i)+2), D2 => mdatain((8*i)+1), D1 => mdatain((8*i)+0), TQ => open, T1 => '0', T2 => '0', T3 => '0', T4 => '0', TRAIN => '0', TCE => '1', SHIFTIN1 => cascade_di(i), -- Cascade input D from Master SHIFTIN2 => cascade_ti(i), -- Cascade input T from Master SHIFTIN3 => '1', -- Dummy input in Slave SHIFTIN4 => '1', -- Dummy input in Slave SHIFTOUT1 => open, -- Dummy output in Slave SHIFTOUT2 => open, -- Dummy output in Slave SHIFTOUT3 => cascade_do(i), -- Cascade output D data to Master SHIFTOUT4 => cascade_to(i)) ; -- Cascade output T data to Master end generate ; oserdes_cm : OSERDES2 generic map ( DATA_WIDTH => S/2, -- SERDES word width. This should match the setting is BUFPLL DATA_RATE_OQ => "SDR", -- <SDR>, DDR DATA_RATE_OT => "SDR", -- <SDR>, DDR SERDES_MODE => "MASTER", -- <DEFAULT>, MASTER, SLAVE OUTPUT_MODE => "DIFFERENTIAL") port map ( OQ => tx_clk_out, OCE => '1', CLK0 => txioclk, CLK1 => '0', IOCE => txserdesstrobe, RST => reset, CLKDIV => tx_bufg_pll_x2, D4 => tx_clk_int(7), D3 => tx_clk_int(6), D2 => tx_clk_int(5), D1 => tx_clk_int(4), TQ => open, T1 => '0', T2 => '0', T3 => '0', T4 => '0', TRAIN => '0', TCE => '1', SHIFTIN1 => '1', -- Dummy input in Master SHIFTIN2 => '1', -- Dummy input in Master SHIFTIN3 => cascade_dco, -- Cascade output D data from slave SHIFTIN4 => cascade_tco, -- Cascade output T data from slave SHIFTOUT1 => cascade_dci, -- Cascade input D data to slave SHIFTOUT2 => cascade_tci, -- Cascade input T data to slave SHIFTOUT3 => open, -- Dummy output in Master SHIFTOUT4 => open) ; -- Dummy output in Master oserdes_cs : OSERDES2 generic map( DATA_WIDTH => S/2, -- SERDES word width. This should match the setting is BUFPLL DATA_RATE_OQ => "SDR", -- <SDR>, DDR DATA_RATE_OT => "SDR", -- <SDR>, DDR SERDES_MODE => "SLAVE", -- <DEFAULT>, MASTER, SLAVE OUTPUT_MODE => "DIFFERENTIAL") port map ( OQ => open, OCE => '1', CLK0 => txioclk, CLK1 => '0', IOCE => txserdesstrobe, RST => reset, CLKDIV => tx_bufg_pll_x2, D4 => tx_clk_int(3), D3 => tx_clk_int(2), D2 => tx_clk_int(1), D1 => tx_clk_int(0), TQ => open, T1 => '0', T2 => '0', T3 => '0', T4 => '0', TRAIN => '0', TCE => '1', SHIFTIN1 => cascade_dci, -- Cascade input D from Master SHIFTIN2 => cascade_tci, -- Cascade input T from Master SHIFTIN3 => '1', -- Dummy input in Slave SHIFTIN4 => '1', -- Dummy input in Slave SHIFTOUT1 => open, -- Dummy output in Slave SHIFTOUT2 => open, -- Dummy output in Slave SHIFTOUT3 => cascade_dco, -- Cascade output D data to Master SHIFTOUT4 => cascade_tco) ; -- Cascade output T data to Master end arch_serdes_n_to_1_s16_diff ;
-- $Id: sramif2migui_core.vhd 1181 2019-07-08 17:00:50Z mueller $ -- SPDX-License-Identifier: GPL-3.0-or-later -- Copyright 2018- by Walter F.J. Mueller <W.F.J.Mueller@gsi.de> -- ------------------------------------------------------------------------------ -- Module Name: sramif2migui_core - syn -- Description: SRAM to MIG interface core -- -- Dependencies: memlib/fifo_2c_dram2 -- cdclib/cdc_signal_s1 -- Test bench: tb/tb_sramif2migui_core -- Target Devices: generic -- Tool versions: viv 2017.2; ghdl 0.34 -- -- Revision History: -- Date Rev Version Comment -- 2018-12-28 1096 1.0 Initial version -- 2018-11-04 1066 0.1 First draft -- ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use work.slvtypes.all; use work.memlib.all; use work.cdclib.all; use work.miglib.all; entity sramif2migui_core is -- SRAM to MIG interface core generic ( BAWIDTH : positive := 4; -- byte address width MAWIDTH : positive := 28); -- memory address width port ( CLK : in slbit; -- clock RESET : in slbit; -- reset REQ : in slbit; -- request WE : in slbit; -- write enable BUSY : out slbit; -- controller busy ACK_R : out slbit; -- acknowledge read ACK_W : out slbit; -- acknowledge write ACT_R : out slbit; -- signal active read ACT_W : out slbit; -- signal active write ADDR : in slv20; -- address (32 bit word address) BE : in slv4; -- byte enable DI : in slv32; -- data in (memory view) DO : out slv32; -- data out (memory view) MONI : out sramif2migui_moni_type; -- monitor signals UI_CLK : in slbit; -- MIGUI clock UI_CLK_SYNC_RST : in slbit; -- MIGUI reset INIT_CALIB_COMPLETE : in slbit; -- MIGUI calibration done APP_RDY : in slbit; -- MIGUI ready for cmd APP_EN : out slbit; -- MIGUI command enable APP_CMD : out slv3; -- MIGUI command APP_ADDR : out slv(MAWIDTH-1 downto 0); -- MIGUI address APP_WDF_RDY : in slbit; -- MIGUI ready for data write APP_WDF_WREN : out slbit; -- MIGUI data write enable APP_WDF_DATA : out slv(8*(2**BAWIDTH)-1 downto 0);-- MIGUI write data APP_WDF_MASK : out slv((2**BAWIDTH)-1 downto 0); -- MIGUI write mask APP_WDF_END : out slbit; -- MIGUI write end APP_RD_DATA_VALID : in slbit; -- MIGUI read valid APP_RD_DATA : in slv(8*(2**BAWIDTH)-1 downto 0);-- MIGUI read data APP_RD_DATA_END : in slbit -- MIGUI read end ); end sramif2migui_core; architecture syn of sramif2migui_core is constant mwidth : positive := 2**BAWIDTH; -- mask width (8 or 16) constant dwidth : positive := 8*mwidth; -- data width (64 or 128) constant tawidth : positive := 20-(BAWIDTH-2); -- tag address width constant rfwidth : positive := dwidth+mwidth+tawidth+1; -- req fifo width -- sram address fields subtype sa_f_ta is integer range 20-1 downto BAWIDTH-2; -- tag addr subtype sa_f_ga is integer range BAWIDTH-3 downto 0; -- group addr -- mig address fields subtype ma_f_ta is integer range 22-1 downto BAWIDTH; -- tag addr -- request fifo data fields subtype rf_f_data is integer range dwidth+mwidth+tawidth downto MWIDTH+tawidth+1; subtype rf_f_mask is integer range mwidth+tawidth downto tawidth+1; subtype rf_f_addr is integer range tawidth downto 1; constant rf_f_we : integer := 0; constant ngrp : positive := 2**(BAWIDTH-2); -- # of 32bit groups (2 or 4) type regs_type is record actr : slbit; -- active read flag actw : slbit; -- active write flag ackr : slbit; -- read acknowledge req_addr : slv20; -- request address req_be : slv4; -- request be req_di : slv32; -- request di res_do : slv32; -- response do rdbuf : slv(dwidth-1 downto 0); -- read buffer rdtag : slv(tawidth-1 downto 0); -- read tag address rdval : slbit; -- read buffer valid rdnew : slbit; -- read buffer new rdpend : slbit; -- read request pending wrbuf : slv(dwidth-1 downto 0); -- write buffer wrtag : slv(tawidth-1 downto 0); -- write tag address wrpend : slv(mwidth-1 downto 0); -- write buffer pending flags end record regs_type; constant bufzero : slv(dwidth-1 downto 0) := (others=>'0'); constant tagzero : slv(tawidth-1 downto 0) := (others=>'0'); constant pendzero : slv(mwidth-1 downto 0) := (others=>'0'); constant regs_init : regs_type := ( '0','0','0', -- actr,actw,ackr (others=>'0'), -- req_addr (others=>'0'), -- req_be (others=>'0'), -- req_di (others=>'0'), -- res_do bufzero, -- rdbuf tagzero, -- rdtag '0','0','0', -- rdval,rdnew,rdpend bufzero, -- wrbuf tagzero, -- wrtag pendzero -- wrpend ); signal R_REGS : regs_type := regs_init; signal N_REGS : regs_type; -- don't init (vivado fix for fsm infer) signal REQ_DI : slv(rfwidth-1 downto 0) := (others=>'0'); signal REQ_DO : slv(rfwidth-1 downto 0) := (others=>'0'); signal REQ_ENA : slbit := '0'; signal REQ_VAL : slbit := '0'; signal REQ_HOLD : slbit := '0'; signal REQ_SIZE : slv4 := (others=>'0'); signal RES_DI : slv(dwidth-1 downto 0) := (others=>'0'); signal RES_DO : slv(dwidth-1 downto 0) := (others=>'0'); signal RES_ENA : slbit := '0'; signal RES_VAL : slbit := '0'; signal APP_RDY_CLK : slbit := '0'; -- APP_RDY sync'ed to CLK signal APP_WDF_RDY_CLK : slbit := '0'; -- APP_WDF_RDY_CLK sync'ed to CLK signal MIGUIRST_CLK : slbit := '0'; -- UI_CLK_SYNC_RST sync'ed to CLK signal MIGCACO_CLK : slbit := '0'; -- INIT_CALIB_COMPLETE sync'ed to CLK begin assert BAWIDTH = 3 or BAWIDTH = 4 report "assert( BAWIDTH = 3 or 4 )" severity failure; REQFIFO : fifo_2c_dram2 -- request fifo generic map ( AWIDTH => 4, DWIDTH => rfwidth) port map ( CLKW => CLK, CLKR => UI_CLK, RESETW => '0', RESETR => '0', DI => REQ_DI, ENA => REQ_ENA, BUSY => open, DO => REQ_DO, VAL => REQ_VAL, HOLD => REQ_HOLD, SIZEW => REQ_SIZE, SIZER => open ); RESFIFO : fifo_2c_dram2 -- response fifo generic map ( AWIDTH => 4, DWIDTH => dwidth) port map ( CLKW => UI_CLK, CLKR => CLK, RESETW => '0', RESETR => '0', DI => RES_DI, ENA => RES_ENA, BUSY => open, DO => RES_DO, VAL => RES_VAL, HOLD => '0', SIZEW => open, SIZER => open ); -- cdc for monitoring sigals from UI_CLK to CLK CDC_CRDY : cdc_signal_s1 port map ( CLKO => CLK, DI => APP_RDY, DO => APP_RDY_CLK ); CDC_WRDY : cdc_signal_s1 port map ( CLKO => CLK, DI => APP_WDF_RDY, DO => APP_WDF_RDY_CLK ); CDC_UIRST : cdc_signal_s1 port map ( CLKO => CLK, DI => UI_CLK_SYNC_RST, DO => MIGUIRST_CLK ); CDC_CACO : cdc_signal_s1 port map ( CLKO => CLK, DI => INIT_CALIB_COMPLETE, DO => MIGCACO_CLK ); proc_regs: process (CLK) begin if rising_edge(CLK) then if RESET = '1' then R_REGS <= regs_init; else R_REGS <= N_REGS; end if; end if; end process proc_regs; proc_next: process (R_REGS, REQ, ADDR, BE, DI, WE, REQ_SIZE, RES_VAL, RES_DO, APP_RDY_CLK, APP_WDF_RDY_CLK, MIGUIRST_CLK, MIGCACO_CLK) variable r : regs_type := regs_init; variable n : regs_type := regs_init; variable iga : integer := 0; variable ireqena : slbit := '0'; variable iackw : slbit := '0'; variable imoni : sramif2migui_moni_type := sramif2migui_moni_init; variable iwrbuf : slv(dwidth-1 downto 0) := (others=>'0'); variable ireqdi : slv(rfwidth-1 downto 0) := (others=>'0'); begin r := R_REGS; n := R_REGS; iga := 0; ireqena := '0'; iackw := '0'; imoni := sramif2migui_moni_init; imoni.migcbusy := not APP_RDY_CLK; imoni.migwbusy := not APP_WDF_RDY_CLK; imoni.miguirst := MIGUIRST_CLK; imoni.migcacow := not MIGCACO_CLK; -- setup request fifo data for write (the default) ireqdi(rf_f_data) := r.wrbuf; ireqdi(rf_f_mask) := not r.wrpend; -- -- MASK = not WE !! ireqdi(rf_f_addr) := r.wrtag; ireqdi(rf_f_we) := '1'; n.ackr := '0'; -- ensure one-shot -- handle idle state, capture input, and activate read or write if r.actr='0' and r.actw='0' then if REQ = '1' then n.req_addr := ADDR; n.req_be := BE; n.req_di := DI; if WE = '1' then -- write request n.actw := '1'; if r.wrtag = ADDR(sa_f_ta) then -- row hit imoni.wrrhit := '1'; else -- row miss if r.wrpend /= pendzero then -- if write buffer pending ireqena := '1'; -- queue write request n.wrpend := pendzero; -- clear pending flags imoni.wrflush := '1'; end if; end if; else -- read request n.actr := '1'; end if; -- WE='1' end if; -- REQ='1' end if; iga := to_integer(unsigned(r.req_addr(sa_f_ga))); -- current group index -- handle write request if r.actw = '1' then -- write into wrbuf and wrpend, no pending data left when here if r.req_be(0) = '1' then n.wrbuf(32*iga+ 7 downto 32*iga ) := r.req_di( 7 downto 0); end if; if r.req_be(1) = '1' then n.wrbuf(32*iga+15 downto 32*iga+ 8) := r.req_di(15 downto 8); end if; if r.req_be(2) = '1' then n.wrbuf(32*iga+23 downto 32*iga+16) := r.req_di(23 downto 16); end if; if r.req_be(3) ='1' then n.wrbuf(32*iga+31 downto 32*iga+24) := r.req_di(31 downto 24); end if; n.wrtag := r.req_addr(sa_f_ta); -- set new tag address n.wrpend(4*iga+3 downto 4*iga) := -- and update pending flags n.wrpend(4*iga+3 downto 4*iga) or r.req_be; if r.rdtag = r.req_addr(sa_f_ta) then -- invalidate rdbuf if same tag n.rdval := '0'; end if; -- ensure that at most 4 pending writes in queue -- REQ_SIZE gives # of available slots, empty FIFO has REQ_SIZE=15 -- REQ_SIZE is 11 when 4 requests are on flight if unsigned(REQ_SIZE) >= 11 then n.actw := '0'; -- mark request done iackw := '1'; -- send ack signal end if; end if; -- handle read request if r.actr = '1' then if r.rdtag=r.req_addr(sa_f_ta) and r.rdval='1' then -- n.res_do := r.rdbuf(32*iga+31 downto 32*iga); n.actr := '0'; -- mark request done n.ackr := '1'; -- send ack signal n.rdnew := '0'; -- mark used imoni.rdrhit := not r.rdnew; else if r.wrpend /= pendzero then -- if write buffer pending ireqena := '1'; -- queue write request n.wrpend := pendzero; -- clear pending flags imoni.wrflush := '1'; elsif r.rdpend = '0' then ireqdi(rf_f_addr) := r.req_addr(sa_f_ta); ireqdi(rf_f_we) := '0'; n.rdtag := r.req_addr(sa_f_ta); -- new tag n.rdval := '0'; -- mark rdbuf invalid n.rdpend := '1'; -- assert read pending ireqena := '1'; -- queue read request end if; end if; end if; -- handle read response if RES_VAL = '1' then n.rdbuf := RES_DO; -- capture data n.rdval := '1'; -- mark valid n.rdnew := '1'; -- mark new n.rdpend := '0'; -- deassert read pending end if; N_REGS <= n; REQ_DI <= ireqdi; REQ_ENA <= ireqena; MONI <= imoni; -- block input if busy or UI clock in RESET BUSY <= r.actr or r.actw or MIGUIRST_CLK; ACK_R <= r.ackr; ACK_W <= iackw; ACT_R <= r.actr; ACT_W <= r.actw; DO <= r.res_do; end process proc_next; proc_req2app: process (APP_RDY, APP_WDF_RDY, REQ_VAL, REQ_DO, INIT_CALIB_COMPLETE) begin REQ_HOLD <= '0'; APP_ADDR <= (others=>'0'); APP_ADDR(ma_f_ta) <= REQ_DO(rf_f_addr); APP_WDF_DATA <= REQ_DO(rf_f_data); APP_WDF_MASK <= REQ_DO(rf_f_mask); APP_EN <= '0'; APP_CMD <= c_migui_cmd_read; APP_WDF_WREN <= '0'; APP_WDF_END <= '0'; if APP_RDY='1' and APP_WDF_RDY='1' and INIT_CALIB_COMPLETE='1' then if REQ_VAL = '1' then APP_EN <= '1'; if REQ_DO(rf_f_we) = '1' then APP_CMD <= c_migui_cmd_write; APP_WDF_WREN <= '1'; APP_WDF_END <= '1'; end if; -- REQ_DO(rf_f_we) = '1' end if; -- REQ_VAL = '1' else REQ_HOLD <= '1'; end if; -- APP_RDY='1' and APP_WDF_RDY='1 end process proc_req2app; proc_app2res: process (APP_RD_DATA_VALID, APP_RD_DATA) begin RES_ENA <= APP_RD_DATA_VALID; RES_DI <= APP_RD_DATA; end process proc_app2res; end syn;
-- 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: tc1803.vhd,v 1.2 2001-10-26 16:29:43 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c07s01b00x00p05n01i01803ent IS END c07s01b00x00p05n01i01803ent; ARCHITECTURE c07s01b00x00p05n01i01803arch OF c07s01b00x00p05n01i01803ent IS BEGIN TESTING: PROCESS variable x : integer := 3; variable y : integer := 5; variable z : integer := 9; BEGIN if ((-x + z) < (y + x)) then -- NO_Failure_here -- sign can appear before the first term. x := y * z; end if; assert NOT(x = 45) report "***PASSED TEST: c07s01b00x00p05n01i01803" severity NOTE; assert (x = 45) report "***FAILED TEST: c07s01b00x00p05n01i01803 - Sign appear before the first term in a simple expression test failed." severity ERROR; wait; END PROCESS TESTING; END c07s01b00x00p05n01i01803arch;
-- 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: tc1803.vhd,v 1.2 2001-10-26 16:29:43 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c07s01b00x00p05n01i01803ent IS END c07s01b00x00p05n01i01803ent; ARCHITECTURE c07s01b00x00p05n01i01803arch OF c07s01b00x00p05n01i01803ent IS BEGIN TESTING: PROCESS variable x : integer := 3; variable y : integer := 5; variable z : integer := 9; BEGIN if ((-x + z) < (y + x)) then -- NO_Failure_here -- sign can appear before the first term. x := y * z; end if; assert NOT(x = 45) report "***PASSED TEST: c07s01b00x00p05n01i01803" severity NOTE; assert (x = 45) report "***FAILED TEST: c07s01b00x00p05n01i01803 - Sign appear before the first term in a simple expression test failed." severity ERROR; wait; END PROCESS TESTING; END c07s01b00x00p05n01i01803arch;
-- 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: tc1803.vhd,v 1.2 2001-10-26 16:29:43 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c07s01b00x00p05n01i01803ent IS END c07s01b00x00p05n01i01803ent; ARCHITECTURE c07s01b00x00p05n01i01803arch OF c07s01b00x00p05n01i01803ent IS BEGIN TESTING: PROCESS variable x : integer := 3; variable y : integer := 5; variable z : integer := 9; BEGIN if ((-x + z) < (y + x)) then -- NO_Failure_here -- sign can appear before the first term. x := y * z; end if; assert NOT(x = 45) report "***PASSED TEST: c07s01b00x00p05n01i01803" severity NOTE; assert (x = 45) report "***FAILED TEST: c07s01b00x00p05n01i01803 - Sign appear before the first term in a simple expression test failed." severity ERROR; wait; END PROCESS TESTING; END c07s01b00x00p05n01i01803arch;
------------------------------------------------------------------------------- --soft_reset.vhd v1.01a ------------------------------------------------------------------------------- -- -- ************************************************************************* -- ** ** -- ** DISCLAIMER OF LIABILITY ** -- ** ** -- ** This text/file contains proprietary, confidential ** -- ** information of Xilinx, Inc., is distributed under ** -- ** license from Xilinx, Inc., and may be used, copied ** -- ** and/or disclosed only pursuant to the terms of a valid ** -- ** license agreement with Xilinx, Inc. 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The Xilinx Hotline support of original source ** -- ** code IP shall only address issues and questions related ** -- ** to the standard Netlist version of the core (and thus ** -- ** indirectly, the original core source). ** -- ** ** -- ** Copyright (c) 2006-2010 Xilinx, Inc. All rights reserved. ** -- ** ** -- ** This copyright and support notice must be retained as part ** -- ** of this text at all times. ** -- ** ** -- ************************************************************************* -- ------------------------------------------------------------------------------- -- Filename: soft_reset.vhd -- Version: v1_00_a -- Description: This VHDL design file is the Soft Reset Service -- ------------------------------------------------------------------------------- -- Structure: -- -- soft_reset.vhd -- -- ------------------------------------------------------------------------------- -- Author: Gary Burch -- -- History: -- GAB Aug 2, 2006 v1.00a (initial release) -- -- -- DET 1/17/2008 v3_00_a -- ~~~~~~ -- - Incorporated new disclaimer header -- ^^^^^^ -- ------------------------------------------------------------------------------- -- Naming Conventions: -- active low signals: "*_n" -- clock signals: "clk", "clk_div#", "clk_#x" -- reset signals: "rst", "rst_n" -- generics: "C_*" -- user defined types: "*_TYPE" -- state machine next state: "*_ns" -- state machine current state: "*_cs" -- combinatorial signals: "*_com" -- pipelined or register delay signals: "*_d#" -- counter signals: "*cnt*" -- clock enable signals: "*_ce" -- internal version of output port "*_i" -- device pins: "*_pin" -- ports: - Names begin with Uppercase -- processes: "*_PROCESS" -- component instantiations: "<ENTITY_>I_<#|FUNC> ------------------------------------------------------------------------------- -- Library definitions library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; library unisim; use unisim.vcomponents.all; ------------------------------------------------------------------------------- entity cpu_xadc_wiz_0_0_soft_reset is generic ( C_SIPIF_DWIDTH : integer := 32; -- Width of the write data bus C_RESET_WIDTH : integer := 4 -- Width of triggered reset in Bus Clocks ); port ( -- Inputs From the IPIF Bus Bus2IP_Reset : in std_logic; Bus2IP_Clk : in std_logic; Bus2IP_WrCE : in std_logic; Bus2IP_Data : in std_logic_vector(0 to C_SIPIF_DWIDTH-1); Bus2IP_BE : in std_logic_vector(0 to (C_SIPIF_DWIDTH/8)-1); -- Final Device Reset Output Reset2IP_Reset : out std_logic; -- Status Reply Outputs to the Bus Reset2Bus_WrAck : out std_logic; Reset2Bus_Error : out std_logic; Reset2Bus_ToutSup : out std_logic ); end cpu_xadc_wiz_0_0_soft_reset ; ------------------------------------------------------------------------------- architecture implementation of cpu_xadc_wiz_0_0_soft_reset is ------------------------------------------------------------------------------- -- Function Declarations ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- -- Type Declarations ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- -- Constant Declarations ------------------------------------------------------------------------------- -- Module Software Reset screen value for write data -- This requires a Hex 'A' to be written to ativate the S/W reset port constant RESET_MATCH : std_logic_vector(0 to 3) := "1010"; -- Required BE index to be active during Reset activation constant BE_MATCH : integer := 3; ------------------------------------------------------------------------------- -- Signal Declarations ------------------------------------------------------------------------------- signal sm_reset : std_logic; signal error_reply : std_logic; signal reset_wrack : std_logic; signal reset_error : std_logic; signal reset_trig : std_logic; signal wrack : std_logic; signal wrack_ff_chain : std_logic; signal flop_q_chain : std_logic_vector(0 to C_RESET_WIDTH); --signal bus2ip_wrce_d1 : std_logic; signal data_is_non_reset_match : std_logic; signal sw_rst_cond : std_logic; signal sw_rst_cond_d1 : std_logic; ------------------------------------------------------------------------------- -- Architecture ------------------------------------------------------------------------------- begin -- Misc assignments Reset2Bus_WrAck <= reset_wrack; Reset2Bus_Error <= reset_error; Reset2Bus_ToutSup <= sm_reset; -- Suppress a data phase timeout when -- a commanded reset is active. reset_wrack <= (reset_error or wrack);-- and Bus2IP_WrCE; reset_error <= data_is_non_reset_match and Bus2IP_WrCE; Reset2IP_Reset <= Bus2IP_Reset or sm_reset; --------------------------------------------------------------------------------- ---- Register WRCE for use in creating a strobe pulse --------------------------------------------------------------------------------- --REG_WRCE : process(Bus2IP_Clk) -- begin -- if(Bus2IP_Clk'EVENT and Bus2IP_Clk = '1')then -- if(Bus2IP_Reset = '1')then -- bus2ip_wrce_d1 <= '0'; -- else -- bus2ip_wrce_d1 <= Bus2IP_WrCE; -- end if; -- end if; -- end process REG_WRCE; -- ------------------------------------------------------------------------------- -- Start the S/W reset state machine as a result of an IPIF Bus write to -- the Reset port and the data on the DBus inputs matching the Reset -- match value. If the value on the data bus input does not match the -- designated reset key, an error acknowledge is generated. ------------------------------------------------------------------------------- --DETECT_SW_RESET : process (Bus2IP_Clk) -- begin -- if(Bus2IP_Clk'EVENT and Bus2IP_Clk = '1') then -- if (Bus2IP_Reset = '1') then -- error_reply <= '0'; -- reset_trig <= '0'; -- elsif (Bus2IP_WrCE = '1' -- and Bus2IP_BE(BE_MATCH) = '1' -- and Bus2IP_Data(28 to 31) = RESET_MATCH) then -- error_reply <= '0'; -- reset_trig <= Bus2IP_WrCE and not bus2ip_wrce_d1; -- elsif (Bus2IP_WrCE = '1') then -- error_reply <= '1'; -- reset_trig <= '0'; -- else -- error_reply <= '0'; -- reset_trig <= '0'; -- end if; -- end if; -- end process DETECT_SW_RESET; data_is_non_reset_match <= '0' when (Bus2IP_Data(C_SIPIF_DWIDTH-4 to C_SIPIF_DWIDTH-1) = RESET_MATCH and Bus2IP_BE(BE_MATCH) = '1') else '1'; -------------------------------------------------------------------------------- -- SW Reset -------------------------------------------------------------------------------- ---------------------------------------------------------------------------- sw_rst_cond <= Bus2IP_WrCE and not data_is_non_reset_match; -- RST_PULSE_PROC : process (Bus2IP_Clk) Begin if (Bus2IP_Clk'EVENT and Bus2IP_Clk = '1') Then if (Bus2IP_Reset = '1') Then sw_rst_cond_d1 <= '0'; reset_trig <= '0'; else sw_rst_cond_d1 <= sw_rst_cond; reset_trig <= sw_rst_cond and not sw_rst_cond_d1; end if; end if; End process; ------------------------------------------------------------------------------- -- RESET_FLOPS: -- This FORGEN implements the register chain used to create -- the parameterizable reset pulse width. ------------------------------------------------------------------------------- RESET_FLOPS : for index in 0 to C_RESET_WIDTH-1 generate flop_q_chain(0) <= '0'; RST_FLOPS : FDRSE port map( Q => flop_q_chain(index+1), -- : out std_logic; C => Bus2IP_Clk, -- : in std_logic; CE => '1', -- : in std_logic; D => flop_q_chain(index), -- : in std_logic; R => Bus2IP_Reset, -- : in std_logic; S => reset_trig -- : in std_logic ); end generate RESET_FLOPS; -- Use the last flop output for the commanded reset pulse sm_reset <= flop_q_chain(C_RESET_WIDTH); wrack_ff_chain <= flop_q_chain(C_RESET_WIDTH) and not(flop_q_chain(C_RESET_WIDTH-1)); -- Register the Write Acknowledge for the Reset write -- This is generated at the end of the reset pulse. This -- keeps the Slave busy until the commanded reset completes. FF_WRACK : FDRSE port map( Q => wrack, -- : out std_logic; C => Bus2IP_Clk, -- : in std_logic; CE => '1', -- : in std_logic; D => wrack_ff_chain, -- : in std_logic; R => Bus2IP_Reset, -- : in std_logic; S => '0' -- : in std_logic ); end implementation;
library ieee; use ieee.std_logic_1164.all; entity ov7670_axi_stream_capture_tb is end ov7670_axi_stream_capture_tb; architecture behavior of ov7670_axi_stream_capture_tb is constant t_byte : time := 20 ns; constant t_pixel : time := 2 * t_byte; constant t_line : time := 784 * t_pixel; component ov7670_axi_stream_capture is port ( pclk : in std_logic; vsync : in std_logic; href : in std_logic; d : in std_logic_vector (7 downto 0); m_axis_tvalid : out std_logic; m_axis_tready : in std_logic; m_axis_tlast : out std_logic; m_axis_tdata : out std_logic_vector ( 31 downto 0 ); m_axis_tuser : out std_logic; aclk : out std_logic ); end component; signal in_pclk : std_logic := '0'; signal in_vsync : std_logic := '0'; signal in_href : std_logic := '0'; signal in_d : std_logic_vector (7 downto 0) := "11111111"; signal out_m_axis_tvalid : std_logic; signal out_m_axis_tready : std_logic; signal out_m_axis_tlast : std_logic; signal out_m_axis_tdata : std_logic_vector ( 31 downto 0 ); signal out_m_axis_tuser : std_logic; signal out_aclk : std_logic; begin uut: ov7670_axi_stream_capture port map ( pclk => in_pclk, vsync => in_vsync, href => in_href, d => in_d, m_axis_tvalid => out_m_axis_tvalid, m_axis_tready => out_m_axis_tready, m_axis_tlast => out_m_axis_tlast, m_axis_tdata => out_m_axis_tdata, m_axis_tuser => out_m_axis_tuser, aclk => out_aclk ); clk_process :process begin in_pclk <= '0'; wait for 10 ns; in_pclk <= '1'; wait for 10 ns; end process; vsync_process: process begin in_vsync <= '0'; wait for 5 * t_line; in_vsync <= '1'; wait for 3 * t_line; in_vsync <= '0'; wait for (510-3-5)*t_line; end process; href_process: process begin in_href <= '0'; wait until falling_edge(in_vsync); wait for 17 * t_line; for i in 0 to 480 loop -- Count over lines in_href <= '1'; wait for 640 * t_pixel; -- Pixels are actually transmitted here, rest is garbage in_href <= '0'; wait for 144 * t_pixel; end loop; end process; stim_proc: process begin wait until rising_edge(in_pclk); in_d <= "10101010"; end process; end;
library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.STD_LOGIC_ARITH.ALL; use IEEE.STD_LOGIC_UNSIGNED.ALL; entity MUX is port ( SHOWA1A0 : in std_logic; SHOWA3A2 : in std_logic; OUTPUT : in std_logic_vector (15 downto 0); SHOW1OUT : in std_logic_vector (15 downto 0); SHOW2OUT : in std_logic_vector (15 downto 0); DATAOUT : out std_logic_vector (15 downto 0) ); end MUX; architecture MUX_BODY of MUX is begin PRIDEL : process (SHOWA1A0, SHOWA3A2, SHOW1OUT, SHOW2OUT, OUTPUT) begin if SHOWA1A0 = '1' then DATAOUT <= SHOW1OUT; elsif SHOWA3A2 = '1' then DATAOUT <= SHOW2OUT; else DATAOUT <= OUTPUT; end if; end process; end architecture;
---------------------------------------------------------------------------------- -- Company: Federal University of Santa Catarina -- Engineer: -- -- Create Date: -- Design Name: -- Module Name: -- Project Name: -- Target Devices: -- Tool versions: -- Description: -- -- Dependencies: -- -- Revision: -- Revision 0.01 - File Created -- Additional Comments: -- ---------------------------------------------------------------------------------- library IEEE; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity ula is generic(largura: natural := 8); port( entradaA, entradaB: in std_logic_vector(largura-1 downto 0); Operacao: in std_logic_vector(2 downto 0); saida: out std_logic_vector(largura-1 downto 0); zero: out std_logic ); end entity; architecture comportamental of ula is component somadorSubtrador is generic(largura: natural := 8); port( entradaA, entradaB: in std_logic_vector(largura-1 downto 0); carryIn: in std_logic; saida: out std_logic_vector(largura-1 downto 0) ); end component; signal saidaSignal, andOr, addSub, slt: std_logic_vector(largura-1 downto 0); begin somadorSubtrator: somadorSubtrador generic map (largura) port map(entradaA, entradaB, Operacao(2), addSub); andOr <= entradaA and entradaB when Operacao(0)='0' else entradaA or entradaB; slt <= (0 => '1', others => '0') when signed(entradaA) < signed(entradaB) else (others => '0'); saidaSignal <= slt when Operacao="111" else andOr when Operacao(1)='0' else addSub; zero <= '1' when saidaSignal=(largura => '0') else '0'; saida <= saidaSignal; end architecture;
------------------------------------------------------------------------------- -- -- (C) COPYRIGHT 2014, Gideon's Logic Architectures -- ------------------------------------------------------------------------------- -- Title : Pulse synchronizer block ------------------------------------------------------------------------------- -- Description: The pulse synchronizer block synchronizes pulse in one -- clock domain into a pulse in the other clock domain. -- -- Please read Ran Ginosars paper "Fourteen ways to fool your -- synchronizer" before considering modifications to this module! ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; entity pulse_synchronizer is port ( clock_in : in std_logic; pulse_in : in std_logic; clock_out : in std_logic; pulse_out : out std_logic ); --------------------------------------------------------------------------- -- Synthesis attributes to prevent balancing. --------------------------------------------------------------------------- -- Xilinx attributes attribute register_balancing : string; attribute register_balancing of pulse_synchronizer : entity is "no"; -- Altera attributes attribute dont_retime : boolean; attribute dont_retime of pulse_synchronizer : entity is true; --------------------------------------------------------------------------- end pulse_synchronizer; architecture rtl of pulse_synchronizer is signal in_toggle : std_logic := '0'; signal sync1 : std_logic := '0'; signal sync2 : std_logic := '0'; signal sync3 : std_logic := '0'; --------------------------------------------------------------------------- -- Synthesis attributes to prevent duplication --------------------------------------------------------------------------- -- Xilinx attributes attribute register_duplication : string; attribute register_duplication of sync1 : signal is "no"; attribute register_duplication of sync2 : signal is "no"; -- Altera attributes attribute dont_replicate : boolean; attribute dont_replicate of sync1 : signal is true; attribute dont_replicate of sync2 : signal is true; --------------------------------------------------------------------------- begin p_input_toggle : process(clock_in) begin if rising_edge(clock_in) then if pulse_in='1' then in_toggle <= not in_toggle; end if; end if; end process; p_synchronization : process(clock_out) begin if rising_edge(clock_out) then sync1 <= in_toggle; sync2 <= sync1; sync3 <= sync2; pulse_out <= sync2 xor sync3; end if; end process; end rtl;
------------------------------------------------------------------------------- -- -- (C) COPYRIGHT 2014, Gideon's Logic Architectures -- ------------------------------------------------------------------------------- -- Title : Pulse synchronizer block ------------------------------------------------------------------------------- -- Description: The pulse synchronizer block synchronizes pulse in one -- clock domain into a pulse in the other clock domain. -- -- Please read Ran Ginosars paper "Fourteen ways to fool your -- synchronizer" before considering modifications to this module! ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; entity pulse_synchronizer is port ( clock_in : in std_logic; pulse_in : in std_logic; clock_out : in std_logic; pulse_out : out std_logic ); --------------------------------------------------------------------------- -- Synthesis attributes to prevent balancing. --------------------------------------------------------------------------- -- Xilinx attributes attribute register_balancing : string; attribute register_balancing of pulse_synchronizer : entity is "no"; -- Altera attributes attribute dont_retime : boolean; attribute dont_retime of pulse_synchronizer : entity is true; --------------------------------------------------------------------------- end pulse_synchronizer; architecture rtl of pulse_synchronizer is signal in_toggle : std_logic := '0'; signal sync1 : std_logic := '0'; signal sync2 : std_logic := '0'; signal sync3 : std_logic := '0'; --------------------------------------------------------------------------- -- Synthesis attributes to prevent duplication --------------------------------------------------------------------------- -- Xilinx attributes attribute register_duplication : string; attribute register_duplication of sync1 : signal is "no"; attribute register_duplication of sync2 : signal is "no"; -- Altera attributes attribute dont_replicate : boolean; attribute dont_replicate of sync1 : signal is true; attribute dont_replicate of sync2 : signal is true; --------------------------------------------------------------------------- begin p_input_toggle : process(clock_in) begin if rising_edge(clock_in) then if pulse_in='1' then in_toggle <= not in_toggle; end if; end if; end process; p_synchronization : process(clock_out) begin if rising_edge(clock_out) then sync1 <= in_toggle; sync2 <= sync1; sync3 <= sync2; pulse_out <= sync2 xor sync3; end if; end process; end rtl;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity test_op is generic ( NBITS : natural := 1; NBR_OF_CHROMA : natural := 1; NBR_OF_ROW : natural := 1; NBR_OF_COL : natural := 1; NBR_OF_MATRIX : natural := 1); port ( signal clock, rst : in std_logic; signal in_data : in std_logic_vector(NBR_OF_MATRIX*NBR_OF_COL*NBR_OF_ROW*NBR_OF_CHROMA*NBITS-1 downto 0)); end entity test_op; architecture rtl of test_op is package local_pixel_pkg is new work.pixel_pkg generic map ( NBITS => NBITS, NBR_OF_CHROMA => NBR_OF_CHROMA ); package local_pixel_column_pkg is new work.pixel_column_pkg generic map ( NBITS => NBITS, NBR_OF_CHROMA => NBR_OF_CHROMA, NBR_OF_ROW => NBR_OF_ROW, local_pixel_pkg => local_pixel_pkg ); package local_pixel_matrix_pkg is new work.pixel_matrix_pkg generic map ( NBITS => NBITS, NBR_OF_CHROMA => NBR_OF_CHROMA, NBR_OF_ROW => NBR_OF_ROW, NBR_OF_COL => NBR_OF_COL, local_pixel_column_pkg => local_pixel_column_pkg ); use local_pixel_matrix_pkg.all; signal input_pixel_matrix : TYPE_PIXEL_MATRIX; begin -- As soon as a function from the local_pixel_matrix_pkg is used it breaks input_pixel_matrix <= std_logic_vector_to_pixel_matrix(in_data(NBR_OF_COL*NBR_OF_ROW*NBR_OF_CHROMA*NBITS-1 downto 0)); end architecture rtl;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity test_op is generic ( NBITS : natural := 1; NBR_OF_CHROMA : natural := 1; NBR_OF_ROW : natural := 1; NBR_OF_COL : natural := 1; NBR_OF_MATRIX : natural := 1); port ( signal clock, rst : in std_logic; signal in_data : in std_logic_vector(NBR_OF_MATRIX*NBR_OF_COL*NBR_OF_ROW*NBR_OF_CHROMA*NBITS-1 downto 0)); end entity test_op; architecture rtl of test_op is package local_pixel_pkg is new work.pixel_pkg generic map ( NBITS => NBITS, NBR_OF_CHROMA => NBR_OF_CHROMA ); package local_pixel_column_pkg is new work.pixel_column_pkg generic map ( NBITS => NBITS, NBR_OF_CHROMA => NBR_OF_CHROMA, NBR_OF_ROW => NBR_OF_ROW, local_pixel_pkg => local_pixel_pkg ); package local_pixel_matrix_pkg is new work.pixel_matrix_pkg generic map ( NBITS => NBITS, NBR_OF_CHROMA => NBR_OF_CHROMA, NBR_OF_ROW => NBR_OF_ROW, NBR_OF_COL => NBR_OF_COL, local_pixel_column_pkg => local_pixel_column_pkg ); use local_pixel_matrix_pkg.all; signal input_pixel_matrix : TYPE_PIXEL_MATRIX; begin -- As soon as a function from the local_pixel_matrix_pkg is used it breaks input_pixel_matrix <= std_logic_vector_to_pixel_matrix(in_data(NBR_OF_COL*NBR_OF_ROW*NBR_OF_CHROMA*NBITS-1 downto 0)); end architecture rtl;
-- 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 inline_04a is end entity inline_04a; ---------------------------------------------------------------- architecture test of inline_04a is type gear_type is (gear_1, gear_2, neutral); signal gear : gear_type := gear_1; signal gear_engaged : boolean := false; begin process_1_d : process (gear) is variable max_acceleration : real := 0.0; variable reverse_indicator : boolean := true; begin -- code from book: if gear = neutral then max_acceleration := 0.0; reverse_indicator := false; gear_engaged <= false; end if; -- end of code from book end process process_1_d; stimulus : process is begin gear <= gear_2 after 100 ns, neutral after 200 ns; wait; end process stimulus; end architecture test;
-- 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 inline_04a is end entity inline_04a; ---------------------------------------------------------------- architecture test of inline_04a is type gear_type is (gear_1, gear_2, neutral); signal gear : gear_type := gear_1; signal gear_engaged : boolean := false; begin process_1_d : process (gear) is variable max_acceleration : real := 0.0; variable reverse_indicator : boolean := true; begin -- code from book: if gear = neutral then max_acceleration := 0.0; reverse_indicator := false; gear_engaged <= false; end if; -- end of code from book end process process_1_d; stimulus : process is begin gear <= gear_2 after 100 ns, neutral after 200 ns; wait; end process stimulus; end architecture test;
-- 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 inline_04a is end entity inline_04a; ---------------------------------------------------------------- architecture test of inline_04a is type gear_type is (gear_1, gear_2, neutral); signal gear : gear_type := gear_1; signal gear_engaged : boolean := false; begin process_1_d : process (gear) is variable max_acceleration : real := 0.0; variable reverse_indicator : boolean := true; begin -- code from book: if gear = neutral then max_acceleration := 0.0; reverse_indicator := false; gear_engaged <= false; end if; -- end of code from book end process process_1_d; stimulus : process is begin gear <= gear_2 after 100 ns, neutral after 200 ns; wait; end process stimulus; end architecture test;
library ieee; use ieee.numeric_std.all; library work; package switchone_pkg is end package; use work.switchone_pkg.all; library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity SwitchOne is generic( PARAM_DELTA_ON : integer := 4; PARAM_DELTA_ADJ : integer := 4; PARAM_MAX_V : integer := 255; PARAM_MIN_V : integer := 0; PARAM_DEF_ON_V : integer := 127; PARAM_ADJ_STEP : integer := 8 ); port( IN_RST : in std_logic; IN_CLK : in std_logic; IN_BTN : in std_logic; OUT_L : out std_logic; OUT_V : out integer range PARAM_MIN_V to PARAM_MAX_V ); end entity; architecture A of SwitchOne is type state_type is (SOff, TUp, SOn, TAdj, SAdj, AdjLck); signal cur_state, nxt_state : state_type; signal cur_t, nxt_t : integer range 0 to (PARAM_DELTA_ON + PARAM_DELTA_ADJ); signal cur_v, nxt_v : integer range PARAM_MIN_V to PARAM_MAX_V; signal cur_dir, nxt_dir : std_logic; -- 1 up, 0 down begin sync_state_update : process(IN_RST, IN_CLK) is begin if (IN_RST = '1') then cur_state <= SOff; cur_t <= 0; cur_v <= PARAM_DEF_ON_V; cur_dir <= '1'; elsif (rising_edge(IN_CLK)) then cur_state <= nxt_state; cur_t <= nxt_t; cur_v <= nxt_v; cur_dir <= nxt_dir; end if; end process; state_fn : process(IN_BTN, cur_state, cur_t, cur_v, cur_dir) is begin -- defaults nxt_state <= cur_state; nxt_t <= cur_t; nxt_v <= cur_v; nxt_dir <= cur_dir; case cur_state is ------------ when SOff => if (IN_BTN = '1') then nxt_state <= TUp; nxt_t <= cur_t + 1; end if; ----------- when TUp => if (IN_BTN = '1') then if (cur_t = PARAM_DELTA_ON + PARAM_DELTA_ADJ) then nxt_state <= SAdj; nxt_t <= 0; else nxt_state <= TUp; nxt_t <= cur_t + 1; end if; else nxt_state <= SOn; nxt_t <= 0; end if; ----------- when SOn => if (IN_BTN = '1') then nxt_state <= TAdj; nxt_t <= cur_t + 1; else nxt_state <= SOn; nxt_t <= 0; end if; when TAdj => if (IN_BTN = '1') then if (cur_t = PARAM_DELTA_ADJ) then nxt_state <= SAdj; nxt_t <= 0; else nxt_state <= TAdj; nxt_t <= cur_t + 1; end if; else nxt_state <= SOff; nxt_t <= 0; end if; ------------ when SAdj => if (IN_BTN = '1') then nxt_state <= SAdj; -- adjust V (brightness) if (cur_dir = '1') then -- V increase required if (cur_v = PARAM_MAX_V) then -- max reached : decrease V and invert direction nxt_v <= PARAM_MAX_V - PARAM_ADJ_STEP; nxt_dir <= '0'; -- lock adjust on max nxt_state <= AdjLck; elsif (cur_v >= PARAM_MAX_V - PARAM_ADJ_STEP) then -- clamp V to max and invert nxt_v <= PARAM_MAX_V; nxt_dir <= '0'; -- lock adjust on max nxt_state <= AdjLck; else -- increase V normally nxt_v <= cur_v + PARAM_ADJ_STEP; end if; else -- V decrease required if (cur_v = PARAM_MIN_V) then -- min reached : increase V and invert direction nxt_v <= PARAM_MIN_V + PARAM_ADJ_STEP; nxt_dir <= '1'; -- lock adjust on min nxt_state <= AdjLck; elsif (cur_v - PARAM_ADJ_STEP <= PARAM_MIN_V) then -- clamp V to min and invert nxt_v <= PARAM_MIN_V; nxt_dir <= '1'; -- lock adjust on min nxt_state <= AdjLck; else -- decrease V normally nxt_v <= cur_v - PARAM_ADJ_STEP; end if; end if; else nxt_state <= SOn; nxt_t <= 0; -- invert V adjustment direction nxt_dir <= NOT cur_dir; end if; -------------- when AdjLck => if (IN_BTN = '1') then if (cur_t = PARAM_DELTA_ADJ) then nxt_state <= SAdj; nxt_t <= 0; else nxt_state <= AdjLck; nxt_t <= cur_t + 1; end if; else -- unlock nxt_state <= SOn; nxt_t <= 0; end if; -------------- when others => nxt_state <= SOff; nxt_t <= 0; nxt_v <= PARAM_DEF_ON_V; end case; end process; -- out fns out_fn : process(cur_state) is begin case cur_state is when SOff => OUT_L <= '0'; when TUp => OUT_L <= '1'; when SOn => OUT_L <= '1'; when TAdj => OUT_L <= '1'; when SAdj => OUT_L <= '1'; when AdjLck => OUT_L <= '1'; when others => OUT_L <= '0'; end case; end process; OUT_V <= cur_v; end architecture;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; library work; use work.io_bus_pkg.all; use work.c1541_pkg.all; entity drive_registers is generic ( g_clock_freq : natural := 50_000_000; g_multi_mode : boolean := false ); port ( clock : in std_logic; reset : in std_logic; tick_1kHz : in std_logic; io_req : in t_io_req; io_resp : out t_io_resp; iec_reset_o : in std_logic; use_c64_reset : out std_logic; power : out std_logic; drv_reset : out std_logic; drive_address : out std_logic_vector(1 downto 0); floppy_inserted : out std_logic; disk_change_n : out std_logic; force_ready : out std_logic; write_prot_n : out std_logic; bank_is_ram : out std_logic_vector(7 downto 1); stop_on_freeze : out std_logic; drive_type : out natural range 0 to 2; do_snd_insert : out std_logic; do_snd_remove : out std_logic; track : in unsigned(6 downto 0); side : in std_logic := '0'; mode : in std_logic; motor_on : in std_logic ); end; architecture rtl of drive_registers is signal power_i : std_logic; signal drv_reset_i : std_logic; signal use_c64_reset_i : std_logic; signal drive_address_i : std_logic_vector(1 downto 0); signal sensor_i : std_logic; signal bank_is_ram_i : std_logic_vector(7 downto 1); signal inserted_i : std_logic; signal disk_change_i : std_logic; signal force_ready_i : std_logic; signal stop_when_frozen : std_logic; signal drive_type_i : std_logic_vector(1 downto 0); signal write_delay : unsigned(10 downto 0); -- max 2047 = 2 sec signal write_busy : std_logic; signal manual_write : std_logic; begin p_reg: process(clock) begin if rising_edge(clock) then io_resp <= c_io_resp_init; manual_write <= '0'; do_snd_insert <= '0'; do_snd_remove <= '0'; if io_req.write='1' then io_resp.ack <= '1'; case io_req.address(3 downto 0) is when c_drvreg_power => power_i <= io_req.data(0); when c_drvreg_reset => drv_reset_i <= io_req.data(0); use_c64_reset_i <= io_req.data(1); stop_when_frozen <= io_req.data(2); when c_drvreg_address => drive_address_i <= io_req.data(1 downto 0); when c_drvreg_sensor => sensor_i <= io_req.data(0); when c_drvreg_inserted => inserted_i <= io_req.data(0); when c_drvreg_rammap => bank_is_ram_i <= io_req.data(7 downto 1); when c_drvreg_man_write => manual_write <= '1'; when c_drvreg_diskchng => disk_change_i <= io_req.data(0); force_ready_i <= io_req.data(1); when c_drvreg_drivetype => if g_multi_mode then drive_type_i <= io_req.data(1 downto 0); end if; when c_drvreg_sound => do_snd_insert <= io_req.data(0); do_snd_remove <= io_req.data(1); when others => null; end case; end if; -- write if io_req.read='1' then io_resp.ack <= '1'; case io_req.address(3 downto 0) is when c_drvreg_power => io_resp.data(0) <= power_i; when c_drvreg_reset => io_resp.data(0) <= drv_reset_i; io_resp.data(1) <= use_c64_reset_i; io_resp.data(2) <= stop_when_frozen; when c_drvreg_address => io_resp.data(1 downto 0) <= drive_address_i; when c_drvreg_sensor => io_resp.data(0) <= sensor_i; when c_drvreg_inserted => io_resp.data(0) <= inserted_i; when c_drvreg_rammap => io_resp.data <= bank_is_ram_i & '0'; when c_drvreg_diskchng => io_resp.data(0) <= disk_change_i; io_resp.data(1) <= force_ready_i; when c_drvreg_drivetype => if g_multi_mode then io_resp.data(1 downto 0) <= drive_type_i; end if; when c_drvreg_track => io_resp.data(6 downto 0) <= std_logic_vector(track(6 downto 0)); when c_drvreg_side => io_resp.data(0) <= side; when c_drvreg_status => io_resp.data(0) <= motor_on; io_resp.data(1) <= not mode; -- mode is '0' when writing io_resp.data(2) <= write_busy; when others => null; end case; end if; -- read drv_reset <= drv_reset_i or iec_reset_o; if reset='1' then power_i <= '0'; drv_reset_i <= '1'; drive_address_i <= (others => '0'); sensor_i <= '0'; bank_is_ram_i <= (others => '0'); inserted_i <= '0'; disk_change_i <= '0'; use_c64_reset_i <= '1'; stop_when_frozen <= '1'; force_ready_i <= '0'; drive_type_i <= "00"; end if; end if; end process; process(clock) begin if rising_edge(clock) then if drv_reset_i = '1' then write_busy <= '0'; write_delay <= (others => '0'); elsif (mode = '0' and motor_on = '1') or manual_write = '1' then write_busy <= '1'; write_delay <= (others => '1'); elsif write_delay = 0 then write_busy <= '0'; elsif tick_1kHz = '1' then write_delay <= write_delay - 1; end if; end if; end process; power <= power_i; drive_address <= drive_address_i; floppy_inserted <= inserted_i; disk_change_n <= not disk_change_i; write_prot_n <= sensor_i; bank_is_ram <= bank_is_ram_i; use_c64_reset <= use_c64_reset_i; stop_on_freeze <= stop_when_frozen; force_ready <= force_ready_i; drive_type <= to_integer(unsigned(drive_type_i)); end architecture;
-- 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: tc2693.vhd,v 1.2 2001-10-26 16:30:21 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c13s04b01x00p04n01i02693ent IS --ERROR: only 1 (+) in exponent allowed in real literal constant A1: REAL:=123E++45; -- failure_here END c13s04b01x00p04n01i02693ent; ARCHITECTURE c13s04b01x00p04n01i02693arch OF c13s04b01x00p04n01i02693ent IS BEGIN TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c13s04b01x00p04n01i02693 - Exponents of decimal literals can have a single plus or minus (optional)." severity ERROR; wait; END PROCESS TESTING; END c13s04b01x00p04n01i02693arch;
-- 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: tc2693.vhd,v 1.2 2001-10-26 16:30:21 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c13s04b01x00p04n01i02693ent IS --ERROR: only 1 (+) in exponent allowed in real literal constant A1: REAL:=123E++45; -- failure_here END c13s04b01x00p04n01i02693ent; ARCHITECTURE c13s04b01x00p04n01i02693arch OF c13s04b01x00p04n01i02693ent IS BEGIN TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c13s04b01x00p04n01i02693 - Exponents of decimal literals can have a single plus or minus (optional)." severity ERROR; wait; END PROCESS TESTING; END c13s04b01x00p04n01i02693arch;
-- 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: tc2693.vhd,v 1.2 2001-10-26 16:30:21 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c13s04b01x00p04n01i02693ent IS --ERROR: only 1 (+) in exponent allowed in real literal constant A1: REAL:=123E++45; -- failure_here END c13s04b01x00p04n01i02693ent; ARCHITECTURE c13s04b01x00p04n01i02693arch OF c13s04b01x00p04n01i02693ent IS BEGIN TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c13s04b01x00p04n01i02693 - Exponents of decimal literals can have a single plus or minus (optional)." severity ERROR; wait; END PROCESS TESTING; END c13s04b01x00p04n01i02693arch;
-- 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: tc299.vhd,v 1.2 2001-10-26 16:29:50 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c03s01b03x01p01n03i00299ent IS END c03s01b03x01p01n03i00299ent; ARCHITECTURE c03s01b03x01p01n03i00299arch OF c03s01b03x01p01n03i00299ent IS BEGIN TESTING: PROCESS BEGIN assert NOT( (sec = 1000 ms) and (min = 60 sec) and (hr = 60 min)) report "***PASSED TEST:c03s01b03x01p01n03i00299" severity NOTE; assert ( (sec = 1000 ms) and (min = 60 sec) and (hr = 60 min)) report "***FAILED TEST: c03s01b03x01p01n03i00299 - Type TIME is defined with an ascending ragne." severity ERROR; wait; END PROCESS TESTING; END c03s01b03x01p01n03i00299arch;
-- 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: tc299.vhd,v 1.2 2001-10-26 16:29:50 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c03s01b03x01p01n03i00299ent IS END c03s01b03x01p01n03i00299ent; ARCHITECTURE c03s01b03x01p01n03i00299arch OF c03s01b03x01p01n03i00299ent IS BEGIN TESTING: PROCESS BEGIN assert NOT( (sec = 1000 ms) and (min = 60 sec) and (hr = 60 min)) report "***PASSED TEST:c03s01b03x01p01n03i00299" severity NOTE; assert ( (sec = 1000 ms) and (min = 60 sec) and (hr = 60 min)) report "***FAILED TEST: c03s01b03x01p01n03i00299 - Type TIME is defined with an ascending ragne." severity ERROR; wait; END PROCESS TESTING; END c03s01b03x01p01n03i00299arch;
-- 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: tc299.vhd,v 1.2 2001-10-26 16:29:50 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c03s01b03x01p01n03i00299ent IS END c03s01b03x01p01n03i00299ent; ARCHITECTURE c03s01b03x01p01n03i00299arch OF c03s01b03x01p01n03i00299ent IS BEGIN TESTING: PROCESS BEGIN assert NOT( (sec = 1000 ms) and (min = 60 sec) and (hr = 60 min)) report "***PASSED TEST:c03s01b03x01p01n03i00299" severity NOTE; assert ( (sec = 1000 ms) and (min = 60 sec) and (hr = 60 min)) report "***FAILED TEST: c03s01b03x01p01n03i00299 - Type TIME is defined with an ascending ragne." severity ERROR; wait; END PROCESS TESTING; END c03s01b03x01p01n03i00299arch;
-- -- IO dispatcher for ZPUINO -- -- 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.numeric_std.all; library work; use work.zpu_config.all; use work.zpuino_config.all; use work.zpupkg.all; use work.zpuinopkg.all; entity zpuino_io is port ( wb_clk_i: in std_logic; wb_rst_i: in std_logic; wb_dat_o: out std_logic_vector(wordSize-1 downto 0); wb_dat_i: in std_logic_vector(wordSize-1 downto 0); wb_adr_i: in std_logic_vector(maxAddrBitIncIO downto 0); wb_we_i: in std_logic; wb_cyc_i: in std_logic; wb_stb_i: in std_logic; wb_ack_o: out std_logic; wb_inta_o: out std_logic; intready: in std_logic; cache_flush: out std_logic; memory_enable: out std_logic; slot_cyc: out slot_std_logic_type; slot_we: out slot_std_logic_type; slot_stb: out slot_std_logic_type; slot_read: in slot_cpuword_type := (others => (others => DontCareValue) ); slot_write: out slot_cpuword_type; slot_address: out slot_address_type; slot_ack: in slot_std_logic_type := (others => '1'); slot_interrupt: in slot_std_logic_type := (others => '0') ); end entity zpuino_io; architecture behave of zpuino_io is constant io_registered_read: boolean := true; signal ivecs: std_logic_vector(17 downto 0); -- For busy-implementation signal addr_save_q: std_logic_vector(maxAddrBitIncIO downto 0); signal write_save_q: std_logic_vector(wordSize-1 downto 0); signal io_address: std_logic_vector(maxAddrBitIncIO downto 0); signal io_write: std_logic_vector(wordSize-1 downto 0); signal io_cyc: std_logic; signal io_stb: std_logic; signal io_we: std_logic; signal io_device_ack: std_logic; signal io_read_selected: cpuword_type; signal wb_in_transaction: std_logic; -- I/O Signals signal slot_cyc_i: slot_std_logic_type; signal slot_we_i: slot_std_logic_type; signal slot_stb_i: slot_std_logic_type; signal slot_read_i: slot_cpuword_type; signal slot_write_i: slot_cpuword_type; signal slot_address_i: slot_address_type; signal slot_ack_i: slot_std_logic_type; signal slot_interrupt_i: slot_std_logic_type; signal timer_read: std_logic_vector(wordSize-1 downto 0); signal timer_ack: std_logic; begin slot_cyc <= slot_cyc_i; slot_we <= slot_we_i; slot_stb <= slot_stb_i; slot_read_i <= slot_read; slot_write <= slot_write_i; slot_address <= slot_address_i; slot_ack_i <= slot_ack; slot_interrupt_i <= slot_interrupt; -- Ack generator (We have an hack for slot4 here) process(slot_ack_i, timer_ack) begin io_device_ack <= '0'; for i in 0 to num_devices-1 loop if i/=4 then if slot_ack_i(i) = '1' then io_device_ack<='1'; end if; end if; end loop; if timer_ack='1' then io_device_ack<='1'; end if; end process; iobusy: if zpuino_iobusyinput=true generate process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then wb_in_transaction <= '0'; else if wb_in_transaction='0' then io_cyc <= wb_cyc_i; io_stb <= wb_stb_i; io_we <= wb_we_i; elsif io_device_ack='1' then io_stb<='0'; --io_we<='0'; -- safe side -- How to keep cyc ???? end if; if wb_cyc_i='1' then wb_in_transaction<='1'; else io_cyc <= '0'; wb_in_transaction<='0'; end if; if wb_stb_i='1' and wb_cyc_i='1' then addr_save_q <= wb_adr_i; end if; if wb_we_i='1' then write_save_q <= wb_dat_i; end if; end if; end if; end process; io_address <= addr_save_q; io_write <= write_save_q; rread: if io_registered_read=true generate -- Read/ack process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then wb_ack_o<='0'; wb_dat_o<=(others => DontCareValue); else wb_ack_o <= io_device_ack; wb_dat_o <= io_read_selected; end if; end if; end process; end generate; nrread: if io_registered_read=false generate process(io_device_ack) begin wb_ack_o <= io_device_ack; end process; process(io_read_selected) begin wb_dat_o <= io_read_selected; end process; end generate; end generate; noiobusy: if zpuino_iobusyinput=false generate -- TODO: remove this io_address <= wb_adr_i; io_write <= wb_dat_i; io_cyc <= wb_cyc_i; io_stb <= wb_stb_i; io_we <= wb_we_i; wb_ack_o <= io_device_ack; end generate; -- Interrupt vectors process(slot_interrupt_i) begin for i in 0 to num_devices-1 loop ivecs(i) <= slot_interrupt_i(i); end loop; end process; -- Write and address signals, shared by all slots process(wb_dat_i,wb_adr_i,io_write,io_address) begin for i in 0 to num_devices-1 loop slot_write_i(i) <= io_write; slot_address_i(i) <= io_address(maxAddrBitIncIO-1 downto 2); end loop; end process; process(io_address,slot_read_i,timer_read) variable slotNumber: integer range 0 to num_devices-1; begin slotNumber := to_integer(unsigned(io_address(maxAddrBitIncIO-1 downto maxAddrBitIncIO-zpuino_number_io_select_bits))); if slotNumber/=4 then io_read_selected <= slot_read_i(slotNumber); else io_read_selected <= timer_read; end if; end process; -- Enable signals process(io_address,wb_stb_i,wb_cyc_i,wb_we_i,io_stb,io_cyc,io_we) variable slotNumber: integer range 0 to num_devices-1; begin slotNumber := to_integer(unsigned(io_address(maxAddrBitIncIO-1 downto maxAddrBitIncIO-zpuino_number_io_select_bits))); for i in 0 to num_devices-1 loop slot_stb_i(i) <= io_stb; slot_we_i(i) <= io_we; if i = slotNumber then slot_cyc_i(i) <= io_cyc; else slot_cyc_i(i) <= '0'; end if; end loop; end process; -- -- IO SLOT 4 -- intr_inst: zpuino_intr generic map ( INTERRUPT_LINES => 18 ) port map ( wb_clk_i => wb_clk_i, wb_rst_i => wb_rst_i, wb_dat_o => timer_read, wb_dat_i => slot_write_i(4), wb_adr_i => slot_address_i(4), wb_we_i => slot_we_i(4), wb_cyc_i => slot_cyc_i(4), wb_stb_i => slot_stb_i(4), wb_ack_o => timer_ack,--slot_ack_i(4), wb_inta_o => wb_inta_o, -- Interrupt signal to core poppc_inst=> intready, cache_flush => cache_flush, memory_enable => memory_enable, intr_in => ivecs, intr_cfglvl => "110000000000000000" ); end behave;
architecture rtl of fifo is begin process begin var1 := '0' when rd_en = '1' ELSE '1'; var2 := '0' when rd_en = '1' else '1'; wr_en_a <= force '0' when rd_en = '1' ELSE '1'; wr_en_b <= force '0' when rd_en = '1' else '1'; end process; concurrent_wr_en_a <= '0' when rd_en = '1' ELSE '1'; concurrent_wr_en_b <= '0' when rd_en = '1' else '1'; end architecture rtl;
architecture rtl of fifo is begin process begin var1 := '0' when rd_en = '1' ELSE '1'; var2 := '0' when rd_en = '1' else '1'; wr_en_a <= force '0' when rd_en = '1' ELSE '1'; wr_en_b <= force '0' when rd_en = '1' else '1'; end process; concurrent_wr_en_a <= '0' when rd_en = '1' ELSE '1'; concurrent_wr_en_b <= '0' when rd_en = '1' else '1'; 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: tc2325.vhd,v 1.2 2001-10-26 16:29:47 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c07s01b00x00p07n01i02325ent IS END c07s01b00x00p07n01i02325ent; ARCHITECTURE c07s01b00x00p07n01i02325arch OF c07s01b00x00p07n01i02325ent IS BEGIN TESTING: PROCESS variable k : real := 0.0; BEGIN k := abs (-10.3); assert NOT( k = 10.3 ) report "***PASSED TEST: c07s01b00x00p07n01i02325" severity NOTE; assert ( k = 10.3 ) report "***FAILED TEST: c07s01b00x00p07n01i02325 - The result of the 'abs' operation must be the absolute value of the operand." severity ERROR; wait; END PROCESS TESTING; END c07s01b00x00p07n01i02325arch;
-- 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: tc2325.vhd,v 1.2 2001-10-26 16:29:47 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c07s01b00x00p07n01i02325ent IS END c07s01b00x00p07n01i02325ent; ARCHITECTURE c07s01b00x00p07n01i02325arch OF c07s01b00x00p07n01i02325ent IS BEGIN TESTING: PROCESS variable k : real := 0.0; BEGIN k := abs (-10.3); assert NOT( k = 10.3 ) report "***PASSED TEST: c07s01b00x00p07n01i02325" severity NOTE; assert ( k = 10.3 ) report "***FAILED TEST: c07s01b00x00p07n01i02325 - The result of the 'abs' operation must be the absolute value of the operand." severity ERROR; wait; END PROCESS TESTING; END c07s01b00x00p07n01i02325arch;
-- 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: tc2325.vhd,v 1.2 2001-10-26 16:29:47 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c07s01b00x00p07n01i02325ent IS END c07s01b00x00p07n01i02325ent; ARCHITECTURE c07s01b00x00p07n01i02325arch OF c07s01b00x00p07n01i02325ent IS BEGIN TESTING: PROCESS variable k : real := 0.0; BEGIN k := abs (-10.3); assert NOT( k = 10.3 ) report "***PASSED TEST: c07s01b00x00p07n01i02325" severity NOTE; assert ( k = 10.3 ) report "***FAILED TEST: c07s01b00x00p07n01i02325 - The result of the 'abs' operation must be the absolute value of the operand." severity ERROR; wait; END PROCESS TESTING; END c07s01b00x00p07n01i02325arch;
-- Module Name: InputGate - Behavioral library IEEE; use IEEE.STD_LOGIC_1164.ALL; USE ieee.std_logic_unsigned.ALL; entity test4 is port ( a : in std_logic_vector(1 downto 0); b : in std_logic; c : out std_logic ); end test; architecture Behavioral of test is begin c <= a and b; end Behavioral;
------------------------------------------------------------------------------ -- This file is a part of the GRLIB VHDL IP LIBRARY -- Copyright (C) 2003 - 2008, Gaisler Research -- Copyright (C) 2008 - 2014, Aeroflex Gaisler -- Copyright (C) 2015 - 2016, Cobham Gaisler -- -- This program 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. -- -- This program 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 program; if not, write to the Free Software -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA ----------------------------------------------------------------------------- -- Entity: ddrphy_datapath -- File: ddrphy_datapath.vhd -- Author: Magnus Hjorth - Aeroflex Gaisler -- Description: Generic DDR/DDR2 PHY data path (digital part of phy) ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; library techmap; use techmap.gencomp.all; entity ddrphy_datapath is generic ( regtech: integer := 0; dbits: integer; abits: integer; bankbits: integer range 2 to 3 := 2; ncs: integer; nclk: integer; -- Enable extra resync stage clocked by clkresync resync: integer range 0 to 2 := 0 ); port ( clk0: in std_ulogic; clk90: in std_ulogic; clk180: in std_ulogic; clk270: in std_ulogic; clkresync: in std_ulogic; ddr_clk: out std_logic_vector(nclk-1 downto 0); ddr_clkb: out std_logic_vector(nclk-1 downto 0); ddr_dq_in: in std_logic_vector(dbits-1 downto 0); ddr_dq_out: out std_logic_vector(dbits-1 downto 0); ddr_dq_oen: out std_logic_vector(dbits-1 downto 0); ddr_dqs_in90: in std_logic_vector(dbits/8-1 downto 0); ddr_dqs_in90n: in std_logic_vector(dbits/8-1 downto 0); ddr_dqs_out: out std_logic_vector(dbits/8-1 downto 0); ddr_dqs_oen: out std_logic_vector(dbits/8-1 downto 0); ddr_cke: out std_logic_vector(ncs-1 downto 0); ddr_csb: out std_logic_vector(ncs-1 downto 0); ddr_web: out std_ulogic; ddr_rasb: out std_ulogic; ddr_casb: out std_ulogic; ddr_ad: out std_logic_vector(abits-1 downto 0); ddr_ba: out std_logic_vector(bankbits-1 downto 0); ddr_dm: out std_logic_vector(dbits/8-1 downto 0); ddr_odt: out std_logic_vector(ncs-1 downto 0); -- Control signals synchronous to clk0 dqin: out std_logic_vector(dbits*2-1 downto 0); dqout: in std_logic_vector(dbits*2-1 downto 0); addr : in std_logic_vector (abits-1 downto 0); ba : in std_logic_vector (bankbits-1 downto 0); dm : in std_logic_vector (dbits/4-1 downto 0); oen : in std_ulogic; rasn : in std_ulogic; casn : in std_ulogic; wen : in std_ulogic; csn : in std_logic_vector(ncs-1 downto 0); cke : in std_logic_vector(ncs-1 downto 0); -- Clk enable control signal to memory odt : in std_logic_vector(ncs-1 downto 0); dqs_en : in std_ulogic; -- Run dqs strobe (active low) dqs_oen : in std_ulogic; -- DQS output enable (active low) ddrclk_en : in std_logic_vector(nclk-1 downto 0) -- Enable/stop ddr_clk ); end; architecture rtl of ddrphy_datapath is signal vcc,gnd: std_ulogic; signal dqs_en_inv,dqs_en_inv180: std_ulogic; signal dqcaptr,dqcaptf: std_logic_vector(dbits-1 downto 0); signal dqsyncr,dqsyncf: std_logic_vector(dbits-1 downto 0); begin vcc <= '1'; gnd <= '0'; ----------------------------------------------------------------------------- -- DDR interface clock signal ----------------------------------------------------------------------------- -- 90 degree shifted relative to master clock, gated by ddrclk_en genclk: for x in 0 to nclk-1 generate clkreg: ddr_oreg generic map (tech => regtech) port map (d1 => ddrclk_en(x), d2 => gnd, ce => vcc, c1 => clk90, c2 => clk270, r => gnd, s => gnd, q => ddr_clk(x), testen => gnd, testrst => gnd); clkbreg: ddr_oreg generic map (tech => regtech) port map (d1 => gnd, d2 => ddrclk_en(x), ce => vcc, c1 => clk90, c2 => clk270, r => gnd, s => gnd, q => ddr_clkb(x), testen => gnd, testrst => gnd); end generate; ----------------------------------------------------------------------------- -- Control signals RAS,CAS,WE,BA,ADDR,CS,ODT,CKE ----------------------------------------------------------------------------- rasreg: grdff generic map (tech => regtech) port map (clk => clk0, d => rasn, q => ddr_rasb); casreg: grdff generic map (tech => regtech) port map (clk => clk0, d => casn, q => ddr_casb); wereg: grdff generic map (tech => regtech) port map (clk => clk0, d => wen, q => ddr_web); genba: for x in 0 to bankbits-1 generate bareg: grdff generic map (tech => regtech) port map (clk => clk0, d => ba(x), q => ddr_ba(x)); end generate; gencs: for x in 0 to ncs-1 generate csreg: grdff generic map (tech => regtech) port map (clk => clk0, d => csn(x), q => ddr_csb(x)); ckereg: grdff generic map (tech => regtech) port map (clk => clk0, d => cke(x), q => ddr_cke(x)); odtreg: grdff generic map (tech => regtech) port map (clk => clk0, d => odt(x), q => ddr_odt(x)); end generate; genaddr: for x in 0 to abits-1 generate addrreg: grdff generic map (tech => regtech) port map (clk => clk0, d => addr(x), q => ddr_ad(x)); end generate; ----------------------------------------------------------------------------- -- Outgoing data, output enable, DQS, DQSOEN, DM ----------------------------------------------------------------------------- gendqout: for x in 0 to dbits-1 generate dqoutreg: ddr_oreg generic map (tech => regtech) port map (d1 => dqout(x+dbits), d2 => dqout(x), ce => vcc, c1 => clk0, c2 => clk180, r => gnd, s => gnd, q => ddr_dq_out(x), testen => gnd, testrst => gnd); dqoenreg: grdff generic map (tech => regtech) port map (clk => clk0, d => oen, q => ddr_dq_oen(x)); end generate; -- dqs_en -> invert -> delay -> +90-deg DDR-regs -> dqs_out -- In total oen is delayed 5/4 cycles. We use 1/2 cycle delay -- instead of 1 cycle delay to get better timing margin to DDR regs. -- DQSOEN is delayed one cycle just like ctrl sigs dqs_en_inv <= not dqs_en; dqseninv180reg: grdff generic map (tech => regtech) port map (clk => clk180, d => dqs_en_inv, q => dqs_en_inv180); gendqsout: for x in 0 to dbits/8-1 generate dqsreg: ddr_oreg generic map (tech => regtech) port map (d1 => dqs_en_inv180, d2 => gnd, ce => vcc, c1 => clk90, c2 => clk270, r => gnd, s => gnd, q => ddr_dqs_out(x), testen => gnd, testrst => gnd); dqsoenreg: grdff generic map (tech => regtech) port map (clk => clk0, d => dqs_oen, q => ddr_dqs_oen(x)); end generate; gendm: for x in 0 to dbits/8-1 generate dmreg: ddr_oreg generic map (tech => regtech) port map (d1 => dm(x+dbits/8), d2 => dm(x), ce => vcc, c1 => clk0, c2 => clk180, r => gnd, s => gnd, q => ddr_dm(x), testen => gnd, testrst => gnd); end generate; ----------------------------------------------------------------------------- -- Incoming data ----------------------------------------------------------------------------- gendqin: for x in 0 to dbits-1 generate -- capture using dqs+90 -- Note: The ddr_ireg delivers both edges on c1 rising edge, therefore c1 -- is connected to inverted clock (c1 rising edge == dqs falling edge) dqcaptreg: ddr_ireg generic map (tech => regtech) port map (d => ddr_dq_in(x), c1 => ddr_dqs_in90n(x/8), c2 => ddr_dqs_in90(x/8), ce => vcc, r => gnd, s => gnd, q1 => dqcaptf(x), q2 => dqcaptr(x), testen => gnd, testrst => gnd); -- optional extra resync stage ifresync: if resync=1 generate genresync: for x in 0 to dbits-1 generate dqsyncrreg: grdff generic map (tech => regtech) port map (clk => clkresync, d => dqcaptr(x), q => dqsyncr(x)); dqsyncfreg: grdff generic map (tech => regtech) port map (clk => clkresync, d => dqcaptf(x), q => dqsyncf(x)); end generate; end generate; noresync: if resync/=1 generate dqsyncr <= dqcaptr; dqsyncf <= dqcaptf; end generate; -- sample in clk0 domain gensamp: if resync/=2 generate dqinregr: grdff generic map (tech => regtech) port map (clk => clk0, d => dqsyncr(x), q => dqin(x+dbits)); dqinregf: grdff generic map (tech => regtech) port map (clk => clk0, d => dqsyncf(x), q => dqin(x)); end generate; nosamp: if resync=2 generate dqin(x+dbits) <= dqsyncr(x); dqin(x) <= dqsyncf(x); end generate; end generate; end;
library ieee; use ieee.numeric_std.all; use ieee.std_logic_1164.all; entity beecount_jed is port( clock: in std_logic; input: in std_logic_vector(2 downto 0); output: out std_logic_vector(3 downto 0) ); end beecount_jed; architecture behaviour of beecount_jed is constant st0: std_logic_vector(2 downto 0) := "100"; constant st1: std_logic_vector(2 downto 0) := "101"; constant st4: std_logic_vector(2 downto 0) := "110"; constant st2: std_logic_vector(2 downto 0) := "001"; constant st3: std_logic_vector(2 downto 0) := "010"; constant st5: std_logic_vector(2 downto 0) := "000"; constant st6: std_logic_vector(2 downto 0) := "111"; signal current_state, next_state: std_logic_vector(2 downto 0); begin process(clock) begin if rising_edge(clock) then current_state <= next_state; end if; end process; process(input, current_state) begin next_state <= "---"; output <= "----"; case current_state is when st0 => if std_match(input, "000") then next_state <= st0; output <= "0101"; elsif std_match(input, "100") then next_state <= st1; output <= "0101"; elsif std_match(input, "010") then next_state <= st4; output <= "0101"; elsif std_match(input, "--1") then next_state <= st0; output <= "1010"; end if; when st1 => if std_match(input, "100") then next_state <= st1; output <= "0101"; elsif std_match(input, "0-0") then next_state <= st0; output <= "0101"; elsif std_match(input, "110") then next_state <= st2; output <= "0101"; elsif std_match(input, "--1") then next_state <= st0; output <= "1010"; end if; when st2 => if std_match(input, "110") then next_state <= st2; output <= "0101"; elsif std_match(input, "100") then next_state <= st1; output <= "0101"; elsif std_match(input, "010") then next_state <= st3; output <= "0101"; elsif std_match(input, "--1") then next_state <= st0; output <= "1010"; end if; when st3 => if std_match(input, "010") then next_state <= st3; output <= "0101"; elsif std_match(input, "110") then next_state <= st2; output <= "0101"; elsif std_match(input, "000") then next_state <= st0; output <= "0110"; elsif std_match(input, "--1") then next_state <= st0; output <= "1010"; end if; when st4 => if std_match(input, "010") then next_state <= st4; output <= "0101"; elsif std_match(input, "-00") then next_state <= st0; output <= "0101"; elsif std_match(input, "110") then next_state <= st5; output <= "0101"; elsif std_match(input, "--1") then next_state <= st0; output <= "1010"; end if; when st5 => if std_match(input, "110") then next_state <= st5; output <= "0101"; elsif std_match(input, "010") then next_state <= st4; output <= "0101"; elsif std_match(input, "100") then next_state <= st6; output <= "0101"; elsif std_match(input, "--1") then next_state <= st0; output <= "1010"; end if; when st6 => if std_match(input, "100") then next_state <= st6; output <= "0101"; elsif std_match(input, "110") then next_state <= st5; output <= "0101"; elsif std_match(input, "000") then next_state <= st0; output <= "1001"; elsif std_match(input, "--1") then next_state <= st0; output <= "1010"; end if; when others => next_state <= "---"; output <= "----"; end case; end process; end behaviour;
------------------------------------------------------------------------------- -- -- MSX1 FPGA project -- -- Copyright (c) 2016, Fabio Belavenuto (belavenuto@gmail.com) -- -- All rights reserved -- -- Redistribution and use in source and synthezised 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 synthesized 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 the author nor the names of other contributors may -- be used to endorse or promote products derived from this software without -- specific prior written permission. -- -- 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 AUTHOR 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. -- -- Please report bugs to the author, but before you do so, please -- make sure that this is not a derivative work and that -- you have the latest version of this file. -- ------------------------------------------------------------------------------- -- MIDI UART TX interface -- Custom by FBLabs -- Ports: -- 0 = Control (W) / Status (R) -- b7 = Int flag(R) -- b1 = Busy flag -- b0 = Int enable(R/W) -- -- 1 = Data (W) library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity midiIntf is port ( clock_i : in std_logic; reset_i : in std_logic; addr_i : in std_logic; cs_n_i : in std_logic; wr_n_i : in std_logic; rd_n_i : in std_logic; data_i : in std_logic_vector(7 downto 0); data_o : out std_logic_vector(7 downto 0); has_data_o : out std_logic; -- Outs int_n_o : out std_logic; wait_n_o : out std_logic; tx_o : out std_logic ); end entity; architecture rtl of midiIntf is type states is (stIdle, stClear, stStart, stData, stStop); signal enable_s : std_logic; signal port0_r_s : std_logic; signal port1_w_s : std_logic; signal ff_q : std_logic; signal ff_clr_s : std_logic; signal start_s : std_logic; signal status_s : std_logic_vector( 7 downto 0); signal databuf_q : std_logic_vector( 7 downto 0); signal busy_s : std_logic; signal int_en_q : std_logic; signal int_n_s : std_logic; signal wait_n_s : std_logic; signal baudr_cnt_q : integer range 0 to 256; signal bit_cnt_q : integer range 0 to 8; signal intcnt_q : unsigned(15 downto 0); signal state_s : states; signal shift_q : std_logic_vector( 7 downto 0); signal tx_s : std_logic; begin enable_s <= '1' when cs_n_i = '0' and (wr_n_i = '0' or rd_n_i = '0') else '0'; port0_r_s <= '1' when enable_s = '1' and addr_i = '0' and rd_n_i = '0' else '0'; port1_w_s <= '1' when enable_s = '1' and addr_i = '1' and wr_n_i = '0' else '0'; -- Port reading has_data_o <= port0_r_s; data_o <= status_s when port0_r_s = '1' else (others => '1'); busy_s <= '1' when state_s /= stIdle else '0'; status_s <= not int_n_s & "00000" & busy_s & int_en_q; -- Control port, interrupt count and int flag clear process (reset_i, clock_i) begin if reset_i = '1' then int_en_q <= '0'; intcnt_q <= (others => '0'); int_n_s <= '1'; elsif rising_edge(clock_i) then if int_en_q = '0' then intcnt_q <= (others => '0'); int_n_s <= '1'; elsif intcnt_q = 40000 then -- 200 Hz, 5ms intcnt_q <= (others => '0'); int_n_s <= '0'; else intcnt_q <= intcnt_q + 1; end if; if enable_s = '1' and addr_i = '0' and wr_n_i = '0' then int_en_q <= data_i(0); int_n_s <= '1'; end if; end if; end process; -- Acess TX detection -- flip-flop process(ff_clr_s, clock_i) begin if reset_i = '1' or ff_clr_s = '1' then ff_q <= '0'; elsif rising_edge(clock_i) then ff_q <= start_s; end if; end process; -- Write port 1 process (reset_i, ff_clr_s, port1_w_s) begin if reset_i = '1' or ff_clr_s = '1' then databuf_q <= (others => '0'); start_s <= '0'; elsif rising_edge(port1_w_s) then if wr_n_i = '0' then databuf_q <= data_i; start_s <= '1'; end if; end if; end process; -- Serial TX process(reset_i, clock_i) variable edge_v : std_logic_vector(1 downto 0); begin if reset_i = '1' then baudr_cnt_q <= 0; shift_q <= (others => '1'); bit_cnt_q <= 0; tx_s <= '1'; wait_n_s <= '1'; state_s <= stIdle; elsif rising_edge(clock_i) then if start_s = '1' and state_s /= stIdle then wait_n_s <= '0'; end if; case state_s is when stIdle => if ff_q = '1' then shift_q <= databuf_q; bit_cnt_q <= 0; baudr_cnt_q <= 0; state_s <= stClear; ff_clr_s <= '1'; wait_n_s <= '1'; end if; when stClear => ff_clr_s <= '0'; state_s <= stStart; when stStart => tx_s <= '0'; -- Start bit if baudr_cnt_q = 255 then baudr_cnt_q <= 0; state_s <= stData; else baudr_cnt_q <= baudr_cnt_q + 1; end if; when stData => tx_s <= shift_q(0); if baudr_cnt_q = 255 then baudr_cnt_q <= 0; shift_q <= '1' & shift_q(7 downto 1); if bit_cnt_q = 7 then state_s <= stStop; else bit_cnt_q <= bit_cnt_q + 1; end if; else baudr_cnt_q <= baudr_cnt_q + 1; end if; when stStop => tx_s <= '1'; -- Stop bit if baudr_cnt_q = 255 then baudr_cnt_q <= 0; state_s <= stIdle; else baudr_cnt_q <= baudr_cnt_q + 1; end if; end case; end if; end process; int_n_o <= int_n_s; wait_n_o <= wait_n_s; tx_o <= not tx_s; end architecture;
-- Structural VAMS generated by gnetlist -- Secondary unit ARCHITECTURE simple_arc OF BJT_transistor_simple IS terminal unnamed_net8 : electrical; terminal unnamed_net7 : electrical; terminal unnamed_net5 : electrical; terminal unnamed_net4 : electrical; terminal unnamed_net1 : electrical; BEGIN -- Architecture statement part SP1 : ENTITY SP_DIODE(SPICE_Diode_Model) GENERIC MAP ( VT => VT, AF => AF, KF => KF, PT => PT, EG => EG, M => ME, PB => PE, TT => TF, CJ0 => CJE, ISS => ISS) PORT MAP ( ANODE => unnamed_net8, KATHODE => unnamed_net5); CS2 : ENTITY SPICE_cs(current_controlled) GENERIC MAP ( N => BF, VT => VT, ISS => ISS) PORT MAP ( urt => unnamed_net4, lrt => unnamed_net5, ult => unnamed_net1, llt => unnamed_net8); CAP2 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net5, RT => unnamed_net1); CAP1 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net1, RT => unnamed_net4); GND1 : ENTITY GROUND_NODE PORT MAP ( T1 => unnamed_net7); CAP3 : ENTITY CAPACITOR GENERIC MAP ( c => CCS) PORT MAP ( LT => unnamed_net7, RT => unnamed_net4); RES_emitter : ENTITY RESISTOR GENERIC MAP ( r => RE) PORT MAP ( RT => unnamed_net5, LT => emitter); RES_collector : ENTITY RESISTOR GENERIC MAP ( r => RC) PORT MAP ( RT => collector, LT => unnamed_net4); RES_base : ENTITY RESISTOR GENERIC MAP ( r => RB) PORT MAP ( RT => unnamed_net1, LT => base); END ARCHITECTURE simple_arc;
-- Structural VAMS generated by gnetlist -- Secondary unit ARCHITECTURE simple_arc OF BJT_transistor_simple IS terminal unnamed_net8 : electrical; terminal unnamed_net7 : electrical; terminal unnamed_net5 : electrical; terminal unnamed_net4 : electrical; terminal unnamed_net1 : electrical; BEGIN -- Architecture statement part SP1 : ENTITY SP_DIODE(SPICE_Diode_Model) GENERIC MAP ( VT => VT, AF => AF, KF => KF, PT => PT, EG => EG, M => ME, PB => PE, TT => TF, CJ0 => CJE, ISS => ISS) PORT MAP ( ANODE => unnamed_net8, KATHODE => unnamed_net5); CS2 : ENTITY SPICE_cs(current_controlled) GENERIC MAP ( N => BF, VT => VT, ISS => ISS) PORT MAP ( urt => unnamed_net4, lrt => unnamed_net5, ult => unnamed_net1, llt => unnamed_net8); CAP2 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net5, RT => unnamed_net1); CAP1 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net1, RT => unnamed_net4); GND1 : ENTITY GROUND_NODE PORT MAP ( T1 => unnamed_net7); CAP3 : ENTITY CAPACITOR GENERIC MAP ( c => CCS) PORT MAP ( LT => unnamed_net7, RT => unnamed_net4); RES_emitter : ENTITY RESISTOR GENERIC MAP ( r => RE) PORT MAP ( RT => unnamed_net5, LT => emitter); RES_collector : ENTITY RESISTOR GENERIC MAP ( r => RC) PORT MAP ( RT => collector, LT => unnamed_net4); RES_base : ENTITY RESISTOR GENERIC MAP ( r => RB) PORT MAP ( RT => unnamed_net1, LT => base); END ARCHITECTURE simple_arc;
-- Structural VAMS generated by gnetlist -- Secondary unit ARCHITECTURE simple_arc OF BJT_transistor_simple IS terminal unnamed_net8 : electrical; terminal unnamed_net7 : electrical; terminal unnamed_net5 : electrical; terminal unnamed_net4 : electrical; terminal unnamed_net1 : electrical; BEGIN -- Architecture statement part SP1 : ENTITY SP_DIODE(SPICE_Diode_Model) GENERIC MAP ( VT => VT, AF => AF, KF => KF, PT => PT, EG => EG, M => ME, PB => PE, TT => TF, CJ0 => CJE, ISS => ISS) PORT MAP ( ANODE => unnamed_net8, KATHODE => unnamed_net5); CS2 : ENTITY SPICE_cs(current_controlled) GENERIC MAP ( N => BF, VT => VT, ISS => ISS) PORT MAP ( urt => unnamed_net4, lrt => unnamed_net5, ult => unnamed_net1, llt => unnamed_net8); CAP2 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net5, RT => unnamed_net1); CAP1 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net1, RT => unnamed_net4); GND1 : ENTITY GROUND_NODE PORT MAP ( T1 => unnamed_net7); CAP3 : ENTITY CAPACITOR GENERIC MAP ( c => CCS) PORT MAP ( LT => unnamed_net7, RT => unnamed_net4); RES_emitter : ENTITY RESISTOR GENERIC MAP ( r => RE) PORT MAP ( RT => unnamed_net5, LT => emitter); RES_collector : ENTITY RESISTOR GENERIC MAP ( r => RC) PORT MAP ( RT => collector, LT => unnamed_net4); RES_base : ENTITY RESISTOR GENERIC MAP ( r => RB) PORT MAP ( RT => unnamed_net1, LT => base); END ARCHITECTURE simple_arc;
-- Structural VAMS generated by gnetlist -- Secondary unit ARCHITECTURE simple_arc OF BJT_transistor_simple IS terminal unnamed_net8 : electrical; terminal unnamed_net7 : electrical; terminal unnamed_net5 : electrical; terminal unnamed_net4 : electrical; terminal unnamed_net1 : electrical; BEGIN -- Architecture statement part SP1 : ENTITY SP_DIODE(SPICE_Diode_Model) GENERIC MAP ( VT => VT, AF => AF, KF => KF, PT => PT, EG => EG, M => ME, PB => PE, TT => TF, CJ0 => CJE, ISS => ISS) PORT MAP ( ANODE => unnamed_net8, KATHODE => unnamed_net5); CS2 : ENTITY SPICE_cs(current_controlled) GENERIC MAP ( N => BF, VT => VT, ISS => ISS) PORT MAP ( urt => unnamed_net4, lrt => unnamed_net5, ult => unnamed_net1, llt => unnamed_net8); CAP2 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net5, RT => unnamed_net1); CAP1 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net1, RT => unnamed_net4); GND1 : ENTITY GROUND_NODE PORT MAP ( T1 => unnamed_net7); CAP3 : ENTITY CAPACITOR GENERIC MAP ( c => CCS) PORT MAP ( LT => unnamed_net7, RT => unnamed_net4); RES_emitter : ENTITY RESISTOR GENERIC MAP ( r => RE) PORT MAP ( RT => unnamed_net5, LT => emitter); RES_collector : ENTITY RESISTOR GENERIC MAP ( r => RC) PORT MAP ( RT => collector, LT => unnamed_net4); RES_base : ENTITY RESISTOR GENERIC MAP ( r => RB) PORT MAP ( RT => unnamed_net1, LT => base); END ARCHITECTURE simple_arc;
-- Structural VAMS generated by gnetlist -- Secondary unit ARCHITECTURE simple_arc OF BJT_transistor_simple IS terminal unnamed_net8 : electrical; terminal unnamed_net7 : electrical; terminal unnamed_net5 : electrical; terminal unnamed_net4 : electrical; terminal unnamed_net1 : electrical; BEGIN -- Architecture statement part SP1 : ENTITY SP_DIODE(SPICE_Diode_Model) GENERIC MAP ( VT => VT, AF => AF, KF => KF, PT => PT, EG => EG, M => ME, PB => PE, TT => TF, CJ0 => CJE, ISS => ISS) PORT MAP ( ANODE => unnamed_net8, KATHODE => unnamed_net5); CS2 : ENTITY SPICE_cs(current_controlled) GENERIC MAP ( N => BF, VT => VT, ISS => ISS) PORT MAP ( urt => unnamed_net4, lrt => unnamed_net5, ult => unnamed_net1, llt => unnamed_net8); CAP2 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net5, RT => unnamed_net1); CAP1 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net1, RT => unnamed_net4); GND1 : ENTITY GROUND_NODE PORT MAP ( T1 => unnamed_net7); CAP3 : ENTITY CAPACITOR GENERIC MAP ( c => CCS) PORT MAP ( LT => unnamed_net7, RT => unnamed_net4); RES_emitter : ENTITY RESISTOR GENERIC MAP ( r => RE) PORT MAP ( RT => unnamed_net5, LT => emitter); RES_collector : ENTITY RESISTOR GENERIC MAP ( r => RC) PORT MAP ( RT => collector, LT => unnamed_net4); RES_base : ENTITY RESISTOR GENERIC MAP ( r => RB) PORT MAP ( RT => unnamed_net1, LT => base); END ARCHITECTURE simple_arc;
-- Structural VAMS generated by gnetlist -- Secondary unit ARCHITECTURE simple_arc OF BJT_transistor_simple IS terminal unnamed_net8 : electrical; terminal unnamed_net7 : electrical; terminal unnamed_net5 : electrical; terminal unnamed_net4 : electrical; terminal unnamed_net1 : electrical; BEGIN -- Architecture statement part SP1 : ENTITY SP_DIODE(SPICE_Diode_Model) GENERIC MAP ( VT => VT, AF => AF, KF => KF, PT => PT, EG => EG, M => ME, PB => PE, TT => TF, CJ0 => CJE, ISS => ISS) PORT MAP ( ANODE => unnamed_net8, KATHODE => unnamed_net5); CS2 : ENTITY SPICE_cs(current_controlled) GENERIC MAP ( N => BF, VT => VT, ISS => ISS) PORT MAP ( urt => unnamed_net4, lrt => unnamed_net5, ult => unnamed_net1, llt => unnamed_net8); CAP2 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net5, RT => unnamed_net1); CAP1 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net1, RT => unnamed_net4); GND1 : ENTITY GROUND_NODE PORT MAP ( T1 => unnamed_net7); CAP3 : ENTITY CAPACITOR GENERIC MAP ( c => CCS) PORT MAP ( LT => unnamed_net7, RT => unnamed_net4); RES_emitter : ENTITY RESISTOR GENERIC MAP ( r => RE) PORT MAP ( RT => unnamed_net5, LT => emitter); RES_collector : ENTITY RESISTOR GENERIC MAP ( r => RC) PORT MAP ( RT => collector, LT => unnamed_net4); RES_base : ENTITY RESISTOR GENERIC MAP ( r => RB) PORT MAP ( RT => unnamed_net1, LT => base); END ARCHITECTURE simple_arc;
-- Structural VAMS generated by gnetlist -- Secondary unit ARCHITECTURE simple_arc OF BJT_transistor_simple IS terminal unnamed_net8 : electrical; terminal unnamed_net7 : electrical; terminal unnamed_net5 : electrical; terminal unnamed_net4 : electrical; terminal unnamed_net1 : electrical; BEGIN -- Architecture statement part SP1 : ENTITY SP_DIODE(SPICE_Diode_Model) GENERIC MAP ( VT => VT, AF => AF, KF => KF, PT => PT, EG => EG, M => ME, PB => PE, TT => TF, CJ0 => CJE, ISS => ISS) PORT MAP ( ANODE => unnamed_net8, KATHODE => unnamed_net5); CS2 : ENTITY SPICE_cs(current_controlled) GENERIC MAP ( N => BF, VT => VT, ISS => ISS) PORT MAP ( urt => unnamed_net4, lrt => unnamed_net5, ult => unnamed_net1, llt => unnamed_net8); CAP2 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net5, RT => unnamed_net1); CAP1 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net1, RT => unnamed_net4); GND1 : ENTITY GROUND_NODE PORT MAP ( T1 => unnamed_net7); CAP3 : ENTITY CAPACITOR GENERIC MAP ( c => CCS) PORT MAP ( LT => unnamed_net7, RT => unnamed_net4); RES_emitter : ENTITY RESISTOR GENERIC MAP ( r => RE) PORT MAP ( RT => unnamed_net5, LT => emitter); RES_collector : ENTITY RESISTOR GENERIC MAP ( r => RC) PORT MAP ( RT => collector, LT => unnamed_net4); RES_base : ENTITY RESISTOR GENERIC MAP ( r => RB) PORT MAP ( RT => unnamed_net1, LT => base); END ARCHITECTURE simple_arc;
-- Structural VAMS generated by gnetlist -- Secondary unit ARCHITECTURE simple_arc OF BJT_transistor_simple IS terminal unnamed_net8 : electrical; terminal unnamed_net7 : electrical; terminal unnamed_net5 : electrical; terminal unnamed_net4 : electrical; terminal unnamed_net1 : electrical; BEGIN -- Architecture statement part SP1 : ENTITY SP_DIODE(SPICE_Diode_Model) GENERIC MAP ( VT => VT, AF => AF, KF => KF, PT => PT, EG => EG, M => ME, PB => PE, TT => TF, CJ0 => CJE, ISS => ISS) PORT MAP ( ANODE => unnamed_net8, KATHODE => unnamed_net5); CS2 : ENTITY SPICE_cs(current_controlled) GENERIC MAP ( N => BF, VT => VT, ISS => ISS) PORT MAP ( urt => unnamed_net4, lrt => unnamed_net5, ult => unnamed_net1, llt => unnamed_net8); CAP2 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net5, RT => unnamed_net1); CAP1 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net1, RT => unnamed_net4); GND1 : ENTITY GROUND_NODE PORT MAP ( T1 => unnamed_net7); CAP3 : ENTITY CAPACITOR GENERIC MAP ( c => CCS) PORT MAP ( LT => unnamed_net7, RT => unnamed_net4); RES_emitter : ENTITY RESISTOR GENERIC MAP ( r => RE) PORT MAP ( RT => unnamed_net5, LT => emitter); RES_collector : ENTITY RESISTOR GENERIC MAP ( r => RC) PORT MAP ( RT => collector, LT => unnamed_net4); RES_base : ENTITY RESISTOR GENERIC MAP ( r => RB) PORT MAP ( RT => unnamed_net1, LT => base); END ARCHITECTURE simple_arc;
-- Structural VAMS generated by gnetlist -- Secondary unit ARCHITECTURE simple_arc OF BJT_transistor_simple IS terminal unnamed_net8 : electrical; terminal unnamed_net7 : electrical; terminal unnamed_net5 : electrical; terminal unnamed_net4 : electrical; terminal unnamed_net1 : electrical; BEGIN -- Architecture statement part SP1 : ENTITY SP_DIODE(SPICE_Diode_Model) GENERIC MAP ( VT => VT, AF => AF, KF => KF, PT => PT, EG => EG, M => ME, PB => PE, TT => TF, CJ0 => CJE, ISS => ISS) PORT MAP ( ANODE => unnamed_net8, KATHODE => unnamed_net5); CS2 : ENTITY SPICE_cs(current_controlled) GENERIC MAP ( N => BF, VT => VT, ISS => ISS) PORT MAP ( urt => unnamed_net4, lrt => unnamed_net5, ult => unnamed_net1, llt => unnamed_net8); CAP2 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net5, RT => unnamed_net1); CAP1 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net1, RT => unnamed_net4); GND1 : ENTITY GROUND_NODE PORT MAP ( T1 => unnamed_net7); CAP3 : ENTITY CAPACITOR GENERIC MAP ( c => CCS) PORT MAP ( LT => unnamed_net7, RT => unnamed_net4); RES_emitter : ENTITY RESISTOR GENERIC MAP ( r => RE) PORT MAP ( RT => unnamed_net5, LT => emitter); RES_collector : ENTITY RESISTOR GENERIC MAP ( r => RC) PORT MAP ( RT => collector, LT => unnamed_net4); RES_base : ENTITY RESISTOR GENERIC MAP ( r => RB) PORT MAP ( RT => unnamed_net1, LT => base); END ARCHITECTURE simple_arc;
-- Structural VAMS generated by gnetlist -- Secondary unit ARCHITECTURE simple_arc OF BJT_transistor_simple IS terminal unnamed_net8 : electrical; terminal unnamed_net7 : electrical; terminal unnamed_net5 : electrical; terminal unnamed_net4 : electrical; terminal unnamed_net1 : electrical; BEGIN -- Architecture statement part SP1 : ENTITY SP_DIODE(SPICE_Diode_Model) GENERIC MAP ( VT => VT, AF => AF, KF => KF, PT => PT, EG => EG, M => ME, PB => PE, TT => TF, CJ0 => CJE, ISS => ISS) PORT MAP ( ANODE => unnamed_net8, KATHODE => unnamed_net5); CS2 : ENTITY SPICE_cs(current_controlled) GENERIC MAP ( N => BF, VT => VT, ISS => ISS) PORT MAP ( urt => unnamed_net4, lrt => unnamed_net5, ult => unnamed_net1, llt => unnamed_net8); CAP2 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net5, RT => unnamed_net1); CAP1 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net1, RT => unnamed_net4); GND1 : ENTITY GROUND_NODE PORT MAP ( T1 => unnamed_net7); CAP3 : ENTITY CAPACITOR GENERIC MAP ( c => CCS) PORT MAP ( LT => unnamed_net7, RT => unnamed_net4); RES_emitter : ENTITY RESISTOR GENERIC MAP ( r => RE) PORT MAP ( RT => unnamed_net5, LT => emitter); RES_collector : ENTITY RESISTOR GENERIC MAP ( r => RC) PORT MAP ( RT => collector, LT => unnamed_net4); RES_base : ENTITY RESISTOR GENERIC MAP ( r => RB) PORT MAP ( RT => unnamed_net1, LT => base); END ARCHITECTURE simple_arc;
-- Structural VAMS generated by gnetlist -- Secondary unit ARCHITECTURE simple_arc OF BJT_transistor_simple IS terminal unnamed_net8 : electrical; terminal unnamed_net7 : electrical; terminal unnamed_net5 : electrical; terminal unnamed_net4 : electrical; terminal unnamed_net1 : electrical; BEGIN -- Architecture statement part SP1 : ENTITY SP_DIODE(SPICE_Diode_Model) GENERIC MAP ( VT => VT, AF => AF, KF => KF, PT => PT, EG => EG, M => ME, PB => PE, TT => TF, CJ0 => CJE, ISS => ISS) PORT MAP ( ANODE => unnamed_net8, KATHODE => unnamed_net5); CS2 : ENTITY SPICE_cs(current_controlled) GENERIC MAP ( N => BF, VT => VT, ISS => ISS) PORT MAP ( urt => unnamed_net4, lrt => unnamed_net5, ult => unnamed_net1, llt => unnamed_net8); CAP2 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net5, RT => unnamed_net1); CAP1 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net1, RT => unnamed_net4); GND1 : ENTITY GROUND_NODE PORT MAP ( T1 => unnamed_net7); CAP3 : ENTITY CAPACITOR GENERIC MAP ( c => CCS) PORT MAP ( LT => unnamed_net7, RT => unnamed_net4); RES_emitter : ENTITY RESISTOR GENERIC MAP ( r => RE) PORT MAP ( RT => unnamed_net5, LT => emitter); RES_collector : ENTITY RESISTOR GENERIC MAP ( r => RC) PORT MAP ( RT => collector, LT => unnamed_net4); RES_base : ENTITY RESISTOR GENERIC MAP ( r => RB) PORT MAP ( RT => unnamed_net1, LT => base); END ARCHITECTURE simple_arc;
-- Structural VAMS generated by gnetlist -- Secondary unit ARCHITECTURE simple_arc OF BJT_transistor_simple IS terminal unnamed_net8 : electrical; terminal unnamed_net7 : electrical; terminal unnamed_net5 : electrical; terminal unnamed_net4 : electrical; terminal unnamed_net1 : electrical; BEGIN -- Architecture statement part SP1 : ENTITY SP_DIODE(SPICE_Diode_Model) GENERIC MAP ( VT => VT, AF => AF, KF => KF, PT => PT, EG => EG, M => ME, PB => PE, TT => TF, CJ0 => CJE, ISS => ISS) PORT MAP ( ANODE => unnamed_net8, KATHODE => unnamed_net5); CS2 : ENTITY SPICE_cs(current_controlled) GENERIC MAP ( N => BF, VT => VT, ISS => ISS) PORT MAP ( urt => unnamed_net4, lrt => unnamed_net5, ult => unnamed_net1, llt => unnamed_net8); CAP2 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net5, RT => unnamed_net1); CAP1 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net1, RT => unnamed_net4); GND1 : ENTITY GROUND_NODE PORT MAP ( T1 => unnamed_net7); CAP3 : ENTITY CAPACITOR GENERIC MAP ( c => CCS) PORT MAP ( LT => unnamed_net7, RT => unnamed_net4); RES_emitter : ENTITY RESISTOR GENERIC MAP ( r => RE) PORT MAP ( RT => unnamed_net5, LT => emitter); RES_collector : ENTITY RESISTOR GENERIC MAP ( r => RC) PORT MAP ( RT => collector, LT => unnamed_net4); RES_base : ENTITY RESISTOR GENERIC MAP ( r => RB) PORT MAP ( RT => unnamed_net1, LT => base); END ARCHITECTURE simple_arc;
-- Structural VAMS generated by gnetlist -- Secondary unit ARCHITECTURE simple_arc OF BJT_transistor_simple IS terminal unnamed_net8 : electrical; terminal unnamed_net7 : electrical; terminal unnamed_net5 : electrical; terminal unnamed_net4 : electrical; terminal unnamed_net1 : electrical; BEGIN -- Architecture statement part SP1 : ENTITY SP_DIODE(SPICE_Diode_Model) GENERIC MAP ( VT => VT, AF => AF, KF => KF, PT => PT, EG => EG, M => ME, PB => PE, TT => TF, CJ0 => CJE, ISS => ISS) PORT MAP ( ANODE => unnamed_net8, KATHODE => unnamed_net5); CS2 : ENTITY SPICE_cs(current_controlled) GENERIC MAP ( N => BF, VT => VT, ISS => ISS) PORT MAP ( urt => unnamed_net4, lrt => unnamed_net5, ult => unnamed_net1, llt => unnamed_net8); CAP2 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net5, RT => unnamed_net1); CAP1 : ENTITY CAPACITOR PORT MAP ( LT => unnamed_net1, RT => unnamed_net4); GND1 : ENTITY GROUND_NODE PORT MAP ( T1 => unnamed_net7); CAP3 : ENTITY CAPACITOR GENERIC MAP ( c => CCS) PORT MAP ( LT => unnamed_net7, RT => unnamed_net4); RES_emitter : ENTITY RESISTOR GENERIC MAP ( r => RE) PORT MAP ( RT => unnamed_net5, LT => emitter); RES_collector : ENTITY RESISTOR GENERIC MAP ( r => RC) PORT MAP ( RT => collector, LT => unnamed_net4); RES_base : ENTITY RESISTOR GENERIC MAP ( r => RB) PORT MAP ( RT => unnamed_net1, LT => base); END ARCHITECTURE simple_arc;
-- file: ocxo_clk_pll_clk_wiz.vhd -- -- (c) Copyright 2008 - 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. -- ------------------------------------------------------------------------------ -- User entered comments ------------------------------------------------------------------------------ -- None -- ------------------------------------------------------------------------------ -- Output Output Phase Duty Cycle Pk-to-Pk Phase -- Clock Freq (MHz) (degrees) (%) Jitter (ps) Error (ps) ------------------------------------------------------------------------------ -- CLK_OUT1___100.000______0.000______50.0______597.520____892.144 -- ------------------------------------------------------------------------------ -- Input Clock Freq (MHz) Input Jitter (UI) ------------------------------------------------------------------------------ -- __primary__________10.000___________0.00100 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; library unisim; use unisim.vcomponents.all; entity ocxo_clk_pll_clk_wiz is port (-- Clock in ports clk_in1 : in std_logic; -- Clock out ports clk_out1 : out std_logic; -- Status and control signals resetn : in std_logic; locked : out std_logic ); end ocxo_clk_pll_clk_wiz; architecture xilinx of ocxo_clk_pll_clk_wiz is -- Input clock buffering / unused connectors signal clk_in1_ocxo_clk_pll : std_logic; -- Output clock buffering / unused connectors signal clkfbout_ocxo_clk_pll : std_logic; signal clkfboutb_unused : std_logic; signal clk_out1_ocxo_clk_pll : std_logic; signal clkout0b_unused : std_logic; signal clkout1_unused : std_logic; signal clkout1b_unused : std_logic; signal clkout2_unused : std_logic; signal clkout2b_unused : std_logic; signal clkout3_unused : std_logic; signal clkout3b_unused : std_logic; signal clkout4_unused : std_logic; signal clkout5_unused : std_logic; signal clkout6_unused : std_logic; -- Dynamic programming unused signals signal do_unused : std_logic_vector(15 downto 0); signal drdy_unused : std_logic; -- Dynamic phase shift unused signals signal psdone_unused : std_logic; signal locked_int : std_logic; -- Unused status signals signal clkfbstopped_unused : std_logic; signal clkinstopped_unused : std_logic; signal reset_high : std_logic; begin -- Input buffering -------------------------------------- clkin1_ibufg : IBUF port map (O => clk_in1_ocxo_clk_pll, I => clk_in1); -- Clocking PRIMITIVE -------------------------------------- -- Instantiation of the MMCM PRIMITIVE -- * Unused inputs are tied off -- * Unused outputs are labeled unused mmcm_adv_inst : MMCME2_ADV generic map (BANDWIDTH => "OPTIMIZED", CLKOUT4_CASCADE => FALSE, COMPENSATION => "ZHOLD", STARTUP_WAIT => FALSE, DIVCLK_DIVIDE => 1, CLKFBOUT_MULT_F => 63.750, CLKFBOUT_PHASE => 0.000, CLKFBOUT_USE_FINE_PS => FALSE, CLKOUT0_DIVIDE_F => 6.375, CLKOUT0_PHASE => 0.000, CLKOUT0_DUTY_CYCLE => 0.500, CLKOUT0_USE_FINE_PS => FALSE, CLKIN1_PERIOD => 100.0) port map -- Output clocks ( CLKFBOUT => clkfbout_ocxo_clk_pll, CLKFBOUTB => clkfboutb_unused, CLKOUT0 => clk_out1_ocxo_clk_pll, CLKOUT0B => clkout0b_unused, CLKOUT1 => clkout1_unused, CLKOUT1B => clkout1b_unused, CLKOUT2 => clkout2_unused, CLKOUT2B => clkout2b_unused, CLKOUT3 => clkout3_unused, CLKOUT3B => clkout3b_unused, CLKOUT4 => clkout4_unused, CLKOUT5 => clkout5_unused, CLKOUT6 => clkout6_unused, -- Input clock control CLKFBIN => clkfbout_ocxo_clk_pll, CLKIN1 => clk_in1_ocxo_clk_pll, CLKIN2 => '0', -- Tied to always select the primary input clock CLKINSEL => '1', -- Ports for dynamic reconfiguration DADDR => (others => '0'), DCLK => '0', DEN => '0', DI => (others => '0'), DO => do_unused, DRDY => drdy_unused, DWE => '0', -- Ports for dynamic phase shift PSCLK => '0', PSEN => '0', PSINCDEC => '0', PSDONE => psdone_unused, -- Other control and status signals LOCKED => locked_int, CLKINSTOPPED => clkinstopped_unused, CLKFBSTOPPED => clkfbstopped_unused, PWRDWN => '0', RST => reset_high); reset_high <= not resetn; locked <= locked_int; -- Output buffering ------------------------------------- clk_out1 <= clk_out1_ocxo_clk_pll; end xilinx;
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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `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 lN2Pk3LejiclzgoJBUde8BaenDDfTvN8/GqETAs/B17FKtrdskZettlo3dJMct5FWa8tlZz+SbYZ xL4z4MYUQQ== `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 D9yzJa6bUqp5ud3flOCMaqwieLbgIypb/289o8Lbhjag5DTuoS3Lo4EAi9S4tMDgo6QmvUFGPJCA TXIlOUUtvG2AqOKUC5MAWp4mR8xWAZk1XC0pO9hfPMhRQyTwVPu9eQY9CPm42XLKw56uaKh75Scv 8JRj/ns/WwPMwRUKfRE= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_rsa_key", 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 2013" `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 lN2Pk3LejiclzgoJBUde8BaenDDfTvN8/GqETAs/B17FKtrdskZettlo3dJMct5FWa8tlZz+SbYZ xL4z4MYUQQ== `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 D9yzJa6bUqp5ud3flOCMaqwieLbgIypb/289o8Lbhjag5DTuoS3Lo4EAi9S4tMDgo6QmvUFGPJCA TXIlOUUtvG2AqOKUC5MAWp4mR8xWAZk1XC0pO9hfPMhRQyTwVPu9eQY9CPm42XLKw56uaKh75Scv 8JRj/ns/WwPMwRUKfRE= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_rsa_key", 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 2013" `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 lN2Pk3LejiclzgoJBUde8BaenDDfTvN8/GqETAs/B17FKtrdskZettlo3dJMct5FWa8tlZz+SbYZ xL4z4MYUQQ== `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 D9yzJa6bUqp5ud3flOCMaqwieLbgIypb/289o8Lbhjag5DTuoS3Lo4EAi9S4tMDgo6QmvUFGPJCA TXIlOUUtvG2AqOKUC5MAWp4mR8xWAZk1XC0pO9hfPMhRQyTwVPu9eQY9CPm42XLKw56uaKh75Scv 8JRj/ns/WwPMwRUKfRE= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_rsa_key", 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 2013" `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 lN2Pk3LejiclzgoJBUde8BaenDDfTvN8/GqETAs/B17FKtrdskZettlo3dJMct5FWa8tlZz+SbYZ xL4z4MYUQQ== `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 D9yzJa6bUqp5ud3flOCMaqwieLbgIypb/289o8Lbhjag5DTuoS3Lo4EAi9S4tMDgo6QmvUFGPJCA TXIlOUUtvG2AqOKUC5MAWp4mR8xWAZk1XC0pO9hfPMhRQyTwVPu9eQY9CPm42XLKw56uaKh75Scv 8JRj/ns/WwPMwRUKfRE= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_rsa_key", 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 2013" `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 lN2Pk3LejiclzgoJBUde8BaenDDfTvN8/GqETAs/B17FKtrdskZettlo3dJMct5FWa8tlZz+SbYZ xL4z4MYUQQ== `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 D9yzJa6bUqp5ud3flOCMaqwieLbgIypb/289o8Lbhjag5DTuoS3Lo4EAi9S4tMDgo6QmvUFGPJCA TXIlOUUtvG2AqOKUC5MAWp4mR8xWAZk1XC0pO9hfPMhRQyTwVPu9eQY9CPm42XLKw56uaKh75Scv 8JRj/ns/WwPMwRUKfRE= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_rsa_key", 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 2013" `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 lN2Pk3LejiclzgoJBUde8BaenDDfTvN8/GqETAs/B17FKtrdskZettlo3dJMct5FWa8tlZz+SbYZ xL4z4MYUQQ== `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 D9yzJa6bUqp5ud3flOCMaqwieLbgIypb/289o8Lbhjag5DTuoS3Lo4EAi9S4tMDgo6QmvUFGPJCA TXIlOUUtvG2AqOKUC5MAWp4mR8xWAZk1XC0pO9hfPMhRQyTwVPu9eQY9CPm42XLKw56uaKh75Scv 8JRj/ns/WwPMwRUKfRE= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_rsa_key", 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 2013" `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 lN2Pk3LejiclzgoJBUde8BaenDDfTvN8/GqETAs/B17FKtrdskZettlo3dJMct5FWa8tlZz+SbYZ xL4z4MYUQQ== `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 D9yzJa6bUqp5ud3flOCMaqwieLbgIypb/289o8Lbhjag5DTuoS3Lo4EAi9S4tMDgo6QmvUFGPJCA TXIlOUUtvG2AqOKUC5MAWp4mR8xWAZk1XC0pO9hfPMhRQyTwVPu9eQY9CPm42XLKw56uaKh75Scv 8JRj/ns/WwPMwRUKfRE= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_rsa_key", 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 2013" `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 lN2Pk3LejiclzgoJBUde8BaenDDfTvN8/GqETAs/B17FKtrdskZettlo3dJMct5FWa8tlZz+SbYZ xL4z4MYUQQ== `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 D9yzJa6bUqp5ud3flOCMaqwieLbgIypb/289o8Lbhjag5DTuoS3Lo4EAi9S4tMDgo6QmvUFGPJCA TXIlOUUtvG2AqOKUC5MAWp4mR8xWAZk1XC0pO9hfPMhRQyTwVPu9eQY9CPm42XLKw56uaKh75Scv 8JRj/ns/WwPMwRUKfRE= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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library IEEE; use IEEE.std_logic_1164.all; use IEEE.numeric_std.all; package bus_pkg is -- General information on the bus: -- The master initiates all communication. When readEnable or writeEnable become high (they must never be high at the same time) address and possibly writeData must be valid. -- The master must now wait until ack becomes high. Ack has to remain high until readData/writeData is zero. -- On read, the slave must keep readData valid until readEnable is low again. -- This finishes the transaction. -- A fault sets a faultcode on the WriteData bus and is handled similarly to an ack otherwise. -- -- The bus is byte-adressable. The data width of the bus is called a word and is always a multiple of the amount of bytes. -- These are the relevant sizes of the bus. They are defined like this because if they are not a power of 2, -- some things, like remapping, will become impossible. constant bus_byte_size_log2b : natural := 3; constant bus_address_width_log2b : natural := 5; -- Make sure that data_width >= byte_size. constant bus_data_width_log2b : natural := 5; constant bus_byte_size : natural := 2**bus_byte_size_log2b; subtype bus_address_type is std_logic_vector(2**bus_address_width_log2b - 1 downto 0); -- Any bus address. subtype bus_data_type is std_logic_vector(2**bus_data_width_log2b - 1 downto 0); -- Any data word. subtype bus_byte_type is std_logic_vector(bus_byte_size - 1 downto 0); -- A byte, lowest adressable unit type bus_data_array is array (natural range <>) of bus_data_type; type bus_byte_array is array (natural range <>) of bus_byte_type; constant bus_bytes_per_word : positive := bus_data_type'length / bus_byte_size; constant bus_bytes_per_word_log2b : natural := bus_data_width_log2b - bus_byte_size_log2b; subtype bus_write_mask is std_logic_vector(bus_bytes_per_word - 1 downto 0); -- The remapping logic. -- Any range of input can be placed at any range of output. Moreover, parts of the output can be set to 0 or 1. -- As an example, take a device which has registers on address 0 to 3, but in reality lives on address 1 to 4. -- A correct remapping would now be: bus_map_constant(1, '0') & bus_map_range(bus_address_type'high - 1, 0) type bitMapping_array is array (natural range <>) of integer; -- Using this type makes sure that the bitmapping aray is always exactly long enough. subtype addrMapping_type is bitMapping_array(bus_address_type'range); type bus_mst2slv_type is record address : bus_address_type; writeData : bus_data_type; writeMask : bus_write_mask; readEnable : std_logic; writeEnable : std_logic; end record; type bus_mst2slv_array is array (natural range <>) of bus_mst2slv_type; type bus_slv2mst_type is record readData : bus_data_type; ack : std_logic; fault : std_logic; end record; type bus_slv2mst_array is array (natural range <>) of bus_slv2mst_type; type addr_range_type is record low : bus_address_type; high : bus_address_type; end record; type addr_range_and_mapping_type is record addr_range : addr_range_type; mapping : addrMapping_type; end record; type addr_range_and_mapping_array is array (natural range <>) of addr_range_and_mapping_type; constant BUS_MST2SLV_IDLE : bus_mst2slv_type := ( address => (others => '0'), writeData => (others => '0'), writeMask => (others => '0'), readEnable => '0', writeEnable => '0' ); constant BUS_SLV2MST_IDLE : bus_slv2mst_type := ( readData => (others => '0'), ack => '0', fault => '0' ); -- Returns true when the specified master is requesting something. function bus_requesting( b : bus_mst2slv_type ) return std_logic; function bus_slave_finished( b : bus_slv2mst_type ) return std_logic; function bus_addr_in_range( addr : bus_address_type; addr_range : addr_range_type ) return boolean; -- Mapping functions function bus_map_range( high : natural; low : natural ) return bitMapping_array; function bus_map_constant( count : natural; value : std_logic ) return bitMapping_array; function address_range_and_map ( low : bus_address_type := (others => '0'); high : bus_address_type := (others => '1'); mapping : addrMapping_type := bus_map_range(bus_address_type'high, 0) ) return addr_range_and_mapping_type; function bus_apply_addr_map( addr : bus_address_type; addrMap : addrMapping_type ) return bus_address_type; end bus_pkg; package body bus_pkg is function bus_requesting( b : bus_mst2slv_type ) return std_logic is begin return b.readEnable or b.writeEnable; end bus_requesting; function bus_slave_finished( b : bus_slv2mst_type ) return std_logic is begin return b.ack or b.fault; end bus_slave_finished; function bus_addr_in_range ( addr : bus_address_type; addr_range : addr_range_type ) return boolean is begin return unsigned(addr) >= unsigned(addr_range.low) and unsigned(addr) <= unsigned(addr_range.high); end bus_addr_in_range; function bus_map_range( high : natural; low : natural ) return bitMapping_array is variable res : bitMapping_array(high-low downto 0); begin for i in res'range loop res(i) := i + low; end loop; return res; end bus_map_range; function bus_map_constant( count : natural; value : std_logic ) return bitMapping_array is variable res : bitMapping_array(count-1 downto 0); begin if value = '1' then res := (others => -2); -- Code for '1'. else res := (others => -1); -- Code for '0'. end if; return res; end bus_map_constant; function address_range_and_map ( low : bus_address_type := (others => '0'); high : bus_address_type := (others => '1'); mapping : addrMapping_type := bus_map_range(bus_address_type'high, 0) ) return addr_range_and_mapping_type is variable retval : addr_range_and_mapping_type; begin retval.addr_range := ( low => low, high => high ); retval.mapping := mapping; return retval; end address_range_and_map; function bus_apply_addr_map( addr : bus_address_type; addrMap : addrMapping_type ) return bus_address_type is variable res : bus_address_type; begin for i in res'range loop if addrMap(i) = -2 then -- Code for '1'. res(i) := '1'; elsif addrMap(i) = -1 then -- Code for '0'. res(i) := '0'; else res(i) := addr(addrMap(i)); end if; end loop; return res; end bus_apply_addr_map; end bus_pkg;
-------------------------------------------------------------------------------- -- -- -- CERN BE-CO-HT GN4124 core for PCIe FMC carrier -- -- http://www.ohwr.org/projects/gn4124-core -- -------------------------------------------------------------------------------- -- -- unit name: wishbone address decoder -- -- author: Matthieu Cattin (matthieu.cattin@cern.ch) -- -- date: 02-08-2011 -- -- version: 0.1 -- -- description: Provides a simple wishbone address decoder. -- Splits the memory windows into equal parts. -- -- dependencies: -- -------------------------------------------------------------------------------- -- GNU LESSER GENERAL PUBLIC LICENSE -------------------------------------------------------------------------------- -- 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.gnu.org/licenses/lgpl-2.1.html -------------------------------------------------------------------------------- -- last changes: -------------------------------------------------------------------------------- -- TODO: -------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.all; use IEEE.NUMERIC_STD.all; use work.gn4124_core_pkg.all; entity wb_addr_decoder is generic ( g_WINDOW_SIZE : integer := 18; -- Number of bits to address periph on the board (32-bit word address) g_WB_SLAVES_NB : integer := 2 ); port ( --------------------------------------------------------- -- GN4124 core clock and reset clk_i : in std_logic; rst_n_i : in std_logic; --------------------------------------------------------- -- wishbone master interface wbm_adr_i : in std_logic_vector(31 downto 0); -- Address wbm_dat_i : in std_logic_vector(31 downto 0); -- Data out wbm_sel_i : in std_logic_vector(3 downto 0); -- Byte select wbm_stb_i : in std_logic; -- Strobe wbm_we_i : in std_logic; -- Write wbm_cyc_i : in std_logic; -- Cycle wbm_dat_o : out std_logic_vector(31 downto 0); -- Data in wbm_ack_o : out std_logic; -- Acknowledge wbm_stall_o : out std_logic; -- Stall --------------------------------------------------------- -- wishbone slaves interface wb_adr_o : out std_logic_vector(31 downto 0); -- Address wb_dat_o : out std_logic_vector(31 downto 0); -- Data out wb_sel_o : out std_logic_vector(3 downto 0); -- Byte select wb_stb_o : out std_logic; -- Strobe wb_we_o : out std_logic; -- Write wb_cyc_o : out std_logic_vector(g_WB_SLAVES_NB-1 downto 0); -- Cycle wb_dat_i : in std_logic_vector((32*g_WB_SLAVES_NB)-1 downto 0); -- Data in wb_ack_i : in std_logic_vector(g_WB_SLAVES_NB-1 downto 0); -- Acknowledge wb_stall_i : in std_logic_vector(g_WB_SLAVES_NB-1 downto 0) -- Stall ); end wb_addr_decoder; architecture behaviour of wb_addr_decoder is ----------------------------------------------------------------------------- -- Constants declaration ----------------------------------------------------------------------------- ----------------------------------------------------------------------------- -- Signals declaration ----------------------------------------------------------------------------- -- Wishbone signal s_wb_periph_addr : std_logic_vector(log2_ceil(g_WB_SLAVES_NB)-1 downto 0); signal wb_periph_addr : std_logic_vector(log2_ceil(g_WB_SLAVES_NB)-1 downto 0); signal s_wb_periph_select : std_logic_vector((2**s_wb_periph_addr'length)-1 downto 0); signal s_wb_ack_muxed : std_logic; signal wb_ack_t : std_logic; signal s_wb_dat_i_muxed : std_logic_vector(31 downto 0); signal s_wb_cyc_demuxed : std_logic_vector(g_WB_SLAVES_NB-1 downto 0); signal wb_adr_t : std_logic_vector(g_WINDOW_SIZE-log2_ceil(g_WB_SLAVES_NB)-1 downto 0); begin ------------------------------------------------------------------------------ -- Wishbone master address decoding ------------------------------------------------------------------------------ -- Take the first N bits of the address to select the active wb peripheral -- g_WINDOW_SIZE represents 32-bit word address window s_wb_periph_addr <= wbm_adr_i(g_WINDOW_SIZE-1 downto g_WINDOW_SIZE-log2_ceil(g_WB_SLAVES_NB)); ----------------------------------------------------------------------------- -- One-hot decode function, s_wb_periph_select <= onehot_decode(s_wb_periph_addr); ----------------------------------------------------------------------------- onehot_decode : process(s_wb_periph_addr) variable v_onehot : std_logic_vector((2**s_wb_periph_addr'length)-1 downto 0); variable v_index : integer range 0 to (2**s_wb_periph_addr'length)-1; begin v_onehot := (others => '0'); v_index := 0; for i in s_wb_periph_addr'range loop if (s_wb_periph_addr(i) = '1') then v_index := 2*v_index+1; else v_index := 2*v_index; end if; end loop; v_onehot(v_index) := '1'; s_wb_periph_select <= v_onehot; end process onehot_decode; -- Register multiplexed ack and data + periph address p_wb_in_regs : process (clk_i, rst_n_i) begin if (rst_n_i = c_RST_ACTIVE) then wb_periph_addr <= (others => '0'); wbm_dat_o <= (others => '0'); wb_ack_t <= '0'; elsif rising_edge(clk_i) then wb_periph_addr <= s_wb_periph_addr; wbm_dat_o <= s_wb_dat_i_muxed; wb_ack_t <= s_wb_ack_muxed; end if; end process p_wb_in_regs; wbm_ack_o <= wb_ack_t; -- Select ack line of the active peripheral p_ack_mux : process (wb_ack_i, wb_periph_addr) begin if (to_integer(unsigned(wb_periph_addr)) < g_WB_SLAVES_NB) then s_wb_ack_muxed <= wb_ack_i(to_integer(unsigned(wb_periph_addr))); else s_wb_ack_muxed <= '0'; end if; end process p_ack_mux; -- Select stall line of the active peripheral p_stall_mux : process (wb_stall_i, s_wb_periph_addr) begin if (to_integer(unsigned(s_wb_periph_addr)) < g_WB_SLAVES_NB) then wbm_stall_o <= wb_stall_i(to_integer(unsigned(s_wb_periph_addr))); else wbm_stall_o <= '0'; end if; end process p_stall_mux; -- Select input data of the active peripheral p_din_mux : process (wb_dat_i, wb_periph_addr) begin if (to_integer(unsigned(wb_periph_addr)) < g_WB_SLAVES_NB) then s_wb_dat_i_muxed <= wb_dat_i(31+(32*to_integer(unsigned(wb_periph_addr))) downto 32*to_integer(unsigned(wb_periph_addr))); else s_wb_dat_i_muxed <= (others => 'X'); end if; end process p_din_mux; -- Assert the cyc line of the selected peripheral gen_cyc_demux : for i in 0 to g_WB_SLAVES_NB-1 generate s_wb_cyc_demuxed(i) <= wbm_cyc_i and s_wb_periph_select(i) and not(wb_ack_t); end generate gen_cyc_demux; -- Slaves wishbone bus outputs wb_dat_o <= wbm_dat_i; wb_stb_o <= wbm_stb_i; wb_we_o <= wbm_we_i; wb_sel_o <= wbm_sel_i; wb_cyc_o <= s_wb_cyc_demuxed; -- extend address bus to 32-bit wb_adr_t <= wbm_adr_i(g_WINDOW_SIZE-log2_ceil(g_WB_SLAVES_NB)-1 downto 0); wb_adr_o(wb_adr_t'left downto 0) <= wb_adr_t; wb_adr_o(31 downto wb_adr_t'left+1) <= (others => '0'); end behaviour;
-------------------------------------------------------------------------------- -- -- -- CERN BE-CO-HT GN4124 core for PCIe FMC carrier -- -- http://www.ohwr.org/projects/gn4124-core -- -------------------------------------------------------------------------------- -- -- unit name: wishbone address decoder -- -- author: Matthieu Cattin (matthieu.cattin@cern.ch) -- -- date: 02-08-2011 -- -- version: 0.1 -- -- description: Provides a simple wishbone address decoder. -- Splits the memory windows into equal parts. -- -- dependencies: -- -------------------------------------------------------------------------------- -- GNU LESSER GENERAL PUBLIC LICENSE -------------------------------------------------------------------------------- -- 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.gnu.org/licenses/lgpl-2.1.html -------------------------------------------------------------------------------- -- last changes: -------------------------------------------------------------------------------- -- TODO: -------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.all; use IEEE.NUMERIC_STD.all; use work.gn4124_core_pkg.all; entity wb_addr_decoder is generic ( g_WINDOW_SIZE : integer := 18; -- Number of bits to address periph on the board (32-bit word address) g_WB_SLAVES_NB : integer := 2 ); port ( --------------------------------------------------------- -- GN4124 core clock and reset clk_i : in std_logic; rst_n_i : in std_logic; --------------------------------------------------------- -- wishbone master interface wbm_adr_i : in std_logic_vector(31 downto 0); -- Address wbm_dat_i : in std_logic_vector(31 downto 0); -- Data out wbm_sel_i : in std_logic_vector(3 downto 0); -- Byte select wbm_stb_i : in std_logic; -- Strobe wbm_we_i : in std_logic; -- Write wbm_cyc_i : in std_logic; -- Cycle wbm_dat_o : out std_logic_vector(31 downto 0); -- Data in wbm_ack_o : out std_logic; -- Acknowledge wbm_stall_o : out std_logic; -- Stall --------------------------------------------------------- -- wishbone slaves interface wb_adr_o : out std_logic_vector(31 downto 0); -- Address wb_dat_o : out std_logic_vector(31 downto 0); -- Data out wb_sel_o : out std_logic_vector(3 downto 0); -- Byte select wb_stb_o : out std_logic; -- Strobe wb_we_o : out std_logic; -- Write wb_cyc_o : out std_logic_vector(g_WB_SLAVES_NB-1 downto 0); -- Cycle wb_dat_i : in std_logic_vector((32*g_WB_SLAVES_NB)-1 downto 0); -- Data in wb_ack_i : in std_logic_vector(g_WB_SLAVES_NB-1 downto 0); -- Acknowledge wb_stall_i : in std_logic_vector(g_WB_SLAVES_NB-1 downto 0) -- Stall ); end wb_addr_decoder; architecture behaviour of wb_addr_decoder is ----------------------------------------------------------------------------- -- Constants declaration ----------------------------------------------------------------------------- ----------------------------------------------------------------------------- -- Signals declaration ----------------------------------------------------------------------------- -- Wishbone signal s_wb_periph_addr : std_logic_vector(log2_ceil(g_WB_SLAVES_NB)-1 downto 0); signal wb_periph_addr : std_logic_vector(log2_ceil(g_WB_SLAVES_NB)-1 downto 0); signal s_wb_periph_select : std_logic_vector((2**s_wb_periph_addr'length)-1 downto 0); signal s_wb_ack_muxed : std_logic; signal wb_ack_t : std_logic; signal s_wb_dat_i_muxed : std_logic_vector(31 downto 0); signal s_wb_cyc_demuxed : std_logic_vector(g_WB_SLAVES_NB-1 downto 0); signal wb_adr_t : std_logic_vector(g_WINDOW_SIZE-log2_ceil(g_WB_SLAVES_NB)-1 downto 0); begin ------------------------------------------------------------------------------ -- Wishbone master address decoding ------------------------------------------------------------------------------ -- Take the first N bits of the address to select the active wb peripheral -- g_WINDOW_SIZE represents 32-bit word address window s_wb_periph_addr <= wbm_adr_i(g_WINDOW_SIZE-1 downto g_WINDOW_SIZE-log2_ceil(g_WB_SLAVES_NB)); ----------------------------------------------------------------------------- -- One-hot decode function, s_wb_periph_select <= onehot_decode(s_wb_periph_addr); ----------------------------------------------------------------------------- onehot_decode : process(s_wb_periph_addr) variable v_onehot : std_logic_vector((2**s_wb_periph_addr'length)-1 downto 0); variable v_index : integer range 0 to (2**s_wb_periph_addr'length)-1; begin v_onehot := (others => '0'); v_index := 0; for i in s_wb_periph_addr'range loop if (s_wb_periph_addr(i) = '1') then v_index := 2*v_index+1; else v_index := 2*v_index; end if; end loop; v_onehot(v_index) := '1'; s_wb_periph_select <= v_onehot; end process onehot_decode; -- Register multiplexed ack and data + periph address p_wb_in_regs : process (clk_i, rst_n_i) begin if (rst_n_i = c_RST_ACTIVE) then wb_periph_addr <= (others => '0'); wbm_dat_o <= (others => '0'); wb_ack_t <= '0'; elsif rising_edge(clk_i) then wb_periph_addr <= s_wb_periph_addr; wbm_dat_o <= s_wb_dat_i_muxed; wb_ack_t <= s_wb_ack_muxed; end if; end process p_wb_in_regs; wbm_ack_o <= wb_ack_t; -- Select ack line of the active peripheral p_ack_mux : process (wb_ack_i, wb_periph_addr) begin if (to_integer(unsigned(wb_periph_addr)) < g_WB_SLAVES_NB) then s_wb_ack_muxed <= wb_ack_i(to_integer(unsigned(wb_periph_addr))); else s_wb_ack_muxed <= '0'; end if; end process p_ack_mux; -- Select stall line of the active peripheral p_stall_mux : process (wb_stall_i, s_wb_periph_addr) begin if (to_integer(unsigned(s_wb_periph_addr)) < g_WB_SLAVES_NB) then wbm_stall_o <= wb_stall_i(to_integer(unsigned(s_wb_periph_addr))); else wbm_stall_o <= '0'; end if; end process p_stall_mux; -- Select input data of the active peripheral p_din_mux : process (wb_dat_i, wb_periph_addr) begin if (to_integer(unsigned(wb_periph_addr)) < g_WB_SLAVES_NB) then s_wb_dat_i_muxed <= wb_dat_i(31+(32*to_integer(unsigned(wb_periph_addr))) downto 32*to_integer(unsigned(wb_periph_addr))); else s_wb_dat_i_muxed <= (others => 'X'); end if; end process p_din_mux; -- Assert the cyc line of the selected peripheral gen_cyc_demux : for i in 0 to g_WB_SLAVES_NB-1 generate s_wb_cyc_demuxed(i) <= wbm_cyc_i and s_wb_periph_select(i) and not(wb_ack_t); end generate gen_cyc_demux; -- Slaves wishbone bus outputs wb_dat_o <= wbm_dat_i; wb_stb_o <= wbm_stb_i; wb_we_o <= wbm_we_i; wb_sel_o <= wbm_sel_i; wb_cyc_o <= s_wb_cyc_demuxed; -- extend address bus to 32-bit wb_adr_t <= wbm_adr_i(g_WINDOW_SIZE-log2_ceil(g_WB_SLAVES_NB)-1 downto 0); wb_adr_o(wb_adr_t'left downto 0) <= wb_adr_t; wb_adr_o(31 downto wb_adr_t'left+1) <= (others => '0'); end behaviour;
-- ============================================================== -- RTL generated by Vivado(TM) HLS - High-Level Synthesis from C, C++ and SystemC -- Version: 2018.2 -- Copyright (C) 1986-2018 Xilinx, Inc. All Rights Reserved. -- -- =========================================================== library IEEE; use IEEE.std_logic_1164.all; use IEEE.numeric_std.all; entity Resize_opr_linear is port ( ap_clk : IN STD_LOGIC; ap_rst : IN STD_LOGIC; ap_start : IN STD_LOGIC; ap_done : OUT STD_LOGIC; ap_idle : OUT STD_LOGIC; ap_ready : OUT STD_LOGIC; p_src_rows_V_read : IN STD_LOGIC_VECTOR (31 downto 0); p_src_cols_V_read : IN STD_LOGIC_VECTOR (31 downto 0); p_src_data_stream_0_V_dout : IN STD_LOGIC_VECTOR (7 downto 0); p_src_data_stream_0_V_empty_n : IN STD_LOGIC; p_src_data_stream_0_V_read : OUT STD_LOGIC; p_src_data_stream_1_V_dout : IN STD_LOGIC_VECTOR (7 downto 0); p_src_data_stream_1_V_empty_n : IN STD_LOGIC; p_src_data_stream_1_V_read : OUT STD_LOGIC; p_src_data_stream_2_V_dout : IN STD_LOGIC_VECTOR (7 downto 0); p_src_data_stream_2_V_empty_n : IN STD_LOGIC; p_src_data_stream_2_V_read : OUT STD_LOGIC; p_dst_rows_V_read : IN STD_LOGIC_VECTOR (31 downto 0); p_dst_cols_V_read : IN STD_LOGIC_VECTOR (31 downto 0); p_dst_data_stream_0_V_din : OUT STD_LOGIC_VECTOR (7 downto 0); p_dst_data_stream_0_V_full_n : IN STD_LOGIC; p_dst_data_stream_0_V_write : OUT STD_LOGIC; p_dst_data_stream_1_V_din : OUT STD_LOGIC_VECTOR (7 downto 0); p_dst_data_stream_1_V_full_n : IN STD_LOGIC; p_dst_data_stream_1_V_write : OUT STD_LOGIC; p_dst_data_stream_2_V_din : OUT STD_LOGIC_VECTOR (7 downto 0); p_dst_data_stream_2_V_full_n : IN STD_LOGIC; p_dst_data_stream_2_V_write : OUT STD_LOGIC ); end; architecture behav of Resize_opr_linear is constant ap_const_logic_1 : STD_LOGIC := '1'; constant ap_const_logic_0 : STD_LOGIC := '0'; constant ap_ST_fsm_state1 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000000000000000000000000001"; constant ap_ST_fsm_state2 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000000000000000000000000010"; constant ap_ST_fsm_state3 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000000000000000000000000100"; constant ap_ST_fsm_state4 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000000000000000000000001000"; constant ap_ST_fsm_state5 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000000000000000000000010000"; constant ap_ST_fsm_state6 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000000000000000000000100000"; constant ap_ST_fsm_state7 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000000000000000000001000000"; constant ap_ST_fsm_state8 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000000000000000000010000000"; constant ap_ST_fsm_state9 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000000000000000000100000000"; constant ap_ST_fsm_state10 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000000000000000001000000000"; constant ap_ST_fsm_state11 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000000000000000010000000000"; constant ap_ST_fsm_state12 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000000000000000100000000000"; constant ap_ST_fsm_state13 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000000000000001000000000000"; constant ap_ST_fsm_state14 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000000000000010000000000000"; constant ap_ST_fsm_state15 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000000000000100000000000000"; constant ap_ST_fsm_state16 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000000000001000000000000000"; constant ap_ST_fsm_state17 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000000000010000000000000000"; constant ap_ST_fsm_state18 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000000000100000000000000000"; constant ap_ST_fsm_state19 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000000001000000000000000000"; constant ap_ST_fsm_state20 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000000010000000000000000000"; constant ap_ST_fsm_state21 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000000100000000000000000000"; constant ap_ST_fsm_state22 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000001000000000000000000000"; constant ap_ST_fsm_state23 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000010000000000000000000000"; constant ap_ST_fsm_state24 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000100000000000000000000000"; constant ap_ST_fsm_state25 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000001000000000000000000000000"; constant ap_ST_fsm_state26 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000010000000000000000000000000"; constant ap_ST_fsm_state27 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000100000000000000000000000000"; constant ap_ST_fsm_state28 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000001000000000000000000000000000"; constant ap_ST_fsm_state29 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000010000000000000000000000000000"; constant ap_ST_fsm_state30 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000100000000000000000000000000000"; constant ap_ST_fsm_state31 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000001000000000000000000000000000000"; constant ap_ST_fsm_state32 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000010000000000000000000000000000000"; constant ap_ST_fsm_state33 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000100000000000000000000000000000000"; constant ap_ST_fsm_state34 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000001000000000000000000000000000000000"; constant ap_ST_fsm_state35 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000010000000000000000000000000000000000"; constant ap_ST_fsm_state36 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000100000000000000000000000000000000000"; constant ap_ST_fsm_state37 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000001000000000000000000000000000000000000"; constant ap_ST_fsm_state38 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000010000000000000000000000000000000000000"; constant ap_ST_fsm_state39 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000100000000000000000000000000000000000000"; constant ap_ST_fsm_state40 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000001000000000000000000000000000000000000000"; constant ap_ST_fsm_state41 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000010000000000000000000000000000000000000000"; constant ap_ST_fsm_state42 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000100000000000000000000000000000000000000000"; constant ap_ST_fsm_state43 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000001000000000000000000000000000000000000000000"; constant ap_ST_fsm_state44 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000010000000000000000000000000000000000000000000"; constant ap_ST_fsm_state45 : STD_LOGIC_VECTOR (56 downto 0) := "000000000000100000000000000000000000000000000000000000000"; constant ap_ST_fsm_state46 : STD_LOGIC_VECTOR (56 downto 0) := "000000000001000000000000000000000000000000000000000000000"; constant ap_ST_fsm_state47 : STD_LOGIC_VECTOR (56 downto 0) := "000000000010000000000000000000000000000000000000000000000"; constant ap_ST_fsm_state48 : STD_LOGIC_VECTOR (56 downto 0) := "000000000100000000000000000000000000000000000000000000000"; constant ap_ST_fsm_state49 : STD_LOGIC_VECTOR (56 downto 0) := "000000001000000000000000000000000000000000000000000000000"; constant ap_ST_fsm_state50 : STD_LOGIC_VECTOR (56 downto 0) := "000000010000000000000000000000000000000000000000000000000"; constant ap_ST_fsm_state51 : STD_LOGIC_VECTOR (56 downto 0) := "000000100000000000000000000000000000000000000000000000000"; constant ap_ST_fsm_state52 : STD_LOGIC_VECTOR (56 downto 0) := "000001000000000000000000000000000000000000000000000000000"; constant ap_ST_fsm_state53 : STD_LOGIC_VECTOR (56 downto 0) := "000010000000000000000000000000000000000000000000000000000"; constant ap_ST_fsm_state54 : STD_LOGIC_VECTOR (56 downto 0) := "000100000000000000000000000000000000000000000000000000000"; constant ap_ST_fsm_state55 : STD_LOGIC_VECTOR (56 downto 0) := "001000000000000000000000000000000000000000000000000000000"; constant ap_ST_fsm_pp0_stage0 : STD_LOGIC_VECTOR (56 downto 0) := "010000000000000000000000000000000000000000000000000000000"; constant ap_ST_fsm_state109 : STD_LOGIC_VECTOR (56 downto 0) := "100000000000000000000000000000000000000000000000000000000"; constant ap_const_boolean_1 : BOOLEAN := true; constant ap_const_lv32_0 : STD_LOGIC_VECTOR (31 downto 0) := "00000000000000000000000000000000"; constant ap_const_boolean_0 : BOOLEAN := false; constant ap_const_lv1_1 : STD_LOGIC_VECTOR (0 downto 0) := "1"; constant ap_const_lv32_33 : STD_LOGIC_VECTOR (31 downto 0) := "00000000000000000000000000110011"; constant ap_const_lv32_34 : STD_LOGIC_VECTOR (31 downto 0) := "00000000000000000000000000110100"; constant ap_const_lv32_35 : STD_LOGIC_VECTOR (31 downto 0) := "00000000000000000000000000110101"; constant ap_const_lv32_36 : STD_LOGIC_VECTOR (31 downto 0) := "00000000000000000000000000110110"; constant ap_const_lv32_37 : STD_LOGIC_VECTOR (31 downto 0) := "00000000000000000000000000110111"; constant ap_const_lv1_0 : STD_LOGIC_VECTOR (0 downto 0) := "0"; constant ap_const_lv15_0 : STD_LOGIC_VECTOR (14 downto 0) := "000000000000000"; constant ap_const_lv32_38 : STD_LOGIC_VECTOR (31 downto 0) := "00000000000000000000000000111000"; constant ap_const_lv16_FFF6 : STD_LOGIC_VECTOR (15 downto 0) := "1111111111110110"; constant ap_const_lv16_0 : STD_LOGIC_VECTOR (15 downto 0) := "0000000000000000"; constant ap_const_lv32_1 : STD_LOGIC_VECTOR (31 downto 0) := "00000000000000000000000000000001"; constant ap_const_lv32_10 : STD_LOGIC_VECTOR (31 downto 0) := "00000000000000000000000000010000"; constant ap_const_lv32_1F : STD_LOGIC_VECTOR (31 downto 0) := "00000000000000000000000000011111"; constant ap_const_lv33_1FFFF8000 : STD_LOGIC_VECTOR (32 downto 0) := "111111111111111111000000000000000"; constant ap_const_lv26_3FF8000 : STD_LOGIC_VECTOR (25 downto 0) := "11111111111000000000000000"; constant ap_const_lv32_6 : STD_LOGIC_VECTOR (31 downto 0) := "00000000000000000000000000000110"; constant ap_const_lv32_19 : STD_LOGIC_VECTOR (31 downto 0) := "00000000000000000000000000011001"; constant ap_const_lv32_5 : STD_LOGIC_VECTOR (31 downto 0) := "00000000000000000000000000000101"; constant ap_const_lv16_1 : STD_LOGIC_VECTOR (15 downto 0) := "0000000000000001"; constant ap_const_lv17_1FFFF : STD_LOGIC_VECTOR (16 downto 0) := "11111111111111111"; constant ap_const_lv16_FFFF : STD_LOGIC_VECTOR (15 downto 0) := "1111111111111111"; constant ap_const_lv32_10000 : STD_LOGIC_VECTOR (31 downto 0) := "00000000000000010000000000000000"; constant ap_const_lv6_0 : STD_LOGIC_VECTOR (5 downto 0) := "000000"; constant ap_const_lv15_1 : STD_LOGIC_VECTOR (14 downto 0) := "000000000000001"; constant ap_const_lv33_0 : STD_LOGIC_VECTOR (32 downto 0) := "000000000000000000000000000000000"; constant ap_const_lv2_0 : STD_LOGIC_VECTOR (1 downto 0) := "00"; constant ap_const_lv20_0 : STD_LOGIC_VECTOR (19 downto 0) := "00000000000000000000"; constant ap_const_lv20_40000 : STD_LOGIC_VECTOR (19 downto 0) := "01000000000000000000"; constant ap_const_lv32_2F : STD_LOGIC_VECTOR (31 downto 0) := "00000000000000000000000000101111"; constant ap_const_lv32_24 : STD_LOGIC_VECTOR (31 downto 0) := "00000000000000000000000000100100"; constant ap_const_lv32_2B : STD_LOGIC_VECTOR (31 downto 0) := "00000000000000000000000000101011"; constant ap_const_lv32_23 : STD_LOGIC_VECTOR (31 downto 0) := "00000000000000000000000000100011"; constant ap_const_lv32_2C : STD_LOGIC_VECTOR (31 downto 0) := "00000000000000000000000000101100"; constant ap_const_lv32_7 : STD_LOGIC_VECTOR (31 downto 0) := "00000000000000000000000000000111"; constant ap_const_lv4_F : STD_LOGIC_VECTOR (3 downto 0) := "1111"; constant ap_const_lv4_0 : STD_LOGIC_VECTOR (3 downto 0) := "0000"; constant ap_const_lv8_FF : STD_LOGIC_VECTOR (7 downto 0) := "11111111"; constant ap_const_lv8_0 : STD_LOGIC_VECTOR (7 downto 0) := "00000000"; signal ap_CS_fsm : STD_LOGIC_VECTOR (56 downto 0) := "000000000000000000000000000000000000000000000000000000001"; attribute fsm_encoding : string; attribute fsm_encoding of ap_CS_fsm : signal is "none"; signal ap_CS_fsm_state1 : STD_LOGIC; attribute fsm_encoding of ap_CS_fsm_state1 : signal is "none"; signal p_src_data_stream_0_V_blk_n : STD_LOGIC; signal ap_enable_reg_pp0_iter42 : STD_LOGIC := '0'; signal ap_block_pp0_stage0 : BOOLEAN; signal tmp_31_reg_2851 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter41_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_rd_2_reg_3006 : STD_LOGIC_VECTOR (0 downto 0); signal row_rd_5_reg_3002 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_53_reg_3065 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_55_reg_3069 : STD_LOGIC_VECTOR (0 downto 0); signal p_src_data_stream_1_V_blk_n : STD_LOGIC; signal p_src_data_stream_2_V_blk_n : STD_LOGIC; signal p_dst_data_stream_0_V_blk_n : STD_LOGIC; signal ap_enable_reg_pp0_iter52 : STD_LOGIC := '0'; signal brmerge_demorgan_reg_3077 : STD_LOGIC_VECTOR (0 downto 0); signal brmerge_demorgan_reg_3077_pp0_iter51_reg : STD_LOGIC_VECTOR (0 downto 0); signal p_dst_data_stream_1_V_blk_n : STD_LOGIC; signal p_dst_data_stream_2_V_blk_n : STD_LOGIC; signal p_Val2_17_reg_546 : STD_LOGIC_VECTOR (14 downto 0); signal dcols_fu_650_p1 : STD_LOGIC_VECTOR (15 downto 0); signal dcols_reg_2655 : STD_LOGIC_VECTOR (15 downto 0); signal drows_fu_654_p1 : STD_LOGIC_VECTOR (15 downto 0); signal drows_reg_2661 : STD_LOGIC_VECTOR (15 downto 0); signal srows_fu_658_p1 : STD_LOGIC_VECTOR (15 downto 0); signal srows_reg_2667 : STD_LOGIC_VECTOR (15 downto 0); signal scols_fu_662_p1 : STD_LOGIC_VECTOR (15 downto 0); signal scols_reg_2675 : STD_LOGIC_VECTOR (15 downto 0); signal row_rate_V_fu_739_p1 : STD_LOGIC_VECTOR (31 downto 0); signal row_rate_V_reg_2703 : STD_LOGIC_VECTOR (31 downto 0); signal ap_CS_fsm_state52 : STD_LOGIC; attribute fsm_encoding of ap_CS_fsm_state52 : signal is "none"; signal col_rate_V_fu_743_p1 : STD_LOGIC_VECTOR (31 downto 0); signal col_rate_V_reg_2711 : STD_LOGIC_VECTOR (31 downto 0); signal tmp_54_reg_2719 : STD_LOGIC_VECTOR (0 downto 0); signal p_lshr_f_reg_2724 : STD_LOGIC_VECTOR (30 downto 0); signal tmp_68_reg_2729 : STD_LOGIC_VECTOR (0 downto 0); signal p_lshr_f1_reg_2734 : STD_LOGIC_VECTOR (30 downto 0); signal tmp_10_fu_811_p3 : STD_LOGIC_VECTOR (31 downto 0); signal tmp_10_reg_2739 : STD_LOGIC_VECTOR (31 downto 0); signal ap_CS_fsm_state53 : STD_LOGIC; attribute fsm_encoding of ap_CS_fsm_state53 : signal is "none"; signal tmp_65_fu_818_p1 : STD_LOGIC_VECTOR (25 downto 0); signal tmp_65_reg_2744 : STD_LOGIC_VECTOR (25 downto 0); signal tmp_14_fu_850_p3 : STD_LOGIC_VECTOR (31 downto 0); signal tmp_14_reg_2749 : STD_LOGIC_VECTOR (31 downto 0); signal tmp_69_fu_857_p1 : STD_LOGIC_VECTOR (25 downto 0); signal tmp_69_reg_2754 : STD_LOGIC_VECTOR (25 downto 0); signal rows_fu_960_p3 : STD_LOGIC_VECTOR (15 downto 0); signal rows_reg_2759 : STD_LOGIC_VECTOR (15 downto 0); signal ap_CS_fsm_state54 : STD_LOGIC; attribute fsm_encoding of ap_CS_fsm_state54 : signal is "none"; signal cols_fu_976_p3 : STD_LOGIC_VECTOR (15 downto 0); signal cols_reg_2764 : STD_LOGIC_VECTOR (15 downto 0); signal tmp_21_fu_983_p2 : STD_LOGIC_VECTOR (16 downto 0); signal tmp_21_reg_2769 : STD_LOGIC_VECTOR (16 downto 0); signal sx_fu_989_p2 : STD_LOGIC_VECTOR (15 downto 0); signal sx_reg_2776 : STD_LOGIC_VECTOR (15 downto 0); signal tmp_22_fu_994_p2 : STD_LOGIC_VECTOR (16 downto 0); signal tmp_22_reg_2781 : STD_LOGIC_VECTOR (16 downto 0); signal sy_fu_1000_p2 : STD_LOGIC_VECTOR (15 downto 0); signal sy_reg_2787 : STD_LOGIC_VECTOR (15 downto 0); signal tmp_23_fu_1005_p2 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_23_reg_2792 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_24_fu_1010_p2 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_24_reg_2797 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_59_cast_fu_1023_p1 : STD_LOGIC_VECTOR (31 downto 0); signal tmp_59_cast_reg_2804 : STD_LOGIC_VECTOR (31 downto 0); signal tmp_61_cast_fu_1035_p1 : STD_LOGIC_VECTOR (31 downto 0); signal tmp_61_cast_reg_2809 : STD_LOGIC_VECTOR (31 downto 0); signal tmp_27_fu_1043_p2 : STD_LOGIC_VECTOR (0 downto 0); signal ap_CS_fsm_state55 : STD_LOGIC; attribute fsm_encoding of ap_CS_fsm_state55 : signal is "none"; signal i_fu_1048_p2 : STD_LOGIC_VECTOR (14 downto 0); signal i_reg_2818 : STD_LOGIC_VECTOR (14 downto 0); signal tmp_28_fu_1054_p2 : STD_LOGIC_VECTOR (15 downto 0); signal tmp_28_reg_2823 : STD_LOGIC_VECTOR (15 downto 0); signal tmp_29_fu_1060_p2 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_29_reg_2829 : STD_LOGIC_VECTOR (0 downto 0); signal row_wr_2_fu_1066_p2 : STD_LOGIC_VECTOR (0 downto 0); signal row_wr_2_reg_2835 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_49_cast_fu_1080_p1 : STD_LOGIC_VECTOR (31 downto 0); signal tmp_49_cast_reg_2840 : STD_LOGIC_VECTOR (31 downto 0); signal i_op_assign_cast_fu_1084_p1 : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845 : STD_LOGIC_VECTOR (15 downto 0); signal ap_CS_fsm_pp0_stage0 : STD_LOGIC; attribute fsm_encoding of ap_CS_fsm_pp0_stage0 : signal is "none"; signal ap_block_state56_pp0_stage0_iter0 : BOOLEAN; signal ap_block_state57_pp0_stage0_iter1 : BOOLEAN; signal ap_block_state58_pp0_stage0_iter2 : BOOLEAN; signal ap_block_state59_pp0_stage0_iter3 : BOOLEAN; signal ap_block_state60_pp0_stage0_iter4 : BOOLEAN; signal ap_block_state61_pp0_stage0_iter5 : BOOLEAN; signal ap_block_state62_pp0_stage0_iter6 : BOOLEAN; signal ap_block_state63_pp0_stage0_iter7 : BOOLEAN; signal ap_block_state64_pp0_stage0_iter8 : BOOLEAN; signal ap_block_state65_pp0_stage0_iter9 : BOOLEAN; signal ap_block_state66_pp0_stage0_iter10 : BOOLEAN; signal ap_block_state67_pp0_stage0_iter11 : BOOLEAN; signal ap_block_state68_pp0_stage0_iter12 : BOOLEAN; signal ap_block_state69_pp0_stage0_iter13 : BOOLEAN; signal ap_block_state70_pp0_stage0_iter14 : BOOLEAN; signal ap_block_state71_pp0_stage0_iter15 : BOOLEAN; signal ap_block_state72_pp0_stage0_iter16 : BOOLEAN; signal ap_block_state73_pp0_stage0_iter17 : BOOLEAN; signal ap_block_state74_pp0_stage0_iter18 : BOOLEAN; signal ap_block_state75_pp0_stage0_iter19 : BOOLEAN; signal ap_block_state76_pp0_stage0_iter20 : BOOLEAN; signal ap_block_state77_pp0_stage0_iter21 : BOOLEAN; signal ap_block_state78_pp0_stage0_iter22 : BOOLEAN; signal ap_block_state79_pp0_stage0_iter23 : BOOLEAN; signal ap_block_state80_pp0_stage0_iter24 : BOOLEAN; signal ap_block_state81_pp0_stage0_iter25 : BOOLEAN; signal ap_block_state82_pp0_stage0_iter26 : BOOLEAN; signal ap_block_state83_pp0_stage0_iter27 : BOOLEAN; signal ap_block_state84_pp0_stage0_iter28 : BOOLEAN; signal ap_block_state85_pp0_stage0_iter29 : BOOLEAN; signal ap_block_state86_pp0_stage0_iter30 : BOOLEAN; signal ap_block_state87_pp0_stage0_iter31 : BOOLEAN; signal ap_block_state88_pp0_stage0_iter32 : BOOLEAN; signal ap_block_state89_pp0_stage0_iter33 : BOOLEAN; signal ap_block_state90_pp0_stage0_iter34 : BOOLEAN; signal ap_block_state91_pp0_stage0_iter35 : BOOLEAN; signal ap_block_state92_pp0_stage0_iter36 : BOOLEAN; signal ap_block_state93_pp0_stage0_iter37 : BOOLEAN; signal ap_block_state94_pp0_stage0_iter38 : BOOLEAN; signal ap_block_state95_pp0_stage0_iter39 : BOOLEAN; signal ap_block_state96_pp0_stage0_iter40 : BOOLEAN; signal ap_block_state97_pp0_stage0_iter41 : BOOLEAN; signal ap_predicate_op564_read_state98 : BOOLEAN; signal ap_block_state98_pp0_stage0_iter42 : BOOLEAN; signal ap_block_state99_pp0_stage0_iter43 : BOOLEAN; signal ap_block_state100_pp0_stage0_iter44 : BOOLEAN; signal ap_block_state101_pp0_stage0_iter45 : BOOLEAN; signal ap_block_state102_pp0_stage0_iter46 : BOOLEAN; signal ap_block_state103_pp0_stage0_iter47 : BOOLEAN; signal ap_block_state104_pp0_stage0_iter48 : BOOLEAN; signal ap_block_state105_pp0_stage0_iter49 : BOOLEAN; signal ap_block_state106_pp0_stage0_iter50 : BOOLEAN; signal ap_block_state107_pp0_stage0_iter51 : BOOLEAN; signal ap_block_state108_pp0_stage0_iter52 : BOOLEAN; signal ap_block_pp0_stage0_11001 : BOOLEAN; signal i_op_assign_cast_reg_2845_pp0_iter1_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter2_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter3_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter4_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter5_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter6_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter7_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter8_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter9_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter10_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter11_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter12_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter13_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter14_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter15_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter16_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter17_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter18_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter19_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter20_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter21_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter22_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter23_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter24_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter25_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter26_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter27_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter28_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter29_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter30_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter31_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter32_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter33_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter34_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter35_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter36_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter37_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter38_reg : STD_LOGIC_VECTOR (15 downto 0); signal i_op_assign_cast_reg_2845_pp0_iter39_reg : STD_LOGIC_VECTOR (15 downto 0); signal tmp_31_fu_1088_p2 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter1_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter2_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter3_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter4_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter5_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter6_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter7_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter8_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter9_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter10_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter11_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter12_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter13_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter14_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter15_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter16_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter17_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter18_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter19_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter20_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter21_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter22_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter23_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter24_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter25_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter26_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter27_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter28_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter29_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter30_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter31_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter32_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter33_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter34_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter35_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter36_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter37_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter38_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter39_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter40_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_31_reg_2851_pp0_iter42_reg : STD_LOGIC_VECTOR (0 downto 0); signal j_fu_1093_p2 : STD_LOGIC_VECTOR (14 downto 0); signal ap_enable_reg_pp0_iter0 : STD_LOGIC := '0'; signal tmp_50_fu_1120_p2 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter1_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter2_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter3_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter4_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter5_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter6_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter7_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter8_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter9_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter10_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter11_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter12_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter13_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter14_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter15_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter16_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter17_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter18_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter19_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter20_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter21_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter22_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter23_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter24_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter25_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter26_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter27_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter28_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter29_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter30_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter31_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter32_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter33_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter34_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter35_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter36_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter37_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter38_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter39_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_50_reg_2865_pp0_iter40_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_fu_1126_p2 : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877 : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter1_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter2_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter3_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter4_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter5_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter6_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter7_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter8_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter9_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter10_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter11_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter12_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter13_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter14_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter15_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter16_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter17_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter18_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter19_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter20_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter21_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter22_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter23_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter24_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter25_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter26_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter27_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter28_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter29_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter30_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter31_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter32_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter33_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter34_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter35_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter36_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter37_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter38_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter39_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_1_reg_2877_pp0_iter40_reg : STD_LOGIC_VECTOR (0 downto 0); signal grp_fu_1099_p2 : STD_LOGIC_VECTOR (15 downto 0); signal tmp_33_reg_2882 : STD_LOGIC_VECTOR (15 downto 0); signal grp_fu_1115_p2 : STD_LOGIC_VECTOR (15 downto 0); signal tmp_35_reg_2887 : STD_LOGIC_VECTOR (15 downto 0); signal tmp_71_fu_1132_p1 : STD_LOGIC_VECTOR (15 downto 0); signal tmp_36_fu_1135_p2 : STD_LOGIC_VECTOR (15 downto 0); signal tmp_72_fu_1140_p1 : STD_LOGIC_VECTOR (15 downto 0); signal grp_fu_1147_p2 : STD_LOGIC_VECTOR (31 downto 0); signal p_Val2_s_reg_2917 : STD_LOGIC_VECTOR (31 downto 0); signal grp_fu_1156_p2 : STD_LOGIC_VECTOR (31 downto 0); signal p_Val2_1_reg_2922 : STD_LOGIC_VECTOR (31 downto 0); signal p_Val2_3_fu_1161_p2 : STD_LOGIC_VECTOR (31 downto 0); signal p_Val2_3_reg_2927 : STD_LOGIC_VECTOR (31 downto 0); signal p_Val2_2_fu_1165_p2 : STD_LOGIC_VECTOR (31 downto 0); signal p_Val2_2_reg_2932 : STD_LOGIC_VECTOR (31 downto 0); signal sx_2_fu_1211_p3 : STD_LOGIC_VECTOR (15 downto 0); signal sx_2_reg_2937 : STD_LOGIC_VECTOR (15 downto 0); signal sy_3_fu_1261_p3 : STD_LOGIC_VECTOR (15 downto 0); signal sy_3_reg_2944 : STD_LOGIC_VECTOR (15 downto 0); signal tmp_41_fu_1289_p2 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_41_reg_2951 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_41_reg_2951_pp0_iter41_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_77_fu_1295_p1 : STD_LOGIC_VECTOR (17 downto 0); signal tmp_77_reg_2956 : STD_LOGIC_VECTOR (17 downto 0); signal tmp_77_reg_2956_pp0_iter41_reg : STD_LOGIC_VECTOR (17 downto 0); signal tmp_46_fu_1319_p2 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_46_reg_2961 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_46_reg_2961_pp0_iter41_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_46_reg_2961_pp0_iter42_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_78_fu_1325_p1 : STD_LOGIC_VECTOR (17 downto 0); signal tmp_78_reg_2966 : STD_LOGIC_VECTOR (17 downto 0); signal tmp_78_reg_2966_pp0_iter41_reg : STD_LOGIC_VECTOR (17 downto 0); signal tmp_78_reg_2966_pp0_iter42_reg : STD_LOGIC_VECTOR (17 downto 0); signal tmp_48_fu_1332_p2 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_48_reg_2971 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_48_reg_2971_pp0_iter41_reg : STD_LOGIC_VECTOR (0 downto 0); signal pre_fx_1_fu_1337_p3 : STD_LOGIC_VECTOR (15 downto 0); signal pre_fx_1_reg_2976 : STD_LOGIC_VECTOR (15 downto 0); signal tmp_49_fu_1346_p2 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_49_reg_2984 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_49_reg_2984_pp0_iter41_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_49_reg_2984_pp0_iter42_reg : STD_LOGIC_VECTOR (0 downto 0); signal sy_4_fu_1351_p3 : STD_LOGIC_VECTOR (15 downto 0); signal sy_4_reg_2989 : STD_LOGIC_VECTOR (15 downto 0); signal col_wr_fu_1362_p2 : STD_LOGIC_VECTOR (0 downto 0); signal col_wr_reg_2997 : STD_LOGIC_VECTOR (0 downto 0); signal row_rd_5_fu_1442_p3 : STD_LOGIC_VECTOR (0 downto 0); signal row_rd_5_reg_3002_pp0_iter42_reg : STD_LOGIC_VECTOR (0 downto 0); signal col_rd_2_fu_1486_p2 : STD_LOGIC_VECTOR (0 downto 0); signal col_rd_2_reg_3006_pp0_iter42_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_52_fu_1501_p1 : STD_LOGIC_VECTOR (63 downto 0); signal tmp_52_reg_3010 : STD_LOGIC_VECTOR (63 downto 0); signal tmp_52_reg_3010_pp0_iter42_reg : STD_LOGIC_VECTOR (63 downto 0); signal k_buf_val_val_0_0_ad_gep_fu_469_p3 : STD_LOGIC_VECTOR (12 downto 0); signal k_buf_val_val_0_0_ad_reg_3047 : STD_LOGIC_VECTOR (12 downto 0); signal k_buf_val_val_0_0_ad_reg_3047_pp0_iter42_reg : STD_LOGIC_VECTOR (12 downto 0); signal k_buf_val_val_0_1_ad_gep_fu_476_p3 : STD_LOGIC_VECTOR (12 downto 0); signal k_buf_val_val_0_1_ad_reg_3053 : STD_LOGIC_VECTOR (12 downto 0); signal k_buf_val_val_0_1_ad_reg_3053_pp0_iter42_reg : STD_LOGIC_VECTOR (12 downto 0); signal k_buf_val_val_0_2_ad_gep_fu_483_p3 : STD_LOGIC_VECTOR (12 downto 0); signal k_buf_val_val_0_2_ad_reg_3059 : STD_LOGIC_VECTOR (12 downto 0); signal k_buf_val_val_0_2_ad_reg_3059_pp0_iter42_reg : STD_LOGIC_VECTOR (12 downto 0); signal tmp_53_fu_1517_p2 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_53_reg_3065_pp0_iter42_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_55_fu_1525_p2 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_55_reg_3069_pp0_iter42_reg : STD_LOGIC_VECTOR (0 downto 0); signal tmp_56_fu_1533_p2 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_56_reg_3073 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_56_reg_3073_pp0_iter42_reg : STD_LOGIC_VECTOR (0 downto 0); signal brmerge_demorgan_fu_1549_p2 : STD_LOGIC_VECTOR (0 downto 0); signal brmerge_demorgan_reg_3077_pp0_iter42_reg : STD_LOGIC_VECTOR (0 downto 0); signal brmerge_demorgan_reg_3077_pp0_iter43_reg : STD_LOGIC_VECTOR (0 downto 0); signal brmerge_demorgan_reg_3077_pp0_iter44_reg : STD_LOGIC_VECTOR (0 downto 0); signal brmerge_demorgan_reg_3077_pp0_iter45_reg : STD_LOGIC_VECTOR (0 downto 0); signal brmerge_demorgan_reg_3077_pp0_iter46_reg : STD_LOGIC_VECTOR (0 downto 0); signal brmerge_demorgan_reg_3077_pp0_iter47_reg : STD_LOGIC_VECTOR (0 downto 0); signal brmerge_demorgan_reg_3077_pp0_iter48_reg : STD_LOGIC_VECTOR (0 downto 0); signal brmerge_demorgan_reg_3077_pp0_iter49_reg : STD_LOGIC_VECTOR (0 downto 0); signal brmerge_demorgan_reg_3077_pp0_iter50_reg : STD_LOGIC_VECTOR (0 downto 0); signal u1_V_fu_1598_p2 : STD_LOGIC_VECTOR (19 downto 0); signal u1_V_reg_3081 : STD_LOGIC_VECTOR (19 downto 0); signal p_u_V_fu_1604_p3 : STD_LOGIC_VECTOR (19 downto 0); signal p_u_V_reg_3086 : STD_LOGIC_VECTOR (19 downto 0); signal p_u_V_reg_3086_pp0_iter43_reg : STD_LOGIC_VECTOR (19 downto 0); signal p_u_V_reg_3086_pp0_iter44_reg : STD_LOGIC_VECTOR (19 downto 0); signal k_buf_val_val_0_0_q0 : STD_LOGIC_VECTOR (7 downto 0); signal win_val_1_val_0_0_reg_3092 : STD_LOGIC_VECTOR (7 downto 0); signal k_buf_val_val_0_1_q0 : STD_LOGIC_VECTOR (7 downto 0); signal win_val_1_val_0_1_reg_3097 : STD_LOGIC_VECTOR (7 downto 0); signal k_buf_val_val_0_2_q0 : STD_LOGIC_VECTOR (7 downto 0); signal win_val_1_val_0_2_reg_3102 : STD_LOGIC_VECTOR (7 downto 0); signal tmp_97_reg_3107 : STD_LOGIC_VECTOR (7 downto 0); signal tmp_98_reg_3112 : STD_LOGIC_VECTOR (7 downto 0); signal tmp_99_reg_3117 : STD_LOGIC_VECTOR (7 downto 0); signal v1_V_fu_1709_p2 : STD_LOGIC_VECTOR (19 downto 0); signal v1_V_reg_3122 : STD_LOGIC_VECTOR (19 downto 0); signal v_V_fu_1715_p3 : STD_LOGIC_VECTOR (19 downto 0); signal v_V_reg_3128 : STD_LOGIC_VECTOR (19 downto 0); signal win_val_0_val_1_0_4_reg_3133 : STD_LOGIC_VECTOR (7 downto 0); signal win_val_0_val_1_1_4_reg_3138 : STD_LOGIC_VECTOR (7 downto 0); signal win_val_0_val_1_2_4_reg_3143 : STD_LOGIC_VECTOR (7 downto 0); signal win_val_1_val_1_0_3_reg_3148 : STD_LOGIC_VECTOR (7 downto 0); signal win_val_1_val_1_1_3_reg_3153 : STD_LOGIC_VECTOR (7 downto 0); signal win_val_1_val_1_2_3_reg_3158 : STD_LOGIC_VECTOR (7 downto 0); signal OP2_V_fu_1770_p1 : STD_LOGIC_VECTOR (27 downto 0); signal OP2_V_reg_3163 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_fu_2451_p2 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_reg_3170 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_3_fu_2457_p2 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_3_reg_3175 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_s_fu_2463_p2 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_s_reg_3180 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_3_1_fu_2469_p2 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_3_1_reg_3185 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_4_fu_2475_p2 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_4_reg_3190 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_3_2_fu_2481_p2 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_3_2_reg_3195 : STD_LOGIC_VECTOR (27 downto 0); signal OP2_V_1_fu_1800_p1 : STD_LOGIC_VECTOR (47 downto 0); signal r_V_1_fu_2487_p2 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_1_reg_3212 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_2_fu_2493_p2 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_2_reg_3217 : STD_LOGIC_VECTOR (27 downto 0); signal OP2_V_6_fu_1821_p1 : STD_LOGIC_VECTOR (47 downto 0); signal OP2_V_6_reg_3222 : STD_LOGIC_VECTOR (47 downto 0); signal r_V_1_1_fu_2498_p2 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_1_1_reg_3242 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_2_1_fu_2504_p2 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_2_1_reg_3247 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_1_2_fu_2509_p2 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_1_2_reg_3262 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_2_2_fu_2515_p2 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_2_2_reg_3267 : STD_LOGIC_VECTOR (27 downto 0); signal OP2_V_5_fu_1884_p1 : STD_LOGIC_VECTOR (47 downto 0); signal grp_fu_1809_p2 : STD_LOGIC_VECTOR (47 downto 0); signal p_Val2_21_reg_3314 : STD_LOGIC_VECTOR (47 downto 0); signal grp_fu_1827_p2 : STD_LOGIC_VECTOR (47 downto 0); signal p_Val2_29_reg_3319 : STD_LOGIC_VECTOR (47 downto 0); signal grp_fu_1836_p2 : STD_LOGIC_VECTOR (47 downto 0); signal p_Val2_40_1_reg_3324 : STD_LOGIC_VECTOR (47 downto 0); signal grp_fu_1851_p2 : STD_LOGIC_VECTOR (47 downto 0); signal p_Val2_42_1_reg_3329 : STD_LOGIC_VECTOR (47 downto 0); signal grp_fu_1860_p2 : STD_LOGIC_VECTOR (47 downto 0); signal p_Val2_40_2_reg_3334 : STD_LOGIC_VECTOR (47 downto 0); signal grp_fu_1875_p2 : STD_LOGIC_VECTOR (47 downto 0); signal p_Val2_42_2_reg_3339 : STD_LOGIC_VECTOR (47 downto 0); signal grp_fu_1887_p2 : STD_LOGIC_VECTOR (47 downto 0); signal p_Val2_24_reg_3344 : STD_LOGIC_VECTOR (47 downto 0); signal grp_fu_1896_p2 : STD_LOGIC_VECTOR (47 downto 0); signal p_Val2_28_reg_3349 : STD_LOGIC_VECTOR (47 downto 0); signal tmp69_fu_1935_p2 : STD_LOGIC_VECTOR (47 downto 0); signal tmp69_reg_3354 : STD_LOGIC_VECTOR (47 downto 0); signal grp_fu_1904_p2 : STD_LOGIC_VECTOR (47 downto 0); signal p_Val2_30_1_reg_3359 : STD_LOGIC_VECTOR (47 downto 0); signal grp_fu_1913_p2 : STD_LOGIC_VECTOR (47 downto 0); signal p_Val2_33_1_reg_3364 : STD_LOGIC_VECTOR (47 downto 0); signal tmp71_fu_1939_p2 : STD_LOGIC_VECTOR (47 downto 0); signal tmp71_reg_3369 : STD_LOGIC_VECTOR (47 downto 0); signal grp_fu_1921_p2 : STD_LOGIC_VECTOR (47 downto 0); signal p_Val2_30_2_reg_3374 : STD_LOGIC_VECTOR (47 downto 0); signal grp_fu_1930_p2 : STD_LOGIC_VECTOR (47 downto 0); signal p_Val2_33_2_reg_3379 : STD_LOGIC_VECTOR (47 downto 0); signal tmp73_fu_1943_p2 : STD_LOGIC_VECTOR (47 downto 0); signal tmp73_reg_3384 : STD_LOGIC_VECTOR (47 downto 0); signal p_Val2_30_fu_1951_p2 : STD_LOGIC_VECTOR (47 downto 0); signal p_Val2_30_reg_3389 : STD_LOGIC_VECTOR (47 downto 0); signal signbit_reg_3394 : STD_LOGIC_VECTOR (0 downto 0); signal signbit_reg_3394_pp0_iter51_reg : STD_LOGIC_VECTOR (0 downto 0); signal p_Val2_31_reg_3401 : STD_LOGIC_VECTOR (7 downto 0); signal tmp_83_reg_3406 : STD_LOGIC_VECTOR (0 downto 0); signal p_Result_6_i_i_reg_3411 : STD_LOGIC_VECTOR (3 downto 0); signal p_Val2_44_1_fu_1996_p2 : STD_LOGIC_VECTOR (47 downto 0); signal p_Val2_44_1_reg_3417 : STD_LOGIC_VECTOR (47 downto 0); signal signbit_1_reg_3422 : STD_LOGIC_VECTOR (0 downto 0); signal signbit_1_reg_3422_pp0_iter51_reg : STD_LOGIC_VECTOR (0 downto 0); signal p_Val2_s_72_reg_3429 : STD_LOGIC_VECTOR (7 downto 0); signal tmp_87_reg_3434 : STD_LOGIC_VECTOR (0 downto 0); signal p_Result_6_i_i1_reg_3439 : STD_LOGIC_VECTOR (3 downto 0); signal p_Val2_44_2_fu_2041_p2 : STD_LOGIC_VECTOR (47 downto 0); signal p_Val2_44_2_reg_3445 : STD_LOGIC_VECTOR (47 downto 0); signal signbit_2_reg_3450 : STD_LOGIC_VECTOR (0 downto 0); signal signbit_2_reg_3450_pp0_iter51_reg : STD_LOGIC_VECTOR (0 downto 0); signal p_Val2_35_reg_3457 : STD_LOGIC_VECTOR (7 downto 0); signal tmp_91_reg_3462 : STD_LOGIC_VECTOR (0 downto 0); signal p_Result_6_i_i2_reg_3467 : STD_LOGIC_VECTOR (3 downto 0); signal p_Val2_32_fu_2092_p2 : STD_LOGIC_VECTOR (7 downto 0); signal p_Val2_32_reg_3473 : STD_LOGIC_VECTOR (7 downto 0); signal p_38_i_i_i_fu_2135_p2 : STD_LOGIC_VECTOR (0 downto 0); signal p_38_i_i_i_reg_3479 : STD_LOGIC_VECTOR (0 downto 0); signal p_39_demorgan_i_i_i_fu_2141_p2 : STD_LOGIC_VECTOR (0 downto 0); signal p_39_demorgan_i_i_i_reg_3485 : STD_LOGIC_VECTOR (0 downto 0); signal p_Val2_33_fu_2156_p2 : STD_LOGIC_VECTOR (7 downto 0); signal p_Val2_33_reg_3491 : STD_LOGIC_VECTOR (7 downto 0); signal p_38_i_i_i1_fu_2199_p2 : STD_LOGIC_VECTOR (0 downto 0); signal p_38_i_i_i1_reg_3497 : STD_LOGIC_VECTOR (0 downto 0); signal p_39_demorgan_i_i_i1_fu_2205_p2 : STD_LOGIC_VECTOR (0 downto 0); signal p_39_demorgan_i_i_i1_reg_3503 : STD_LOGIC_VECTOR (0 downto 0); signal p_Val2_36_fu_2220_p2 : STD_LOGIC_VECTOR (7 downto 0); signal p_Val2_36_reg_3509 : STD_LOGIC_VECTOR (7 downto 0); signal p_38_i_i_i2_fu_2263_p2 : STD_LOGIC_VECTOR (0 downto 0); signal p_38_i_i_i2_reg_3515 : STD_LOGIC_VECTOR (0 downto 0); signal p_39_demorgan_i_i_i2_fu_2269_p2 : STD_LOGIC_VECTOR (0 downto 0); signal p_39_demorgan_i_i_i2_reg_3521 : STD_LOGIC_VECTOR (0 downto 0); signal ap_block_pp0_stage0_subdone : BOOLEAN; signal ap_enable_reg_pp0_iter1 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter2 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter3 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter4 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter5 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter6 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter7 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter8 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter9 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter10 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter11 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter12 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter13 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter14 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter15 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter16 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter17 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter18 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter19 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter20 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter21 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter22 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter23 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter24 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter25 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter26 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter27 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter28 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter29 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter30 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter31 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter32 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter33 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter34 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter35 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter36 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter37 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter38 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter39 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter40 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter41 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter43 : STD_LOGIC := '0'; signal ap_condition_pp0_exit_iter42_state98 : STD_LOGIC; signal ap_enable_reg_pp0_iter44 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter45 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter46 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter47 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter48 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter49 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter50 : STD_LOGIC := '0'; signal ap_enable_reg_pp0_iter51 : STD_LOGIC := '0'; signal k_buf_val_val_0_0_address0 : STD_LOGIC_VECTOR (12 downto 0); signal k_buf_val_val_0_0_ce0 : STD_LOGIC; signal k_buf_val_val_0_0_ce1 : STD_LOGIC; signal k_buf_val_val_0_0_we1 : STD_LOGIC; signal k_buf_val_val_0_0_d1 : STD_LOGIC_VECTOR (7 downto 0); signal k_buf_val_val_0_1_address0 : STD_LOGIC_VECTOR (12 downto 0); signal k_buf_val_val_0_1_ce0 : STD_LOGIC; signal k_buf_val_val_0_1_ce1 : STD_LOGIC; signal k_buf_val_val_0_1_we1 : STD_LOGIC; signal k_buf_val_val_0_1_d1 : STD_LOGIC_VECTOR (7 downto 0); signal k_buf_val_val_0_2_address0 : STD_LOGIC_VECTOR (12 downto 0); signal k_buf_val_val_0_2_ce0 : STD_LOGIC; signal k_buf_val_val_0_2_ce1 : STD_LOGIC; signal k_buf_val_val_0_2_we1 : STD_LOGIC; signal k_buf_val_val_0_2_d1 : STD_LOGIC_VECTOR (7 downto 0); signal k_buf_val_val_1_0_address0 : STD_LOGIC_VECTOR (12 downto 0); signal k_buf_val_val_1_0_ce0 : STD_LOGIC; signal k_buf_val_val_1_0_q0 : STD_LOGIC_VECTOR (7 downto 0); signal k_buf_val_val_1_0_address1 : STD_LOGIC_VECTOR (12 downto 0); signal k_buf_val_val_1_0_ce1 : STD_LOGIC; signal k_buf_val_val_1_0_we1 : STD_LOGIC; signal k_buf_val_val_1_1_address0 : STD_LOGIC_VECTOR (12 downto 0); signal k_buf_val_val_1_1_ce0 : STD_LOGIC; signal k_buf_val_val_1_1_q0 : STD_LOGIC_VECTOR (7 downto 0); signal k_buf_val_val_1_1_address1 : STD_LOGIC_VECTOR (12 downto 0); signal k_buf_val_val_1_1_ce1 : STD_LOGIC; signal k_buf_val_val_1_1_we1 : STD_LOGIC; signal k_buf_val_val_1_2_address0 : STD_LOGIC_VECTOR (12 downto 0); signal k_buf_val_val_1_2_ce0 : STD_LOGIC; signal k_buf_val_val_1_2_q0 : STD_LOGIC_VECTOR (7 downto 0); signal k_buf_val_val_1_2_address1 : STD_LOGIC_VECTOR (12 downto 0); signal k_buf_val_val_1_2_ce1 : STD_LOGIC; signal k_buf_val_val_1_2_we1 : STD_LOGIC; signal p_Val2_16_reg_535 : STD_LOGIC_VECTOR (14 downto 0); signal ap_CS_fsm_state109 : STD_LOGIC; attribute fsm_encoding of ap_CS_fsm_state109 : signal is "none"; signal ap_phi_reg_pp0_iter0_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter1_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter2_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter3_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter4_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter5_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter6_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter7_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter8_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter9_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter10_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter11_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter12_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter13_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter14_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter15_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter16_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter17_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter18_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter19_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter20_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter21_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter22_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter23_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter24_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter25_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter26_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter27_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter28_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter29_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter30_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter31_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter32_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter33_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter34_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter35_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter36_dy_reg_557 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter0_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter1_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter2_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter3_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter4_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter5_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter6_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter7_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter8_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter9_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter10_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter11_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter12_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter13_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter14_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter15_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter16_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter17_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter18_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter19_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter20_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter21_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter22_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter23_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter24_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter25_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter26_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter27_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter28_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter29_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter30_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter31_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter32_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter33_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter34_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter35_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_reg_pp0_iter36_dx_reg_566 : STD_LOGIC_VECTOR (15 downto 0); signal ap_phi_mux_win_val_val_1_0_2_2_phi_fu_578_p10 : STD_LOGIC_VECTOR (7 downto 0); signal ap_phi_reg_pp0_iter42_win_val_val_1_0_2_2_reg_575 : STD_LOGIC_VECTOR (7 downto 0); signal ap_phi_mux_win_val_val_1_0_1_2_phi_fu_598_p10 : STD_LOGIC_VECTOR (7 downto 0); signal ap_phi_reg_pp0_iter42_win_val_val_1_0_1_2_reg_595 : STD_LOGIC_VECTOR (7 downto 0); signal ap_phi_mux_win_val_val_1_0_0_2_phi_fu_618_p10 : STD_LOGIC_VECTOR (7 downto 0); signal ap_phi_reg_pp0_iter42_win_val_val_1_0_0_2_reg_615 : STD_LOGIC_VECTOR (7 downto 0); signal ap_block_pp0_stage0_01001 : BOOLEAN; signal row_wr_fu_230 : STD_LOGIC_VECTOR (0 downto 0); signal row_wr_3_fu_1456_p3 : STD_LOGIC_VECTOR (0 downto 0); signal row_rd_fu_234 : STD_LOGIC_VECTOR (0 downto 0); signal pre_fx_fu_238 : STD_LOGIC_VECTOR (15 downto 0); signal pre_fx_5_fu_1474_p3 : STD_LOGIC_VECTOR (15 downto 0); signal pre_fy_fu_242 : STD_LOGIC_VECTOR (15 downto 0); signal pre_fy_5_fu_1417_p3 : STD_LOGIC_VECTOR (15 downto 0); signal x_fu_246 : STD_LOGIC_VECTOR (15 downto 0); signal x_2_fu_1398_p3 : STD_LOGIC_VECTOR (15 downto 0); signal x_1_fu_1538_p2 : STD_LOGIC_VECTOR (15 downto 0); signal tmp_fu_250 : STD_LOGIC_VECTOR (7 downto 0); signal tmp_1_fu_254 : STD_LOGIC_VECTOR (7 downto 0); signal win_val_0_val_1_0_fu_258 : STD_LOGIC_VECTOR (7 downto 0); signal win_val_0_val_1_1_fu_262 : STD_LOGIC_VECTOR (7 downto 0); signal win_val_0_val_1_2_fu_266 : STD_LOGIC_VECTOR (7 downto 0); signal win_val_0_val_1_0_1_fu_270 : STD_LOGIC_VECTOR (7 downto 0); signal win_val_0_val_1_1_1_fu_274 : STD_LOGIC_VECTOR (7 downto 0); signal win_val_0_val_1_2_1_fu_278 : STD_LOGIC_VECTOR (7 downto 0); signal win_val_1_val_1_0_fu_282 : STD_LOGIC_VECTOR (7 downto 0); signal win_val_1_val_1_1_fu_286 : STD_LOGIC_VECTOR (7 downto 0); signal win_val_1_val_1_2_fu_290 : STD_LOGIC_VECTOR (7 downto 0); signal win_val_1_val_1_0_1_fu_294 : STD_LOGIC_VECTOR (7 downto 0); signal win_val_1_val_1_1_1_fu_298 : STD_LOGIC_VECTOR (7 downto 0); signal win_val_1_val_1_2_1_fu_302 : STD_LOGIC_VECTOR (7 downto 0); signal tmp_2_fu_306 : STD_LOGIC_VECTOR (7 downto 0); signal tmp_16_fu_666_p2 : STD_LOGIC_VECTOR (31 downto 0); signal grp_fu_684_p0 : STD_LOGIC_VECTOR (47 downto 0); signal tmp_42_fu_690_p2 : STD_LOGIC_VECTOR (31 downto 0); signal grp_fu_708_p0 : STD_LOGIC_VECTOR (47 downto 0); signal grp_fu_684_p2 : STD_LOGIC_VECTOR (47 downto 0); signal grp_fu_708_p2 : STD_LOGIC_VECTOR (47 downto 0); signal p_neg_fu_783_p2 : STD_LOGIC_VECTOR (31 downto 0); signal p_lshr_fu_788_p4 : STD_LOGIC_VECTOR (30 downto 0); signal tmp_5_fu_798_p1 : STD_LOGIC_VECTOR (31 downto 0); signal p_neg_t_fu_802_p2 : STD_LOGIC_VECTOR (31 downto 0); signal tmp_9_fu_808_p1 : STD_LOGIC_VECTOR (31 downto 0); signal p_neg1_fu_822_p2 : STD_LOGIC_VECTOR (31 downto 0); signal p_lshr1_fu_827_p4 : STD_LOGIC_VECTOR (30 downto 0); signal tmp_12_fu_837_p1 : STD_LOGIC_VECTOR (31 downto 0); signal p_neg_t1_fu_841_p2 : STD_LOGIC_VECTOR (31 downto 0); signal tmp_13_fu_847_p1 : STD_LOGIC_VECTOR (31 downto 0); signal tmp_28_cast_fu_867_p1 : STD_LOGIC_VECTOR (32 downto 0); signal p_Val2_10_cast_fu_876_p2 : STD_LOGIC_VECTOR (25 downto 0); signal p_Val2_9_fu_870_p2 : STD_LOGIC_VECTOR (32 downto 0); signal tmp_67_fu_891_p3 : STD_LOGIC_VECTOR (0 downto 0); signal p_Val2_10_fu_881_p4 : STD_LOGIC_VECTOR (19 downto 0); signal tmp_11_fu_899_p1 : STD_LOGIC_VECTOR (19 downto 0); signal tmp_32_cast_fu_909_p1 : STD_LOGIC_VECTOR (32 downto 0); signal p_Val2_14_cast_fu_918_p2 : STD_LOGIC_VECTOR (25 downto 0); signal p_Val2_13_fu_912_p2 : STD_LOGIC_VECTOR (32 downto 0); signal tmp_70_fu_933_p3 : STD_LOGIC_VECTOR (0 downto 0); signal p_Val2_14_fu_923_p4 : STD_LOGIC_VECTOR (19 downto 0); signal tmp_15_fu_941_p1 : STD_LOGIC_VECTOR (19 downto 0); signal tmp_17_fu_951_p2 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_18_fu_955_p2 : STD_LOGIC_VECTOR (15 downto 0); signal tmp_19_fu_967_p2 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_20_fu_971_p2 : STD_LOGIC_VECTOR (15 downto 0); signal tmp_20_cast_fu_864_p1 : STD_LOGIC_VECTOR (16 downto 0); signal tmp_13_cast_fu_861_p1 : STD_LOGIC_VECTOR (16 downto 0); signal p_Val2_18_fu_903_p2 : STD_LOGIC_VECTOR (19 downto 0); signal tmp_25_fu_1015_p3 : STD_LOGIC_VECTOR (25 downto 0); signal p_Val2_19_fu_945_p2 : STD_LOGIC_VECTOR (19 downto 0); signal tmp_26_fu_1027_p3 : STD_LOGIC_VECTOR (25 downto 0); signal i_op_assign_15_cast_fu_1039_p1 : STD_LOGIC_VECTOR (15 downto 0); signal tmp_30_fu_1072_p3 : STD_LOGIC_VECTOR (30 downto 0); signal grp_fu_1099_p0 : STD_LOGIC_VECTOR (30 downto 0); signal tmp_34_fu_1103_p3 : STD_LOGIC_VECTOR (30 downto 0); signal grp_fu_1115_p0 : STD_LOGIC_VECTOR (30 downto 0); signal tmp_74_fu_1187_p1 : STD_LOGIC_VECTOR (15 downto 0); signal ret_V_fu_1169_p4 : STD_LOGIC_VECTOR (15 downto 0); signal tmp_37_fu_1191_p2 : STD_LOGIC_VECTOR (0 downto 0); signal ret_V_1_fu_1197_p2 : STD_LOGIC_VECTOR (15 downto 0); signal tmp_73_fu_1179_p3 : STD_LOGIC_VECTOR (0 downto 0); signal p_6_fu_1203_p3 : STD_LOGIC_VECTOR (15 downto 0); signal tmp_76_fu_1237_p1 : STD_LOGIC_VECTOR (15 downto 0); signal ret_V_2_fu_1219_p4 : STD_LOGIC_VECTOR (15 downto 0); signal tmp_38_fu_1241_p2 : STD_LOGIC_VECTOR (0 downto 0); signal ret_V_3_fu_1247_p2 : STD_LOGIC_VECTOR (15 downto 0); signal tmp_75_fu_1229_p3 : STD_LOGIC_VECTOR (0 downto 0); signal p_7_fu_1253_p3 : STD_LOGIC_VECTOR (15 downto 0); signal tmp_40_fu_1272_p3 : STD_LOGIC_VECTOR (31 downto 0); signal tmp_39_fu_1269_p1 : STD_LOGIC_VECTOR (32 downto 0); signal tmp_66_cast_fu_1279_p1 : STD_LOGIC_VECTOR (32 downto 0); signal r_V_7_fu_1283_p2 : STD_LOGIC_VECTOR (32 downto 0); signal tmp_45_fu_1302_p3 : STD_LOGIC_VECTOR (31 downto 0); signal tmp_44_fu_1299_p1 : STD_LOGIC_VECTOR (32 downto 0); signal tmp_72_cast_fu_1309_p1 : STD_LOGIC_VECTOR (32 downto 0); signal r_V_8_fu_1313_p2 : STD_LOGIC_VECTOR (32 downto 0); signal tmp_76_cast_fu_1329_p1 : STD_LOGIC_VECTOR (16 downto 0); signal tmp_78_cast_fu_1343_p1 : STD_LOGIC_VECTOR (16 downto 0); signal tmp_51_fu_1357_p2 : STD_LOGIC_VECTOR (15 downto 0); signal sel_tmp4_fu_1405_p2 : STD_LOGIC_VECTOR (0 downto 0); signal pre_fy_1_sy_fu_1392_p3 : STD_LOGIC_VECTOR (15 downto 0); signal sel_tmp5_fu_1409_p3 : STD_LOGIC_VECTOR (15 downto 0); signal not_1_fu_1387_p2 : STD_LOGIC_VECTOR (0 downto 0); signal tmp66_fu_1431_p2 : STD_LOGIC_VECTOR (0 downto 0); signal sel_tmp_fu_1437_p2 : STD_LOGIC_VECTOR (0 downto 0); signal row_wr_1_fu_1383_p2 : STD_LOGIC_VECTOR (0 downto 0); signal row_wr_4_fu_1449_p3 : STD_LOGIC_VECTOR (0 downto 0); signal pre_fx_2_fu_1424_p3 : STD_LOGIC_VECTOR (15 downto 0); signal pre_fx_2_sx_fu_1468_p3 : STD_LOGIC_VECTOR (15 downto 0); signal not_s_fu_1463_p2 : STD_LOGIC_VECTOR (0 downto 0); signal tmp67_fu_1481_p2 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_86_cast_fu_1514_p1 : STD_LOGIC_VECTOR (16 downto 0); signal tmp_88_cast_fu_1522_p1 : STD_LOGIC_VECTOR (16 downto 0); signal tmp_90_cast_fu_1530_p1 : STD_LOGIC_VECTOR (16 downto 0); signal col_wr_2_fu_1491_p3 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_43_fu_1584_p3 : STD_LOGIC_VECTOR (19 downto 0); signal u_V_fu_1591_p3 : STD_LOGIC_VECTOR (19 downto 0); signal tmp_47_fu_1695_p3 : STD_LOGIC_VECTOR (19 downto 0); signal v_V_2_fu_1702_p3 : STD_LOGIC_VECTOR (19 downto 0); signal grp_fu_1809_p1 : STD_LOGIC_VECTOR (19 downto 0); signal grp_fu_1827_p1 : STD_LOGIC_VECTOR (19 downto 0); signal grp_fu_1836_p1 : STD_LOGIC_VECTOR (19 downto 0); signal grp_fu_1851_p1 : STD_LOGIC_VECTOR (19 downto 0); signal grp_fu_1860_p1 : STD_LOGIC_VECTOR (19 downto 0); signal grp_fu_1875_p1 : STD_LOGIC_VECTOR (19 downto 0); signal grp_fu_1887_p1 : STD_LOGIC_VECTOR (19 downto 0); signal grp_fu_1896_p1 : STD_LOGIC_VECTOR (19 downto 0); signal grp_fu_1904_p1 : STD_LOGIC_VECTOR (19 downto 0); signal grp_fu_1913_p1 : STD_LOGIC_VECTOR (19 downto 0); signal grp_fu_1921_p1 : STD_LOGIC_VECTOR (19 downto 0); signal grp_fu_1930_p1 : STD_LOGIC_VECTOR (19 downto 0); signal tmp68_fu_1947_p2 : STD_LOGIC_VECTOR (47 downto 0); signal tmp70_fu_1992_p2 : STD_LOGIC_VECTOR (47 downto 0); signal tmp72_fu_2037_p2 : STD_LOGIC_VECTOR (47 downto 0); signal tmp_i_i_fu_2082_p1 : STD_LOGIC_VECTOR (7 downto 0); signal tmp_85_fu_2097_p3 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_84_fu_2085_p3 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_4_i_i_fu_2105_p2 : STD_LOGIC_VECTOR (0 downto 0); signal carry_fu_2111_p2 : STD_LOGIC_VECTOR (0 downto 0); signal Range1_all_ones_fu_2117_p2 : STD_LOGIC_VECTOR (0 downto 0); signal Range1_all_zeros_fu_2122_p2 : STD_LOGIC_VECTOR (0 downto 0); signal deleted_zeros_fu_2127_p3 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_i_i1_fu_2146_p1 : STD_LOGIC_VECTOR (7 downto 0); signal tmp_89_fu_2161_p3 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_88_fu_2149_p3 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_4_i_i1_fu_2169_p2 : STD_LOGIC_VECTOR (0 downto 0); signal carry_1_fu_2175_p2 : STD_LOGIC_VECTOR (0 downto 0); signal Range1_all_ones_1_fu_2181_p2 : STD_LOGIC_VECTOR (0 downto 0); signal Range1_all_zeros_1_fu_2186_p2 : STD_LOGIC_VECTOR (0 downto 0); signal deleted_zeros_1_fu_2191_p3 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_i_i2_fu_2210_p1 : STD_LOGIC_VECTOR (7 downto 0); signal tmp_93_fu_2225_p3 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_92_fu_2213_p3 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_4_i_i2_fu_2233_p2 : STD_LOGIC_VECTOR (0 downto 0); signal carry_2_fu_2239_p2 : STD_LOGIC_VECTOR (0 downto 0); signal Range1_all_ones_2_fu_2245_p2 : STD_LOGIC_VECTOR (0 downto 0); signal Range1_all_zeros_2_fu_2250_p2 : STD_LOGIC_VECTOR (0 downto 0); signal deleted_zeros_2_fu_2255_p3 : STD_LOGIC_VECTOR (0 downto 0); signal tmp_5_i_i_fu_2274_p2 : STD_LOGIC_VECTOR (0 downto 0); signal signbit_not_i_fu_2284_p2 : STD_LOGIC_VECTOR (0 downto 0); signal neg_src_not_i_i_fu_2289_p2 : STD_LOGIC_VECTOR (0 downto 0); signal p_39_demorgan_i_not_i_fu_2299_p2 : STD_LOGIC_VECTOR (0 downto 0); signal brmerge_i_i_not_i_i_fu_2294_p2 : STD_LOGIC_VECTOR (0 downto 0); signal neg_src_5_fu_2279_p2 : STD_LOGIC_VECTOR (0 downto 0); signal brmerge_i_i_fu_2304_p2 : STD_LOGIC_VECTOR (0 downto 0); signal p_mux_i_i_fu_2310_p3 : STD_LOGIC_VECTOR (7 downto 0); signal p_i_i_fu_2317_p3 : STD_LOGIC_VECTOR (7 downto 0); signal tmp_5_i_i1_fu_2333_p2 : STD_LOGIC_VECTOR (0 downto 0); signal signbit_not_i1_fu_2343_p2 : STD_LOGIC_VECTOR (0 downto 0); signal neg_src_not_i_i1_fu_2348_p2 : STD_LOGIC_VECTOR (0 downto 0); signal p_39_demorgan_i_not_i_1_fu_2358_p2 : STD_LOGIC_VECTOR (0 downto 0); signal brmerge_i_i_not_i_i1_fu_2353_p2 : STD_LOGIC_VECTOR (0 downto 0); signal neg_src_6_fu_2338_p2 : STD_LOGIC_VECTOR (0 downto 0); signal brmerge_i_i1_fu_2363_p2 : STD_LOGIC_VECTOR (0 downto 0); signal p_mux_i_i1_fu_2369_p3 : STD_LOGIC_VECTOR (7 downto 0); signal p_i_i1_fu_2376_p3 : STD_LOGIC_VECTOR (7 downto 0); signal tmp_5_i_i2_fu_2392_p2 : STD_LOGIC_VECTOR (0 downto 0); signal signbit_not_i2_fu_2402_p2 : STD_LOGIC_VECTOR (0 downto 0); signal neg_src_not_i_i2_fu_2407_p2 : STD_LOGIC_VECTOR (0 downto 0); signal p_39_demorgan_i_not_i_2_fu_2417_p2 : STD_LOGIC_VECTOR (0 downto 0); signal brmerge_i_i_not_i_i2_fu_2412_p2 : STD_LOGIC_VECTOR (0 downto 0); signal neg_src_fu_2397_p2 : STD_LOGIC_VECTOR (0 downto 0); signal brmerge_i_i2_fu_2422_p2 : STD_LOGIC_VECTOR (0 downto 0); signal p_mux_i_i2_fu_2428_p3 : STD_LOGIC_VECTOR (7 downto 0); signal p_i_i2_fu_2435_p3 : STD_LOGIC_VECTOR (7 downto 0); signal r_V_fu_2451_p0 : STD_LOGIC_VECTOR (19 downto 0); signal r_V_fu_2451_p1 : STD_LOGIC_VECTOR (7 downto 0); signal r_V_3_fu_2457_p0 : STD_LOGIC_VECTOR (19 downto 0); signal OP2_V_7_fu_1781_p1 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_3_fu_2457_p1 : STD_LOGIC_VECTOR (7 downto 0); signal r_V_s_fu_2463_p0 : STD_LOGIC_VECTOR (19 downto 0); signal r_V_s_fu_2463_p1 : STD_LOGIC_VECTOR (7 downto 0); signal r_V_3_1_fu_2469_p0 : STD_LOGIC_VECTOR (19 downto 0); signal r_V_3_1_fu_2469_p1 : STD_LOGIC_VECTOR (7 downto 0); signal r_V_4_fu_2475_p0 : STD_LOGIC_VECTOR (19 downto 0); signal r_V_4_fu_2475_p1 : STD_LOGIC_VECTOR (7 downto 0); signal r_V_3_2_fu_2481_p0 : STD_LOGIC_VECTOR (19 downto 0); signal r_V_3_2_fu_2481_p1 : STD_LOGIC_VECTOR (7 downto 0); signal r_V_1_fu_2487_p0 : STD_LOGIC_VECTOR (19 downto 0); signal OP2_V_2_fu_1803_p1 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_1_fu_2487_p1 : STD_LOGIC_VECTOR (7 downto 0); signal r_V_2_fu_2493_p0 : STD_LOGIC_VECTOR (19 downto 0); signal r_V_2_fu_2493_p1 : STD_LOGIC_VECTOR (7 downto 0); signal r_V_1_1_fu_2498_p0 : STD_LOGIC_VECTOR (19 downto 0); signal r_V_1_1_fu_2498_p1 : STD_LOGIC_VECTOR (7 downto 0); signal r_V_2_1_fu_2504_p0 : STD_LOGIC_VECTOR (19 downto 0); signal r_V_2_1_fu_2504_p1 : STD_LOGIC_VECTOR (7 downto 0); signal r_V_1_2_fu_2509_p0 : STD_LOGIC_VECTOR (19 downto 0); signal r_V_1_2_fu_2509_p1 : STD_LOGIC_VECTOR (7 downto 0); signal r_V_2_2_fu_2515_p0 : STD_LOGIC_VECTOR (19 downto 0); signal r_V_2_2_fu_2515_p1 : STD_LOGIC_VECTOR (7 downto 0); signal grp_fu_684_ap_start : STD_LOGIC; signal grp_fu_684_ap_done : STD_LOGIC; signal grp_fu_708_ap_start : STD_LOGIC; signal grp_fu_708_ap_done : STD_LOGIC; signal grp_fu_1099_ce : STD_LOGIC; signal grp_fu_1115_ce : STD_LOGIC; signal grp_fu_1147_ce : STD_LOGIC; signal grp_fu_1156_ce : STD_LOGIC; signal grp_fu_1809_ce : STD_LOGIC; signal grp_fu_1827_ce : STD_LOGIC; signal grp_fu_1836_ce : STD_LOGIC; signal grp_fu_1851_ce : STD_LOGIC; signal grp_fu_1860_ce : STD_LOGIC; signal grp_fu_1875_ce : STD_LOGIC; signal grp_fu_1887_ce : STD_LOGIC; signal grp_fu_1896_ce : STD_LOGIC; signal grp_fu_1904_ce : STD_LOGIC; signal grp_fu_1913_ce : STD_LOGIC; signal grp_fu_1921_ce : STD_LOGIC; signal grp_fu_1930_ce : STD_LOGIC; signal ap_NS_fsm : STD_LOGIC_VECTOR (56 downto 0); signal ap_idle_pp0 : STD_LOGIC; signal ap_enable_pp0 : STD_LOGIC; signal grp_fu_1115_p00 : STD_LOGIC_VECTOR (31 downto 0); signal r_V_1_1_fu_2498_p10 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_1_2_fu_2509_p10 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_1_fu_2487_p10 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_2_1_fu_2504_p10 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_2_2_fu_2515_p10 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_2_fu_2493_p10 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_3_1_fu_2469_p10 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_3_2_fu_2481_p10 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_3_fu_2457_p10 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_4_fu_2475_p10 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_fu_2451_p10 : STD_LOGIC_VECTOR (27 downto 0); signal r_V_s_fu_2463_p10 : STD_LOGIC_VECTOR (27 downto 0); signal ap_condition_428 : BOOLEAN; signal ap_condition_3380 : BOOLEAN; signal ap_condition_3386 : BOOLEAN; component video_scaler_sdivhbi IS generic ( ID : INTEGER; NUM_STAGE : INTEGER; din0_WIDTH : INTEGER; din1_WIDTH : INTEGER; dout_WIDTH : INTEGER ); port ( clk : IN STD_LOGIC; reset : IN STD_LOGIC; start : IN STD_LOGIC; done : OUT STD_LOGIC; din0 : IN STD_LOGIC_VECTOR (47 downto 0); din1 : IN STD_LOGIC_VECTOR (31 downto 0); ce : IN STD_LOGIC; dout : OUT STD_LOGIC_VECTOR (47 downto 0) ); end component; component video_scaler_udivibs IS generic ( ID : INTEGER; NUM_STAGE : INTEGER; din0_WIDTH : INTEGER; din1_WIDTH : INTEGER; dout_WIDTH : INTEGER ); port ( clk : IN STD_LOGIC; reset : IN STD_LOGIC; din0 : IN STD_LOGIC_VECTOR (30 downto 0); din1 : IN STD_LOGIC_VECTOR (31 downto 0); ce : IN STD_LOGIC; dout : OUT STD_LOGIC_VECTOR (15 downto 0) ); end component; component video_scaler_mul_jbC IS generic ( ID : INTEGER; NUM_STAGE : INTEGER; din0_WIDTH : INTEGER; din1_WIDTH : INTEGER; dout_WIDTH : INTEGER ); port ( clk : IN STD_LOGIC; reset : IN STD_LOGIC; din0 : IN STD_LOGIC_VECTOR (31 downto 0); din1 : IN STD_LOGIC_VECTOR (15 downto 0); ce : IN STD_LOGIC; dout : OUT STD_LOGIC_VECTOR (31 downto 0) ); end component; component video_scaler_mul_kbM IS generic ( ID : INTEGER; NUM_STAGE : INTEGER; din0_WIDTH : INTEGER; din1_WIDTH : INTEGER; dout_WIDTH : INTEGER ); port ( clk : IN STD_LOGIC; reset : IN STD_LOGIC; din0 : IN STD_LOGIC_VECTOR (27 downto 0); din1 : IN STD_LOGIC_VECTOR (19 downto 0); ce : IN STD_LOGIC; dout : OUT STD_LOGIC_VECTOR (47 downto 0) ); end component; component video_scaler_mul_lbW IS generic ( ID : INTEGER; NUM_STAGE : INTEGER; din0_WIDTH : INTEGER; din1_WIDTH : INTEGER; dout_WIDTH : INTEGER ); port ( din0 : IN STD_LOGIC_VECTOR (19 downto 0); din1 : IN STD_LOGIC_VECTOR (7 downto 0); dout : OUT STD_LOGIC_VECTOR (27 downto 0) ); end component; component Resize_opr_linearbkb IS generic ( DataWidth : INTEGER; AddressRange : INTEGER; AddressWidth : INTEGER ); port ( clk : IN STD_LOGIC; reset : IN STD_LOGIC; address0 : IN STD_LOGIC_VECTOR (12 downto 0); ce0 : IN STD_LOGIC; q0 : OUT STD_LOGIC_VECTOR (7 downto 0); address1 : IN STD_LOGIC_VECTOR (12 downto 0); ce1 : IN STD_LOGIC; we1 : IN STD_LOGIC; d1 : IN STD_LOGIC_VECTOR (7 downto 0) ); end component; begin k_buf_val_val_0_0_U : component Resize_opr_linearbkb generic map ( DataWidth => 8, AddressRange => 4097, AddressWidth => 13) port map ( clk => ap_clk, reset => ap_rst, address0 => k_buf_val_val_0_0_address0, ce0 => k_buf_val_val_0_0_ce0, q0 => k_buf_val_val_0_0_q0, address1 => k_buf_val_val_0_0_ad_reg_3047_pp0_iter42_reg, ce1 => k_buf_val_val_0_0_ce1, we1 => k_buf_val_val_0_0_we1, d1 => k_buf_val_val_0_0_d1); k_buf_val_val_0_1_U : component Resize_opr_linearbkb generic map ( DataWidth => 8, AddressRange => 4097, AddressWidth => 13) port map ( clk => ap_clk, reset => ap_rst, address0 => k_buf_val_val_0_1_address0, ce0 => k_buf_val_val_0_1_ce0, q0 => k_buf_val_val_0_1_q0, address1 => k_buf_val_val_0_1_ad_reg_3053_pp0_iter42_reg, ce1 => k_buf_val_val_0_1_ce1, we1 => k_buf_val_val_0_1_we1, d1 => k_buf_val_val_0_1_d1); k_buf_val_val_0_2_U : component Resize_opr_linearbkb generic map ( DataWidth => 8, AddressRange => 4097, AddressWidth => 13) port map ( clk => ap_clk, reset => ap_rst, address0 => k_buf_val_val_0_2_address0, ce0 => k_buf_val_val_0_2_ce0, q0 => k_buf_val_val_0_2_q0, address1 => k_buf_val_val_0_2_ad_reg_3059_pp0_iter42_reg, ce1 => k_buf_val_val_0_2_ce1, we1 => k_buf_val_val_0_2_we1, d1 => k_buf_val_val_0_2_d1); k_buf_val_val_1_0_U : component Resize_opr_linearbkb generic map ( DataWidth => 8, AddressRange => 4097, AddressWidth => 13) port map ( clk => ap_clk, reset => ap_rst, address0 => k_buf_val_val_1_0_address0, ce0 => k_buf_val_val_1_0_ce0, q0 => k_buf_val_val_1_0_q0, address1 => k_buf_val_val_1_0_address1, ce1 => k_buf_val_val_1_0_ce1, we1 => k_buf_val_val_1_0_we1, d1 => win_val_1_val_0_0_reg_3092); k_buf_val_val_1_1_U : component Resize_opr_linearbkb generic map ( DataWidth => 8, AddressRange => 4097, AddressWidth => 13) port map ( clk => ap_clk, reset => ap_rst, address0 => k_buf_val_val_1_1_address0, ce0 => k_buf_val_val_1_1_ce0, q0 => k_buf_val_val_1_1_q0, address1 => k_buf_val_val_1_1_address1, ce1 => k_buf_val_val_1_1_ce1, we1 => k_buf_val_val_1_1_we1, d1 => win_val_1_val_0_1_reg_3097); k_buf_val_val_1_2_U : component Resize_opr_linearbkb generic map ( DataWidth => 8, AddressRange => 4097, AddressWidth => 13) port map ( clk => ap_clk, reset => ap_rst, address0 => k_buf_val_val_1_2_address0, ce0 => k_buf_val_val_1_2_ce0, q0 => k_buf_val_val_1_2_q0, address1 => k_buf_val_val_1_2_address1, ce1 => k_buf_val_val_1_2_ce1, we1 => k_buf_val_val_1_2_we1, d1 => win_val_1_val_0_2_reg_3102); video_scaler_sdivhbi_U23 : component video_scaler_sdivhbi generic map ( ID => 1, NUM_STAGE => 52, din0_WIDTH => 48, din1_WIDTH => 32, dout_WIDTH => 48) port map ( clk => ap_clk, reset => ap_rst, start => grp_fu_684_ap_start, done => grp_fu_684_ap_done, din0 => grp_fu_684_p0, din1 => tmp_16_fu_666_p2, ce => ap_const_logic_1, dout => grp_fu_684_p2); video_scaler_sdivhbi_U24 : component video_scaler_sdivhbi generic map ( ID => 1, NUM_STAGE => 52, din0_WIDTH => 48, din1_WIDTH => 32, dout_WIDTH => 48) port map ( clk => ap_clk, reset => ap_rst, start => grp_fu_708_ap_start, done => grp_fu_708_ap_done, din0 => grp_fu_708_p0, din1 => tmp_42_fu_690_p2, ce => ap_const_logic_1, dout => grp_fu_708_p2); video_scaler_udivibs_U25 : component video_scaler_udivibs generic map ( ID => 1, NUM_STAGE => 35, din0_WIDTH => 31, din1_WIDTH => 32, dout_WIDTH => 16) port map ( clk => ap_clk, reset => ap_rst, din0 => grp_fu_1099_p0, din1 => row_rate_V_reg_2703, ce => grp_fu_1099_ce, dout => grp_fu_1099_p2); video_scaler_udivibs_U26 : component video_scaler_udivibs generic map ( ID => 1, NUM_STAGE => 35, din0_WIDTH => 31, din1_WIDTH => 32, dout_WIDTH => 16) port map ( clk => ap_clk, reset => ap_rst, din0 => grp_fu_1115_p0, din1 => col_rate_V_reg_2711, ce => grp_fu_1115_ce, dout => grp_fu_1115_p2); video_scaler_mul_jbC_U27 : component video_scaler_mul_jbC generic map ( ID => 1, NUM_STAGE => 3, din0_WIDTH => 32, din1_WIDTH => 16, dout_WIDTH => 32) port map ( clk => ap_clk, reset => ap_rst, din0 => row_rate_V_reg_2703, din1 => ap_phi_reg_pp0_iter36_dy_reg_557, ce => grp_fu_1147_ce, dout => grp_fu_1147_p2); video_scaler_mul_jbC_U28 : component video_scaler_mul_jbC generic map ( ID => 1, NUM_STAGE => 3, din0_WIDTH => 32, din1_WIDTH => 16, dout_WIDTH => 32) port map ( clk => ap_clk, reset => ap_rst, din0 => col_rate_V_reg_2711, din1 => ap_phi_reg_pp0_iter36_dx_reg_566, ce => grp_fu_1156_ce, dout => grp_fu_1156_p2); video_scaler_mul_kbM_U29 : component video_scaler_mul_kbM generic map ( ID => 1, NUM_STAGE => 5, din0_WIDTH => 28, din1_WIDTH => 20, dout_WIDTH => 48) port map ( clk => ap_clk, reset => ap_rst, din0 => r_V_reg_3170, din1 => grp_fu_1809_p1, ce => grp_fu_1809_ce, dout => grp_fu_1809_p2); video_scaler_mul_kbM_U30 : component video_scaler_mul_kbM generic map ( ID => 1, NUM_STAGE => 5, din0_WIDTH => 28, din1_WIDTH => 20, dout_WIDTH => 48) port map ( clk => ap_clk, reset => ap_rst, din0 => r_V_3_reg_3175, din1 => grp_fu_1827_p1, ce => grp_fu_1827_ce, dout => grp_fu_1827_p2); video_scaler_mul_kbM_U31 : component video_scaler_mul_kbM generic map ( ID => 1, NUM_STAGE => 5, din0_WIDTH => 28, din1_WIDTH => 20, dout_WIDTH => 48) port map ( clk => ap_clk, reset => ap_rst, din0 => r_V_s_reg_3180, din1 => grp_fu_1836_p1, ce => grp_fu_1836_ce, dout => grp_fu_1836_p2); video_scaler_mul_kbM_U32 : component video_scaler_mul_kbM generic map ( ID => 1, NUM_STAGE => 5, din0_WIDTH => 28, din1_WIDTH => 20, dout_WIDTH => 48) port map ( clk => ap_clk, reset => ap_rst, din0 => r_V_3_1_reg_3185, din1 => grp_fu_1851_p1, ce => grp_fu_1851_ce, dout => grp_fu_1851_p2); video_scaler_mul_kbM_U33 : component video_scaler_mul_kbM generic map ( ID => 1, NUM_STAGE => 5, din0_WIDTH => 28, din1_WIDTH => 20, dout_WIDTH => 48) port map ( clk => ap_clk, reset => ap_rst, din0 => r_V_4_reg_3190, din1 => grp_fu_1860_p1, ce => grp_fu_1860_ce, dout => grp_fu_1860_p2); video_scaler_mul_kbM_U34 : component video_scaler_mul_kbM generic map ( ID => 1, NUM_STAGE => 5, din0_WIDTH => 28, din1_WIDTH => 20, dout_WIDTH => 48) port map ( clk => ap_clk, reset => ap_rst, din0 => r_V_3_2_reg_3195, din1 => grp_fu_1875_p1, ce => grp_fu_1875_ce, dout => grp_fu_1875_p2); video_scaler_mul_kbM_U35 : component video_scaler_mul_kbM generic map ( ID => 1, NUM_STAGE => 5, din0_WIDTH => 28, din1_WIDTH => 20, dout_WIDTH => 48) port map ( clk => ap_clk, reset => ap_rst, din0 => r_V_1_reg_3212, din1 => grp_fu_1887_p1, ce => grp_fu_1887_ce, dout => grp_fu_1887_p2); video_scaler_mul_kbM_U36 : component video_scaler_mul_kbM generic map ( ID => 1, NUM_STAGE => 5, din0_WIDTH => 28, din1_WIDTH => 20, dout_WIDTH => 48) port map ( clk => ap_clk, reset => ap_rst, din0 => r_V_2_reg_3217, din1 => grp_fu_1896_p1, ce => grp_fu_1896_ce, dout => grp_fu_1896_p2); video_scaler_mul_kbM_U37 : component video_scaler_mul_kbM generic map ( ID => 1, NUM_STAGE => 5, din0_WIDTH => 28, din1_WIDTH => 20, dout_WIDTH => 48) port map ( clk => ap_clk, reset => ap_rst, din0 => r_V_1_1_reg_3242, din1 => grp_fu_1904_p1, ce => grp_fu_1904_ce, dout => grp_fu_1904_p2); video_scaler_mul_kbM_U38 : component video_scaler_mul_kbM generic map ( ID => 1, NUM_STAGE => 5, din0_WIDTH => 28, din1_WIDTH => 20, dout_WIDTH => 48) port map ( clk => ap_clk, reset => ap_rst, din0 => r_V_2_1_reg_3247, din1 => grp_fu_1913_p1, ce => grp_fu_1913_ce, dout => grp_fu_1913_p2); video_scaler_mul_kbM_U39 : component video_scaler_mul_kbM generic map ( ID => 1, NUM_STAGE => 5, din0_WIDTH => 28, din1_WIDTH => 20, dout_WIDTH => 48) port map ( clk => ap_clk, reset => ap_rst, din0 => r_V_1_2_reg_3262, din1 => grp_fu_1921_p1, ce => grp_fu_1921_ce, dout => grp_fu_1921_p2); video_scaler_mul_kbM_U40 : component video_scaler_mul_kbM generic map ( ID => 1, NUM_STAGE => 5, din0_WIDTH => 28, din1_WIDTH => 20, dout_WIDTH => 48) port map ( clk => ap_clk, reset => ap_rst, din0 => r_V_2_2_reg_3267, din1 => grp_fu_1930_p1, ce => grp_fu_1930_ce, dout => grp_fu_1930_p2); video_scaler_mul_lbW_U41 : component video_scaler_mul_lbW generic map ( ID => 1, NUM_STAGE => 1, din0_WIDTH => 20, din1_WIDTH => 8, dout_WIDTH => 28) port map ( din0 => r_V_fu_2451_p0, din1 => r_V_fu_2451_p1, dout => r_V_fu_2451_p2); video_scaler_mul_lbW_U42 : component video_scaler_mul_lbW generic map ( ID => 1, NUM_STAGE => 1, din0_WIDTH => 20, din1_WIDTH => 8, dout_WIDTH => 28) port map ( din0 => r_V_3_fu_2457_p0, din1 => r_V_3_fu_2457_p1, dout => r_V_3_fu_2457_p2); video_scaler_mul_lbW_U43 : component video_scaler_mul_lbW generic map ( ID => 1, NUM_STAGE => 1, din0_WIDTH => 20, din1_WIDTH => 8, dout_WIDTH => 28) port map ( din0 => r_V_s_fu_2463_p0, din1 => r_V_s_fu_2463_p1, dout => r_V_s_fu_2463_p2); video_scaler_mul_lbW_U44 : component video_scaler_mul_lbW generic map ( ID => 1, NUM_STAGE => 1, din0_WIDTH => 20, din1_WIDTH => 8, dout_WIDTH => 28) port map ( din0 => r_V_3_1_fu_2469_p0, din1 => r_V_3_1_fu_2469_p1, dout => r_V_3_1_fu_2469_p2); video_scaler_mul_lbW_U45 : component video_scaler_mul_lbW generic map ( ID => 1, NUM_STAGE => 1, din0_WIDTH => 20, din1_WIDTH => 8, dout_WIDTH => 28) port map ( din0 => r_V_4_fu_2475_p0, din1 => r_V_4_fu_2475_p1, dout => r_V_4_fu_2475_p2); video_scaler_mul_lbW_U46 : component video_scaler_mul_lbW generic map ( ID => 1, NUM_STAGE => 1, din0_WIDTH => 20, din1_WIDTH => 8, dout_WIDTH => 28) port map ( din0 => r_V_3_2_fu_2481_p0, din1 => r_V_3_2_fu_2481_p1, dout => r_V_3_2_fu_2481_p2); video_scaler_mul_lbW_U47 : component video_scaler_mul_lbW generic map ( ID => 1, NUM_STAGE => 1, din0_WIDTH => 20, din1_WIDTH => 8, dout_WIDTH => 28) port map ( din0 => r_V_1_fu_2487_p0, din1 => r_V_1_fu_2487_p1, dout => r_V_1_fu_2487_p2); video_scaler_mul_lbW_U48 : component video_scaler_mul_lbW generic map ( ID => 1, NUM_STAGE => 1, din0_WIDTH => 20, din1_WIDTH => 8, dout_WIDTH => 28) port map ( din0 => r_V_2_fu_2493_p0, din1 => r_V_2_fu_2493_p1, dout => r_V_2_fu_2493_p2); video_scaler_mul_lbW_U49 : component video_scaler_mul_lbW generic map ( ID => 1, NUM_STAGE => 1, din0_WIDTH => 20, din1_WIDTH => 8, dout_WIDTH => 28) port map ( din0 => r_V_1_1_fu_2498_p0, din1 => r_V_1_1_fu_2498_p1, dout => r_V_1_1_fu_2498_p2); video_scaler_mul_lbW_U50 : component video_scaler_mul_lbW generic map ( ID => 1, NUM_STAGE => 1, din0_WIDTH => 20, din1_WIDTH => 8, dout_WIDTH => 28) port map ( din0 => r_V_2_1_fu_2504_p0, din1 => r_V_2_1_fu_2504_p1, dout => r_V_2_1_fu_2504_p2); video_scaler_mul_lbW_U51 : component video_scaler_mul_lbW generic map ( ID => 1, NUM_STAGE => 1, din0_WIDTH => 20, din1_WIDTH => 8, dout_WIDTH => 28) port map ( din0 => r_V_1_2_fu_2509_p0, din1 => r_V_1_2_fu_2509_p1, dout => r_V_1_2_fu_2509_p2); video_scaler_mul_lbW_U52 : component video_scaler_mul_lbW generic map ( ID => 1, NUM_STAGE => 1, din0_WIDTH => 20, din1_WIDTH => 8, dout_WIDTH => 28) port map ( din0 => r_V_2_2_fu_2515_p0, din1 => r_V_2_2_fu_2515_p1, dout => r_V_2_2_fu_2515_p2); ap_CS_fsm_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_CS_fsm <= ap_ST_fsm_state1; else ap_CS_fsm <= ap_NS_fsm; end if; end if; end process; ap_enable_reg_pp0_iter0_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter0 <= ap_const_logic_0; else if (((tmp_31_fu_1088_p2 = ap_const_lv1_0) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0) and (ap_const_boolean_0 = ap_block_pp0_stage0_subdone))) then ap_enable_reg_pp0_iter0 <= ap_const_logic_0; elsif (((ap_const_logic_1 = ap_CS_fsm_state55) and (tmp_27_fu_1043_p2 = ap_const_lv1_1))) then ap_enable_reg_pp0_iter0 <= ap_const_logic_1; end if; end if; end if; end process; ap_enable_reg_pp0_iter1_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter1 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter1 <= ap_enable_reg_pp0_iter0; end if; end if; end if; end process; ap_enable_reg_pp0_iter10_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter10 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter10 <= ap_enable_reg_pp0_iter9; end if; end if; end if; end process; ap_enable_reg_pp0_iter11_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter11 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter11 <= ap_enable_reg_pp0_iter10; end if; end if; end if; end process; ap_enable_reg_pp0_iter12_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter12 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter12 <= ap_enable_reg_pp0_iter11; end if; end if; end if; end process; ap_enable_reg_pp0_iter13_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter13 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter13 <= ap_enable_reg_pp0_iter12; end if; end if; end if; end process; ap_enable_reg_pp0_iter14_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter14 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter14 <= ap_enable_reg_pp0_iter13; end if; end if; end if; end process; ap_enable_reg_pp0_iter15_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter15 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter15 <= ap_enable_reg_pp0_iter14; end if; end if; end if; end process; ap_enable_reg_pp0_iter16_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter16 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter16 <= ap_enable_reg_pp0_iter15; end if; end if; end if; end process; ap_enable_reg_pp0_iter17_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter17 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter17 <= ap_enable_reg_pp0_iter16; end if; end if; end if; end process; ap_enable_reg_pp0_iter18_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter18 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter18 <= ap_enable_reg_pp0_iter17; end if; end if; end if; end process; ap_enable_reg_pp0_iter19_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter19 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter19 <= ap_enable_reg_pp0_iter18; end if; end if; end if; end process; ap_enable_reg_pp0_iter2_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter2 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter2 <= ap_enable_reg_pp0_iter1; end if; end if; end if; end process; ap_enable_reg_pp0_iter20_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter20 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter20 <= ap_enable_reg_pp0_iter19; end if; end if; end if; end process; ap_enable_reg_pp0_iter21_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter21 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter21 <= ap_enable_reg_pp0_iter20; end if; end if; end if; end process; ap_enable_reg_pp0_iter22_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter22 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter22 <= ap_enable_reg_pp0_iter21; end if; end if; end if; end process; ap_enable_reg_pp0_iter23_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter23 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter23 <= ap_enable_reg_pp0_iter22; end if; end if; end if; end process; ap_enable_reg_pp0_iter24_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter24 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter24 <= ap_enable_reg_pp0_iter23; end if; end if; end if; end process; ap_enable_reg_pp0_iter25_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter25 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter25 <= ap_enable_reg_pp0_iter24; end if; end if; end if; end process; ap_enable_reg_pp0_iter26_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter26 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter26 <= ap_enable_reg_pp0_iter25; end if; end if; end if; end process; ap_enable_reg_pp0_iter27_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter27 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter27 <= ap_enable_reg_pp0_iter26; end if; end if; end if; end process; ap_enable_reg_pp0_iter28_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter28 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter28 <= ap_enable_reg_pp0_iter27; end if; end if; end if; end process; ap_enable_reg_pp0_iter29_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter29 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter29 <= ap_enable_reg_pp0_iter28; end if; end if; end if; end process; ap_enable_reg_pp0_iter3_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter3 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter3 <= ap_enable_reg_pp0_iter2; end if; end if; end if; end process; ap_enable_reg_pp0_iter30_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter30 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter30 <= ap_enable_reg_pp0_iter29; end if; end if; end if; end process; ap_enable_reg_pp0_iter31_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter31 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter31 <= ap_enable_reg_pp0_iter30; end if; end if; end if; end process; ap_enable_reg_pp0_iter32_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter32 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter32 <= ap_enable_reg_pp0_iter31; end if; end if; end if; end process; ap_enable_reg_pp0_iter33_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter33 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter33 <= ap_enable_reg_pp0_iter32; end if; end if; end if; end process; ap_enable_reg_pp0_iter34_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter34 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter34 <= ap_enable_reg_pp0_iter33; end if; end if; end if; end process; ap_enable_reg_pp0_iter35_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter35 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter35 <= ap_enable_reg_pp0_iter34; end if; end if; end if; end process; ap_enable_reg_pp0_iter36_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter36 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter36 <= ap_enable_reg_pp0_iter35; end if; end if; end if; end process; ap_enable_reg_pp0_iter37_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter37 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter37 <= ap_enable_reg_pp0_iter36; end if; end if; end if; end process; ap_enable_reg_pp0_iter38_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter38 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter38 <= ap_enable_reg_pp0_iter37; end if; end if; end if; end process; ap_enable_reg_pp0_iter39_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter39 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter39 <= ap_enable_reg_pp0_iter38; end if; end if; end if; end process; ap_enable_reg_pp0_iter4_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter4 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter4 <= ap_enable_reg_pp0_iter3; end if; end if; end if; end process; ap_enable_reg_pp0_iter40_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter40 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter40 <= ap_enable_reg_pp0_iter39; end if; end if; end if; end process; ap_enable_reg_pp0_iter41_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter41 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter41 <= ap_enable_reg_pp0_iter40; end if; end if; end if; end process; ap_enable_reg_pp0_iter42_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter42 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter42 <= ap_enable_reg_pp0_iter41; end if; end if; end if; end process; ap_enable_reg_pp0_iter43_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter43 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then if ((ap_const_logic_1 = ap_condition_pp0_exit_iter42_state98)) then ap_enable_reg_pp0_iter43 <= ap_enable_reg_pp0_iter41; elsif ((ap_const_boolean_1 = ap_const_boolean_1)) then ap_enable_reg_pp0_iter43 <= ap_enable_reg_pp0_iter42; end if; end if; end if; end if; end process; ap_enable_reg_pp0_iter44_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter44 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter44 <= ap_enable_reg_pp0_iter43; end if; end if; end if; end process; ap_enable_reg_pp0_iter45_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter45 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter45 <= ap_enable_reg_pp0_iter44; end if; end if; end if; end process; ap_enable_reg_pp0_iter46_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter46 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter46 <= ap_enable_reg_pp0_iter45; end if; end if; end if; end process; ap_enable_reg_pp0_iter47_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter47 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter47 <= ap_enable_reg_pp0_iter46; end if; end if; end if; end process; ap_enable_reg_pp0_iter48_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter48 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter48 <= ap_enable_reg_pp0_iter47; end if; end if; end if; end process; ap_enable_reg_pp0_iter49_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter49 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter49 <= ap_enable_reg_pp0_iter48; end if; end if; end if; end process; ap_enable_reg_pp0_iter5_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter5 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter5 <= ap_enable_reg_pp0_iter4; end if; end if; end if; end process; ap_enable_reg_pp0_iter50_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter50 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter50 <= ap_enable_reg_pp0_iter49; end if; end if; end if; end process; ap_enable_reg_pp0_iter51_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter51 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter51 <= ap_enable_reg_pp0_iter50; end if; end if; end if; end process; ap_enable_reg_pp0_iter52_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter52 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter52 <= ap_enable_reg_pp0_iter51; elsif (((ap_const_logic_1 = ap_CS_fsm_state55) and (tmp_27_fu_1043_p2 = ap_const_lv1_1))) then ap_enable_reg_pp0_iter52 <= ap_const_logic_0; end if; end if; end if; end process; ap_enable_reg_pp0_iter6_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter6 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter6 <= ap_enable_reg_pp0_iter5; end if; end if; end if; end process; ap_enable_reg_pp0_iter7_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter7 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter7 <= ap_enable_reg_pp0_iter6; end if; end if; end if; end process; ap_enable_reg_pp0_iter8_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter8 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter8 <= ap_enable_reg_pp0_iter7; end if; end if; end if; end process; ap_enable_reg_pp0_iter9_assign_proc : process(ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (ap_rst = '1') then ap_enable_reg_pp0_iter9 <= ap_const_logic_0; else if ((ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) then ap_enable_reg_pp0_iter9 <= ap_enable_reg_pp0_iter8; end if; end if; end if; end process; ap_phi_reg_pp0_iter1_dy_reg_557_assign_proc : process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if ((ap_const_boolean_1 = ap_condition_428)) then if (((tmp_23_reg_2792 = ap_const_lv1_0) and (tmp_31_fu_1088_p2 = ap_const_lv1_1))) then ap_phi_reg_pp0_iter1_dy_reg_557 <= tmp_28_reg_2823; elsif ((ap_const_boolean_1 = ap_const_boolean_1)) then ap_phi_reg_pp0_iter1_dy_reg_557 <= ap_phi_reg_pp0_iter0_dy_reg_557; end if; end if; end if; end process; ap_phi_reg_pp0_iter36_dx_reg_566_assign_proc : process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter35 = ap_const_logic_1))) then if (((tmp_24_reg_2797 = ap_const_lv1_0) and (tmp_31_reg_2851_pp0_iter34_reg = ap_const_lv1_1))) then ap_phi_reg_pp0_iter36_dx_reg_566 <= tmp_36_fu_1135_p2; elsif (((tmp_31_reg_2851_pp0_iter34_reg = ap_const_lv1_1) and (tmp_24_reg_2797 = ap_const_lv1_1))) then ap_phi_reg_pp0_iter36_dx_reg_566 <= tmp_72_fu_1140_p1; elsif ((ap_const_boolean_1 = ap_const_boolean_1)) then ap_phi_reg_pp0_iter36_dx_reg_566 <= ap_phi_reg_pp0_iter35_dx_reg_566; end if; end if; end if; end process; ap_phi_reg_pp0_iter36_dy_reg_557_assign_proc : process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter35 = ap_const_logic_1))) then if (((tmp_31_reg_2851_pp0_iter34_reg = ap_const_lv1_1) and (tmp_23_reg_2792 = ap_const_lv1_1))) then ap_phi_reg_pp0_iter36_dy_reg_557 <= tmp_71_fu_1132_p1; elsif ((ap_const_boolean_1 = ap_const_boolean_1)) then ap_phi_reg_pp0_iter36_dy_reg_557 <= ap_phi_reg_pp0_iter35_dy_reg_557; end if; end if; end if; end process; p_Val2_16_reg_535_assign_proc : process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if ((ap_const_logic_1 = ap_CS_fsm_state109)) then p_Val2_16_reg_535 <= i_reg_2818; elsif ((ap_const_logic_1 = ap_CS_fsm_state54)) then p_Val2_16_reg_535 <= ap_const_lv15_0; end if; end if; end process; p_Val2_17_reg_546_assign_proc : process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter0 = ap_const_logic_1) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0) and (tmp_31_fu_1088_p2 = ap_const_lv1_1))) then p_Val2_17_reg_546 <= j_fu_1093_p2; elsif (((ap_const_logic_1 = ap_CS_fsm_state55) and (tmp_27_fu_1043_p2 = ap_const_lv1_1))) then p_Val2_17_reg_546 <= ap_const_lv15_0; end if; end if; end process; pre_fx_fu_238_assign_proc : process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter41 = ap_const_logic_1) and (tmp_31_reg_2851_pp0_iter40_reg = ap_const_lv1_1))) then pre_fx_fu_238 <= pre_fx_5_fu_1474_p3; elsif (((ap_start = ap_const_logic_1) and (ap_const_logic_1 = ap_CS_fsm_state1))) then pre_fx_fu_238 <= ap_const_lv16_FFF6; end if; end if; end process; pre_fy_fu_242_assign_proc : process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter41 = ap_const_logic_1) and (tmp_31_reg_2851_pp0_iter40_reg = ap_const_lv1_1))) then pre_fy_fu_242 <= pre_fy_5_fu_1417_p3; elsif (((ap_start = ap_const_logic_1) and (ap_const_logic_1 = ap_CS_fsm_state1))) then pre_fy_fu_242 <= ap_const_lv16_FFF6; end if; end if; end process; row_rd_fu_234_assign_proc : process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter41 = ap_const_logic_1) and (tmp_31_reg_2851_pp0_iter40_reg = ap_const_lv1_1))) then row_rd_fu_234 <= row_rd_5_fu_1442_p3; elsif (((ap_start = ap_const_logic_1) and (ap_const_logic_1 = ap_CS_fsm_state1))) then row_rd_fu_234 <= ap_const_lv1_0; end if; end if; end process; row_wr_fu_230_assign_proc : process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter41 = ap_const_logic_1) and (tmp_31_reg_2851_pp0_iter40_reg = ap_const_lv1_1))) then row_wr_fu_230 <= row_wr_3_fu_1456_p3; elsif (((ap_start = ap_const_logic_1) and (ap_const_logic_1 = ap_CS_fsm_state1))) then row_wr_fu_230 <= ap_const_lv1_0; end if; end if; end process; win_val_0_val_1_0_fu_258_assign_proc : process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_predicate_op564_read_state98 = ap_const_boolean_1) and (ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter42 = ap_const_logic_1))) then win_val_0_val_1_0_fu_258 <= p_src_data_stream_0_V_dout; elsif ((((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (row_rd_5_reg_3002 = ap_const_lv1_0) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1)) or ((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (tmp_53_reg_3065 = ap_const_lv1_0) and (row_rd_5_reg_3002 = ap_const_lv1_1) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1)))) then win_val_0_val_1_0_fu_258 <= k_buf_val_val_0_0_q0; end if; end if; end process; win_val_0_val_1_1_fu_262_assign_proc : process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_predicate_op564_read_state98 = ap_const_boolean_1) and (ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter42 = ap_const_logic_1))) then win_val_0_val_1_1_fu_262 <= p_src_data_stream_1_V_dout; elsif ((((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (row_rd_5_reg_3002 = ap_const_lv1_0) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1)) or ((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (tmp_53_reg_3065 = ap_const_lv1_0) and (row_rd_5_reg_3002 = ap_const_lv1_1) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1)))) then win_val_0_val_1_1_fu_262 <= k_buf_val_val_0_1_q0; end if; end if; end process; win_val_0_val_1_2_fu_266_assign_proc : process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_predicate_op564_read_state98 = ap_const_boolean_1) and (ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter42 = ap_const_logic_1))) then win_val_0_val_1_2_fu_266 <= p_src_data_stream_2_V_dout; elsif ((((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (row_rd_5_reg_3002 = ap_const_lv1_0) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1)) or ((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (tmp_53_reg_3065 = ap_const_lv1_0) and (row_rd_5_reg_3002 = ap_const_lv1_1) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1)))) then win_val_0_val_1_2_fu_266 <= k_buf_val_val_0_2_q0; end if; end if; end process; x_fu_246_assign_proc : process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter41 = ap_const_logic_1) and (col_rd_2_fu_1486_p2 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter40_reg = ap_const_lv1_1))) then x_fu_246 <= x_1_fu_1538_p2; elsif (((col_rd_2_fu_1486_p2 = ap_const_lv1_0) and (ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter41 = ap_const_logic_1) and (tmp_31_reg_2851_pp0_iter40_reg = ap_const_lv1_1))) then x_fu_246 <= x_2_fu_1398_p3; elsif (((ap_start = ap_const_logic_1) and (ap_const_logic_1 = ap_CS_fsm_state1))) then x_fu_246 <= ap_const_lv16_0; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (brmerge_demorgan_reg_3077_pp0_iter43_reg = ap_const_lv1_1))) then OP2_V_6_reg_3222(47 downto 2) <= OP2_V_6_fu_1821_p1(47 downto 2); r_V_1_1_reg_3242 <= r_V_1_1_fu_2498_p2; r_V_1_2_reg_3262 <= r_V_1_2_fu_2509_p2; r_V_1_reg_3212 <= r_V_1_fu_2487_p2; r_V_2_1_reg_3247 <= r_V_2_1_fu_2504_p2; r_V_2_2_reg_3267 <= r_V_2_2_fu_2515_p2; r_V_2_reg_3217 <= r_V_2_fu_2493_p2; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (brmerge_demorgan_reg_3077_pp0_iter42_reg = ap_const_lv1_1))) then OP2_V_reg_3163(27 downto 2) <= OP2_V_fu_1770_p1(27 downto 2); r_V_3_1_reg_3185 <= r_V_3_1_fu_2469_p2; r_V_3_2_reg_3195 <= r_V_3_2_fu_2481_p2; r_V_3_reg_3175 <= r_V_3_fu_2457_p2; r_V_4_reg_3190 <= r_V_4_fu_2475_p2; r_V_reg_3170 <= r_V_fu_2451_p2; r_V_s_reg_3180 <= r_V_s_fu_2463_p2; win_val_0_val_1_0_4_reg_3133 <= win_val_0_val_1_0_1_fu_270; win_val_0_val_1_1_4_reg_3138 <= win_val_0_val_1_1_1_fu_274; win_val_0_val_1_2_4_reg_3143 <= win_val_0_val_1_2_1_fu_278; win_val_1_val_1_0_3_reg_3148 <= win_val_1_val_1_0_fu_282; win_val_1_val_1_1_3_reg_3153 <= win_val_1_val_1_1_fu_286; win_val_1_val_1_2_3_reg_3158 <= win_val_1_val_1_2_fu_290; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter9 = ap_const_logic_1))) then ap_phi_reg_pp0_iter10_dx_reg_566 <= ap_phi_reg_pp0_iter9_dx_reg_566; ap_phi_reg_pp0_iter10_dy_reg_557 <= ap_phi_reg_pp0_iter9_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter10 = ap_const_logic_1))) then ap_phi_reg_pp0_iter11_dx_reg_566 <= ap_phi_reg_pp0_iter10_dx_reg_566; ap_phi_reg_pp0_iter11_dy_reg_557 <= ap_phi_reg_pp0_iter10_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter11 = ap_const_logic_1))) then ap_phi_reg_pp0_iter12_dx_reg_566 <= ap_phi_reg_pp0_iter11_dx_reg_566; ap_phi_reg_pp0_iter12_dy_reg_557 <= ap_phi_reg_pp0_iter11_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter12 = ap_const_logic_1))) then ap_phi_reg_pp0_iter13_dx_reg_566 <= ap_phi_reg_pp0_iter12_dx_reg_566; ap_phi_reg_pp0_iter13_dy_reg_557 <= ap_phi_reg_pp0_iter12_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter13 = ap_const_logic_1))) then ap_phi_reg_pp0_iter14_dx_reg_566 <= ap_phi_reg_pp0_iter13_dx_reg_566; ap_phi_reg_pp0_iter14_dy_reg_557 <= ap_phi_reg_pp0_iter13_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter14 = ap_const_logic_1))) then ap_phi_reg_pp0_iter15_dx_reg_566 <= ap_phi_reg_pp0_iter14_dx_reg_566; ap_phi_reg_pp0_iter15_dy_reg_557 <= ap_phi_reg_pp0_iter14_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter15 = ap_const_logic_1))) then ap_phi_reg_pp0_iter16_dx_reg_566 <= ap_phi_reg_pp0_iter15_dx_reg_566; ap_phi_reg_pp0_iter16_dy_reg_557 <= ap_phi_reg_pp0_iter15_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter16 = ap_const_logic_1))) then ap_phi_reg_pp0_iter17_dx_reg_566 <= ap_phi_reg_pp0_iter16_dx_reg_566; ap_phi_reg_pp0_iter17_dy_reg_557 <= ap_phi_reg_pp0_iter16_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter17 = ap_const_logic_1))) then ap_phi_reg_pp0_iter18_dx_reg_566 <= ap_phi_reg_pp0_iter17_dx_reg_566; ap_phi_reg_pp0_iter18_dy_reg_557 <= ap_phi_reg_pp0_iter17_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter18 = ap_const_logic_1))) then ap_phi_reg_pp0_iter19_dx_reg_566 <= ap_phi_reg_pp0_iter18_dx_reg_566; ap_phi_reg_pp0_iter19_dy_reg_557 <= ap_phi_reg_pp0_iter18_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter0 = ap_const_logic_1) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0))) then ap_phi_reg_pp0_iter1_dx_reg_566 <= ap_phi_reg_pp0_iter0_dx_reg_566; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter19 = ap_const_logic_1))) then ap_phi_reg_pp0_iter20_dx_reg_566 <= ap_phi_reg_pp0_iter19_dx_reg_566; ap_phi_reg_pp0_iter20_dy_reg_557 <= ap_phi_reg_pp0_iter19_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter20 = ap_const_logic_1))) then ap_phi_reg_pp0_iter21_dx_reg_566 <= ap_phi_reg_pp0_iter20_dx_reg_566; ap_phi_reg_pp0_iter21_dy_reg_557 <= ap_phi_reg_pp0_iter20_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter21 = ap_const_logic_1))) then ap_phi_reg_pp0_iter22_dx_reg_566 <= ap_phi_reg_pp0_iter21_dx_reg_566; ap_phi_reg_pp0_iter22_dy_reg_557 <= ap_phi_reg_pp0_iter21_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter22 = ap_const_logic_1))) then ap_phi_reg_pp0_iter23_dx_reg_566 <= ap_phi_reg_pp0_iter22_dx_reg_566; ap_phi_reg_pp0_iter23_dy_reg_557 <= ap_phi_reg_pp0_iter22_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter23 = ap_const_logic_1))) then ap_phi_reg_pp0_iter24_dx_reg_566 <= ap_phi_reg_pp0_iter23_dx_reg_566; ap_phi_reg_pp0_iter24_dy_reg_557 <= ap_phi_reg_pp0_iter23_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter24 = ap_const_logic_1))) then ap_phi_reg_pp0_iter25_dx_reg_566 <= ap_phi_reg_pp0_iter24_dx_reg_566; ap_phi_reg_pp0_iter25_dy_reg_557 <= ap_phi_reg_pp0_iter24_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter25 = ap_const_logic_1))) then ap_phi_reg_pp0_iter26_dx_reg_566 <= ap_phi_reg_pp0_iter25_dx_reg_566; ap_phi_reg_pp0_iter26_dy_reg_557 <= ap_phi_reg_pp0_iter25_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter26 = ap_const_logic_1))) then ap_phi_reg_pp0_iter27_dx_reg_566 <= ap_phi_reg_pp0_iter26_dx_reg_566; ap_phi_reg_pp0_iter27_dy_reg_557 <= ap_phi_reg_pp0_iter26_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter27 = ap_const_logic_1))) then ap_phi_reg_pp0_iter28_dx_reg_566 <= ap_phi_reg_pp0_iter27_dx_reg_566; ap_phi_reg_pp0_iter28_dy_reg_557 <= ap_phi_reg_pp0_iter27_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter28 = ap_const_logic_1))) then ap_phi_reg_pp0_iter29_dx_reg_566 <= ap_phi_reg_pp0_iter28_dx_reg_566; ap_phi_reg_pp0_iter29_dy_reg_557 <= ap_phi_reg_pp0_iter28_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0) and (ap_enable_reg_pp0_iter1 = ap_const_logic_1))) then ap_phi_reg_pp0_iter2_dx_reg_566 <= ap_phi_reg_pp0_iter1_dx_reg_566; ap_phi_reg_pp0_iter2_dy_reg_557 <= ap_phi_reg_pp0_iter1_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter29 = ap_const_logic_1))) then ap_phi_reg_pp0_iter30_dx_reg_566 <= ap_phi_reg_pp0_iter29_dx_reg_566; ap_phi_reg_pp0_iter30_dy_reg_557 <= ap_phi_reg_pp0_iter29_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter30 = ap_const_logic_1))) then ap_phi_reg_pp0_iter31_dx_reg_566 <= ap_phi_reg_pp0_iter30_dx_reg_566; ap_phi_reg_pp0_iter31_dy_reg_557 <= ap_phi_reg_pp0_iter30_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter31 = ap_const_logic_1))) then ap_phi_reg_pp0_iter32_dx_reg_566 <= ap_phi_reg_pp0_iter31_dx_reg_566; ap_phi_reg_pp0_iter32_dy_reg_557 <= ap_phi_reg_pp0_iter31_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter32 = ap_const_logic_1))) then ap_phi_reg_pp0_iter33_dx_reg_566 <= ap_phi_reg_pp0_iter32_dx_reg_566; ap_phi_reg_pp0_iter33_dy_reg_557 <= ap_phi_reg_pp0_iter32_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter33 = ap_const_logic_1))) then ap_phi_reg_pp0_iter34_dx_reg_566 <= ap_phi_reg_pp0_iter33_dx_reg_566; ap_phi_reg_pp0_iter34_dy_reg_557 <= ap_phi_reg_pp0_iter33_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter34 = ap_const_logic_1))) then ap_phi_reg_pp0_iter35_dx_reg_566 <= ap_phi_reg_pp0_iter34_dx_reg_566; ap_phi_reg_pp0_iter35_dy_reg_557 <= ap_phi_reg_pp0_iter34_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter2 = ap_const_logic_1))) then ap_phi_reg_pp0_iter3_dx_reg_566 <= ap_phi_reg_pp0_iter2_dx_reg_566; ap_phi_reg_pp0_iter3_dy_reg_557 <= ap_phi_reg_pp0_iter2_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter3 = ap_const_logic_1))) then ap_phi_reg_pp0_iter4_dx_reg_566 <= ap_phi_reg_pp0_iter3_dx_reg_566; ap_phi_reg_pp0_iter4_dy_reg_557 <= ap_phi_reg_pp0_iter3_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter4 = ap_const_logic_1))) then ap_phi_reg_pp0_iter5_dx_reg_566 <= ap_phi_reg_pp0_iter4_dx_reg_566; ap_phi_reg_pp0_iter5_dy_reg_557 <= ap_phi_reg_pp0_iter4_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter5 = ap_const_logic_1))) then ap_phi_reg_pp0_iter6_dx_reg_566 <= ap_phi_reg_pp0_iter5_dx_reg_566; ap_phi_reg_pp0_iter6_dy_reg_557 <= ap_phi_reg_pp0_iter5_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter6 = ap_const_logic_1))) then ap_phi_reg_pp0_iter7_dx_reg_566 <= ap_phi_reg_pp0_iter6_dx_reg_566; ap_phi_reg_pp0_iter7_dy_reg_557 <= ap_phi_reg_pp0_iter6_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter7 = ap_const_logic_1))) then ap_phi_reg_pp0_iter8_dx_reg_566 <= ap_phi_reg_pp0_iter7_dx_reg_566; ap_phi_reg_pp0_iter8_dy_reg_557 <= ap_phi_reg_pp0_iter7_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter8 = ap_const_logic_1))) then ap_phi_reg_pp0_iter9_dx_reg_566 <= ap_phi_reg_pp0_iter8_dx_reg_566; ap_phi_reg_pp0_iter9_dy_reg_557 <= ap_phi_reg_pp0_iter8_dy_reg_557; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (tmp_31_reg_2851_pp0_iter40_reg = ap_const_lv1_1))) then brmerge_demorgan_reg_3077 <= brmerge_demorgan_fu_1549_p2; col_rd_2_reg_3006 <= col_rd_2_fu_1486_p2; row_rd_5_reg_3002 <= row_rd_5_fu_1442_p3; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if ((ap_const_boolean_0 = ap_block_pp0_stage0_11001)) then brmerge_demorgan_reg_3077_pp0_iter42_reg <= brmerge_demorgan_reg_3077; brmerge_demorgan_reg_3077_pp0_iter43_reg <= brmerge_demorgan_reg_3077_pp0_iter42_reg; brmerge_demorgan_reg_3077_pp0_iter44_reg <= brmerge_demorgan_reg_3077_pp0_iter43_reg; brmerge_demorgan_reg_3077_pp0_iter45_reg <= brmerge_demorgan_reg_3077_pp0_iter44_reg; brmerge_demorgan_reg_3077_pp0_iter46_reg <= brmerge_demorgan_reg_3077_pp0_iter45_reg; brmerge_demorgan_reg_3077_pp0_iter47_reg <= brmerge_demorgan_reg_3077_pp0_iter46_reg; brmerge_demorgan_reg_3077_pp0_iter48_reg <= brmerge_demorgan_reg_3077_pp0_iter47_reg; brmerge_demorgan_reg_3077_pp0_iter49_reg <= brmerge_demorgan_reg_3077_pp0_iter48_reg; brmerge_demorgan_reg_3077_pp0_iter50_reg <= brmerge_demorgan_reg_3077_pp0_iter49_reg; brmerge_demorgan_reg_3077_pp0_iter51_reg <= brmerge_demorgan_reg_3077_pp0_iter50_reg; col_rd_2_reg_3006_pp0_iter42_reg <= col_rd_2_reg_3006; col_wr_1_reg_2877_pp0_iter10_reg <= col_wr_1_reg_2877_pp0_iter9_reg; col_wr_1_reg_2877_pp0_iter11_reg <= col_wr_1_reg_2877_pp0_iter10_reg; col_wr_1_reg_2877_pp0_iter12_reg <= col_wr_1_reg_2877_pp0_iter11_reg; col_wr_1_reg_2877_pp0_iter13_reg <= col_wr_1_reg_2877_pp0_iter12_reg; col_wr_1_reg_2877_pp0_iter14_reg <= col_wr_1_reg_2877_pp0_iter13_reg; col_wr_1_reg_2877_pp0_iter15_reg <= col_wr_1_reg_2877_pp0_iter14_reg; col_wr_1_reg_2877_pp0_iter16_reg <= col_wr_1_reg_2877_pp0_iter15_reg; col_wr_1_reg_2877_pp0_iter17_reg <= col_wr_1_reg_2877_pp0_iter16_reg; col_wr_1_reg_2877_pp0_iter18_reg <= col_wr_1_reg_2877_pp0_iter17_reg; col_wr_1_reg_2877_pp0_iter19_reg <= col_wr_1_reg_2877_pp0_iter18_reg; col_wr_1_reg_2877_pp0_iter20_reg <= col_wr_1_reg_2877_pp0_iter19_reg; col_wr_1_reg_2877_pp0_iter21_reg <= col_wr_1_reg_2877_pp0_iter20_reg; col_wr_1_reg_2877_pp0_iter22_reg <= col_wr_1_reg_2877_pp0_iter21_reg; col_wr_1_reg_2877_pp0_iter23_reg <= col_wr_1_reg_2877_pp0_iter22_reg; col_wr_1_reg_2877_pp0_iter24_reg <= col_wr_1_reg_2877_pp0_iter23_reg; col_wr_1_reg_2877_pp0_iter25_reg <= col_wr_1_reg_2877_pp0_iter24_reg; col_wr_1_reg_2877_pp0_iter26_reg <= col_wr_1_reg_2877_pp0_iter25_reg; col_wr_1_reg_2877_pp0_iter27_reg <= col_wr_1_reg_2877_pp0_iter26_reg; col_wr_1_reg_2877_pp0_iter28_reg <= col_wr_1_reg_2877_pp0_iter27_reg; col_wr_1_reg_2877_pp0_iter29_reg <= col_wr_1_reg_2877_pp0_iter28_reg; col_wr_1_reg_2877_pp0_iter2_reg <= col_wr_1_reg_2877_pp0_iter1_reg; col_wr_1_reg_2877_pp0_iter30_reg <= col_wr_1_reg_2877_pp0_iter29_reg; col_wr_1_reg_2877_pp0_iter31_reg <= col_wr_1_reg_2877_pp0_iter30_reg; col_wr_1_reg_2877_pp0_iter32_reg <= col_wr_1_reg_2877_pp0_iter31_reg; col_wr_1_reg_2877_pp0_iter33_reg <= col_wr_1_reg_2877_pp0_iter32_reg; col_wr_1_reg_2877_pp0_iter34_reg <= col_wr_1_reg_2877_pp0_iter33_reg; col_wr_1_reg_2877_pp0_iter35_reg <= col_wr_1_reg_2877_pp0_iter34_reg; col_wr_1_reg_2877_pp0_iter36_reg <= col_wr_1_reg_2877_pp0_iter35_reg; col_wr_1_reg_2877_pp0_iter37_reg <= col_wr_1_reg_2877_pp0_iter36_reg; col_wr_1_reg_2877_pp0_iter38_reg <= col_wr_1_reg_2877_pp0_iter37_reg; col_wr_1_reg_2877_pp0_iter39_reg <= col_wr_1_reg_2877_pp0_iter38_reg; col_wr_1_reg_2877_pp0_iter3_reg <= col_wr_1_reg_2877_pp0_iter2_reg; col_wr_1_reg_2877_pp0_iter40_reg <= col_wr_1_reg_2877_pp0_iter39_reg; col_wr_1_reg_2877_pp0_iter4_reg <= col_wr_1_reg_2877_pp0_iter3_reg; col_wr_1_reg_2877_pp0_iter5_reg <= col_wr_1_reg_2877_pp0_iter4_reg; col_wr_1_reg_2877_pp0_iter6_reg <= col_wr_1_reg_2877_pp0_iter5_reg; col_wr_1_reg_2877_pp0_iter7_reg <= col_wr_1_reg_2877_pp0_iter6_reg; col_wr_1_reg_2877_pp0_iter8_reg <= col_wr_1_reg_2877_pp0_iter7_reg; col_wr_1_reg_2877_pp0_iter9_reg <= col_wr_1_reg_2877_pp0_iter8_reg; i_op_assign_cast_reg_2845_pp0_iter10_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter9_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter11_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter10_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter12_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter11_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter13_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter12_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter14_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter13_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter15_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter14_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter16_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter15_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter17_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter16_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter18_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter17_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter19_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter18_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter20_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter19_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter21_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter20_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter22_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter21_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter23_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter22_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter24_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter23_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter25_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter24_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter26_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter25_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter27_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter26_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter28_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter27_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter29_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter28_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter2_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter1_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter30_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter29_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter31_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter30_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter32_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter31_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter33_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter32_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter34_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter33_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter35_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter34_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter36_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter35_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter37_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter36_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter38_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter37_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter39_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter38_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter3_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter2_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter4_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter3_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter5_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter4_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter6_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter5_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter7_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter6_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter8_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter7_reg(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter9_reg(14 downto 0) <= i_op_assign_cast_reg_2845_pp0_iter8_reg(14 downto 0); k_buf_val_val_0_0_ad_reg_3047_pp0_iter42_reg <= k_buf_val_val_0_0_ad_reg_3047; k_buf_val_val_0_1_ad_reg_3053_pp0_iter42_reg <= k_buf_val_val_0_1_ad_reg_3053; k_buf_val_val_0_2_ad_reg_3059_pp0_iter42_reg <= k_buf_val_val_0_2_ad_reg_3059; p_u_V_reg_3086_pp0_iter43_reg(19 downto 2) <= p_u_V_reg_3086(19 downto 2); p_u_V_reg_3086_pp0_iter44_reg(19 downto 2) <= p_u_V_reg_3086_pp0_iter43_reg(19 downto 2); row_rd_5_reg_3002_pp0_iter42_reg <= row_rd_5_reg_3002; signbit_1_reg_3422_pp0_iter51_reg <= signbit_1_reg_3422; signbit_2_reg_3450_pp0_iter51_reg <= signbit_2_reg_3450; signbit_reg_3394_pp0_iter51_reg <= signbit_reg_3394; tmp_31_reg_2851_pp0_iter10_reg <= tmp_31_reg_2851_pp0_iter9_reg; tmp_31_reg_2851_pp0_iter11_reg <= tmp_31_reg_2851_pp0_iter10_reg; tmp_31_reg_2851_pp0_iter12_reg <= tmp_31_reg_2851_pp0_iter11_reg; tmp_31_reg_2851_pp0_iter13_reg <= tmp_31_reg_2851_pp0_iter12_reg; tmp_31_reg_2851_pp0_iter14_reg <= tmp_31_reg_2851_pp0_iter13_reg; tmp_31_reg_2851_pp0_iter15_reg <= tmp_31_reg_2851_pp0_iter14_reg; tmp_31_reg_2851_pp0_iter16_reg <= tmp_31_reg_2851_pp0_iter15_reg; tmp_31_reg_2851_pp0_iter17_reg <= tmp_31_reg_2851_pp0_iter16_reg; tmp_31_reg_2851_pp0_iter18_reg <= tmp_31_reg_2851_pp0_iter17_reg; tmp_31_reg_2851_pp0_iter19_reg <= tmp_31_reg_2851_pp0_iter18_reg; tmp_31_reg_2851_pp0_iter20_reg <= tmp_31_reg_2851_pp0_iter19_reg; tmp_31_reg_2851_pp0_iter21_reg <= tmp_31_reg_2851_pp0_iter20_reg; tmp_31_reg_2851_pp0_iter22_reg <= tmp_31_reg_2851_pp0_iter21_reg; tmp_31_reg_2851_pp0_iter23_reg <= tmp_31_reg_2851_pp0_iter22_reg; tmp_31_reg_2851_pp0_iter24_reg <= tmp_31_reg_2851_pp0_iter23_reg; tmp_31_reg_2851_pp0_iter25_reg <= tmp_31_reg_2851_pp0_iter24_reg; tmp_31_reg_2851_pp0_iter26_reg <= tmp_31_reg_2851_pp0_iter25_reg; tmp_31_reg_2851_pp0_iter27_reg <= tmp_31_reg_2851_pp0_iter26_reg; tmp_31_reg_2851_pp0_iter28_reg <= tmp_31_reg_2851_pp0_iter27_reg; tmp_31_reg_2851_pp0_iter29_reg <= tmp_31_reg_2851_pp0_iter28_reg; tmp_31_reg_2851_pp0_iter2_reg <= tmp_31_reg_2851_pp0_iter1_reg; tmp_31_reg_2851_pp0_iter30_reg <= tmp_31_reg_2851_pp0_iter29_reg; tmp_31_reg_2851_pp0_iter31_reg <= tmp_31_reg_2851_pp0_iter30_reg; tmp_31_reg_2851_pp0_iter32_reg <= tmp_31_reg_2851_pp0_iter31_reg; tmp_31_reg_2851_pp0_iter33_reg <= tmp_31_reg_2851_pp0_iter32_reg; tmp_31_reg_2851_pp0_iter34_reg <= tmp_31_reg_2851_pp0_iter33_reg; tmp_31_reg_2851_pp0_iter35_reg <= tmp_31_reg_2851_pp0_iter34_reg; tmp_31_reg_2851_pp0_iter36_reg <= tmp_31_reg_2851_pp0_iter35_reg; tmp_31_reg_2851_pp0_iter37_reg <= tmp_31_reg_2851_pp0_iter36_reg; tmp_31_reg_2851_pp0_iter38_reg <= tmp_31_reg_2851_pp0_iter37_reg; tmp_31_reg_2851_pp0_iter39_reg <= tmp_31_reg_2851_pp0_iter38_reg; tmp_31_reg_2851_pp0_iter3_reg <= tmp_31_reg_2851_pp0_iter2_reg; tmp_31_reg_2851_pp0_iter40_reg <= tmp_31_reg_2851_pp0_iter39_reg; tmp_31_reg_2851_pp0_iter41_reg <= tmp_31_reg_2851_pp0_iter40_reg; tmp_31_reg_2851_pp0_iter42_reg <= tmp_31_reg_2851_pp0_iter41_reg; tmp_31_reg_2851_pp0_iter4_reg <= tmp_31_reg_2851_pp0_iter3_reg; tmp_31_reg_2851_pp0_iter5_reg <= tmp_31_reg_2851_pp0_iter4_reg; tmp_31_reg_2851_pp0_iter6_reg <= tmp_31_reg_2851_pp0_iter5_reg; tmp_31_reg_2851_pp0_iter7_reg <= tmp_31_reg_2851_pp0_iter6_reg; tmp_31_reg_2851_pp0_iter8_reg <= tmp_31_reg_2851_pp0_iter7_reg; tmp_31_reg_2851_pp0_iter9_reg <= tmp_31_reg_2851_pp0_iter8_reg; tmp_41_reg_2951_pp0_iter41_reg <= tmp_41_reg_2951; tmp_46_reg_2961_pp0_iter41_reg <= tmp_46_reg_2961; tmp_46_reg_2961_pp0_iter42_reg <= tmp_46_reg_2961_pp0_iter41_reg; tmp_48_reg_2971_pp0_iter41_reg <= tmp_48_reg_2971; tmp_49_reg_2984_pp0_iter41_reg <= tmp_49_reg_2984; tmp_49_reg_2984_pp0_iter42_reg <= tmp_49_reg_2984_pp0_iter41_reg; tmp_50_reg_2865_pp0_iter10_reg <= tmp_50_reg_2865_pp0_iter9_reg; tmp_50_reg_2865_pp0_iter11_reg <= tmp_50_reg_2865_pp0_iter10_reg; tmp_50_reg_2865_pp0_iter12_reg <= tmp_50_reg_2865_pp0_iter11_reg; tmp_50_reg_2865_pp0_iter13_reg <= tmp_50_reg_2865_pp0_iter12_reg; tmp_50_reg_2865_pp0_iter14_reg <= tmp_50_reg_2865_pp0_iter13_reg; tmp_50_reg_2865_pp0_iter15_reg <= tmp_50_reg_2865_pp0_iter14_reg; tmp_50_reg_2865_pp0_iter16_reg <= tmp_50_reg_2865_pp0_iter15_reg; tmp_50_reg_2865_pp0_iter17_reg <= tmp_50_reg_2865_pp0_iter16_reg; tmp_50_reg_2865_pp0_iter18_reg <= tmp_50_reg_2865_pp0_iter17_reg; tmp_50_reg_2865_pp0_iter19_reg <= tmp_50_reg_2865_pp0_iter18_reg; tmp_50_reg_2865_pp0_iter20_reg <= tmp_50_reg_2865_pp0_iter19_reg; tmp_50_reg_2865_pp0_iter21_reg <= tmp_50_reg_2865_pp0_iter20_reg; tmp_50_reg_2865_pp0_iter22_reg <= tmp_50_reg_2865_pp0_iter21_reg; tmp_50_reg_2865_pp0_iter23_reg <= tmp_50_reg_2865_pp0_iter22_reg; tmp_50_reg_2865_pp0_iter24_reg <= tmp_50_reg_2865_pp0_iter23_reg; tmp_50_reg_2865_pp0_iter25_reg <= tmp_50_reg_2865_pp0_iter24_reg; tmp_50_reg_2865_pp0_iter26_reg <= tmp_50_reg_2865_pp0_iter25_reg; tmp_50_reg_2865_pp0_iter27_reg <= tmp_50_reg_2865_pp0_iter26_reg; tmp_50_reg_2865_pp0_iter28_reg <= tmp_50_reg_2865_pp0_iter27_reg; tmp_50_reg_2865_pp0_iter29_reg <= tmp_50_reg_2865_pp0_iter28_reg; tmp_50_reg_2865_pp0_iter2_reg <= tmp_50_reg_2865_pp0_iter1_reg; tmp_50_reg_2865_pp0_iter30_reg <= tmp_50_reg_2865_pp0_iter29_reg; tmp_50_reg_2865_pp0_iter31_reg <= tmp_50_reg_2865_pp0_iter30_reg; tmp_50_reg_2865_pp0_iter32_reg <= tmp_50_reg_2865_pp0_iter31_reg; tmp_50_reg_2865_pp0_iter33_reg <= tmp_50_reg_2865_pp0_iter32_reg; tmp_50_reg_2865_pp0_iter34_reg <= tmp_50_reg_2865_pp0_iter33_reg; tmp_50_reg_2865_pp0_iter35_reg <= tmp_50_reg_2865_pp0_iter34_reg; tmp_50_reg_2865_pp0_iter36_reg <= tmp_50_reg_2865_pp0_iter35_reg; tmp_50_reg_2865_pp0_iter37_reg <= tmp_50_reg_2865_pp0_iter36_reg; tmp_50_reg_2865_pp0_iter38_reg <= tmp_50_reg_2865_pp0_iter37_reg; tmp_50_reg_2865_pp0_iter39_reg <= tmp_50_reg_2865_pp0_iter38_reg; tmp_50_reg_2865_pp0_iter3_reg <= tmp_50_reg_2865_pp0_iter2_reg; tmp_50_reg_2865_pp0_iter40_reg <= tmp_50_reg_2865_pp0_iter39_reg; tmp_50_reg_2865_pp0_iter4_reg <= tmp_50_reg_2865_pp0_iter3_reg; tmp_50_reg_2865_pp0_iter5_reg <= tmp_50_reg_2865_pp0_iter4_reg; tmp_50_reg_2865_pp0_iter6_reg <= tmp_50_reg_2865_pp0_iter5_reg; tmp_50_reg_2865_pp0_iter7_reg <= tmp_50_reg_2865_pp0_iter6_reg; tmp_50_reg_2865_pp0_iter8_reg <= tmp_50_reg_2865_pp0_iter7_reg; tmp_50_reg_2865_pp0_iter9_reg <= tmp_50_reg_2865_pp0_iter8_reg; tmp_52_reg_3010_pp0_iter42_reg <= tmp_52_reg_3010; tmp_53_reg_3065_pp0_iter42_reg <= tmp_53_reg_3065; tmp_55_reg_3069_pp0_iter42_reg <= tmp_55_reg_3069; tmp_56_reg_3073_pp0_iter42_reg <= tmp_56_reg_3073; tmp_77_reg_2956_pp0_iter41_reg <= tmp_77_reg_2956; tmp_78_reg_2966_pp0_iter41_reg <= tmp_78_reg_2966; tmp_78_reg_2966_pp0_iter42_reg <= tmp_78_reg_2966_pp0_iter41_reg; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if ((ap_const_logic_1 = ap_CS_fsm_state52)) then col_rate_V_reg_2711 <= col_rate_V_fu_743_p1; p_lshr_f1_reg_2734 <= grp_fu_708_p2(31 downto 1); p_lshr_f_reg_2724 <= grp_fu_684_p2(31 downto 1); row_rate_V_reg_2703 <= row_rate_V_fu_739_p1; tmp_54_reg_2719 <= grp_fu_684_p2(31 downto 31); tmp_68_reg_2729 <= grp_fu_708_p2(31 downto 31); end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (tmp_24_reg_2797 = ap_const_lv1_0) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0) and (tmp_31_fu_1088_p2 = ap_const_lv1_1))) then col_wr_1_reg_2877 <= col_wr_1_fu_1126_p2; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0))) then col_wr_1_reg_2877_pp0_iter1_reg <= col_wr_1_reg_2877; i_op_assign_cast_reg_2845(14 downto 0) <= i_op_assign_cast_fu_1084_p1(14 downto 0); i_op_assign_cast_reg_2845_pp0_iter1_reg(14 downto 0) <= i_op_assign_cast_reg_2845(14 downto 0); tmp_31_reg_2851 <= tmp_31_fu_1088_p2; tmp_31_reg_2851_pp0_iter1_reg <= tmp_31_reg_2851; tmp_50_reg_2865_pp0_iter1_reg <= tmp_50_reg_2865; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (tmp_31_reg_2851_pp0_iter39_reg = ap_const_lv1_1) and (tmp_24_reg_2797 = ap_const_lv1_1))) then col_wr_reg_2997 <= col_wr_fu_1362_p2; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if ((ap_const_logic_1 = ap_CS_fsm_state54)) then cols_reg_2764 <= cols_fu_976_p3; rows_reg_2759 <= rows_fu_960_p3; sx_reg_2776 <= sx_fu_989_p2; sy_reg_2787 <= sy_fu_1000_p2; tmp_21_reg_2769 <= tmp_21_fu_983_p2; tmp_22_reg_2781 <= tmp_22_fu_994_p2; tmp_23_reg_2792 <= tmp_23_fu_1005_p2; tmp_24_reg_2797 <= tmp_24_fu_1010_p2; tmp_59_cast_reg_2804(31 downto 6) <= tmp_59_cast_fu_1023_p1(31 downto 6); tmp_61_cast_reg_2809(31 downto 6) <= tmp_61_cast_fu_1035_p1(31 downto 6); end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_start = ap_const_logic_1) and (ap_const_logic_1 = ap_CS_fsm_state1))) then dcols_reg_2655 <= dcols_fu_650_p1; drows_reg_2661 <= drows_fu_654_p1; scols_reg_2675 <= scols_fu_662_p1; srows_reg_2667 <= srows_fu_658_p1; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if ((ap_const_logic_1 = ap_CS_fsm_state55)) then i_reg_2818 <= i_fu_1048_p2; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (col_rd_2_fu_1486_p2 = ap_const_lv1_1) and (row_rd_5_fu_1442_p3 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter40_reg = ap_const_lv1_1))) then k_buf_val_val_0_0_ad_reg_3047 <= tmp_52_fu_1501_p1(13 - 1 downto 0); k_buf_val_val_0_1_ad_reg_3053 <= tmp_52_fu_1501_p1(13 - 1 downto 0); k_buf_val_val_0_2_ad_reg_3059 <= tmp_52_fu_1501_p1(13 - 1 downto 0); tmp_53_reg_3065 <= tmp_53_fu_1517_p2; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (brmerge_demorgan_reg_3077_pp0_iter50_reg = ap_const_lv1_1))) then p_38_i_i_i1_reg_3497 <= p_38_i_i_i1_fu_2199_p2; p_38_i_i_i2_reg_3515 <= p_38_i_i_i2_fu_2263_p2; p_38_i_i_i_reg_3479 <= p_38_i_i_i_fu_2135_p2; p_39_demorgan_i_i_i1_reg_3503 <= p_39_demorgan_i_i_i1_fu_2205_p2; p_39_demorgan_i_i_i2_reg_3521 <= p_39_demorgan_i_i_i2_fu_2269_p2; p_39_demorgan_i_i_i_reg_3485 <= p_39_demorgan_i_i_i_fu_2141_p2; p_Val2_32_reg_3473 <= p_Val2_32_fu_2092_p2; p_Val2_33_reg_3491 <= p_Val2_33_fu_2156_p2; p_Val2_36_reg_3509 <= p_Val2_36_fu_2220_p2; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (brmerge_demorgan_reg_3077_pp0_iter49_reg = ap_const_lv1_1))) then p_Result_6_i_i1_reg_3439 <= p_Val2_44_1_fu_1996_p2(47 downto 44); p_Result_6_i_i2_reg_3467 <= p_Val2_44_2_fu_2041_p2(47 downto 44); p_Result_6_i_i_reg_3411 <= p_Val2_30_fu_1951_p2(47 downto 44); p_Val2_30_reg_3389 <= p_Val2_30_fu_1951_p2; p_Val2_31_reg_3401 <= p_Val2_30_fu_1951_p2(43 downto 36); p_Val2_35_reg_3457 <= p_Val2_44_2_fu_2041_p2(43 downto 36); p_Val2_44_1_reg_3417 <= p_Val2_44_1_fu_1996_p2; p_Val2_44_2_reg_3445 <= p_Val2_44_2_fu_2041_p2; p_Val2_s_72_reg_3429 <= p_Val2_44_1_fu_1996_p2(43 downto 36); signbit_1_reg_3422 <= p_Val2_44_1_fu_1996_p2(47 downto 47); signbit_2_reg_3450 <= p_Val2_44_2_fu_2041_p2(47 downto 47); signbit_reg_3394 <= p_Val2_30_fu_1951_p2(47 downto 47); tmp_83_reg_3406 <= p_Val2_30_fu_1951_p2(35 downto 35); tmp_87_reg_3434 <= p_Val2_44_1_fu_1996_p2(35 downto 35); tmp_91_reg_3462 <= p_Val2_44_2_fu_2041_p2(35 downto 35); end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (tmp_31_reg_2851_pp0_iter37_reg = ap_const_lv1_1))) then p_Val2_1_reg_2922 <= grp_fu_1156_p2; p_Val2_s_reg_2917 <= grp_fu_1147_p2; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (brmerge_demorgan_reg_3077_pp0_iter47_reg = ap_const_lv1_1))) then p_Val2_21_reg_3314 <= grp_fu_1809_p2; p_Val2_29_reg_3319 <= grp_fu_1827_p2; p_Val2_40_1_reg_3324 <= grp_fu_1836_p2; p_Val2_40_2_reg_3334 <= grp_fu_1860_p2; p_Val2_42_1_reg_3329 <= grp_fu_1851_p2; p_Val2_42_2_reg_3339 <= grp_fu_1875_p2; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (brmerge_demorgan_reg_3077_pp0_iter48_reg = ap_const_lv1_1))) then p_Val2_24_reg_3344 <= grp_fu_1887_p2; p_Val2_28_reg_3349 <= grp_fu_1896_p2; p_Val2_30_1_reg_3359 <= grp_fu_1904_p2; p_Val2_30_2_reg_3374 <= grp_fu_1921_p2; p_Val2_33_1_reg_3364 <= grp_fu_1913_p2; p_Val2_33_2_reg_3379 <= grp_fu_1930_p2; tmp69_reg_3354 <= tmp69_fu_1935_p2; tmp71_reg_3369 <= tmp71_fu_1939_p2; tmp73_reg_3384 <= tmp73_fu_1943_p2; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (tmp_31_reg_2851_pp0_iter38_reg = ap_const_lv1_1))) then p_Val2_2_reg_2932 <= p_Val2_2_fu_1165_p2; p_Val2_3_reg_2927 <= p_Val2_3_fu_1161_p2; sx_2_reg_2937 <= sx_2_fu_1211_p3; sy_3_reg_2944 <= sy_3_fu_1261_p3; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1))) then p_u_V_reg_3086(19 downto 2) <= p_u_V_fu_1604_p3(19 downto 2); u1_V_reg_3081(19 downto 2) <= u1_V_fu_1598_p2(19 downto 2); end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (tmp_31_reg_2851_pp0_iter39_reg = ap_const_lv1_1))) then pre_fx_1_reg_2976 <= pre_fx_1_fu_1337_p3; sy_4_reg_2989 <= sy_4_fu_1351_p3; tmp_41_reg_2951 <= tmp_41_fu_1289_p2; tmp_46_reg_2961 <= tmp_46_fu_1319_p2; tmp_48_reg_2971 <= tmp_48_fu_1332_p2; tmp_49_reg_2984 <= tmp_49_fu_1346_p2; tmp_77_reg_2956 <= tmp_77_fu_1295_p1; tmp_78_reg_2966 <= tmp_78_fu_1325_p1; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_logic_1 = ap_CS_fsm_state55) and (tmp_27_fu_1043_p2 = ap_const_lv1_1))) then row_wr_2_reg_2835 <= row_wr_2_fu_1066_p2; tmp_28_reg_2823 <= tmp_28_fu_1054_p2; tmp_29_reg_2829 <= tmp_29_fu_1060_p2; tmp_49_cast_reg_2840(30 downto 16) <= tmp_49_cast_fu_1080_p1(30 downto 16); end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if ((ap_const_logic_1 = ap_CS_fsm_state53)) then tmp_10_reg_2739 <= tmp_10_fu_811_p3; tmp_14_reg_2749 <= tmp_14_fu_850_p3; tmp_65_reg_2744 <= tmp_65_fu_818_p1; tmp_69_reg_2754 <= tmp_69_fu_857_p1; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_predicate_op564_read_state98 = ap_const_boolean_1) and (ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter42 = ap_const_logic_1))) then tmp_1_fu_254 <= p_src_data_stream_1_V_dout; tmp_2_fu_306 <= p_src_data_stream_0_V_dout; tmp_fu_250 <= p_src_data_stream_2_V_dout; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (tmp_31_reg_2851_pp0_iter33_reg = ap_const_lv1_1) and (tmp_23_reg_2792 = ap_const_lv1_1))) then tmp_33_reg_2882 <= grp_fu_1099_p2; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (tmp_31_reg_2851_pp0_iter33_reg = ap_const_lv1_1) and (tmp_24_reg_2797 = ap_const_lv1_1))) then tmp_35_reg_2887 <= grp_fu_1115_p2; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0) and (tmp_31_fu_1088_p2 = ap_const_lv1_1))) then tmp_50_reg_2865 <= tmp_50_fu_1120_p2; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (col_rd_2_fu_1486_p2 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter40_reg = ap_const_lv1_1))) then tmp_52_reg_3010 <= tmp_52_fu_1501_p1; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (tmp_53_fu_1517_p2 = ap_const_lv1_1) and (col_rd_2_fu_1486_p2 = ap_const_lv1_1) and (row_rd_5_fu_1442_p3 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter40_reg = ap_const_lv1_1))) then tmp_55_reg_3069 <= tmp_55_fu_1525_p2; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (((tmp_55_fu_1525_p2 = ap_const_lv1_0) and (col_rd_2_fu_1486_p2 = ap_const_lv1_1) and (row_rd_5_fu_1442_p3 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter40_reg = ap_const_lv1_1)) or ((tmp_53_fu_1517_p2 = ap_const_lv1_0) and (col_rd_2_fu_1486_p2 = ap_const_lv1_1) and (row_rd_5_fu_1442_p3 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter40_reg = ap_const_lv1_1))))) then tmp_56_reg_3073 <= tmp_56_fu_1533_p2; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_predicate_op564_read_state98 = ap_const_boolean_1) and (ap_const_boolean_0 = ap_block_pp0_stage0_11001))) then tmp_97_reg_3107 <= p_src_data_stream_0_V_dout; tmp_98_reg_3112 <= p_src_data_stream_1_V_dout; tmp_99_reg_3117 <= p_src_data_stream_2_V_dout; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (tmp_31_reg_2851_pp0_iter42_reg = ap_const_lv1_1))) then v1_V_reg_3122(19 downto 2) <= v1_V_fu_1709_p2(19 downto 2); v_V_reg_3128(19 downto 2) <= v_V_fu_1715_p3(19 downto 2); end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1))) then win_val_0_val_1_0_1_fu_270 <= win_val_0_val_1_0_fu_258; win_val_0_val_1_1_1_fu_274 <= win_val_0_val_1_1_fu_262; win_val_0_val_1_2_1_fu_278 <= win_val_0_val_1_2_fu_266; win_val_1_val_1_0_1_fu_294 <= win_val_1_val_1_0_fu_282; win_val_1_val_1_0_fu_282 <= ap_phi_mux_win_val_val_1_0_0_2_phi_fu_618_p10; win_val_1_val_1_1_1_fu_298 <= win_val_1_val_1_1_fu_286; win_val_1_val_1_1_fu_286 <= ap_phi_mux_win_val_val_1_0_1_2_phi_fu_598_p10; win_val_1_val_1_2_1_fu_302 <= win_val_1_val_1_2_fu_290; win_val_1_val_1_2_fu_290 <= ap_phi_mux_win_val_val_1_0_2_2_phi_fu_578_p10; end if; end if; end process; process (ap_clk) begin if (ap_clk'event and ap_clk = '1') then if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (row_rd_5_reg_3002 = ap_const_lv1_1) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1))) then win_val_1_val_0_0_reg_3092 <= k_buf_val_val_0_0_q0; win_val_1_val_0_1_reg_3097 <= k_buf_val_val_0_1_q0; win_val_1_val_0_2_reg_3102 <= k_buf_val_val_0_2_q0; end if; end if; end process; tmp_59_cast_reg_2804(5 downto 0) <= "000000"; tmp_61_cast_reg_2809(5 downto 0) <= "000000"; tmp_49_cast_reg_2840(15 downto 0) <= "0000000000000000"; tmp_49_cast_reg_2840(31) <= '0'; i_op_assign_cast_reg_2845(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter1_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter2_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter3_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter4_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter5_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter6_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter7_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter8_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter9_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter10_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter11_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter12_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter13_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter14_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter15_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter16_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter17_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter18_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter19_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter20_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter21_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter22_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter23_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter24_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter25_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter26_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter27_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter28_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter29_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter30_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter31_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter32_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter33_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter34_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter35_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter36_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter37_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter38_reg(15) <= '0'; i_op_assign_cast_reg_2845_pp0_iter39_reg(15) <= '0'; u1_V_reg_3081(1 downto 0) <= "00"; p_u_V_reg_3086(1 downto 0) <= "00"; p_u_V_reg_3086_pp0_iter43_reg(1 downto 0) <= "00"; p_u_V_reg_3086_pp0_iter44_reg(1 downto 0) <= "00"; v1_V_reg_3122(1 downto 0) <= "00"; v_V_reg_3128(1 downto 0) <= "00"; OP2_V_reg_3163(1 downto 0) <= "00"; OP2_V_6_reg_3222(1 downto 0) <= "00"; ap_NS_fsm_assign_proc : process (ap_start, ap_CS_fsm, ap_CS_fsm_state1, ap_enable_reg_pp0_iter42, ap_enable_reg_pp0_iter52, tmp_27_fu_1043_p2, ap_CS_fsm_state55, ap_block_pp0_stage0_subdone, ap_enable_reg_pp0_iter41, ap_enable_reg_pp0_iter43, ap_enable_reg_pp0_iter51) begin case ap_CS_fsm is when ap_ST_fsm_state1 => if (((ap_start = ap_const_logic_1) and (ap_const_logic_1 = ap_CS_fsm_state1))) then ap_NS_fsm <= ap_ST_fsm_state2; else ap_NS_fsm <= ap_ST_fsm_state1; end if; when ap_ST_fsm_state2 => ap_NS_fsm <= ap_ST_fsm_state3; when ap_ST_fsm_state3 => ap_NS_fsm <= ap_ST_fsm_state4; when ap_ST_fsm_state4 => ap_NS_fsm <= ap_ST_fsm_state5; when ap_ST_fsm_state5 => ap_NS_fsm <= ap_ST_fsm_state6; when ap_ST_fsm_state6 => ap_NS_fsm <= ap_ST_fsm_state7; when ap_ST_fsm_state7 => ap_NS_fsm <= ap_ST_fsm_state8; when ap_ST_fsm_state8 => ap_NS_fsm <= ap_ST_fsm_state9; when ap_ST_fsm_state9 => ap_NS_fsm <= ap_ST_fsm_state10; when ap_ST_fsm_state10 => ap_NS_fsm <= ap_ST_fsm_state11; when ap_ST_fsm_state11 => ap_NS_fsm <= ap_ST_fsm_state12; when ap_ST_fsm_state12 => ap_NS_fsm <= ap_ST_fsm_state13; when ap_ST_fsm_state13 => ap_NS_fsm <= ap_ST_fsm_state14; when ap_ST_fsm_state14 => ap_NS_fsm <= ap_ST_fsm_state15; when ap_ST_fsm_state15 => ap_NS_fsm <= ap_ST_fsm_state16; when ap_ST_fsm_state16 => ap_NS_fsm <= ap_ST_fsm_state17; when ap_ST_fsm_state17 => ap_NS_fsm <= ap_ST_fsm_state18; when ap_ST_fsm_state18 => ap_NS_fsm <= ap_ST_fsm_state19; when ap_ST_fsm_state19 => ap_NS_fsm <= ap_ST_fsm_state20; when ap_ST_fsm_state20 => ap_NS_fsm <= ap_ST_fsm_state21; when ap_ST_fsm_state21 => ap_NS_fsm <= ap_ST_fsm_state22; when ap_ST_fsm_state22 => ap_NS_fsm <= ap_ST_fsm_state23; when ap_ST_fsm_state23 => ap_NS_fsm <= ap_ST_fsm_state24; when ap_ST_fsm_state24 => ap_NS_fsm <= ap_ST_fsm_state25; when ap_ST_fsm_state25 => ap_NS_fsm <= ap_ST_fsm_state26; when ap_ST_fsm_state26 => ap_NS_fsm <= ap_ST_fsm_state27; when ap_ST_fsm_state27 => ap_NS_fsm <= ap_ST_fsm_state28; when ap_ST_fsm_state28 => ap_NS_fsm <= ap_ST_fsm_state29; when ap_ST_fsm_state29 => ap_NS_fsm <= ap_ST_fsm_state30; when ap_ST_fsm_state30 => ap_NS_fsm <= ap_ST_fsm_state31; when ap_ST_fsm_state31 => ap_NS_fsm <= ap_ST_fsm_state32; when ap_ST_fsm_state32 => ap_NS_fsm <= ap_ST_fsm_state33; when ap_ST_fsm_state33 => ap_NS_fsm <= ap_ST_fsm_state34; when ap_ST_fsm_state34 => ap_NS_fsm <= ap_ST_fsm_state35; when ap_ST_fsm_state35 => ap_NS_fsm <= ap_ST_fsm_state36; when ap_ST_fsm_state36 => ap_NS_fsm <= ap_ST_fsm_state37; when ap_ST_fsm_state37 => ap_NS_fsm <= ap_ST_fsm_state38; when ap_ST_fsm_state38 => ap_NS_fsm <= ap_ST_fsm_state39; when ap_ST_fsm_state39 => ap_NS_fsm <= ap_ST_fsm_state40; when ap_ST_fsm_state40 => ap_NS_fsm <= ap_ST_fsm_state41; when ap_ST_fsm_state41 => ap_NS_fsm <= ap_ST_fsm_state42; when ap_ST_fsm_state42 => ap_NS_fsm <= ap_ST_fsm_state43; when ap_ST_fsm_state43 => ap_NS_fsm <= ap_ST_fsm_state44; when ap_ST_fsm_state44 => ap_NS_fsm <= ap_ST_fsm_state45; when ap_ST_fsm_state45 => ap_NS_fsm <= ap_ST_fsm_state46; when ap_ST_fsm_state46 => ap_NS_fsm <= ap_ST_fsm_state47; when ap_ST_fsm_state47 => ap_NS_fsm <= ap_ST_fsm_state48; when ap_ST_fsm_state48 => ap_NS_fsm <= ap_ST_fsm_state49; when ap_ST_fsm_state49 => ap_NS_fsm <= ap_ST_fsm_state50; when ap_ST_fsm_state50 => ap_NS_fsm <= ap_ST_fsm_state51; when ap_ST_fsm_state51 => ap_NS_fsm <= ap_ST_fsm_state52; when ap_ST_fsm_state52 => ap_NS_fsm <= ap_ST_fsm_state53; when ap_ST_fsm_state53 => ap_NS_fsm <= ap_ST_fsm_state54; when ap_ST_fsm_state54 => ap_NS_fsm <= ap_ST_fsm_state55; when ap_ST_fsm_state55 => if (((tmp_27_fu_1043_p2 = ap_const_lv1_0) and (ap_const_logic_1 = ap_CS_fsm_state55))) then ap_NS_fsm <= ap_ST_fsm_state1; else ap_NS_fsm <= ap_ST_fsm_pp0_stage0; end if; when ap_ST_fsm_pp0_stage0 => if ((not(((ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (ap_enable_reg_pp0_iter43 = ap_const_logic_0) and (ap_enable_reg_pp0_iter41 = ap_const_logic_0) and (ap_const_boolean_0 = ap_block_pp0_stage0_subdone))) and not(((ap_enable_reg_pp0_iter52 = ap_const_logic_1) and (ap_enable_reg_pp0_iter51 = ap_const_logic_0) and (ap_const_boolean_0 = ap_block_pp0_stage0_subdone))))) then ap_NS_fsm <= ap_ST_fsm_pp0_stage0; elsif ((((ap_enable_reg_pp0_iter52 = ap_const_logic_1) and (ap_enable_reg_pp0_iter51 = ap_const_logic_0) and (ap_const_boolean_0 = ap_block_pp0_stage0_subdone)) or ((ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (ap_enable_reg_pp0_iter43 = ap_const_logic_0) and (ap_enable_reg_pp0_iter41 = ap_const_logic_0) and (ap_const_boolean_0 = ap_block_pp0_stage0_subdone)))) then ap_NS_fsm <= ap_ST_fsm_state109; else ap_NS_fsm <= ap_ST_fsm_pp0_stage0; end if; when ap_ST_fsm_state109 => ap_NS_fsm <= ap_ST_fsm_state55; when others => ap_NS_fsm <= "XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX"; end case; end process; OP2_V_1_fu_1800_p1 <= std_logic_vector(IEEE.numeric_std.resize(signed(v1_V_reg_3122),48)); OP2_V_2_fu_1803_p1 <= std_logic_vector(IEEE.numeric_std.resize(signed(v1_V_reg_3122),28)); OP2_V_5_fu_1884_p1 <= std_logic_vector(IEEE.numeric_std.resize(signed(p_u_V_reg_3086_pp0_iter44_reg),48)); OP2_V_6_fu_1821_p1 <= std_logic_vector(IEEE.numeric_std.resize(signed(v_V_reg_3128),48)); OP2_V_7_fu_1781_p1 <= std_logic_vector(IEEE.numeric_std.resize(signed(p_u_V_reg_3086),28)); OP2_V_fu_1770_p1 <= std_logic_vector(IEEE.numeric_std.resize(signed(u1_V_reg_3081),28)); Range1_all_ones_1_fu_2181_p2 <= "1" when (p_Result_6_i_i1_reg_3439 = ap_const_lv4_F) else "0"; Range1_all_ones_2_fu_2245_p2 <= "1" when (p_Result_6_i_i2_reg_3467 = ap_const_lv4_F) else "0"; Range1_all_ones_fu_2117_p2 <= "1" when (p_Result_6_i_i_reg_3411 = ap_const_lv4_F) else "0"; Range1_all_zeros_1_fu_2186_p2 <= "1" when (p_Result_6_i_i1_reg_3439 = ap_const_lv4_0) else "0"; Range1_all_zeros_2_fu_2250_p2 <= "1" when (p_Result_6_i_i2_reg_3467 = ap_const_lv4_0) else "0"; Range1_all_zeros_fu_2122_p2 <= "1" when (p_Result_6_i_i_reg_3411 = ap_const_lv4_0) else "0"; ap_CS_fsm_pp0_stage0 <= ap_CS_fsm(55); ap_CS_fsm_state1 <= ap_CS_fsm(0); ap_CS_fsm_state109 <= ap_CS_fsm(56); ap_CS_fsm_state52 <= ap_CS_fsm(51); ap_CS_fsm_state53 <= ap_CS_fsm(52); ap_CS_fsm_state54 <= ap_CS_fsm(53); ap_CS_fsm_state55 <= ap_CS_fsm(54); ap_block_pp0_stage0 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_pp0_stage0_01001_assign_proc : process(p_src_data_stream_0_V_empty_n, p_src_data_stream_1_V_empty_n, p_src_data_stream_2_V_empty_n, p_dst_data_stream_0_V_full_n, p_dst_data_stream_1_V_full_n, p_dst_data_stream_2_V_full_n, ap_enable_reg_pp0_iter42, ap_enable_reg_pp0_iter52, brmerge_demorgan_reg_3077_pp0_iter51_reg, ap_predicate_op564_read_state98) begin ap_block_pp0_stage0_01001 <= (((ap_enable_reg_pp0_iter52 = ap_const_logic_1) and (((p_dst_data_stream_2_V_full_n = ap_const_logic_0) and (brmerge_demorgan_reg_3077_pp0_iter51_reg = ap_const_lv1_1)) or ((p_dst_data_stream_1_V_full_n = ap_const_logic_0) and (brmerge_demorgan_reg_3077_pp0_iter51_reg = ap_const_lv1_1)) or ((p_dst_data_stream_0_V_full_n = ap_const_logic_0) and (brmerge_demorgan_reg_3077_pp0_iter51_reg = ap_const_lv1_1)))) or ((ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (((ap_predicate_op564_read_state98 = ap_const_boolean_1) and (p_src_data_stream_2_V_empty_n = ap_const_logic_0)) or ((ap_predicate_op564_read_state98 = ap_const_boolean_1) and (p_src_data_stream_1_V_empty_n = ap_const_logic_0)) or ((ap_predicate_op564_read_state98 = ap_const_boolean_1) and (p_src_data_stream_0_V_empty_n = ap_const_logic_0))))); end process; ap_block_pp0_stage0_11001_assign_proc : process(p_src_data_stream_0_V_empty_n, p_src_data_stream_1_V_empty_n, p_src_data_stream_2_V_empty_n, p_dst_data_stream_0_V_full_n, p_dst_data_stream_1_V_full_n, p_dst_data_stream_2_V_full_n, ap_enable_reg_pp0_iter42, ap_enable_reg_pp0_iter52, brmerge_demorgan_reg_3077_pp0_iter51_reg, ap_predicate_op564_read_state98) begin ap_block_pp0_stage0_11001 <= (((ap_enable_reg_pp0_iter52 = ap_const_logic_1) and (((p_dst_data_stream_2_V_full_n = ap_const_logic_0) and (brmerge_demorgan_reg_3077_pp0_iter51_reg = ap_const_lv1_1)) or ((p_dst_data_stream_1_V_full_n = ap_const_logic_0) and (brmerge_demorgan_reg_3077_pp0_iter51_reg = ap_const_lv1_1)) or ((p_dst_data_stream_0_V_full_n = ap_const_logic_0) and (brmerge_demorgan_reg_3077_pp0_iter51_reg = ap_const_lv1_1)))) or ((ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (((ap_predicate_op564_read_state98 = ap_const_boolean_1) and (p_src_data_stream_2_V_empty_n = ap_const_logic_0)) or ((ap_predicate_op564_read_state98 = ap_const_boolean_1) and (p_src_data_stream_1_V_empty_n = ap_const_logic_0)) or ((ap_predicate_op564_read_state98 = ap_const_boolean_1) and (p_src_data_stream_0_V_empty_n = ap_const_logic_0))))); end process; ap_block_pp0_stage0_subdone_assign_proc : process(p_src_data_stream_0_V_empty_n, p_src_data_stream_1_V_empty_n, p_src_data_stream_2_V_empty_n, p_dst_data_stream_0_V_full_n, p_dst_data_stream_1_V_full_n, p_dst_data_stream_2_V_full_n, ap_enable_reg_pp0_iter42, ap_enable_reg_pp0_iter52, brmerge_demorgan_reg_3077_pp0_iter51_reg, ap_predicate_op564_read_state98) begin ap_block_pp0_stage0_subdone <= (((ap_enable_reg_pp0_iter52 = ap_const_logic_1) and (((p_dst_data_stream_2_V_full_n = ap_const_logic_0) and (brmerge_demorgan_reg_3077_pp0_iter51_reg = ap_const_lv1_1)) or ((p_dst_data_stream_1_V_full_n = ap_const_logic_0) and (brmerge_demorgan_reg_3077_pp0_iter51_reg = ap_const_lv1_1)) or ((p_dst_data_stream_0_V_full_n = ap_const_logic_0) and (brmerge_demorgan_reg_3077_pp0_iter51_reg = ap_const_lv1_1)))) or ((ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (((ap_predicate_op564_read_state98 = ap_const_boolean_1) and (p_src_data_stream_2_V_empty_n = ap_const_logic_0)) or ((ap_predicate_op564_read_state98 = ap_const_boolean_1) and (p_src_data_stream_1_V_empty_n = ap_const_logic_0)) or ((ap_predicate_op564_read_state98 = ap_const_boolean_1) and (p_src_data_stream_0_V_empty_n = ap_const_logic_0))))); end process; ap_block_state100_pp0_stage0_iter44 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state101_pp0_stage0_iter45 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state102_pp0_stage0_iter46 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state103_pp0_stage0_iter47 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state104_pp0_stage0_iter48 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state105_pp0_stage0_iter49 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state106_pp0_stage0_iter50 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state107_pp0_stage0_iter51 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state108_pp0_stage0_iter52_assign_proc : process(p_dst_data_stream_0_V_full_n, p_dst_data_stream_1_V_full_n, p_dst_data_stream_2_V_full_n, brmerge_demorgan_reg_3077_pp0_iter51_reg) begin ap_block_state108_pp0_stage0_iter52 <= (((p_dst_data_stream_2_V_full_n = ap_const_logic_0) and (brmerge_demorgan_reg_3077_pp0_iter51_reg = ap_const_lv1_1)) or ((p_dst_data_stream_1_V_full_n = ap_const_logic_0) and (brmerge_demorgan_reg_3077_pp0_iter51_reg = ap_const_lv1_1)) or ((p_dst_data_stream_0_V_full_n = ap_const_logic_0) and (brmerge_demorgan_reg_3077_pp0_iter51_reg = ap_const_lv1_1))); end process; ap_block_state56_pp0_stage0_iter0 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state57_pp0_stage0_iter1 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state58_pp0_stage0_iter2 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state59_pp0_stage0_iter3 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state60_pp0_stage0_iter4 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state61_pp0_stage0_iter5 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state62_pp0_stage0_iter6 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state63_pp0_stage0_iter7 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state64_pp0_stage0_iter8 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state65_pp0_stage0_iter9 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state66_pp0_stage0_iter10 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state67_pp0_stage0_iter11 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state68_pp0_stage0_iter12 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state69_pp0_stage0_iter13 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state70_pp0_stage0_iter14 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state71_pp0_stage0_iter15 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state72_pp0_stage0_iter16 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state73_pp0_stage0_iter17 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state74_pp0_stage0_iter18 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state75_pp0_stage0_iter19 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state76_pp0_stage0_iter20 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state77_pp0_stage0_iter21 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state78_pp0_stage0_iter22 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state79_pp0_stage0_iter23 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state80_pp0_stage0_iter24 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state81_pp0_stage0_iter25 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state82_pp0_stage0_iter26 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state83_pp0_stage0_iter27 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state84_pp0_stage0_iter28 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state85_pp0_stage0_iter29 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state86_pp0_stage0_iter30 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state87_pp0_stage0_iter31 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state88_pp0_stage0_iter32 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state89_pp0_stage0_iter33 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state90_pp0_stage0_iter34 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state91_pp0_stage0_iter35 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state92_pp0_stage0_iter36 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state93_pp0_stage0_iter37 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state94_pp0_stage0_iter38 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state95_pp0_stage0_iter39 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state96_pp0_stage0_iter40 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state97_pp0_stage0_iter41 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_block_state98_pp0_stage0_iter42_assign_proc : process(p_src_data_stream_0_V_empty_n, p_src_data_stream_1_V_empty_n, p_src_data_stream_2_V_empty_n, ap_predicate_op564_read_state98) begin ap_block_state98_pp0_stage0_iter42 <= (((ap_predicate_op564_read_state98 = ap_const_boolean_1) and (p_src_data_stream_2_V_empty_n = ap_const_logic_0)) or ((ap_predicate_op564_read_state98 = ap_const_boolean_1) and (p_src_data_stream_1_V_empty_n = ap_const_logic_0)) or ((ap_predicate_op564_read_state98 = ap_const_boolean_1) and (p_src_data_stream_0_V_empty_n = ap_const_logic_0))); end process; ap_block_state99_pp0_stage0_iter43 <= not((ap_const_boolean_1 = ap_const_boolean_1)); ap_condition_3380_assign_proc : process(ap_block_pp0_stage0, tmp_31_reg_2851_pp0_iter40_reg, col_rd_2_fu_1486_p2, ap_enable_reg_pp0_iter41) begin ap_condition_3380 <= ((ap_enable_reg_pp0_iter41 = ap_const_logic_1) and (col_rd_2_fu_1486_p2 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter40_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0)); end process; ap_condition_3386_assign_proc : process(ap_block_pp0_stage0, tmp_31_reg_2851_pp0_iter42_reg, row_rd_5_reg_3002_pp0_iter42_reg, col_rd_2_reg_3006_pp0_iter42_reg, tmp_53_reg_3065_pp0_iter42_reg, ap_enable_reg_pp0_iter43) begin ap_condition_3386 <= ((ap_enable_reg_pp0_iter43 = ap_const_logic_1) and (tmp_53_reg_3065_pp0_iter42_reg = ap_const_lv1_1) and (col_rd_2_reg_3006_pp0_iter42_reg = ap_const_lv1_1) and (row_rd_5_reg_3002_pp0_iter42_reg = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter42_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0)); end process; ap_condition_428_assign_proc : process(ap_CS_fsm_pp0_stage0, ap_block_pp0_stage0_11001, ap_enable_reg_pp0_iter0) begin ap_condition_428 <= ((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter0 = ap_const_logic_1) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0)); end process; ap_condition_pp0_exit_iter42_state98_assign_proc : process(ap_enable_reg_pp0_iter42, ap_enable_reg_pp0_iter41) begin if (((ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (ap_enable_reg_pp0_iter41 = ap_const_logic_0))) then ap_condition_pp0_exit_iter42_state98 <= ap_const_logic_1; else ap_condition_pp0_exit_iter42_state98 <= ap_const_logic_0; end if; end process; ap_done_assign_proc : process(ap_start, ap_CS_fsm_state1, tmp_27_fu_1043_p2, ap_CS_fsm_state55) begin if ((((ap_start = ap_const_logic_0) and (ap_const_logic_1 = ap_CS_fsm_state1)) or ((tmp_27_fu_1043_p2 = ap_const_lv1_0) and (ap_const_logic_1 = ap_CS_fsm_state55)))) then ap_done <= ap_const_logic_1; else ap_done <= ap_const_logic_0; end if; end process; ap_enable_pp0 <= (ap_idle_pp0 xor ap_const_logic_1); ap_idle_assign_proc : process(ap_start, ap_CS_fsm_state1) begin if (((ap_start = ap_const_logic_0) and (ap_const_logic_1 = ap_CS_fsm_state1))) then ap_idle <= ap_const_logic_1; else ap_idle <= ap_const_logic_0; end if; end process; ap_idle_pp0_assign_proc : process(ap_enable_reg_pp0_iter42, ap_enable_reg_pp0_iter52, ap_enable_reg_pp0_iter0, ap_enable_reg_pp0_iter1, ap_enable_reg_pp0_iter2, ap_enable_reg_pp0_iter3, ap_enable_reg_pp0_iter4, ap_enable_reg_pp0_iter5, ap_enable_reg_pp0_iter6, ap_enable_reg_pp0_iter7, ap_enable_reg_pp0_iter8, ap_enable_reg_pp0_iter9, ap_enable_reg_pp0_iter10, ap_enable_reg_pp0_iter11, ap_enable_reg_pp0_iter12, ap_enable_reg_pp0_iter13, ap_enable_reg_pp0_iter14, ap_enable_reg_pp0_iter15, ap_enable_reg_pp0_iter16, ap_enable_reg_pp0_iter17, ap_enable_reg_pp0_iter18, ap_enable_reg_pp0_iter19, ap_enable_reg_pp0_iter20, ap_enable_reg_pp0_iter21, ap_enable_reg_pp0_iter22, ap_enable_reg_pp0_iter23, ap_enable_reg_pp0_iter24, ap_enable_reg_pp0_iter25, ap_enable_reg_pp0_iter26, ap_enable_reg_pp0_iter27, ap_enable_reg_pp0_iter28, ap_enable_reg_pp0_iter29, ap_enable_reg_pp0_iter30, ap_enable_reg_pp0_iter31, ap_enable_reg_pp0_iter32, ap_enable_reg_pp0_iter33, ap_enable_reg_pp0_iter34, ap_enable_reg_pp0_iter35, ap_enable_reg_pp0_iter36, ap_enable_reg_pp0_iter37, ap_enable_reg_pp0_iter38, ap_enable_reg_pp0_iter39, ap_enable_reg_pp0_iter40, ap_enable_reg_pp0_iter41, ap_enable_reg_pp0_iter43, ap_enable_reg_pp0_iter44, ap_enable_reg_pp0_iter45, ap_enable_reg_pp0_iter46, ap_enable_reg_pp0_iter47, ap_enable_reg_pp0_iter48, ap_enable_reg_pp0_iter49, ap_enable_reg_pp0_iter50, ap_enable_reg_pp0_iter51) begin if (((ap_enable_reg_pp0_iter0 = ap_const_logic_0) and (ap_enable_reg_pp0_iter52 = ap_const_logic_0) and (ap_enable_reg_pp0_iter51 = ap_const_logic_0) and (ap_enable_reg_pp0_iter50 = ap_const_logic_0) and (ap_enable_reg_pp0_iter49 = ap_const_logic_0) and (ap_enable_reg_pp0_iter48 = ap_const_logic_0) and (ap_enable_reg_pp0_iter47 = ap_const_logic_0) and (ap_enable_reg_pp0_iter46 = ap_const_logic_0) and (ap_enable_reg_pp0_iter45 = ap_const_logic_0) and (ap_enable_reg_pp0_iter44 = ap_const_logic_0) and (ap_enable_reg_pp0_iter43 = ap_const_logic_0) and (ap_enable_reg_pp0_iter41 = ap_const_logic_0) and (ap_enable_reg_pp0_iter40 = ap_const_logic_0) and (ap_enable_reg_pp0_iter39 = ap_const_logic_0) and (ap_enable_reg_pp0_iter38 = ap_const_logic_0) and (ap_enable_reg_pp0_iter37 = ap_const_logic_0) and (ap_enable_reg_pp0_iter36 = ap_const_logic_0) and (ap_enable_reg_pp0_iter35 = ap_const_logic_0) and (ap_enable_reg_pp0_iter34 = ap_const_logic_0) and (ap_enable_reg_pp0_iter33 = ap_const_logic_0) and (ap_enable_reg_pp0_iter42 = ap_const_logic_0) and (ap_enable_reg_pp0_iter32 = ap_const_logic_0) and (ap_enable_reg_pp0_iter31 = ap_const_logic_0) and (ap_enable_reg_pp0_iter30 = ap_const_logic_0) and (ap_enable_reg_pp0_iter29 = ap_const_logic_0) and (ap_enable_reg_pp0_iter28 = ap_const_logic_0) and (ap_enable_reg_pp0_iter27 = ap_const_logic_0) and (ap_enable_reg_pp0_iter26 = ap_const_logic_0) and (ap_enable_reg_pp0_iter25 = ap_const_logic_0) and (ap_enable_reg_pp0_iter24 = ap_const_logic_0) and (ap_enable_reg_pp0_iter23 = ap_const_logic_0) and (ap_enable_reg_pp0_iter22 = ap_const_logic_0) and (ap_enable_reg_pp0_iter21 = ap_const_logic_0) and (ap_enable_reg_pp0_iter20 = ap_const_logic_0) and (ap_enable_reg_pp0_iter19 = ap_const_logic_0) and (ap_enable_reg_pp0_iter18 = ap_const_logic_0) and (ap_enable_reg_pp0_iter17 = ap_const_logic_0) and (ap_enable_reg_pp0_iter16 = ap_const_logic_0) and (ap_enable_reg_pp0_iter15 = ap_const_logic_0) and (ap_enable_reg_pp0_iter14 = ap_const_logic_0) and (ap_enable_reg_pp0_iter13 = ap_const_logic_0) and (ap_enable_reg_pp0_iter12 = ap_const_logic_0) and (ap_enable_reg_pp0_iter11 = ap_const_logic_0) and (ap_enable_reg_pp0_iter10 = ap_const_logic_0) and (ap_enable_reg_pp0_iter9 = ap_const_logic_0) and (ap_enable_reg_pp0_iter8 = ap_const_logic_0) and (ap_enable_reg_pp0_iter7 = ap_const_logic_0) and (ap_enable_reg_pp0_iter6 = ap_const_logic_0) and (ap_enable_reg_pp0_iter5 = ap_const_logic_0) and (ap_enable_reg_pp0_iter4 = ap_const_logic_0) and (ap_enable_reg_pp0_iter3 = ap_const_logic_0) and (ap_enable_reg_pp0_iter2 = ap_const_logic_0) and (ap_enable_reg_pp0_iter1 = ap_const_logic_0))) then ap_idle_pp0 <= ap_const_logic_1; else ap_idle_pp0 <= ap_const_logic_0; end if; end process; ap_phi_mux_win_val_val_1_0_0_2_phi_fu_618_p10_assign_proc : process(ap_enable_reg_pp0_iter42, ap_block_pp0_stage0, tmp_31_reg_2851_pp0_iter41_reg, col_rd_2_reg_3006, row_rd_5_reg_3002, tmp_53_reg_3065, tmp_55_reg_3069, tmp_56_reg_3073, k_buf_val_val_0_0_q0, k_buf_val_val_1_0_q0, ap_phi_reg_pp0_iter42_win_val_val_1_0_0_2_reg_615) begin if ((((ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (tmp_53_reg_3065 = ap_const_lv1_0) and (row_rd_5_reg_3002 = ap_const_lv1_1) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0)) or ((tmp_56_reg_3073 = ap_const_lv1_0) and (ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (tmp_55_reg_3069 = ap_const_lv1_0) and (tmp_53_reg_3065 = ap_const_lv1_1) and (row_rd_5_reg_3002 = ap_const_lv1_1) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0)) or ((ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (tmp_55_reg_3069 = ap_const_lv1_0) and (tmp_56_reg_3073 = ap_const_lv1_1) and (tmp_53_reg_3065 = ap_const_lv1_1) and (row_rd_5_reg_3002 = ap_const_lv1_1) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0)) or ((ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (tmp_55_reg_3069 = ap_const_lv1_1) and (tmp_53_reg_3065 = ap_const_lv1_1) and (row_rd_5_reg_3002 = ap_const_lv1_1) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0)))) then ap_phi_mux_win_val_val_1_0_0_2_phi_fu_618_p10 <= k_buf_val_val_0_0_q0; elsif (((ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (row_rd_5_reg_3002 = ap_const_lv1_0) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0))) then ap_phi_mux_win_val_val_1_0_0_2_phi_fu_618_p10 <= k_buf_val_val_1_0_q0; else ap_phi_mux_win_val_val_1_0_0_2_phi_fu_618_p10 <= ap_phi_reg_pp0_iter42_win_val_val_1_0_0_2_reg_615; end if; end process; ap_phi_mux_win_val_val_1_0_1_2_phi_fu_598_p10_assign_proc : process(ap_enable_reg_pp0_iter42, ap_block_pp0_stage0, tmp_31_reg_2851_pp0_iter41_reg, col_rd_2_reg_3006, row_rd_5_reg_3002, tmp_53_reg_3065, tmp_55_reg_3069, tmp_56_reg_3073, k_buf_val_val_0_1_q0, k_buf_val_val_1_1_q0, ap_phi_reg_pp0_iter42_win_val_val_1_0_1_2_reg_595) begin if ((((ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (tmp_53_reg_3065 = ap_const_lv1_0) and (row_rd_5_reg_3002 = ap_const_lv1_1) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0)) or ((tmp_56_reg_3073 = ap_const_lv1_0) and (ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (tmp_55_reg_3069 = ap_const_lv1_0) and (tmp_53_reg_3065 = ap_const_lv1_1) and (row_rd_5_reg_3002 = ap_const_lv1_1) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0)) or ((ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (tmp_55_reg_3069 = ap_const_lv1_0) and (tmp_56_reg_3073 = ap_const_lv1_1) and (tmp_53_reg_3065 = ap_const_lv1_1) and (row_rd_5_reg_3002 = ap_const_lv1_1) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0)) or ((ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (tmp_55_reg_3069 = ap_const_lv1_1) and (tmp_53_reg_3065 = ap_const_lv1_1) and (row_rd_5_reg_3002 = ap_const_lv1_1) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0)))) then ap_phi_mux_win_val_val_1_0_1_2_phi_fu_598_p10 <= k_buf_val_val_0_1_q0; elsif (((ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (row_rd_5_reg_3002 = ap_const_lv1_0) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0))) then ap_phi_mux_win_val_val_1_0_1_2_phi_fu_598_p10 <= k_buf_val_val_1_1_q0; else ap_phi_mux_win_val_val_1_0_1_2_phi_fu_598_p10 <= ap_phi_reg_pp0_iter42_win_val_val_1_0_1_2_reg_595; end if; end process; ap_phi_mux_win_val_val_1_0_2_2_phi_fu_578_p10_assign_proc : process(ap_enable_reg_pp0_iter42, ap_block_pp0_stage0, tmp_31_reg_2851_pp0_iter41_reg, col_rd_2_reg_3006, row_rd_5_reg_3002, tmp_53_reg_3065, tmp_55_reg_3069, tmp_56_reg_3073, k_buf_val_val_0_2_q0, k_buf_val_val_1_2_q0, ap_phi_reg_pp0_iter42_win_val_val_1_0_2_2_reg_575) begin if ((((ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (tmp_53_reg_3065 = ap_const_lv1_0) and (row_rd_5_reg_3002 = ap_const_lv1_1) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0)) or ((tmp_56_reg_3073 = ap_const_lv1_0) and (ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (tmp_55_reg_3069 = ap_const_lv1_0) and (tmp_53_reg_3065 = ap_const_lv1_1) and (row_rd_5_reg_3002 = ap_const_lv1_1) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0)) or ((ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (tmp_55_reg_3069 = ap_const_lv1_0) and (tmp_56_reg_3073 = ap_const_lv1_1) and (tmp_53_reg_3065 = ap_const_lv1_1) and (row_rd_5_reg_3002 = ap_const_lv1_1) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0)) or ((ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (tmp_55_reg_3069 = ap_const_lv1_1) and (tmp_53_reg_3065 = ap_const_lv1_1) and (row_rd_5_reg_3002 = ap_const_lv1_1) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0)))) then ap_phi_mux_win_val_val_1_0_2_2_phi_fu_578_p10 <= k_buf_val_val_0_2_q0; elsif (((ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (row_rd_5_reg_3002 = ap_const_lv1_0) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0))) then ap_phi_mux_win_val_val_1_0_2_2_phi_fu_578_p10 <= k_buf_val_val_1_2_q0; else ap_phi_mux_win_val_val_1_0_2_2_phi_fu_578_p10 <= ap_phi_reg_pp0_iter42_win_val_val_1_0_2_2_reg_575; end if; end process; ap_phi_reg_pp0_iter0_dx_reg_566 <= "XXXXXXXXXXXXXXXX"; ap_phi_reg_pp0_iter0_dy_reg_557 <= "XXXXXXXXXXXXXXXX"; ap_phi_reg_pp0_iter42_win_val_val_1_0_0_2_reg_615 <= "XXXXXXXX"; ap_phi_reg_pp0_iter42_win_val_val_1_0_1_2_reg_595 <= "XXXXXXXX"; ap_phi_reg_pp0_iter42_win_val_val_1_0_2_2_reg_575 <= "XXXXXXXX"; ap_predicate_op564_read_state98_assign_proc : process(tmp_31_reg_2851_pp0_iter41_reg, col_rd_2_reg_3006, row_rd_5_reg_3002, tmp_53_reg_3065, tmp_55_reg_3069) begin ap_predicate_op564_read_state98 <= ((tmp_55_reg_3069 = ap_const_lv1_1) and (tmp_53_reg_3065 = ap_const_lv1_1) and (row_rd_5_reg_3002 = ap_const_lv1_1) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1)); end process; ap_ready_assign_proc : process(tmp_27_fu_1043_p2, ap_CS_fsm_state55) begin if (((tmp_27_fu_1043_p2 = ap_const_lv1_0) and (ap_const_logic_1 = ap_CS_fsm_state55))) then ap_ready <= ap_const_logic_1; else ap_ready <= ap_const_logic_0; end if; end process; brmerge_demorgan_fu_1549_p2 <= (row_wr_3_fu_1456_p3 and col_wr_2_fu_1491_p3); brmerge_i_i1_fu_2363_p2 <= (p_39_demorgan_i_not_i_1_fu_2358_p2 or neg_src_not_i_i1_fu_2348_p2); brmerge_i_i2_fu_2422_p2 <= (p_39_demorgan_i_not_i_2_fu_2417_p2 or neg_src_not_i_i2_fu_2407_p2); brmerge_i_i_fu_2304_p2 <= (p_39_demorgan_i_not_i_fu_2299_p2 or neg_src_not_i_i_fu_2289_p2); brmerge_i_i_not_i_i1_fu_2353_p2 <= (p_39_demorgan_i_i_i1_reg_3503 and neg_src_not_i_i1_fu_2348_p2); brmerge_i_i_not_i_i2_fu_2412_p2 <= (p_39_demorgan_i_i_i2_reg_3521 and neg_src_not_i_i2_fu_2407_p2); brmerge_i_i_not_i_i_fu_2294_p2 <= (p_39_demorgan_i_i_i_reg_3485 and neg_src_not_i_i_fu_2289_p2); carry_1_fu_2175_p2 <= (tmp_88_fu_2149_p3 and tmp_4_i_i1_fu_2169_p2); carry_2_fu_2239_p2 <= (tmp_92_fu_2213_p3 and tmp_4_i_i2_fu_2233_p2); carry_fu_2111_p2 <= (tmp_84_fu_2085_p3 and tmp_4_i_i_fu_2105_p2); col_rate_V_fu_743_p1 <= grp_fu_708_p2(32 - 1 downto 0); col_rd_2_fu_1486_p2 <= (tmp_50_reg_2865_pp0_iter40_reg or tmp67_fu_1481_p2); col_wr_1_fu_1126_p2 <= "0" when (p_Val2_17_reg_546 = ap_const_lv15_0) else "1"; col_wr_2_fu_1491_p3 <= col_wr_reg_2997 when (tmp_24_reg_2797(0) = '1') else col_wr_1_reg_2877_pp0_iter40_reg; col_wr_fu_1362_p2 <= "1" when (pre_fx_1_fu_1337_p3 = tmp_51_fu_1357_p2) else "0"; cols_fu_976_p3 <= scols_reg_2675 when (tmp_19_fu_967_p2(0) = '1') else tmp_20_fu_971_p2; dcols_fu_650_p1 <= p_dst_cols_V_read(16 - 1 downto 0); deleted_zeros_1_fu_2191_p3 <= Range1_all_ones_1_fu_2181_p2 when (carry_1_fu_2175_p2(0) = '1') else Range1_all_zeros_1_fu_2186_p2; deleted_zeros_2_fu_2255_p3 <= Range1_all_ones_2_fu_2245_p2 when (carry_2_fu_2239_p2(0) = '1') else Range1_all_zeros_2_fu_2250_p2; deleted_zeros_fu_2127_p3 <= Range1_all_ones_fu_2117_p2 when (carry_fu_2111_p2(0) = '1') else Range1_all_zeros_fu_2122_p2; drows_fu_654_p1 <= p_dst_rows_V_read(16 - 1 downto 0); grp_fu_1099_ce_assign_proc : process(ap_CS_fsm_pp0_stage0, ap_block_pp0_stage0_11001) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0))) then grp_fu_1099_ce <= ap_const_logic_1; else grp_fu_1099_ce <= ap_const_logic_0; end if; end process; grp_fu_1099_p0 <= tmp_49_cast_reg_2840(31 - 1 downto 0); grp_fu_1115_ce_assign_proc : process(ap_CS_fsm_pp0_stage0, ap_block_pp0_stage0_11001) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0))) then grp_fu_1115_ce <= ap_const_logic_1; else grp_fu_1115_ce <= ap_const_logic_0; end if; end process; grp_fu_1115_p0 <= grp_fu_1115_p00(31 - 1 downto 0); grp_fu_1115_p00 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(tmp_34_fu_1103_p3),32)); grp_fu_1147_ce_assign_proc : process(ap_CS_fsm_pp0_stage0, ap_block_pp0_stage0_11001) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0))) then grp_fu_1147_ce <= ap_const_logic_1; else grp_fu_1147_ce <= ap_const_logic_0; end if; end process; grp_fu_1156_ce_assign_proc : process(ap_CS_fsm_pp0_stage0, ap_block_pp0_stage0_11001) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0))) then grp_fu_1156_ce <= ap_const_logic_1; else grp_fu_1156_ce <= ap_const_logic_0; end if; end process; grp_fu_1809_ce_assign_proc : process(ap_CS_fsm_pp0_stage0, ap_block_pp0_stage0_11001) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0))) then grp_fu_1809_ce <= ap_const_logic_1; else grp_fu_1809_ce <= ap_const_logic_0; end if; end process; grp_fu_1809_p1 <= OP2_V_1_fu_1800_p1(20 - 1 downto 0); grp_fu_1827_ce_assign_proc : process(ap_CS_fsm_pp0_stage0, ap_block_pp0_stage0_11001) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0))) then grp_fu_1827_ce <= ap_const_logic_1; else grp_fu_1827_ce <= ap_const_logic_0; end if; end process; grp_fu_1827_p1 <= OP2_V_6_fu_1821_p1(20 - 1 downto 0); grp_fu_1836_ce_assign_proc : process(ap_CS_fsm_pp0_stage0, ap_block_pp0_stage0_11001) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0))) then grp_fu_1836_ce <= ap_const_logic_1; else grp_fu_1836_ce <= ap_const_logic_0; end if; end process; grp_fu_1836_p1 <= OP2_V_1_fu_1800_p1(20 - 1 downto 0); grp_fu_1851_ce_assign_proc : process(ap_CS_fsm_pp0_stage0, ap_block_pp0_stage0_11001) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0))) then grp_fu_1851_ce <= ap_const_logic_1; else grp_fu_1851_ce <= ap_const_logic_0; end if; end process; grp_fu_1851_p1 <= OP2_V_6_fu_1821_p1(20 - 1 downto 0); grp_fu_1860_ce_assign_proc : process(ap_CS_fsm_pp0_stage0, ap_block_pp0_stage0_11001) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0))) then grp_fu_1860_ce <= ap_const_logic_1; else grp_fu_1860_ce <= ap_const_logic_0; end if; end process; grp_fu_1860_p1 <= OP2_V_1_fu_1800_p1(20 - 1 downto 0); grp_fu_1875_ce_assign_proc : process(ap_CS_fsm_pp0_stage0, ap_block_pp0_stage0_11001) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0))) then grp_fu_1875_ce <= ap_const_logic_1; else grp_fu_1875_ce <= ap_const_logic_0; end if; end process; grp_fu_1875_p1 <= OP2_V_6_fu_1821_p1(20 - 1 downto 0); grp_fu_1887_ce_assign_proc : process(ap_CS_fsm_pp0_stage0, ap_block_pp0_stage0_11001) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0))) then grp_fu_1887_ce <= ap_const_logic_1; else grp_fu_1887_ce <= ap_const_logic_0; end if; end process; grp_fu_1887_p1 <= OP2_V_5_fu_1884_p1(20 - 1 downto 0); grp_fu_1896_ce_assign_proc : process(ap_CS_fsm_pp0_stage0, ap_block_pp0_stage0_11001) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0))) then grp_fu_1896_ce <= ap_const_logic_1; else grp_fu_1896_ce <= ap_const_logic_0; end if; end process; grp_fu_1896_p1 <= OP2_V_6_reg_3222(20 - 1 downto 0); grp_fu_1904_ce_assign_proc : process(ap_CS_fsm_pp0_stage0, ap_block_pp0_stage0_11001) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0))) then grp_fu_1904_ce <= ap_const_logic_1; else grp_fu_1904_ce <= ap_const_logic_0; end if; end process; grp_fu_1904_p1 <= OP2_V_5_fu_1884_p1(20 - 1 downto 0); grp_fu_1913_ce_assign_proc : process(ap_CS_fsm_pp0_stage0, ap_block_pp0_stage0_11001) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0))) then grp_fu_1913_ce <= ap_const_logic_1; else grp_fu_1913_ce <= ap_const_logic_0; end if; end process; grp_fu_1913_p1 <= OP2_V_6_reg_3222(20 - 1 downto 0); grp_fu_1921_ce_assign_proc : process(ap_CS_fsm_pp0_stage0, ap_block_pp0_stage0_11001) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0))) then grp_fu_1921_ce <= ap_const_logic_1; else grp_fu_1921_ce <= ap_const_logic_0; end if; end process; grp_fu_1921_p1 <= OP2_V_5_fu_1884_p1(20 - 1 downto 0); grp_fu_1930_ce_assign_proc : process(ap_CS_fsm_pp0_stage0, ap_block_pp0_stage0_11001) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_const_logic_1 = ap_CS_fsm_pp0_stage0))) then grp_fu_1930_ce <= ap_const_logic_1; else grp_fu_1930_ce <= ap_const_logic_0; end if; end process; grp_fu_1930_p1 <= OP2_V_6_reg_3222(20 - 1 downto 0); grp_fu_684_ap_start_assign_proc : process(ap_start, ap_CS_fsm_state1) begin if (((ap_start = ap_const_logic_1) and (ap_const_logic_1 = ap_CS_fsm_state1))) then grp_fu_684_ap_start <= ap_const_logic_1; else grp_fu_684_ap_start <= ap_const_logic_0; end if; end process; grp_fu_684_p0 <= (srows_fu_658_p1 & ap_const_lv32_0); grp_fu_708_ap_start_assign_proc : process(ap_start, ap_CS_fsm_state1) begin if (((ap_start = ap_const_logic_1) and (ap_const_logic_1 = ap_CS_fsm_state1))) then grp_fu_708_ap_start <= ap_const_logic_1; else grp_fu_708_ap_start <= ap_const_logic_0; end if; end process; grp_fu_708_p0 <= (scols_fu_662_p1 & ap_const_lv32_0); i_fu_1048_p2 <= std_logic_vector(unsigned(p_Val2_16_reg_535) + unsigned(ap_const_lv15_1)); i_op_assign_15_cast_fu_1039_p1 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(p_Val2_16_reg_535),16)); i_op_assign_cast_fu_1084_p1 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(p_Val2_17_reg_546),16)); j_fu_1093_p2 <= std_logic_vector(unsigned(p_Val2_17_reg_546) + unsigned(ap_const_lv15_1)); k_buf_val_val_0_0_ad_gep_fu_469_p3 <= tmp_52_fu_1501_p1(13 - 1 downto 0); k_buf_val_val_0_0_address0_assign_proc : process(row_rd_5_fu_1442_p3, tmp_52_fu_1501_p1, k_buf_val_val_0_0_ad_gep_fu_469_p3, ap_condition_3380) begin if ((ap_const_boolean_1 = ap_condition_3380)) then if ((row_rd_5_fu_1442_p3 = ap_const_lv1_1)) then k_buf_val_val_0_0_address0 <= k_buf_val_val_0_0_ad_gep_fu_469_p3; elsif ((row_rd_5_fu_1442_p3 = ap_const_lv1_0)) then k_buf_val_val_0_0_address0 <= tmp_52_fu_1501_p1(13 - 1 downto 0); else k_buf_val_val_0_0_address0 <= "XXXXXXXXXXXXX"; end if; else k_buf_val_val_0_0_address0 <= "XXXXXXXXXXXXX"; end if; end process; k_buf_val_val_0_0_ce0_assign_proc : process(ap_block_pp0_stage0_11001, tmp_31_reg_2851_pp0_iter40_reg, row_rd_5_fu_1442_p3, col_rd_2_fu_1486_p2, ap_enable_reg_pp0_iter41) begin if ((((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter41 = ap_const_logic_1) and (col_rd_2_fu_1486_p2 = ap_const_lv1_1) and (row_rd_5_fu_1442_p3 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter40_reg = ap_const_lv1_1)) or ((row_rd_5_fu_1442_p3 = ap_const_lv1_0) and (ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter41 = ap_const_logic_1) and (col_rd_2_fu_1486_p2 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter40_reg = ap_const_lv1_1)))) then k_buf_val_val_0_0_ce0 <= ap_const_logic_1; else k_buf_val_val_0_0_ce0 <= ap_const_logic_0; end if; end process; k_buf_val_val_0_0_ce1_assign_proc : process(ap_block_pp0_stage0_11001, tmp_31_reg_2851_pp0_iter42_reg, row_rd_5_reg_3002_pp0_iter42_reg, col_rd_2_reg_3006_pp0_iter42_reg, tmp_53_reg_3065_pp0_iter42_reg, tmp_55_reg_3069_pp0_iter42_reg, tmp_56_reg_3073_pp0_iter42_reg, ap_enable_reg_pp0_iter43) begin if ((((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter43 = ap_const_logic_1) and (tmp_55_reg_3069_pp0_iter42_reg = ap_const_lv1_1) and (tmp_53_reg_3065_pp0_iter42_reg = ap_const_lv1_1) and (col_rd_2_reg_3006_pp0_iter42_reg = ap_const_lv1_1) and (row_rd_5_reg_3002_pp0_iter42_reg = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter42_reg = ap_const_lv1_1)) or ((tmp_56_reg_3073_pp0_iter42_reg = ap_const_lv1_0) and (tmp_55_reg_3069_pp0_iter42_reg = ap_const_lv1_0) and (ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter43 = ap_const_logic_1) and (tmp_53_reg_3065_pp0_iter42_reg = ap_const_lv1_1) and (col_rd_2_reg_3006_pp0_iter42_reg = ap_const_lv1_1) and (row_rd_5_reg_3002_pp0_iter42_reg = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter42_reg = ap_const_lv1_1)))) then k_buf_val_val_0_0_ce1 <= ap_const_logic_1; else k_buf_val_val_0_0_ce1 <= ap_const_logic_0; end if; end process; k_buf_val_val_0_0_d1_assign_proc : process(tmp_55_reg_3069_pp0_iter42_reg, tmp_56_reg_3073_pp0_iter42_reg, tmp_97_reg_3107, tmp_2_fu_306, ap_condition_3386) begin if ((ap_const_boolean_1 = ap_condition_3386)) then if ((tmp_55_reg_3069_pp0_iter42_reg = ap_const_lv1_1)) then k_buf_val_val_0_0_d1 <= tmp_97_reg_3107; elsif (((tmp_56_reg_3073_pp0_iter42_reg = ap_const_lv1_0) and (tmp_55_reg_3069_pp0_iter42_reg = ap_const_lv1_0))) then k_buf_val_val_0_0_d1 <= tmp_2_fu_306; else k_buf_val_val_0_0_d1 <= "XXXXXXXX"; end if; else k_buf_val_val_0_0_d1 <= "XXXXXXXX"; end if; end process; k_buf_val_val_0_0_we1_assign_proc : process(ap_block_pp0_stage0_11001, tmp_31_reg_2851_pp0_iter42_reg, row_rd_5_reg_3002_pp0_iter42_reg, col_rd_2_reg_3006_pp0_iter42_reg, tmp_53_reg_3065_pp0_iter42_reg, tmp_55_reg_3069_pp0_iter42_reg, tmp_56_reg_3073_pp0_iter42_reg, ap_enable_reg_pp0_iter43) begin if ((((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter43 = ap_const_logic_1) and (tmp_55_reg_3069_pp0_iter42_reg = ap_const_lv1_1) and (tmp_53_reg_3065_pp0_iter42_reg = ap_const_lv1_1) and (col_rd_2_reg_3006_pp0_iter42_reg = ap_const_lv1_1) and (row_rd_5_reg_3002_pp0_iter42_reg = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter42_reg = ap_const_lv1_1)) or ((tmp_56_reg_3073_pp0_iter42_reg = ap_const_lv1_0) and (tmp_55_reg_3069_pp0_iter42_reg = ap_const_lv1_0) and (ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter43 = ap_const_logic_1) and (tmp_53_reg_3065_pp0_iter42_reg = ap_const_lv1_1) and (col_rd_2_reg_3006_pp0_iter42_reg = ap_const_lv1_1) and (row_rd_5_reg_3002_pp0_iter42_reg = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter42_reg = ap_const_lv1_1)))) then k_buf_val_val_0_0_we1 <= ap_const_logic_1; else k_buf_val_val_0_0_we1 <= ap_const_logic_0; end if; end process; k_buf_val_val_0_1_ad_gep_fu_476_p3 <= tmp_52_fu_1501_p1(13 - 1 downto 0); k_buf_val_val_0_1_address0_assign_proc : process(row_rd_5_fu_1442_p3, tmp_52_fu_1501_p1, k_buf_val_val_0_1_ad_gep_fu_476_p3, ap_condition_3380) begin if ((ap_const_boolean_1 = ap_condition_3380)) then if ((row_rd_5_fu_1442_p3 = ap_const_lv1_1)) then k_buf_val_val_0_1_address0 <= k_buf_val_val_0_1_ad_gep_fu_476_p3; elsif ((row_rd_5_fu_1442_p3 = ap_const_lv1_0)) then k_buf_val_val_0_1_address0 <= tmp_52_fu_1501_p1(13 - 1 downto 0); else k_buf_val_val_0_1_address0 <= "XXXXXXXXXXXXX"; end if; else k_buf_val_val_0_1_address0 <= "XXXXXXXXXXXXX"; end if; end process; k_buf_val_val_0_1_ce0_assign_proc : process(ap_block_pp0_stage0_11001, tmp_31_reg_2851_pp0_iter40_reg, row_rd_5_fu_1442_p3, col_rd_2_fu_1486_p2, ap_enable_reg_pp0_iter41) begin if ((((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter41 = ap_const_logic_1) and (col_rd_2_fu_1486_p2 = ap_const_lv1_1) and (row_rd_5_fu_1442_p3 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter40_reg = ap_const_lv1_1)) or ((row_rd_5_fu_1442_p3 = ap_const_lv1_0) and (ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter41 = ap_const_logic_1) and (col_rd_2_fu_1486_p2 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter40_reg = ap_const_lv1_1)))) then k_buf_val_val_0_1_ce0 <= ap_const_logic_1; else k_buf_val_val_0_1_ce0 <= ap_const_logic_0; end if; end process; k_buf_val_val_0_1_ce1_assign_proc : process(ap_block_pp0_stage0_11001, tmp_31_reg_2851_pp0_iter42_reg, row_rd_5_reg_3002_pp0_iter42_reg, col_rd_2_reg_3006_pp0_iter42_reg, tmp_53_reg_3065_pp0_iter42_reg, tmp_55_reg_3069_pp0_iter42_reg, tmp_56_reg_3073_pp0_iter42_reg, ap_enable_reg_pp0_iter43) begin if ((((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter43 = ap_const_logic_1) and (tmp_55_reg_3069_pp0_iter42_reg = ap_const_lv1_1) and (tmp_53_reg_3065_pp0_iter42_reg = ap_const_lv1_1) and (col_rd_2_reg_3006_pp0_iter42_reg = ap_const_lv1_1) and (row_rd_5_reg_3002_pp0_iter42_reg = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter42_reg = ap_const_lv1_1)) or ((tmp_56_reg_3073_pp0_iter42_reg = ap_const_lv1_0) and (tmp_55_reg_3069_pp0_iter42_reg = ap_const_lv1_0) and (ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter43 = ap_const_logic_1) and (tmp_53_reg_3065_pp0_iter42_reg = ap_const_lv1_1) and (col_rd_2_reg_3006_pp0_iter42_reg = ap_const_lv1_1) and (row_rd_5_reg_3002_pp0_iter42_reg = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter42_reg = ap_const_lv1_1)))) then k_buf_val_val_0_1_ce1 <= ap_const_logic_1; else k_buf_val_val_0_1_ce1 <= ap_const_logic_0; end if; end process; k_buf_val_val_0_1_d1_assign_proc : process(tmp_55_reg_3069_pp0_iter42_reg, tmp_56_reg_3073_pp0_iter42_reg, tmp_98_reg_3112, tmp_1_fu_254, ap_condition_3386) begin if ((ap_const_boolean_1 = ap_condition_3386)) then if ((tmp_55_reg_3069_pp0_iter42_reg = ap_const_lv1_1)) then k_buf_val_val_0_1_d1 <= tmp_98_reg_3112; elsif (((tmp_56_reg_3073_pp0_iter42_reg = ap_const_lv1_0) and (tmp_55_reg_3069_pp0_iter42_reg = ap_const_lv1_0))) then k_buf_val_val_0_1_d1 <= tmp_1_fu_254; else k_buf_val_val_0_1_d1 <= "XXXXXXXX"; end if; else k_buf_val_val_0_1_d1 <= "XXXXXXXX"; end if; end process; k_buf_val_val_0_1_we1_assign_proc : process(ap_block_pp0_stage0_11001, tmp_31_reg_2851_pp0_iter42_reg, row_rd_5_reg_3002_pp0_iter42_reg, col_rd_2_reg_3006_pp0_iter42_reg, tmp_53_reg_3065_pp0_iter42_reg, tmp_55_reg_3069_pp0_iter42_reg, tmp_56_reg_3073_pp0_iter42_reg, ap_enable_reg_pp0_iter43) begin if ((((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter43 = ap_const_logic_1) and (tmp_55_reg_3069_pp0_iter42_reg = ap_const_lv1_1) and (tmp_53_reg_3065_pp0_iter42_reg = ap_const_lv1_1) and (col_rd_2_reg_3006_pp0_iter42_reg = ap_const_lv1_1) and (row_rd_5_reg_3002_pp0_iter42_reg = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter42_reg = ap_const_lv1_1)) or ((tmp_56_reg_3073_pp0_iter42_reg = ap_const_lv1_0) and (tmp_55_reg_3069_pp0_iter42_reg = ap_const_lv1_0) and (ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter43 = ap_const_logic_1) and (tmp_53_reg_3065_pp0_iter42_reg = ap_const_lv1_1) and (col_rd_2_reg_3006_pp0_iter42_reg = ap_const_lv1_1) and (row_rd_5_reg_3002_pp0_iter42_reg = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter42_reg = ap_const_lv1_1)))) then k_buf_val_val_0_1_we1 <= ap_const_logic_1; else k_buf_val_val_0_1_we1 <= ap_const_logic_0; end if; end process; k_buf_val_val_0_2_ad_gep_fu_483_p3 <= tmp_52_fu_1501_p1(13 - 1 downto 0); k_buf_val_val_0_2_address0_assign_proc : process(row_rd_5_fu_1442_p3, tmp_52_fu_1501_p1, k_buf_val_val_0_2_ad_gep_fu_483_p3, ap_condition_3380) begin if ((ap_const_boolean_1 = ap_condition_3380)) then if ((row_rd_5_fu_1442_p3 = ap_const_lv1_1)) then k_buf_val_val_0_2_address0 <= k_buf_val_val_0_2_ad_gep_fu_483_p3; elsif ((row_rd_5_fu_1442_p3 = ap_const_lv1_0)) then k_buf_val_val_0_2_address0 <= tmp_52_fu_1501_p1(13 - 1 downto 0); else k_buf_val_val_0_2_address0 <= "XXXXXXXXXXXXX"; end if; else k_buf_val_val_0_2_address0 <= "XXXXXXXXXXXXX"; end if; end process; k_buf_val_val_0_2_ce0_assign_proc : process(ap_block_pp0_stage0_11001, tmp_31_reg_2851_pp0_iter40_reg, row_rd_5_fu_1442_p3, col_rd_2_fu_1486_p2, ap_enable_reg_pp0_iter41) begin if ((((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter41 = ap_const_logic_1) and (col_rd_2_fu_1486_p2 = ap_const_lv1_1) and (row_rd_5_fu_1442_p3 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter40_reg = ap_const_lv1_1)) or ((row_rd_5_fu_1442_p3 = ap_const_lv1_0) and (ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter41 = ap_const_logic_1) and (col_rd_2_fu_1486_p2 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter40_reg = ap_const_lv1_1)))) then k_buf_val_val_0_2_ce0 <= ap_const_logic_1; else k_buf_val_val_0_2_ce0 <= ap_const_logic_0; end if; end process; k_buf_val_val_0_2_ce1_assign_proc : process(ap_block_pp0_stage0_11001, tmp_31_reg_2851_pp0_iter42_reg, row_rd_5_reg_3002_pp0_iter42_reg, col_rd_2_reg_3006_pp0_iter42_reg, tmp_53_reg_3065_pp0_iter42_reg, tmp_55_reg_3069_pp0_iter42_reg, tmp_56_reg_3073_pp0_iter42_reg, ap_enable_reg_pp0_iter43) begin if ((((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter43 = ap_const_logic_1) and (tmp_55_reg_3069_pp0_iter42_reg = ap_const_lv1_1) and (tmp_53_reg_3065_pp0_iter42_reg = ap_const_lv1_1) and (col_rd_2_reg_3006_pp0_iter42_reg = ap_const_lv1_1) and (row_rd_5_reg_3002_pp0_iter42_reg = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter42_reg = ap_const_lv1_1)) or ((tmp_56_reg_3073_pp0_iter42_reg = ap_const_lv1_0) and (tmp_55_reg_3069_pp0_iter42_reg = ap_const_lv1_0) and (ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter43 = ap_const_logic_1) and (tmp_53_reg_3065_pp0_iter42_reg = ap_const_lv1_1) and (col_rd_2_reg_3006_pp0_iter42_reg = ap_const_lv1_1) and (row_rd_5_reg_3002_pp0_iter42_reg = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter42_reg = ap_const_lv1_1)))) then k_buf_val_val_0_2_ce1 <= ap_const_logic_1; else k_buf_val_val_0_2_ce1 <= ap_const_logic_0; end if; end process; k_buf_val_val_0_2_d1_assign_proc : process(tmp_55_reg_3069_pp0_iter42_reg, tmp_56_reg_3073_pp0_iter42_reg, tmp_99_reg_3117, tmp_fu_250, ap_condition_3386) begin if ((ap_const_boolean_1 = ap_condition_3386)) then if ((tmp_55_reg_3069_pp0_iter42_reg = ap_const_lv1_1)) then k_buf_val_val_0_2_d1 <= tmp_99_reg_3117; elsif (((tmp_56_reg_3073_pp0_iter42_reg = ap_const_lv1_0) and (tmp_55_reg_3069_pp0_iter42_reg = ap_const_lv1_0))) then k_buf_val_val_0_2_d1 <= tmp_fu_250; else k_buf_val_val_0_2_d1 <= "XXXXXXXX"; end if; else k_buf_val_val_0_2_d1 <= "XXXXXXXX"; end if; end process; k_buf_val_val_0_2_we1_assign_proc : process(ap_block_pp0_stage0_11001, tmp_31_reg_2851_pp0_iter42_reg, row_rd_5_reg_3002_pp0_iter42_reg, col_rd_2_reg_3006_pp0_iter42_reg, tmp_53_reg_3065_pp0_iter42_reg, tmp_55_reg_3069_pp0_iter42_reg, tmp_56_reg_3073_pp0_iter42_reg, ap_enable_reg_pp0_iter43) begin if ((((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter43 = ap_const_logic_1) and (tmp_55_reg_3069_pp0_iter42_reg = ap_const_lv1_1) and (tmp_53_reg_3065_pp0_iter42_reg = ap_const_lv1_1) and (col_rd_2_reg_3006_pp0_iter42_reg = ap_const_lv1_1) and (row_rd_5_reg_3002_pp0_iter42_reg = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter42_reg = ap_const_lv1_1)) or ((tmp_56_reg_3073_pp0_iter42_reg = ap_const_lv1_0) and (tmp_55_reg_3069_pp0_iter42_reg = ap_const_lv1_0) and (ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter43 = ap_const_logic_1) and (tmp_53_reg_3065_pp0_iter42_reg = ap_const_lv1_1) and (col_rd_2_reg_3006_pp0_iter42_reg = ap_const_lv1_1) and (row_rd_5_reg_3002_pp0_iter42_reg = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter42_reg = ap_const_lv1_1)))) then k_buf_val_val_0_2_we1 <= ap_const_logic_1; else k_buf_val_val_0_2_we1 <= ap_const_logic_0; end if; end process; k_buf_val_val_1_0_address0 <= tmp_52_fu_1501_p1(13 - 1 downto 0); k_buf_val_val_1_0_address1 <= tmp_52_reg_3010_pp0_iter42_reg(13 - 1 downto 0); k_buf_val_val_1_0_ce0_assign_proc : process(ap_block_pp0_stage0_11001, ap_enable_reg_pp0_iter41) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter41 = ap_const_logic_1))) then k_buf_val_val_1_0_ce0 <= ap_const_logic_1; else k_buf_val_val_1_0_ce0 <= ap_const_logic_0; end if; end process; k_buf_val_val_1_0_ce1_assign_proc : process(ap_block_pp0_stage0_11001, ap_enable_reg_pp0_iter43) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter43 = ap_const_logic_1))) then k_buf_val_val_1_0_ce1 <= ap_const_logic_1; else k_buf_val_val_1_0_ce1 <= ap_const_logic_0; end if; end process; k_buf_val_val_1_0_we1_assign_proc : process(ap_block_pp0_stage0_11001, tmp_31_reg_2851_pp0_iter42_reg, row_rd_5_reg_3002_pp0_iter42_reg, col_rd_2_reg_3006_pp0_iter42_reg, ap_enable_reg_pp0_iter43) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter43 = ap_const_logic_1) and (col_rd_2_reg_3006_pp0_iter42_reg = ap_const_lv1_1) and (row_rd_5_reg_3002_pp0_iter42_reg = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter42_reg = ap_const_lv1_1))) then k_buf_val_val_1_0_we1 <= ap_const_logic_1; else k_buf_val_val_1_0_we1 <= ap_const_logic_0; end if; end process; k_buf_val_val_1_1_address0 <= tmp_52_fu_1501_p1(13 - 1 downto 0); k_buf_val_val_1_1_address1 <= tmp_52_reg_3010_pp0_iter42_reg(13 - 1 downto 0); k_buf_val_val_1_1_ce0_assign_proc : process(ap_block_pp0_stage0_11001, ap_enable_reg_pp0_iter41) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter41 = ap_const_logic_1))) then k_buf_val_val_1_1_ce0 <= ap_const_logic_1; else k_buf_val_val_1_1_ce0 <= ap_const_logic_0; end if; end process; k_buf_val_val_1_1_ce1_assign_proc : process(ap_block_pp0_stage0_11001, ap_enable_reg_pp0_iter43) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter43 = ap_const_logic_1))) then k_buf_val_val_1_1_ce1 <= ap_const_logic_1; else k_buf_val_val_1_1_ce1 <= ap_const_logic_0; end if; end process; k_buf_val_val_1_1_we1_assign_proc : process(ap_block_pp0_stage0_11001, tmp_31_reg_2851_pp0_iter42_reg, row_rd_5_reg_3002_pp0_iter42_reg, col_rd_2_reg_3006_pp0_iter42_reg, ap_enable_reg_pp0_iter43) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter43 = ap_const_logic_1) and (col_rd_2_reg_3006_pp0_iter42_reg = ap_const_lv1_1) and (row_rd_5_reg_3002_pp0_iter42_reg = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter42_reg = ap_const_lv1_1))) then k_buf_val_val_1_1_we1 <= ap_const_logic_1; else k_buf_val_val_1_1_we1 <= ap_const_logic_0; end if; end process; k_buf_val_val_1_2_address0 <= tmp_52_fu_1501_p1(13 - 1 downto 0); k_buf_val_val_1_2_address1 <= tmp_52_reg_3010_pp0_iter42_reg(13 - 1 downto 0); k_buf_val_val_1_2_ce0_assign_proc : process(ap_block_pp0_stage0_11001, ap_enable_reg_pp0_iter41) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter41 = ap_const_logic_1))) then k_buf_val_val_1_2_ce0 <= ap_const_logic_1; else k_buf_val_val_1_2_ce0 <= ap_const_logic_0; end if; end process; k_buf_val_val_1_2_ce1_assign_proc : process(ap_block_pp0_stage0_11001, ap_enable_reg_pp0_iter43) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter43 = ap_const_logic_1))) then k_buf_val_val_1_2_ce1 <= ap_const_logic_1; else k_buf_val_val_1_2_ce1 <= ap_const_logic_0; end if; end process; k_buf_val_val_1_2_we1_assign_proc : process(ap_block_pp0_stage0_11001, tmp_31_reg_2851_pp0_iter42_reg, row_rd_5_reg_3002_pp0_iter42_reg, col_rd_2_reg_3006_pp0_iter42_reg, ap_enable_reg_pp0_iter43) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter43 = ap_const_logic_1) and (col_rd_2_reg_3006_pp0_iter42_reg = ap_const_lv1_1) and (row_rd_5_reg_3002_pp0_iter42_reg = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter42_reg = ap_const_lv1_1))) then k_buf_val_val_1_2_we1 <= ap_const_logic_1; else k_buf_val_val_1_2_we1 <= ap_const_logic_0; end if; end process; neg_src_5_fu_2279_p2 <= (tmp_5_i_i_fu_2274_p2 and signbit_reg_3394_pp0_iter51_reg); neg_src_6_fu_2338_p2 <= (tmp_5_i_i1_fu_2333_p2 and signbit_1_reg_3422_pp0_iter51_reg); neg_src_fu_2397_p2 <= (tmp_5_i_i2_fu_2392_p2 and signbit_2_reg_3450_pp0_iter51_reg); neg_src_not_i_i1_fu_2348_p2 <= (signbit_not_i1_fu_2343_p2 or p_38_i_i_i1_reg_3497); neg_src_not_i_i2_fu_2407_p2 <= (signbit_not_i2_fu_2402_p2 or p_38_i_i_i2_reg_3515); neg_src_not_i_i_fu_2289_p2 <= (signbit_not_i_fu_2284_p2 or p_38_i_i_i_reg_3479); not_1_fu_1387_p2 <= "0" when (sy_4_reg_2989 = pre_fy_fu_242) else "1"; not_s_fu_1463_p2 <= "0" when (pre_fx_1_reg_2976 = pre_fx_2_fu_1424_p3) else "1"; p_38_i_i_i1_fu_2199_p2 <= (carry_1_fu_2175_p2 and Range1_all_ones_1_fu_2181_p2); p_38_i_i_i2_fu_2263_p2 <= (carry_2_fu_2239_p2 and Range1_all_ones_2_fu_2245_p2); p_38_i_i_i_fu_2135_p2 <= (carry_fu_2111_p2 and Range1_all_ones_fu_2117_p2); p_39_demorgan_i_i_i1_fu_2205_p2 <= (signbit_1_reg_3422 or deleted_zeros_1_fu_2191_p3); p_39_demorgan_i_i_i2_fu_2269_p2 <= (signbit_2_reg_3450 or deleted_zeros_2_fu_2255_p3); p_39_demorgan_i_i_i_fu_2141_p2 <= (signbit_reg_3394 or deleted_zeros_fu_2127_p3); p_39_demorgan_i_not_i_1_fu_2358_p2 <= (p_39_demorgan_i_i_i1_reg_3503 xor ap_const_lv1_1); p_39_demorgan_i_not_i_2_fu_2417_p2 <= (p_39_demorgan_i_i_i2_reg_3521 xor ap_const_lv1_1); p_39_demorgan_i_not_i_fu_2299_p2 <= (p_39_demorgan_i_i_i_reg_3485 xor ap_const_lv1_1); p_6_fu_1203_p3 <= ret_V_fu_1169_p4 when (tmp_37_fu_1191_p2(0) = '1') else ret_V_1_fu_1197_p2; p_7_fu_1253_p3 <= ret_V_2_fu_1219_p4 when (tmp_38_fu_1241_p2(0) = '1') else ret_V_3_fu_1247_p2; p_Val2_10_cast_fu_876_p2 <= std_logic_vector(signed(ap_const_lv26_3FF8000) + signed(tmp_65_reg_2744)); p_Val2_10_fu_881_p4 <= p_Val2_10_cast_fu_876_p2(25 downto 6); p_Val2_13_fu_912_p2 <= std_logic_vector(signed(ap_const_lv33_1FFFF8000) + signed(tmp_32_cast_fu_909_p1)); p_Val2_14_cast_fu_918_p2 <= std_logic_vector(signed(ap_const_lv26_3FF8000) + signed(tmp_69_reg_2754)); p_Val2_14_fu_923_p4 <= p_Val2_14_cast_fu_918_p2(25 downto 6); p_Val2_18_fu_903_p2 <= std_logic_vector(unsigned(p_Val2_10_fu_881_p4) + unsigned(tmp_11_fu_899_p1)); p_Val2_19_fu_945_p2 <= std_logic_vector(unsigned(p_Val2_14_fu_923_p4) + unsigned(tmp_15_fu_941_p1)); p_Val2_2_fu_1165_p2 <= std_logic_vector(unsigned(p_Val2_1_reg_2922) + unsigned(tmp_61_cast_reg_2809)); p_Val2_30_fu_1951_p2 <= std_logic_vector(unsigned(tmp69_reg_3354) + unsigned(tmp68_fu_1947_p2)); p_Val2_32_fu_2092_p2 <= std_logic_vector(unsigned(p_Val2_31_reg_3401) + unsigned(tmp_i_i_fu_2082_p1)); p_Val2_33_fu_2156_p2 <= std_logic_vector(unsigned(p_Val2_s_72_reg_3429) + unsigned(tmp_i_i1_fu_2146_p1)); p_Val2_36_fu_2220_p2 <= std_logic_vector(unsigned(p_Val2_35_reg_3457) + unsigned(tmp_i_i2_fu_2210_p1)); p_Val2_3_fu_1161_p2 <= std_logic_vector(unsigned(p_Val2_s_reg_2917) + unsigned(tmp_59_cast_reg_2804)); p_Val2_44_1_fu_1996_p2 <= std_logic_vector(unsigned(tmp71_reg_3369) + unsigned(tmp70_fu_1992_p2)); p_Val2_44_2_fu_2041_p2 <= std_logic_vector(unsigned(tmp73_reg_3384) + unsigned(tmp72_fu_2037_p2)); p_Val2_9_fu_870_p2 <= std_logic_vector(signed(ap_const_lv33_1FFFF8000) + signed(tmp_28_cast_fu_867_p1)); p_dst_data_stream_0_V_blk_n_assign_proc : process(p_dst_data_stream_0_V_full_n, ap_block_pp0_stage0, ap_enable_reg_pp0_iter52, brmerge_demorgan_reg_3077_pp0_iter51_reg) begin if (((ap_enable_reg_pp0_iter52 = ap_const_logic_1) and (brmerge_demorgan_reg_3077_pp0_iter51_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0))) then p_dst_data_stream_0_V_blk_n <= p_dst_data_stream_0_V_full_n; else p_dst_data_stream_0_V_blk_n <= ap_const_logic_1; end if; end process; p_dst_data_stream_0_V_din <= p_mux_i_i_fu_2310_p3 when (brmerge_i_i_fu_2304_p2(0) = '1') else p_i_i_fu_2317_p3; p_dst_data_stream_0_V_write_assign_proc : process(ap_enable_reg_pp0_iter52, brmerge_demorgan_reg_3077_pp0_iter51_reg, ap_block_pp0_stage0_11001) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter52 = ap_const_logic_1) and (brmerge_demorgan_reg_3077_pp0_iter51_reg = ap_const_lv1_1))) then p_dst_data_stream_0_V_write <= ap_const_logic_1; else p_dst_data_stream_0_V_write <= ap_const_logic_0; end if; end process; p_dst_data_stream_1_V_blk_n_assign_proc : process(p_dst_data_stream_1_V_full_n, ap_block_pp0_stage0, ap_enable_reg_pp0_iter52, brmerge_demorgan_reg_3077_pp0_iter51_reg) begin if (((ap_enable_reg_pp0_iter52 = ap_const_logic_1) and (brmerge_demorgan_reg_3077_pp0_iter51_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0))) then p_dst_data_stream_1_V_blk_n <= p_dst_data_stream_1_V_full_n; else p_dst_data_stream_1_V_blk_n <= ap_const_logic_1; end if; end process; p_dst_data_stream_1_V_din <= p_mux_i_i1_fu_2369_p3 when (brmerge_i_i1_fu_2363_p2(0) = '1') else p_i_i1_fu_2376_p3; p_dst_data_stream_1_V_write_assign_proc : process(ap_enable_reg_pp0_iter52, brmerge_demorgan_reg_3077_pp0_iter51_reg, ap_block_pp0_stage0_11001) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter52 = ap_const_logic_1) and (brmerge_demorgan_reg_3077_pp0_iter51_reg = ap_const_lv1_1))) then p_dst_data_stream_1_V_write <= ap_const_logic_1; else p_dst_data_stream_1_V_write <= ap_const_logic_0; end if; end process; p_dst_data_stream_2_V_blk_n_assign_proc : process(p_dst_data_stream_2_V_full_n, ap_block_pp0_stage0, ap_enable_reg_pp0_iter52, brmerge_demorgan_reg_3077_pp0_iter51_reg) begin if (((ap_enable_reg_pp0_iter52 = ap_const_logic_1) and (brmerge_demorgan_reg_3077_pp0_iter51_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0))) then p_dst_data_stream_2_V_blk_n <= p_dst_data_stream_2_V_full_n; else p_dst_data_stream_2_V_blk_n <= ap_const_logic_1; end if; end process; p_dst_data_stream_2_V_din <= p_mux_i_i2_fu_2428_p3 when (brmerge_i_i2_fu_2422_p2(0) = '1') else p_i_i2_fu_2435_p3; p_dst_data_stream_2_V_write_assign_proc : process(ap_enable_reg_pp0_iter52, brmerge_demorgan_reg_3077_pp0_iter51_reg, ap_block_pp0_stage0_11001) begin if (((ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter52 = ap_const_logic_1) and (brmerge_demorgan_reg_3077_pp0_iter51_reg = ap_const_lv1_1))) then p_dst_data_stream_2_V_write <= ap_const_logic_1; else p_dst_data_stream_2_V_write <= ap_const_logic_0; end if; end process; p_i_i1_fu_2376_p3 <= ap_const_lv8_0 when (neg_src_6_fu_2338_p2(0) = '1') else p_Val2_33_reg_3491; p_i_i2_fu_2435_p3 <= ap_const_lv8_0 when (neg_src_fu_2397_p2(0) = '1') else p_Val2_36_reg_3509; p_i_i_fu_2317_p3 <= ap_const_lv8_0 when (neg_src_5_fu_2279_p2(0) = '1') else p_Val2_32_reg_3473; p_lshr1_fu_827_p4 <= p_neg1_fu_822_p2(31 downto 1); p_lshr_fu_788_p4 <= p_neg_fu_783_p2(31 downto 1); p_mux_i_i1_fu_2369_p3 <= p_Val2_33_reg_3491 when (brmerge_i_i_not_i_i1_fu_2353_p2(0) = '1') else ap_const_lv8_FF; p_mux_i_i2_fu_2428_p3 <= p_Val2_36_reg_3509 when (brmerge_i_i_not_i_i2_fu_2412_p2(0) = '1') else ap_const_lv8_FF; p_mux_i_i_fu_2310_p3 <= p_Val2_32_reg_3473 when (brmerge_i_i_not_i_i_fu_2294_p2(0) = '1') else ap_const_lv8_FF; p_neg1_fu_822_p2 <= std_logic_vector(unsigned(ap_const_lv32_0) - unsigned(col_rate_V_reg_2711)); p_neg_fu_783_p2 <= std_logic_vector(unsigned(ap_const_lv32_0) - unsigned(row_rate_V_reg_2703)); p_neg_t1_fu_841_p2 <= std_logic_vector(unsigned(ap_const_lv32_0) - unsigned(tmp_12_fu_837_p1)); p_neg_t_fu_802_p2 <= std_logic_vector(unsigned(ap_const_lv32_0) - unsigned(tmp_5_fu_798_p1)); p_src_data_stream_0_V_blk_n_assign_proc : process(p_src_data_stream_0_V_empty_n, ap_enable_reg_pp0_iter42, ap_block_pp0_stage0, tmp_31_reg_2851_pp0_iter41_reg, col_rd_2_reg_3006, row_rd_5_reg_3002, tmp_53_reg_3065, tmp_55_reg_3069) begin if (((ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (tmp_55_reg_3069 = ap_const_lv1_1) and (tmp_53_reg_3065 = ap_const_lv1_1) and (row_rd_5_reg_3002 = ap_const_lv1_1) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0))) then p_src_data_stream_0_V_blk_n <= p_src_data_stream_0_V_empty_n; else p_src_data_stream_0_V_blk_n <= ap_const_logic_1; end if; end process; p_src_data_stream_0_V_read_assign_proc : process(ap_enable_reg_pp0_iter42, ap_predicate_op564_read_state98, ap_block_pp0_stage0_11001) begin if (((ap_predicate_op564_read_state98 = ap_const_boolean_1) and (ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter42 = ap_const_logic_1))) then p_src_data_stream_0_V_read <= ap_const_logic_1; else p_src_data_stream_0_V_read <= ap_const_logic_0; end if; end process; p_src_data_stream_1_V_blk_n_assign_proc : process(p_src_data_stream_1_V_empty_n, ap_enable_reg_pp0_iter42, ap_block_pp0_stage0, tmp_31_reg_2851_pp0_iter41_reg, col_rd_2_reg_3006, row_rd_5_reg_3002, tmp_53_reg_3065, tmp_55_reg_3069) begin if (((ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (tmp_55_reg_3069 = ap_const_lv1_1) and (tmp_53_reg_3065 = ap_const_lv1_1) and (row_rd_5_reg_3002 = ap_const_lv1_1) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0))) then p_src_data_stream_1_V_blk_n <= p_src_data_stream_1_V_empty_n; else p_src_data_stream_1_V_blk_n <= ap_const_logic_1; end if; end process; p_src_data_stream_1_V_read_assign_proc : process(ap_enable_reg_pp0_iter42, ap_predicate_op564_read_state98, ap_block_pp0_stage0_11001) begin if (((ap_predicate_op564_read_state98 = ap_const_boolean_1) and (ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter42 = ap_const_logic_1))) then p_src_data_stream_1_V_read <= ap_const_logic_1; else p_src_data_stream_1_V_read <= ap_const_logic_0; end if; end process; p_src_data_stream_2_V_blk_n_assign_proc : process(p_src_data_stream_2_V_empty_n, ap_enable_reg_pp0_iter42, ap_block_pp0_stage0, tmp_31_reg_2851_pp0_iter41_reg, col_rd_2_reg_3006, row_rd_5_reg_3002, tmp_53_reg_3065, tmp_55_reg_3069) begin if (((ap_enable_reg_pp0_iter42 = ap_const_logic_1) and (tmp_55_reg_3069 = ap_const_lv1_1) and (tmp_53_reg_3065 = ap_const_lv1_1) and (row_rd_5_reg_3002 = ap_const_lv1_1) and (col_rd_2_reg_3006 = ap_const_lv1_1) and (tmp_31_reg_2851_pp0_iter41_reg = ap_const_lv1_1) and (ap_const_boolean_0 = ap_block_pp0_stage0))) then p_src_data_stream_2_V_blk_n <= p_src_data_stream_2_V_empty_n; else p_src_data_stream_2_V_blk_n <= ap_const_logic_1; end if; end process; p_src_data_stream_2_V_read_assign_proc : process(ap_enable_reg_pp0_iter42, ap_predicate_op564_read_state98, ap_block_pp0_stage0_11001) begin if (((ap_predicate_op564_read_state98 = ap_const_boolean_1) and (ap_const_boolean_0 = ap_block_pp0_stage0_11001) and (ap_enable_reg_pp0_iter42 = ap_const_logic_1))) then p_src_data_stream_2_V_read <= ap_const_logic_1; else p_src_data_stream_2_V_read <= ap_const_logic_0; end if; end process; p_u_V_fu_1604_p3 <= ap_const_lv20_0 when (tmp_48_reg_2971_pp0_iter41_reg(0) = '1') else u_V_fu_1591_p3; pre_fx_1_fu_1337_p3 <= sx_reg_2776 when (tmp_48_fu_1332_p2(0) = '1') else sx_2_reg_2937; pre_fx_2_fu_1424_p3 <= ap_const_lv16_FFF6 when (tmp_50_reg_2865_pp0_iter40_reg(0) = '1') else pre_fx_fu_238; pre_fx_2_sx_fu_1468_p3 <= ap_const_lv16_FFF6 when (tmp_50_reg_2865_pp0_iter40_reg(0) = '1') else pre_fx_1_reg_2976; pre_fx_5_fu_1474_p3 <= pre_fx_2_fu_1424_p3 when (tmp_24_reg_2797(0) = '1') else pre_fx_2_sx_fu_1468_p3; pre_fy_1_sy_fu_1392_p3 <= pre_fy_fu_242 when (tmp_29_reg_2829(0) = '1') else sy_4_reg_2989; pre_fy_5_fu_1417_p3 <= sel_tmp5_fu_1409_p3 when (tmp_50_reg_2865_pp0_iter40_reg(0) = '1') else pre_fy_fu_242; r_V_1_1_fu_2498_p0 <= OP2_V_2_fu_1803_p1(20 - 1 downto 0); r_V_1_1_fu_2498_p1 <= r_V_1_1_fu_2498_p10(8 - 1 downto 0); r_V_1_1_fu_2498_p10 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(win_val_1_val_1_1_3_reg_3153),28)); r_V_1_2_fu_2509_p0 <= OP2_V_2_fu_1803_p1(20 - 1 downto 0); r_V_1_2_fu_2509_p1 <= r_V_1_2_fu_2509_p10(8 - 1 downto 0); r_V_1_2_fu_2509_p10 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(win_val_1_val_1_2_3_reg_3158),28)); r_V_1_fu_2487_p0 <= OP2_V_2_fu_1803_p1(20 - 1 downto 0); r_V_1_fu_2487_p1 <= r_V_1_fu_2487_p10(8 - 1 downto 0); r_V_1_fu_2487_p10 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(win_val_1_val_1_0_3_reg_3148),28)); r_V_2_1_fu_2504_p0 <= OP2_V_reg_3163(20 - 1 downto 0); r_V_2_1_fu_2504_p1 <= r_V_2_1_fu_2504_p10(8 - 1 downto 0); r_V_2_1_fu_2504_p10 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(win_val_0_val_1_1_4_reg_3138),28)); r_V_2_2_fu_2515_p0 <= OP2_V_reg_3163(20 - 1 downto 0); r_V_2_2_fu_2515_p1 <= r_V_2_2_fu_2515_p10(8 - 1 downto 0); r_V_2_2_fu_2515_p10 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(win_val_0_val_1_2_4_reg_3143),28)); r_V_2_fu_2493_p0 <= OP2_V_reg_3163(20 - 1 downto 0); r_V_2_fu_2493_p1 <= r_V_2_fu_2493_p10(8 - 1 downto 0); r_V_2_fu_2493_p10 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(win_val_0_val_1_0_4_reg_3133),28)); r_V_3_1_fu_2469_p0 <= OP2_V_7_fu_1781_p1(20 - 1 downto 0); r_V_3_1_fu_2469_p1 <= r_V_3_1_fu_2469_p10(8 - 1 downto 0); r_V_3_1_fu_2469_p10 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(win_val_0_val_1_1_fu_262),28)); r_V_3_2_fu_2481_p0 <= OP2_V_7_fu_1781_p1(20 - 1 downto 0); r_V_3_2_fu_2481_p1 <= r_V_3_2_fu_2481_p10(8 - 1 downto 0); r_V_3_2_fu_2481_p10 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(win_val_0_val_1_2_fu_266),28)); r_V_3_fu_2457_p0 <= OP2_V_7_fu_1781_p1(20 - 1 downto 0); r_V_3_fu_2457_p1 <= r_V_3_fu_2457_p10(8 - 1 downto 0); r_V_3_fu_2457_p10 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(win_val_0_val_1_0_fu_258),28)); r_V_4_fu_2475_p0 <= OP2_V_fu_1770_p1(20 - 1 downto 0); r_V_4_fu_2475_p1 <= r_V_4_fu_2475_p10(8 - 1 downto 0); r_V_4_fu_2475_p10 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(win_val_1_val_1_2_1_fu_302),28)); r_V_7_fu_1283_p2 <= std_logic_vector(signed(tmp_39_fu_1269_p1) - signed(tmp_66_cast_fu_1279_p1)); r_V_8_fu_1313_p2 <= std_logic_vector(signed(tmp_44_fu_1299_p1) - signed(tmp_72_cast_fu_1309_p1)); r_V_fu_2451_p0 <= OP2_V_fu_1770_p1(20 - 1 downto 0); r_V_fu_2451_p1 <= r_V_fu_2451_p10(8 - 1 downto 0); r_V_fu_2451_p10 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(win_val_1_val_1_0_1_fu_294),28)); r_V_s_fu_2463_p0 <= OP2_V_fu_1770_p1(20 - 1 downto 0); r_V_s_fu_2463_p1 <= r_V_s_fu_2463_p10(8 - 1 downto 0); r_V_s_fu_2463_p10 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(win_val_1_val_1_1_1_fu_298),28)); ret_V_1_fu_1197_p2 <= std_logic_vector(unsigned(ap_const_lv16_1) + unsigned(ret_V_fu_1169_p4)); ret_V_2_fu_1219_p4 <= p_Val2_3_fu_1161_p2(31 downto 16); ret_V_3_fu_1247_p2 <= std_logic_vector(unsigned(ap_const_lv16_1) + unsigned(ret_V_2_fu_1219_p4)); ret_V_fu_1169_p4 <= p_Val2_2_fu_1165_p2(31 downto 16); row_rate_V_fu_739_p1 <= grp_fu_684_p2(32 - 1 downto 0); row_rd_5_fu_1442_p3 <= sel_tmp_fu_1437_p2 when (tmp_50_reg_2865_pp0_iter40_reg(0) = '1') else row_rd_fu_234; row_wr_1_fu_1383_p2 <= "1" when (sy_4_reg_2989 = tmp_28_reg_2823) else "0"; row_wr_2_fu_1066_p2 <= "0" when (p_Val2_16_reg_535 = ap_const_lv15_0) else "1"; row_wr_3_fu_1456_p3 <= row_wr_4_fu_1449_p3 when (tmp_50_reg_2865_pp0_iter40_reg(0) = '1') else row_wr_fu_230; row_wr_4_fu_1449_p3 <= row_wr_1_fu_1383_p2 when (sel_tmp4_fu_1405_p2(0) = '1') else row_wr_2_reg_2835; rows_fu_960_p3 <= srows_reg_2667 when (tmp_17_fu_951_p2(0) = '1') else tmp_18_fu_955_p2; scols_fu_662_p1 <= p_src_cols_V_read(16 - 1 downto 0); sel_tmp4_fu_1405_p2 <= (tmp_50_reg_2865_pp0_iter40_reg and tmp_23_reg_2792); sel_tmp5_fu_1409_p3 <= pre_fy_fu_242 when (sel_tmp4_fu_1405_p2(0) = '1') else pre_fy_1_sy_fu_1392_p3; sel_tmp_fu_1437_p2 <= (tmp_29_reg_2829 or tmp66_fu_1431_p2); signbit_not_i1_fu_2343_p2 <= (signbit_1_reg_3422_pp0_iter51_reg xor ap_const_lv1_1); signbit_not_i2_fu_2402_p2 <= (signbit_2_reg_3450_pp0_iter51_reg xor ap_const_lv1_1); signbit_not_i_fu_2284_p2 <= (signbit_reg_3394_pp0_iter51_reg xor ap_const_lv1_1); srows_fu_658_p1 <= p_src_rows_V_read(16 - 1 downto 0); sx_2_fu_1211_p3 <= p_6_fu_1203_p3 when (tmp_73_fu_1179_p3(0) = '1') else ret_V_fu_1169_p4; sx_fu_989_p2 <= std_logic_vector(signed(ap_const_lv16_FFFF) + signed(scols_reg_2675)); sy_3_fu_1261_p3 <= p_7_fu_1253_p3 when (tmp_75_fu_1229_p3(0) = '1') else ret_V_2_fu_1219_p4; sy_4_fu_1351_p3 <= sy_reg_2787 when (tmp_49_fu_1346_p2(0) = '1') else sy_3_reg_2944; sy_fu_1000_p2 <= std_logic_vector(signed(ap_const_lv16_FFFF) + signed(srows_reg_2667)); tmp66_fu_1431_p2 <= (sel_tmp4_fu_1405_p2 or not_1_fu_1387_p2); tmp67_fu_1481_p2 <= (tmp_24_reg_2797 or not_s_fu_1463_p2); tmp68_fu_1947_p2 <= std_logic_vector(unsigned(p_Val2_24_reg_3344) + unsigned(p_Val2_28_reg_3349)); tmp69_fu_1935_p2 <= std_logic_vector(unsigned(p_Val2_21_reg_3314) + unsigned(p_Val2_29_reg_3319)); tmp70_fu_1992_p2 <= std_logic_vector(unsigned(p_Val2_30_1_reg_3359) + unsigned(p_Val2_33_1_reg_3364)); tmp71_fu_1939_p2 <= std_logic_vector(unsigned(p_Val2_40_1_reg_3324) + unsigned(p_Val2_42_1_reg_3329)); tmp72_fu_2037_p2 <= std_logic_vector(unsigned(p_Val2_30_2_reg_3374) + unsigned(p_Val2_33_2_reg_3379)); tmp73_fu_1943_p2 <= std_logic_vector(unsigned(p_Val2_40_2_reg_3334) + unsigned(p_Val2_42_2_reg_3339)); tmp_10_fu_811_p3 <= p_neg_t_fu_802_p2 when (tmp_54_reg_2719(0) = '1') else tmp_9_fu_808_p1; tmp_11_fu_899_p1 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(tmp_67_fu_891_p3),20)); tmp_12_fu_837_p1 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(p_lshr1_fu_827_p4),32)); tmp_13_cast_fu_861_p1 <= std_logic_vector(IEEE.numeric_std.resize(signed(srows_reg_2667),17)); tmp_13_fu_847_p1 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(p_lshr_f1_reg_2734),32)); tmp_14_fu_850_p3 <= p_neg_t1_fu_841_p2 when (tmp_68_reg_2729(0) = '1') else tmp_13_fu_847_p1; tmp_15_fu_941_p1 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(tmp_70_fu_933_p3),20)); tmp_16_fu_666_p2 <= std_logic_vector(shift_left(unsigned(p_dst_rows_V_read),to_integer(unsigned('0' & ap_const_lv32_10(31-1 downto 0))))); tmp_17_fu_951_p2 <= "1" when (signed(srows_reg_2667) > signed(drows_reg_2661)) else "0"; tmp_18_fu_955_p2 <= std_logic_vector(unsigned(ap_const_lv16_1) + unsigned(drows_reg_2661)); tmp_19_fu_967_p2 <= "1" when (signed(scols_reg_2675) > signed(dcols_reg_2655)) else "0"; tmp_20_cast_fu_864_p1 <= std_logic_vector(IEEE.numeric_std.resize(signed(scols_reg_2675),17)); tmp_20_fu_971_p2 <= std_logic_vector(unsigned(ap_const_lv16_1) + unsigned(dcols_reg_2655)); tmp_21_fu_983_p2 <= std_logic_vector(signed(ap_const_lv17_1FFFF) + signed(tmp_20_cast_fu_864_p1)); tmp_22_fu_994_p2 <= std_logic_vector(signed(ap_const_lv17_1FFFF) + signed(tmp_13_cast_fu_861_p1)); tmp_23_fu_1005_p2 <= "1" when (signed(row_rate_V_reg_2703) > signed(ap_const_lv32_10000)) else "0"; tmp_24_fu_1010_p2 <= "1" when (signed(col_rate_V_reg_2711) > signed(ap_const_lv32_10000)) else "0"; tmp_25_fu_1015_p3 <= (p_Val2_18_fu_903_p2 & ap_const_lv6_0); tmp_26_fu_1027_p3 <= (p_Val2_19_fu_945_p2 & ap_const_lv6_0); tmp_27_fu_1043_p2 <= "1" when (signed(i_op_assign_15_cast_fu_1039_p1) < signed(rows_reg_2759)) else "0"; tmp_28_cast_fu_867_p1 <= std_logic_vector(IEEE.numeric_std.resize(signed(tmp_10_reg_2739),33)); tmp_28_fu_1054_p2 <= std_logic_vector(unsigned(i_op_assign_15_cast_fu_1039_p1) + unsigned(ap_const_lv16_FFFF)); tmp_29_fu_1060_p2 <= "1" when (p_Val2_16_reg_535 = ap_const_lv15_0) else "0"; tmp_30_fu_1072_p3 <= (p_Val2_16_reg_535 & ap_const_lv16_0); tmp_31_fu_1088_p2 <= "1" when (signed(i_op_assign_cast_fu_1084_p1) < signed(cols_reg_2764)) else "0"; tmp_32_cast_fu_909_p1 <= std_logic_vector(IEEE.numeric_std.resize(signed(tmp_14_reg_2749),33)); tmp_34_fu_1103_p3 <= (p_Val2_17_reg_546 & ap_const_lv16_0); tmp_36_fu_1135_p2 <= std_logic_vector(unsigned(i_op_assign_cast_reg_2845_pp0_iter34_reg) + unsigned(ap_const_lv16_FFFF)); tmp_37_fu_1191_p2 <= "1" when (tmp_74_fu_1187_p1 = ap_const_lv16_0) else "0"; tmp_38_fu_1241_p2 <= "1" when (tmp_76_fu_1237_p1 = ap_const_lv16_0) else "0"; tmp_39_fu_1269_p1 <= std_logic_vector(IEEE.numeric_std.resize(signed(p_Val2_2_reg_2932),33)); tmp_40_fu_1272_p3 <= (sx_2_reg_2937 & ap_const_lv16_0); tmp_41_fu_1289_p2 <= "1" when (signed(r_V_7_fu_1283_p2) > signed(ap_const_lv33_0)) else "0"; tmp_42_fu_690_p2 <= std_logic_vector(shift_left(unsigned(p_dst_cols_V_read),to_integer(unsigned('0' & ap_const_lv32_10(31-1 downto 0))))); tmp_43_fu_1584_p3 <= (tmp_77_reg_2956_pp0_iter41_reg & ap_const_lv2_0); tmp_44_fu_1299_p1 <= std_logic_vector(IEEE.numeric_std.resize(signed(p_Val2_3_reg_2927),33)); tmp_45_fu_1302_p3 <= (sy_3_reg_2944 & ap_const_lv16_0); tmp_46_fu_1319_p2 <= "1" when (signed(r_V_8_fu_1313_p2) > signed(ap_const_lv33_0)) else "0"; tmp_47_fu_1695_p3 <= (tmp_78_reg_2966_pp0_iter42_reg & ap_const_lv2_0); tmp_48_fu_1332_p2 <= "1" when (signed(tmp_76_cast_fu_1329_p1) > signed(tmp_21_reg_2769)) else "0"; tmp_49_cast_fu_1080_p1 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(tmp_30_fu_1072_p3),32)); tmp_49_fu_1346_p2 <= "1" when (signed(tmp_78_cast_fu_1343_p1) > signed(tmp_22_reg_2781)) else "0"; tmp_4_i_i1_fu_2169_p2 <= (tmp_89_fu_2161_p3 xor ap_const_lv1_1); tmp_4_i_i2_fu_2233_p2 <= (tmp_93_fu_2225_p3 xor ap_const_lv1_1); tmp_4_i_i_fu_2105_p2 <= (tmp_85_fu_2097_p3 xor ap_const_lv1_1); tmp_50_fu_1120_p2 <= "1" when (p_Val2_17_reg_546 = ap_const_lv15_0) else "0"; tmp_51_fu_1357_p2 <= std_logic_vector(signed(ap_const_lv16_FFFF) + signed(i_op_assign_cast_reg_2845_pp0_iter39_reg)); tmp_52_fu_1501_p1 <= std_logic_vector(IEEE.numeric_std.resize(signed(x_2_fu_1398_p3),64)); tmp_53_fu_1517_p2 <= "1" when (signed(tmp_86_cast_fu_1514_p1) < signed(tmp_22_reg_2781)) else "0"; tmp_55_fu_1525_p2 <= "1" when (signed(tmp_88_cast_fu_1522_p1) < signed(tmp_21_reg_2769)) else "0"; tmp_56_fu_1533_p2 <= "1" when (signed(tmp_90_cast_fu_1530_p1) < signed(tmp_21_reg_2769)) else "0"; tmp_59_cast_fu_1023_p1 <= std_logic_vector(IEEE.numeric_std.resize(signed(tmp_25_fu_1015_p3),32)); tmp_5_fu_798_p1 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(p_lshr_fu_788_p4),32)); tmp_5_i_i1_fu_2333_p2 <= (p_38_i_i_i1_reg_3497 xor ap_const_lv1_1); tmp_5_i_i2_fu_2392_p2 <= (p_38_i_i_i2_reg_3515 xor ap_const_lv1_1); tmp_5_i_i_fu_2274_p2 <= (p_38_i_i_i_reg_3479 xor ap_const_lv1_1); tmp_61_cast_fu_1035_p1 <= std_logic_vector(IEEE.numeric_std.resize(signed(tmp_26_fu_1027_p3),32)); tmp_65_fu_818_p1 <= tmp_10_fu_811_p3(26 - 1 downto 0); tmp_66_cast_fu_1279_p1 <= std_logic_vector(IEEE.numeric_std.resize(signed(tmp_40_fu_1272_p3),33)); tmp_67_fu_891_p3 <= p_Val2_9_fu_870_p2(5 downto 5); tmp_69_fu_857_p1 <= tmp_14_fu_850_p3(26 - 1 downto 0); tmp_70_fu_933_p3 <= p_Val2_13_fu_912_p2(5 downto 5); tmp_71_fu_1132_p1 <= tmp_33_reg_2882(16 - 1 downto 0); tmp_72_cast_fu_1309_p1 <= std_logic_vector(IEEE.numeric_std.resize(signed(tmp_45_fu_1302_p3),33)); tmp_72_fu_1140_p1 <= tmp_35_reg_2887(16 - 1 downto 0); tmp_73_fu_1179_p3 <= p_Val2_2_fu_1165_p2(31 downto 31); tmp_74_fu_1187_p1 <= p_Val2_2_fu_1165_p2(16 - 1 downto 0); tmp_75_fu_1229_p3 <= p_Val2_3_fu_1161_p2(31 downto 31); tmp_76_cast_fu_1329_p1 <= std_logic_vector(IEEE.numeric_std.resize(signed(sx_2_reg_2937),17)); tmp_76_fu_1237_p1 <= p_Val2_3_fu_1161_p2(16 - 1 downto 0); tmp_77_fu_1295_p1 <= r_V_7_fu_1283_p2(18 - 1 downto 0); tmp_78_cast_fu_1343_p1 <= std_logic_vector(IEEE.numeric_std.resize(signed(sy_3_reg_2944),17)); tmp_78_fu_1325_p1 <= r_V_8_fu_1313_p2(18 - 1 downto 0); tmp_84_fu_2085_p3 <= p_Val2_30_reg_3389(43 downto 43); tmp_85_fu_2097_p3 <= p_Val2_32_fu_2092_p2(7 downto 7); tmp_86_cast_fu_1514_p1 <= std_logic_vector(IEEE.numeric_std.resize(signed(sy_4_reg_2989),17)); tmp_88_cast_fu_1522_p1 <= std_logic_vector(IEEE.numeric_std.resize(signed(pre_fx_1_reg_2976),17)); tmp_88_fu_2149_p3 <= p_Val2_44_1_reg_3417(43 downto 43); tmp_89_fu_2161_p3 <= p_Val2_33_fu_2156_p2(7 downto 7); tmp_90_cast_fu_1530_p1 <= std_logic_vector(IEEE.numeric_std.resize(signed(pre_fx_1_reg_2976),17)); tmp_92_fu_2213_p3 <= p_Val2_44_2_reg_3445(43 downto 43); tmp_93_fu_2225_p3 <= p_Val2_36_fu_2220_p2(7 downto 7); tmp_9_fu_808_p1 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(p_lshr_f_reg_2724),32)); tmp_i_i1_fu_2146_p1 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(tmp_87_reg_3434),8)); tmp_i_i2_fu_2210_p1 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(tmp_91_reg_3462),8)); tmp_i_i_fu_2082_p1 <= std_logic_vector(IEEE.numeric_std.resize(unsigned(tmp_83_reg_3406),8)); u1_V_fu_1598_p2 <= std_logic_vector(unsigned(ap_const_lv20_40000) - unsigned(u_V_fu_1591_p3)); u_V_fu_1591_p3 <= tmp_43_fu_1584_p3 when (tmp_41_reg_2951_pp0_iter41_reg(0) = '1') else ap_const_lv20_0; v1_V_fu_1709_p2 <= std_logic_vector(unsigned(ap_const_lv20_40000) - unsigned(v_V_2_fu_1702_p3)); v_V_2_fu_1702_p3 <= tmp_47_fu_1695_p3 when (tmp_46_reg_2961_pp0_iter42_reg(0) = '1') else ap_const_lv20_0; v_V_fu_1715_p3 <= ap_const_lv20_0 when (tmp_49_reg_2984_pp0_iter42_reg(0) = '1') else v_V_2_fu_1702_p3; x_1_fu_1538_p2 <= std_logic_vector(signed(x_2_fu_1398_p3) + signed(ap_const_lv16_1)); x_2_fu_1398_p3 <= ap_const_lv16_0 when (tmp_50_reg_2865_pp0_iter40_reg(0) = '1') else x_fu_246; end behav;
---------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 01:21:33 05/14/2015 -- Design Name: -- Module Name: SPISlave - Behavioral -- Project Name: -- Target Devices: -- Tool versions: -- Description: -- -- Dependencies: -- -- Revision: -- Revision 0.01 - File Created -- Additional Comments: -- ---------------------------------------------------------------------------------- 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 SPISlave is port( sck : in std_logic := '0'; mosi : in std_logic; miso : out std_logic := 'Z'; ssel : in std_logic; in_data : in std_logic_vector(7 downto 0); out_data : out std_logic_vector(7 downto 0) ); end SPISlave; architecture Behavioral of SPISlave is signal first: boolean := true; signal reg: std_logic_vector(6 downto 0) := (others => '0'); signal mosi_cache: std_logic := '0'; begin process(sck, ssel, reg, mosi_cache, in_data) begin if (rising_edge(ssel)) then out_data <= reg(6 downto 0) & mosi_cache; end if; if (ssel = '1') then first <= true; miso <= 'Z'; else if (rising_edge(sck)) then mosi_cache <= mosi; end if; if (falling_edge(sck)) then if (first) then first <= false; miso <= in_data(7); reg <= in_data(6 downto 0); else miso <= reg(6); reg <= reg(5 downto 0) & mosi_cache; end if; end if; end if; end process; end Behavioral;
---------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 19:39:07 06/27/2013 -- Design Name: -- Module Name: FaultDetection - Behavioral -- Project Name: -- Target Devices: -- Tool versions: -- Description: -- -- Dependencies: -- -- Revision: -- Revision 0.01 - File Created -- Additional Comments: -- ---------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; -- Uncomment the following library declaration if using -- arithmetic functions with Signed or Unsigned values use ieee.numeric_std.all; use work.NoCPackage.all; -- Uncomment the following library declaration if instantiating -- any Xilinx primitives in this code. --library UNISIM; --use UNISIM.VComponents.all; -- -- IN ____________ OUT -- | | -- data_inA|------------| dataInB -- | | -- |____________| -- compTest test_link_in test_link_out <---sinais de controle -- ____________\/____________\/___________\/________ -- | | -- data_out'| -- -- entity FaultDetection is Port( clock : in std_logic; reset : in std_logic; c_strLinkTst: in regNport; -- (start link test) indica que houve um pacote de controle do tipo TEST_LINKS para testar os links. Comentario antigo:sinal de teste local para exterior c_strLinkTstAll: out std_logic; -- se algum buffer fez o pedido de teste de link c_stpLinkTst: out regNport; -- (stop link test) indica o fim do teste do link test_link_inA : in regNport; -- sinal testLink_i dos roteadores vizinhos que indica teste de link (desta maneira o roteador sabe que precisa revolver o dado recebido durante o teste do link). Comentario antigo: sinal de teste exterior para local data_outA : in arrayNport_regflit; -- data_out normal. Dado que sera encaminhado para as portas de saida, caso nao esteja em teste data_inA : in arrayNport_regflit; -- dado(flit) recebido nas portas de entrada dos buffers (para analisar o dado recebido no teste de links) credit_inA : in regNport; credit_outA : in regNport; data_outB : out arrayNport_regflit; -- dado que sera encaminhado para as portas de saida (pode ser encaminhado data_out normal ou dados para teste de link) credit_inB : out regNport; c_faultTableFDM : out regNPort; -- tabela de falhas ('0' indica sem falha, '1' indica falha) credit_outB : out regNport); end FaultDetection; -- str(send to router) architecture Behavioral of FaultDetection is signal stopLinkTest: std_logic; type testLinks is (S_INIT, S_FIRSTDATA, S_SECONDDATA,S_END); signal EA : testLinks; signal compTest : std_logic := '0'; signal tmp : regNport := (others=>'Z'); signal fillOne : regFlit := (others=>'1'); signal fillZero : regFlit := (others=>'0'); signal strLinkTstAll : std_logic := '0'; signal faultTableReg : regNPort :=(others=>'0'); begin c_stpLinkTst <= (others=>'1') when stopLinkTest = '1' else (others=>'0'); c_faultTableFDM <= faultTableReg; c_strLinkTstAll <= strLinkTstAll; -- '1' se em algum buffer houve o pedido de teste de link (por causa do pacote de controle do tipo TEST_LINKS) strLinkTstAll <= c_strLinkTst(EAST) or c_strLinkTst(WEST) or c_strLinkTst(NORTH) or c_strLinkTst(SOUTH) or c_strLinkTst(LOCAL); -- link LOCAL eh considerado sempre sem falha. Nao passa pelo teste de links credit_outB(LOCAL) <= credit_outA(LOCAL); credit_inB(LOCAL) <= credit_inA(LOCAL); data_outB(LOCAL) <= data_outA(LOCAL); ALL_MUX : for i in 0 to (NPORT-2) generate -- para 4 portas (EAST, WEST, NORTH, SOUTH) credit_outB(i) <= credit_outA(i) when (strLinkTstAll or test_link_inA(i)) = '0' else '0'; credit_inB(i) <= credit_inA(i) when (strLinkTstAll or test_link_inA(i)) = '0' else '0'; data_outB(i) <= data_outA(i) when strLinkTstAll = '0' and test_link_inA(i) = '0' else --passagem do data_out normal data_inA(i) when test_link_inA(i) = '1' and strLinkTstAll = '0' else -- retransmissao do dado de test_link (others=>'1') when strLinkTstAll ='1' and compTest = '1' else --envio do dado(1) de test_link (others=>'0') when strLinkTstAll ='1' and compTest = '0' else --envio do dado(2) de test_link (others=>'Z'); tmp(i) <= '0' when compTest = '1' and (data_inA(i) xor fillOne) = std_logic_vector(to_unsigned(0, fillOne'length)) else -- '0' QUANDO estiver enviando dado com todos os bits em '1' E receber o mesmo dado que enviou (todos os bits em '1') '1' when compTest = '1' else -- '1' QUANDO estiver enviando dado com todos os bits em '1' (nao recebe o mesmo dado que enviou, logo tem falha) '0' when compTest = '0' and (data_inA(i) xor fillZero) = std_logic_vector(to_unsigned(0, fillZero'length)) else -- '0' QUANDO estiver enviando dado com todos os bits em '0' E receber o mesmo dado que enviou (todos os bits em '0') '1' when compTest = '0' else -- '1' QUANDO estiver enviando dado com todos os bits em '1' (nao recebe o mesmo dado que enviou, logo tem falha) 'Z'; end generate ALL_MUX; --maquina de estados para transmitir e receber os dados process(clock,reset) begin if reset = '1' then stopLinkTest <= '0'; compTest <= '0'; EA <= S_INIT; elsif (clock'event and clock='1') then case EA is when S_INIT => -- verifica em algum buffer houve o pedido de teste de link if strLinkTstAll = '1' then stopLinkTest <= '0'; compTest <= '0'; --auxiliar (indica que os dados enviados serao tudo '0') EA <= S_FIRSTDATA; end if; -- envio do primeiro dado (todos os bits em 0). Caso receber os mesmos dados enviados (todos os bits em 0), armazeno '0' na tabela. '1' indica falha when S_FIRSTDATA => faultTableReg(EAST) <= tmp(EAST); faultTableReg(WEST) <= tmp(WEST); faultTableReg(NORTH) <= tmp(NORTH); faultTableReg(SOUTH) <= tmp(SOUTH); --faultTableReg(LOCAL) <= tmp(LOCAL); faultTableReg(LOCAL) <= '0'; compTest <= '1'; --auxiliar (indica que os dados enviados serao tudo '1') EA <= S_SECONDDATA; -- envio do segundo dado (todos os bits em 1). Caso receber os mesmos dados enviados (todos os bits em 0) e se nao tiver tido problema no primeiro envio, a tabela sera '0'. '1' indica falha when S_SECONDDATA => faultTableReg(EAST) <= faultTableReg(EAST) or tmp(EAST); faultTableReg(WEST) <= faultTableReg(WEST) or tmp(WEST); faultTableReg(NORTH) <= faultTableReg(NORTH) or tmp(NORTH); faultTableReg(SOUTH) <= faultTableReg(SOUTH) or tmp(SOUTH); faultTableReg(LOCAL) <= '0'; --faultTableReg(LOCAL) <= faultTableReg(LOCAL) or tmp(LOCAL); stopLinkTest <= '1'; -- indica fim EA <= S_END; when S_END => stopLinkTest <= '0'; EA <= S_INIT; when others => EA <= S_INIT; end case; end if; end process; end Behavioral;
---------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 19:39:07 06/27/2013 -- Design Name: -- Module Name: FaultDetection - Behavioral -- Project Name: -- Target Devices: -- Tool versions: -- Description: -- -- Dependencies: -- -- Revision: -- Revision 0.01 - File Created -- Additional Comments: -- ---------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; -- Uncomment the following library declaration if using -- arithmetic functions with Signed or Unsigned values use ieee.numeric_std.all; use work.NoCPackage.all; -- Uncomment the following library declaration if instantiating -- any Xilinx primitives in this code. --library UNISIM; --use UNISIM.VComponents.all; -- -- IN ____________ OUT -- | | -- data_inA|------------| dataInB -- | | -- |____________| -- compTest test_link_in test_link_out <---sinais de controle -- ____________\/____________\/___________\/________ -- | | -- data_out'| -- -- entity FaultDetection is Port( clock : in std_logic; reset : in std_logic; c_strLinkTst: in regNport; -- (start link test) indica que houve um pacote de controle do tipo TEST_LINKS para testar os links. Comentario antigo:sinal de teste local para exterior c_strLinkTstAll: out std_logic; -- se algum buffer fez o pedido de teste de link c_stpLinkTst: out regNport; -- (stop link test) indica o fim do teste do link test_link_inA : in regNport; -- sinal testLink_i dos roteadores vizinhos que indica teste de link (desta maneira o roteador sabe que precisa revolver o dado recebido durante o teste do link). Comentario antigo: sinal de teste exterior para local data_outA : in arrayNport_regflit; -- data_out normal. Dado que sera encaminhado para as portas de saida, caso nao esteja em teste data_inA : in arrayNport_regflit; -- dado(flit) recebido nas portas de entrada dos buffers (para analisar o dado recebido no teste de links) credit_inA : in regNport; credit_outA : in regNport; data_outB : out arrayNport_regflit; -- dado que sera encaminhado para as portas de saida (pode ser encaminhado data_out normal ou dados para teste de link) credit_inB : out regNport; c_faultTableFDM : out regNPort; -- tabela de falhas ('0' indica sem falha, '1' indica falha) credit_outB : out regNport); end FaultDetection; -- str(send to router) architecture Behavioral of FaultDetection is signal stopLinkTest: std_logic; type testLinks is (S_INIT, S_FIRSTDATA, S_SECONDDATA,S_END); signal EA : testLinks; signal compTest : std_logic := '0'; signal tmp : regNport := (others=>'Z'); signal fillOne : regFlit := (others=>'1'); signal fillZero : regFlit := (others=>'0'); signal strLinkTstAll : std_logic := '0'; signal faultTableReg : regNPort :=(others=>'0'); begin c_stpLinkTst <= (others=>'1') when stopLinkTest = '1' else (others=>'0'); c_faultTableFDM <= faultTableReg; c_strLinkTstAll <= strLinkTstAll; -- '1' se em algum buffer houve o pedido de teste de link (por causa do pacote de controle do tipo TEST_LINKS) strLinkTstAll <= c_strLinkTst(EAST) or c_strLinkTst(WEST) or c_strLinkTst(NORTH) or c_strLinkTst(SOUTH) or c_strLinkTst(LOCAL); -- link LOCAL eh considerado sempre sem falha. Nao passa pelo teste de links credit_outB(LOCAL) <= credit_outA(LOCAL); credit_inB(LOCAL) <= credit_inA(LOCAL); data_outB(LOCAL) <= data_outA(LOCAL); ALL_MUX : for i in 0 to (NPORT-2) generate -- para 4 portas (EAST, WEST, NORTH, SOUTH) credit_outB(i) <= credit_outA(i) when (strLinkTstAll or test_link_inA(i)) = '0' else '0'; credit_inB(i) <= credit_inA(i) when (strLinkTstAll or test_link_inA(i)) = '0' else '0'; data_outB(i) <= data_outA(i) when strLinkTstAll = '0' and test_link_inA(i) = '0' else --passagem do data_out normal data_inA(i) when test_link_inA(i) = '1' and strLinkTstAll = '0' else -- retransmissao do dado de test_link (others=>'1') when strLinkTstAll ='1' and compTest = '1' else --envio do dado(1) de test_link (others=>'0') when strLinkTstAll ='1' and compTest = '0' else --envio do dado(2) de test_link (others=>'Z'); tmp(i) <= '0' when compTest = '1' and (data_inA(i) xor fillOne) = std_logic_vector(to_unsigned(0, fillOne'length)) else -- '0' QUANDO estiver enviando dado com todos os bits em '1' E receber o mesmo dado que enviou (todos os bits em '1') '1' when compTest = '1' else -- '1' QUANDO estiver enviando dado com todos os bits em '1' (nao recebe o mesmo dado que enviou, logo tem falha) '0' when compTest = '0' and (data_inA(i) xor fillZero) = std_logic_vector(to_unsigned(0, fillZero'length)) else -- '0' QUANDO estiver enviando dado com todos os bits em '0' E receber o mesmo dado que enviou (todos os bits em '0') '1' when compTest = '0' else -- '1' QUANDO estiver enviando dado com todos os bits em '1' (nao recebe o mesmo dado que enviou, logo tem falha) 'Z'; end generate ALL_MUX; --maquina de estados para transmitir e receber os dados process(clock,reset) begin if reset = '1' then stopLinkTest <= '0'; compTest <= '0'; EA <= S_INIT; elsif (clock'event and clock='1') then case EA is when S_INIT => -- verifica em algum buffer houve o pedido de teste de link if strLinkTstAll = '1' then stopLinkTest <= '0'; compTest <= '0'; --auxiliar (indica que os dados enviados serao tudo '0') EA <= S_FIRSTDATA; end if; -- envio do primeiro dado (todos os bits em 0). Caso receber os mesmos dados enviados (todos os bits em 0), armazeno '0' na tabela. '1' indica falha when S_FIRSTDATA => faultTableReg(EAST) <= tmp(EAST); faultTableReg(WEST) <= tmp(WEST); faultTableReg(NORTH) <= tmp(NORTH); faultTableReg(SOUTH) <= tmp(SOUTH); --faultTableReg(LOCAL) <= tmp(LOCAL); faultTableReg(LOCAL) <= '0'; compTest <= '1'; --auxiliar (indica que os dados enviados serao tudo '1') EA <= S_SECONDDATA; -- envio do segundo dado (todos os bits em 1). Caso receber os mesmos dados enviados (todos os bits em 0) e se nao tiver tido problema no primeiro envio, a tabela sera '0'. '1' indica falha when S_SECONDDATA => faultTableReg(EAST) <= faultTableReg(EAST) or tmp(EAST); faultTableReg(WEST) <= faultTableReg(WEST) or tmp(WEST); faultTableReg(NORTH) <= faultTableReg(NORTH) or tmp(NORTH); faultTableReg(SOUTH) <= faultTableReg(SOUTH) or tmp(SOUTH); faultTableReg(LOCAL) <= '0'; --faultTableReg(LOCAL) <= faultTableReg(LOCAL) or tmp(LOCAL); stopLinkTest <= '1'; -- indica fim EA <= S_END; when S_END => stopLinkTest <= '0'; EA <= S_INIT; when others => EA <= S_INIT; end case; end if; end process; end Behavioral;
LIBRARY ieee; USE ieee.std_logic_1164.ALL; ENTITY bla IS END bla; ARCHITECTURE behavior OF bla IS -- Component Declaration for the Unit Under Test (UUT) COMPONENT flip_flop_jk PORT( J : IN std_logic; K : IN std_logic; Reset : IN std_logic; Clock_enable : IN std_logic; Clock : IN std_logic; Output : OUT std_logic ); END COMPONENT; --Inputs signal J : std_logic := '0'; signal K : std_logic := '0'; signal Reset : std_logic := '0'; signal Clock_enable : std_logic := '0'; signal Clock : std_logic := '0'; --Outputs signal Output : std_logic; -- Clock period definitions constant Clock_enable_period : time := 10 ns; constant Clock_period : time := 10 ns; BEGIN -- Instantiate the Unit Under Test (UUT) uut: flip_flop_jk PORT MAP ( J => J, K => K, Reset => Reset, Clock_enable => Clock_enable, Clock => Clock, Output => Output ); -- Clock process definitions Clock_enable_process :process begin Clock_enable <= '0'; wait for Clock_enable_period/2; Clock_enable <= '1'; wait for Clock_enable_period/2; end process; Clock_process :process begin Clock <= '0'; wait for Clock_period/2; Clock <= '1'; wait for Clock_period/2; end process; -- Stimulus process stim_proc: process begin -- hold reset state for 100 ns. wait for 100 ns; wait for Clock_enable_period*10; -- insert stimulus here wait; end process; END;
entity range1 is end entity; architecture test of range1 is begin p1: process is variable x : bit_vector(1 to 10); begin assert x'range(2)'left = 5; -- Error assert x'reverse_range(-1)'right = 6; -- Error wait; end process; end architecture;
-- ------------------------------------------------------------- -- -- File Name: hdlsrc/fft_16_bit/TWDLROM_3_6.vhd -- Created: 2017-03-27 23:13:58 -- -- Generated by MATLAB 9.1 and HDL Coder 3.9 -- -- ------------------------------------------------------------- -- ------------------------------------------------------------- -- -- Module: TWDLROM_3_6 -- Source Path: fft_16_bit/FFT HDL Optimized/TWDLROM_3_6 -- Hierarchy Level: 2 -- -- ------------------------------------------------------------- LIBRARY IEEE; USE IEEE.std_logic_1164.ALL; USE IEEE.numeric_std.ALL; USE work.fft_16_bit_pkg.ALL; ENTITY TWDLROM_3_6 IS PORT( clk : IN std_logic; reset : IN std_logic; enb : IN std_logic; dout_2_vld : IN std_logic; softReset : IN std_logic; twdl_3_6_re : OUT std_logic_vector(16 DOWNTO 0); -- sfix17_En15 twdl_3_6_im : OUT std_logic_vector(16 DOWNTO 0); -- sfix17_En15 twdl_3_6_vld : OUT std_logic ); END TWDLROM_3_6; ARCHITECTURE rtl OF TWDLROM_3_6 IS -- Constants CONSTANT Twiddle_re_table_data : vector_of_signed17(0 TO 1) := (to_signed(16#08000#, 17), to_signed(16#07642#, 17)); -- sfix17 [2] CONSTANT Twiddle_im_table_data : vector_of_signed17(0 TO 1) := (to_signed(16#00000#, 17), to_signed(-16#030FC#, 17)); -- sfix17 [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(16 DOWNTO 0); -- sfix17_En15 SIGNAL twiddleReg_re : signed(16 DOWNTO 0); -- sfix17_En15 SIGNAL Twiddle_im_cast : signed(31 DOWNTO 0); -- int32 SIGNAL twiddleS_im : signed(16 DOWNTO 0); -- sfix17_En15 SIGNAL twiddleReg_im : signed(16 DOWNTO 0); -- sfix17_En15 SIGNAL twdlOctantReg : unsigned(2 DOWNTO 0); -- ufix3 SIGNAL twdl45Reg : std_logic; SIGNAL twdl_3_6_re_tmp : signed(16 DOWNTO 0); -- sfix17_En15 SIGNAL twdl_3_6_im_tmp : signed(16 DOWNTO 0); -- sfix17_En15 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#1#, 2); Radix22TwdlMapping_phase <= to_unsigned(16#1#, 2); ELSIF clk'EVENT AND clk = '1' THEN IF enb = '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 cnt_cast : unsigned(3 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_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; 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(Radix22TwdlMapping_cnt, 4) sll 1; ELSIF Radix22TwdlMapping_phase = to_unsigned(16#2#, 2) THEN Radix22TwdlMapping_twdlAddr_raw_next <= resize(Radix22TwdlMapping_cnt, 4); ELSE cnt_cast := resize(Radix22TwdlMapping_cnt, 4); Radix22TwdlMapping_twdlAddr_raw_next <= (cnt_cast sll 1) + cnt_cast; END IF; Radix22TwdlMapping_phase_next <= to_unsigned(16#1#, 2); Radix22TwdlMapping_cnt_next <= Radix22TwdlMapping_cnt + to_unsigned(16#000000010#, 2); 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#00000#, 17); ELSIF clk'EVENT AND clk = '1' THEN IF enb = '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#00000#, 17); ELSIF clk'EVENT AND clk = '1' THEN IF enb = '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' 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' 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(16 DOWNTO 0); VARIABLE twdlIn_im : signed(16 DOWNTO 0); VARIABLE cast : signed(17 DOWNTO 0); VARIABLE cast_0 : signed(17 DOWNTO 0); VARIABLE cast_1 : signed(17 DOWNTO 0); VARIABLE cast_2 : signed(17 DOWNTO 0); VARIABLE cast_3 : signed(17 DOWNTO 0); VARIABLE cast_4 : signed(17 DOWNTO 0); VARIABLE cast_5 : signed(17 DOWNTO 0); VARIABLE cast_6 : signed(17 DOWNTO 0); VARIABLE cast_7 : signed(17 DOWNTO 0); VARIABLE cast_8 : signed(17 DOWNTO 0); VARIABLE cast_9 : signed(17 DOWNTO 0); VARIABLE cast_10 : signed(17 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#05A82#, 17); twdlIn_im := to_signed(-16#05A82#, 17); WHEN "010" => twdlIn_re := to_signed(-16#05A82#, 17); twdlIn_im := to_signed(-16#05A82#, 17); WHEN "100" => twdlIn_re := to_signed(-16#05A82#, 17); twdlIn_im := to_signed(16#05A82#, 17); WHEN OTHERS => twdlIn_re := to_signed(16#05A82#, 17); twdlIn_im := to_signed(-16#05A82#, 17); END CASE; ELSE CASE twdlOctantReg IS WHEN "000" => NULL; WHEN "001" => cast := resize(twiddleReg_im, 18); cast_0 := - (cast); twdlIn_re := cast_0(16 DOWNTO 0); cast_5 := resize(twiddleReg_re, 18); cast_6 := - (cast_5); twdlIn_im := cast_6(16 DOWNTO 0); WHEN "010" => twdlIn_re := twiddleReg_im; cast_7 := resize(twiddleReg_re, 18); cast_8 := - (cast_7); twdlIn_im := cast_8(16 DOWNTO 0); WHEN "011" => cast_1 := resize(twiddleReg_re, 18); cast_2 := - (cast_1); twdlIn_re := cast_2(16 DOWNTO 0); twdlIn_im := twiddleReg_im; WHEN "100" => cast_3 := resize(twiddleReg_re, 18); cast_4 := - (cast_3); twdlIn_re := cast_4(16 DOWNTO 0); cast_9 := resize(twiddleReg_im, 18); cast_10 := - (cast_9); twdlIn_im := cast_10(16 DOWNTO 0); WHEN OTHERS => twdlIn_re := twiddleReg_im; twdlIn_im := twiddleReg_re; END CASE; END IF; twdl_3_6_re_tmp <= twdlIn_re; twdl_3_6_im_tmp <= twdlIn_im; END PROCESS Radix22TwdlOctCorr_output; twdl_3_6_re <= std_logic_vector(twdl_3_6_re_tmp); twdl_3_6_im <= std_logic_vector(twdl_3_6_im_tmp); intdelay_2_process : PROCESS (clk, reset) BEGIN IF reset = '1' THEN twdl_3_6_vld <= '0'; ELSIF clk'EVENT AND clk = '1' THEN IF enb = '1' THEN twdl_3_6_vld <= twdlAddrVld; END IF; END IF; END PROCESS intdelay_2_process; END 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: tc2977.vhd,v 1.2 2001-10-26 16:29:50 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c02s03b01x00p05n01i02977ent IS END c02s03b01x00p05n01i02977ent; ARCHITECTURE c02s03b01x00p05n01i02977arch OF c02s03b01x00p05n01i02977ent IS function "and" (constant c1,c2 : in boolean) return boolean is begin return true; end; BEGIN TESTING: PROCESS variable b1 : boolean := true; variable bf : boolean := false; variable bt : boolean := true; BEGIN assert (b1=true) report "Error in initial conditions detected" severity failure; assert (bf=false) report "Error in initial conditions detected" severity failure; assert (bt=true) report "Error in initial conditions detected" severity failure; b1 := bf and bt; assert NOT( b1=true ) report "***PASSED TEST: c02s03b01x00p05n01i02977" severity NOTE; assert ( b1=true ) report "***FAILED TEST: c02s03b01x00p05n01i02977 - Error in invocation overloaded operator and." severity ERROR; wait; END PROCESS TESTING; END c02s03b01x00p05n01i02977arch;
-- 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: tc2977.vhd,v 1.2 2001-10-26 16:29:50 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c02s03b01x00p05n01i02977ent IS END c02s03b01x00p05n01i02977ent; ARCHITECTURE c02s03b01x00p05n01i02977arch OF c02s03b01x00p05n01i02977ent IS function "and" (constant c1,c2 : in boolean) return boolean is begin return true; end; BEGIN TESTING: PROCESS variable b1 : boolean := true; variable bf : boolean := false; variable bt : boolean := true; BEGIN assert (b1=true) report "Error in initial conditions detected" severity failure; assert (bf=false) report "Error in initial conditions detected" severity failure; assert (bt=true) report "Error in initial conditions detected" severity failure; b1 := bf and bt; assert NOT( b1=true ) report "***PASSED TEST: c02s03b01x00p05n01i02977" severity NOTE; assert ( b1=true ) report "***FAILED TEST: c02s03b01x00p05n01i02977 - Error in invocation overloaded operator and." severity ERROR; wait; END PROCESS TESTING; END c02s03b01x00p05n01i02977arch;
-- 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: tc2977.vhd,v 1.2 2001-10-26 16:29:50 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c02s03b01x00p05n01i02977ent IS END c02s03b01x00p05n01i02977ent; ARCHITECTURE c02s03b01x00p05n01i02977arch OF c02s03b01x00p05n01i02977ent IS function "and" (constant c1,c2 : in boolean) return boolean is begin return true; end; BEGIN TESTING: PROCESS variable b1 : boolean := true; variable bf : boolean := false; variable bt : boolean := true; BEGIN assert (b1=true) report "Error in initial conditions detected" severity failure; assert (bf=false) report "Error in initial conditions detected" severity failure; assert (bt=true) report "Error in initial conditions detected" severity failure; b1 := bf and bt; assert NOT( b1=true ) report "***PASSED TEST: c02s03b01x00p05n01i02977" severity NOTE; assert ( b1=true ) report "***FAILED TEST: c02s03b01x00p05n01i02977 - Error in invocation overloaded operator and." severity ERROR; wait; END PROCESS TESTING; END c02s03b01x00p05n01i02977arch;
entity FIFO is port ( I_WR_EN : in std_logic; I_DATA : out std_logic_vector(31 downto 0); I_RD_EN : in std_logic; O_DATA : out std_logic_vector(31 downto 0) ); end entity FIFO; entity FIFO is port ( I_WR_EN : in std_logic; I_DATA : out std_logic_vector(31 downto 0); I_RD_EN : in std_logic; O_DATA : out std_logic_vector(31 downto 0) ); end entity FIFO;
---------------------------------------------------------------------------- -- This file is a part of the LEON VHDL model -- Copyright (C) 1999 European Space Agency (ESA) -- -- This library 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 of the License, or (at your option) any later version. -- -- See the file COPYING.LGPL for the full details of the license. ----------------------------------------------------------------------------- -- Entity: mctrl -- File: mctrl.vhd -- Author: Jiri Gaisler - ESA/ESTEC -- Description: External memory controller. ------------------------------------------------------------------------------ library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned."+"; use IEEE.std_logic_unsigned."-"; use IEEE.std_logic_unsigned.conv_integer; use IEEE.std_logic_arith.conv_unsigned; use work.target.all; use work.config.all; use work.iface.all; use work.sparcv8.all; use work.macro.all; use work.tech_map.all; use work.amba.all; entity mctrl is port ( rst : in rst_type; clk : in clk_type; memi : in memory_in_type; memo : out memory_out_type; ahbsi : in ahb_slv_in_type; ahbso : out ahb_slv_out_type; apbi : in apb_slv_in_type; apbo : out apb_slv_out_type; pioo : in pio_out_type; wpo : in wprot_out_type; mctrlo : out mctrl_out_type ); end; architecture rtl of mctrl is type areatype is (rom, io, ram); type memcycletype is (idle, berr, bread, bwrite, bread8, bwrite8, bread16, bwrite16); -- memory configuration register 1 type type mcfg1type is record romrws : std_logic_vector(3 downto 0); romwws : std_logic_vector(3 downto 0); romwidth : std_logic_vector(1 downto 0); romwrite : std_logic; extlatch : std_logic; ioen : std_logic; iows : std_logic_vector(3 downto 0); bexcen : std_logic; brdyen : std_logic; iowidth : std_logic_vector(1 downto 0); end record; -- memory configuration register 2 type type mcfg2type is record ramrws : std_logic_vector(1 downto 0); ramwws : std_logic_vector(1 downto 0); ramwidth : std_logic_vector(1 downto 0); rambanksz : std_logic_vector(3 downto 0); rmw : std_logic; end record; -- memory status register type -- local registers type reg_type is record address : std_logic_vector(31 downto 0); -- memory address data : std_logic_vector(31 downto 0); -- latched memory data writedata : std_logic_vector(31 downto 0); writedata8 : std_logic_vector(15 downto 0); -- lsb write data buffer readdata : std_logic_vector(31 downto 0); brdyn : std_logic; ready : std_logic; ready8 : std_logic; wren : std_logic; bdrive : std_logic_vector(3 downto 0); ws : std_logic_vector(3 downto 0); romsn : std_logic_vector(1 downto 0); ramsn : std_logic_vector(3 downto 0); ramoen : std_logic_vector(3 downto 0); size : std_logic_vector(1 downto 0); busw : std_logic_vector(1 downto 0); psel : std_logic_vector(1 downto 0); oen : std_logic; iosn : std_logic_vector(1 downto 0); read : std_logic; wrn : std_logic_vector(3 downto 0); writen : std_logic; bstate : memcycletype; area : areatype; mcfg1 : mcfg1type; mcfg2 : mcfg2type; bexcn : std_logic; -- latched external bexcn echeck : std_logic; rmw : std_logic; brmw : std_logic; hsel : std_logic; hwrite : std_logic; hburst : std_logic_vector(2 downto 0); htrans : std_logic_vector(1 downto 0); hresp : std_logic_vector(1 downto 0); end record; signal r, ri : reg_type; signal wrnout : std_logic_vector(3 downto 0); signal promdata : std_logic_vector(31 downto 0); -- data from boot-prom begin ctrl : process(rst, ahbsi, apbi, memi, r, pioo, promdata, wpo ) variable v : reg_type; -- local variables for registers variable start : std_logic; variable dataout : std_logic_vector(31 downto 0); -- data from memory variable regsd : std_logic_vector(31 downto 0); -- data from registers variable memdata : std_logic_vector(31 downto 0); -- data to memory variable rws : std_logic_vector(3 downto 0); -- read waitstates variable wws : std_logic_vector(3 downto 0); -- write waitstates variable wsnew : std_logic_vector(3 downto 0); -- write waitstates variable adec : std_logic_vector(1 downto 0); variable rams : std_logic_vector(3 downto 0); variable bready, leadin : std_logic; variable csen : std_logic; -- Generate chip selects variable aprot : std_logic_vector(14 downto 0); -- variable wrn : std_logic_vector(3 downto 0); -- variable bexc, addrerr : std_logic; variable ready : std_logic; variable writedata : std_logic_vector(31 downto 0); variable bwdata : std_logic_vector(31 downto 0); variable merrtype : std_logic_vector(2 downto 0); -- memory error type variable noerror : std_logic; variable area : areatype; variable bdrive, ramsn : std_logic_vector(3 downto 0); variable romsn, busw : std_logic_vector(1 downto 0); variable iosn : std_logic; variable lock : std_logic; variable wprothitx : std_logic; variable brmw : std_logic; variable bpsel : std_logic; variable psel : std_logic; begin -- Variable default settings to avoid latches v := r; wprothitx := '0'; v.ready8 := '0'; v.iosn(0) := r.iosn(1); ready := '0'; addrerr := '0'; regsd := (others => '0'); csen := '0'; v.ready := '0'; v.wren := '0'; v.echeck := '0'; bpsel := '0'; v.rmw := '0'; merrtype := "---"; bready := '1'; v.data := memi.data; v.bexcn := memi.bexcn; v.brdyn := memi.brdyn; if (((not r.brdyn) or not r.mcfg1.brdyen) = '1') or (r.area /= io) then bready := '1'; else bready := '0'; end if; v.hresp := HRESP_OKAY; -- decode memory area parameters case ahbsi.haddr(30 downto 28) is when "000" | "001" => area := rom; when "010" | "011" => area := io; when others => area := ram; end case; leadin := '0'; rws := "----"; wws := "----"; adec := "--"; busw := (others => '-'); brmw := '0'; case area is when rom => busw := r.mcfg1.romwidth; when ram => adec := genmux(r.mcfg2.rambanksz, ahbsi.haddr(29 downto 14)) & genmux(r.mcfg2.rambanksz, ahbsi.haddr(28 downto 13)); busw := r.mcfg2.ramwidth; if ((r.mcfg2.rmw and ahbsi.hwrite) = '1') and ((BUS16EN and (busw = "01") and (ahbsi.hsize(1 downto 0) = "00")) or ((busw(1) = '1') and (ahbsi.hsize(1) = '0')) ) then brmw := '1'; end if; -- do a read-modify-write cycle when io => leadin := '1'; busw := r.mcfg1.iowidth; when others => end case; -- decode waitstates and illegal access case r.area is when rom => rws := r.mcfg1.romrws; wws := r.mcfg1.romwws; if (r.mcfg1.romwrite or r.read) = '0' then addrerr := '1'; end if; when ram => rws := "00" & r.mcfg2.ramrws; wws := "00" & r.mcfg2.ramwws; when io => rws := r.mcfg1.iows; wws := r.mcfg1.iows; if r.mcfg1.ioen = '0' then addrerr := '1'; end if; when others => null; end case; -- generate data buffer enables bdrive := (others => '1'); case r.busw is when "00" => if BUS8EN then bdrive := "0001"; end if; when "01" => if BUS16EN then bdrive := "0011"; end if; when others => end case; -- generate chip select and output enable rams := decode(adec); iosn := '1'; ramsn := (others => '1'); romsn := (others => '1'); psel := '1'; v.psel(1) := r.psel(0); case area is when rom => if ((BOOTOPT = memory) or ((BOOTOPT = dual) and (pioo.io8lsb(4) = '0'))) then romsn(0) := ahbsi.haddr(28); else psel := ahbsi.haddr(28); end if; romsn(1) := not ahbsi.haddr(28); when ram => ramsn := not rams; when io => iosn := '0'; when others => null; end case; -- generate write strobe wrn := "0000"; case r.busw is when "00" => if BUS8EN then wrn := "1110"; end if; when "01" => if BUS16EN then if (r.size = "00") and (r.brmw = '0') then wrn := "11" & (not r.address(0)) & r.address(0); else wrn := "1100"; end if; end if; when "10" | "11" => case r.size is when "00" => case r.address(1 downto 0) is when "00" => wrn := "1110"; when "01" => wrn := "1101"; when "10" => wrn := "1011"; when others => wrn := "0111"; end case; when "01" => wrn := not r.address(1) & not r.address(1) & r.address(1) & r.address(1); when others => null; end case; when others => null; end case; if (r.mcfg2.rmw = '1') and (r.area = ram) then wrn := not bdrive; end if; if ((ahbsi.hready and ahbsi.hsel) = '1') then v.size := ahbsi.hsize(1 downto 0); v.area := area; v.hburst := ahbsi.hburst; v.htrans := ahbsi.htrans; v.address := ahbsi.haddr; v.psel(0) := psel; if (busw = "00") and (ahbsi.hwrite = '0') and (area /= io) and BUS8EN then v.address(1 downto 0) := "00"; end if; if (busw = "01") and (ahbsi.hwrite = '0') and (area /= io) and BUS16EN then v.address(1 downto 0) := "00"; end if; if (brmw = '1') then v.read := '1'; else v.read := not ahbsi.hwrite; end if; v.hwrite := ahbsi.hwrite; v.busw := busw; v.brmw := brmw; end if; -- Select read data depending on bus width if BUS8EN and (r.busw = "00") then memdata := r.readdata(23 downto 0) & r.data(31 downto 24); elsif BUS16EN and (r.busw = "01") then memdata := r.readdata(15 downto 0) & r.data(31 downto 16); else memdata := r.data; end if; bwdata := memdata; -- Merge data during byte write writedata := ahbsi.hwdata; if ((r.brmw and r.busw(1)) = '1') then case r.address(1 downto 0) is when "00" => writedata(15 downto 0) := bwdata(15 downto 0); if r.size = "00" then writedata(23 downto 16) := bwdata(23 downto 16); end if; when "01" => writedata(31 downto 24) := bwdata(31 downto 24); writedata(15 downto 0) := bwdata(15 downto 0); when "10" => writedata(31 downto 16) := bwdata(31 downto 16); if r.size = "00" then writedata(7 downto 0) := bwdata(7 downto 0); end if; when others => writedata(31 downto 8) := bwdata(31 downto 8); end case; end if; if (r.brmw = '1') and (r.busw = "01") and BUS16EN then if (r.address(0) = '0') then writedata(23 downto 16) := r.data(23 downto 16); else writedata(31 downto 24) := r.data(31 downto 24); end if; end if; -- save read data during 8/16 bit reads if BUS8EN and (r.ready8 = '1') and (r.busw = "00") then v.readdata := v.readdata(23 downto 0) & r.data(31 downto 24); elsif BUS16EN and (r.ready8 = '1') and (r.busw = "01") then v.readdata := v.readdata(15 downto 0) & r.data(31 downto 16); end if; -- Ram, rom, IO access FSM if r.read = '1' then wsnew := rws; else wsnew := wws; end if; case r.bstate is when idle => v.ws := wsnew; if r.bdrive(0) = '0' then if r.busw(1) = '1' then v.writedata := writedata; else v.writedata(31 downto 16) := writedata(31 downto 16); v.writedata8 := writedata(15 downto 0); end if; end if; if r.hsel = '1' then wprothitx := wpo.wprothit and not r.read; if (wprothitx or addrerr) = '1' then v.hresp := HRESP_ERROR; v.bstate := berr; elsif r.read = '0' then if (r.busw = "00") and (r.area /= io) and BUS8EN then v.bstate := bwrite8; elsif (r.busw = "01") and (r.area /= io) and BUS16EN then v.bstate := bwrite16; else v.bstate := bwrite; end if; v.wrn := wrn; v.writen := '0'; v.bdrive := bdrive; else if r.oen = '1' then v.ramoen := r.ramsn; v.oen := '0'; else if (r.busw = "00") and (r.area /= io) and BUS8EN then v.bstate := bread8; elsif (r.busw = "01") and (r.area /= io) and BUS16EN then v.bstate := bread16; else v.bstate := bread; end if; end if; end if; end if; when berr => v.bstate := idle; v.hsel := '0'; ready := '1'; v.hresp := HRESP_ERROR; v.ramsn := (others => '1'); v.romsn := (others => '1'); v.psel(0) := '1'; v.ramoen := (others => '1'); v.oen := '1'; v.iosn := "11"; when bread => if ((r.ws = "0000") and (r.ready = '0') and (bready = '1')) then if r.brmw = '0' then ready := '1'; v.address := ahbsi.haddr; v.echeck := '1'; end if; if (((ahbsi.hsel = '0') or (ahbsi.htrans /= HTRANS_SEQ)) or (r.hburst = HBURST_SINGLE)) then if r.brmw = '0' then v.ramsn := (others => '1'); v.romsn := (others => '1'); v.hsel := '0'; v.psel(0) := '1'; else v.echeck := '1'; end if; v.ramoen := (others => '1'); v.oen := '1'; v.iosn := "11"; v.bstate := idle; v.read := not r.hwrite; end if; end if; if r.ready = '1' then v.ws := rws; else if r.ws /= "0000" then v.ws := r.ws - 1; end if; end if; when bwrite => if (r.ws = "0000") and (bready = '1') then ready := '1'; v.wrn := (others => '1'); v.writen := '1'; v.echeck := '1'; v.ramsn := (others => '1'); v.romsn := (others => '1'); v.iosn := "11"; v.bdrive := (others => '0'); v.bstate := idle; v.hsel := '0'; v.psel(0) := '1'; end if; if r.ws /= "0000" then v.ws := r.ws - 1; end if; when bread8 => if BUS8EN then if (r.ws = "0000") and (r.ready8 = '0') then v.ready8 := '1'; v.ws := rws; v.address(1 downto 0) := r.address(1 downto 0) + 1; if (r.address(1 downto 0) = "11") then ready := '1'; v.address := ahbsi.haddr; v.echeck := '1'; if (((ahbsi.hsel = '0') or (ahbsi.htrans /= HTRANS_SEQ)) or (r.hburst = HBURST_SINGLE)) then v.ramoen := (others => '1'); v.oen := '1'; v.iosn := "11"; v.bstate := idle; v.ramsn := (others => '1'); v.romsn := (others => '1'); v.hsel := '0'; v.psel(0) := '1'; end if; end if; end if; if (r.ready8 = '1') then v.ws := rws; elsif r.ws /= "0000" then v.ws := r.ws - 1; end if; end if; when bwrite8 => if BUS8EN then if (r.ws = "0000") and (r.ready8 = '0') then v.ready8 := '1'; v.wrn := (others => '1'); v.writen := '1'; end if; if (r.ws = "0000") and ((r.address(1 downto 0) = "11") or ((r.address(1 downto 0) = "01") and (r.size = "01")) or (r.size = "00")) then ready := '1'; v.wrn := (others => '1'); v.writen := '1'; v.echeck := '1'; v.ramsn := (others => '1'); v.romsn := (others => '1'); v.iosn := "11"; v.bdrive := (others => '0'); v.bstate := idle; v.hsel := '0'; v.psel(0) := '1'; end if; if (r.ready8 = '1') then v.address(1 downto 0) := r.address(1 downto 0) + 1; v.ws := rws; -- v.writedata(31 downto 8) := r.writedata(23 downto 0); v.writedata(31 downto 16) := r.writedata(23 downto 16) & r.writedata8(15 downto 8); v.writedata8(15 downto 8) := r.writedata8(7 downto 0); v.bstate := idle; end if; if r.ws /= "0000" then v.ws := r.ws - 1; end if; end if; when bread16 => if BUS16EN then if (r.ws = "0000") and ((r.address(1) or r.brmw) = '1') and (r.ready8 = '0') then if r.brmw = '0' then ready := '1'; v.address := ahbsi.haddr; v.echeck := '1'; end if; if (((ahbsi.hsel = '0') or (ahbsi.htrans /= HTRANS_SEQ)) or (r.hburst = HBURST_SINGLE)) then if r.brmw = '0' then v.ramsn := (others => '1'); v.romsn := (others => '1'); v.hsel := '0'; v.psel(0) := '1'; end if; v.ramoen := (others => '1'); v.oen := '1'; v.iosn := "11"; v.bstate := idle; v.read := not r.hwrite; end if; end if; if (r.ws = "0000") and (r.ready8 = '0') then v.ready8 := '1'; v.ws := rws; if r.brmw = '0' then v.address(1) := not r.address(1); end if; end if; if r.ws /= "0000" then v.ws := r.ws - 1; end if; end if; when bwrite16 => if BUS16EN then if (r.ws = "0000") and ((r.address(1 downto 0) = "10") or (r.size(1) = '0')) then ready := '1'; v.wrn := (others => '1'); v.writen := '1'; v.echeck := '1'; v.ramsn := (others => '1'); v.romsn := (others => '1'); v.iosn := "11"; v.bdrive := (others => '0'); v.bstate := idle; v.hsel := '0'; v.psel(0) := '1'; end if; if (r.ws = "0000") and (r.ready8 = '0') then v.ready8 := '1'; v.wrn := (others => '1'); v.writen := '1'; end if; if (r.ready8 = '1') then v.address(1) := not r.address(1); v.ws := rws; v.writedata(31 downto 16) := r.writedata8(15 downto 0); v.bstate := idle; end if; if r.ws /= "0000" then v.ws := r.ws - 1; end if; end if; when others => end case; -- if BUSY or IDLE cycle seen, or if de-selected, return to idle state if (ahbsi.hready = '1') then if ((ahbsi.hsel = '0') or (ahbsi.htrans = HTRANS_BUSY) or (ahbsi.htrans = HTRANS_IDLE)) then v.bstate := idle; v.ramsn := (others => '1'); v.romsn := (others => '1'); v.ramoen := (others => '1'); v.oen := '1'; v.iosn := "11"; v.bdrive := (others => '0'); v.wrn := (others => '1'); v.writen := '1'; v.hsel := '0'; ready := ahbsi.hsel; v.psel(0) := '1'; elsif ahbsi.hsel = '1' then v.romsn := romsn; v.ramsn := ramsn; v.iosn := iosn & '1'; v.hsel := '1'; v.psel(0) := psel; if v.read = '1' then v.ramoen := ramsn; v.oen := leadin; end if; end if; end if; -- error checking and reporting noerror := '1'; if ((r.echeck and r.mcfg1.bexcen and not r.bexcn) = '1') then noerror := '0'; v.bstate := berr; v.hresp := HRESP_ERROR; end if; -- APB register access case apbi.paddr(3 downto 2) is when "00" => regsd(28 downto 0) := r.mcfg1.iowidth & r.mcfg1.brdyen & r.mcfg1.bexcen & "0" & r.mcfg1.iows & r.mcfg1.ioen & r.mcfg1.extlatch & "000000" & r.mcfg1.romwrite & '0' & r.mcfg1.romwidth & r.mcfg1.romwws & r.mcfg1.romrws; when "01" => regsd(12 downto 0) := r.mcfg2.rambanksz & "00" & r.mcfg2.rmw & r.mcfg2.ramwidth & r.mcfg2.ramwws & r.mcfg2.ramrws; when others => regsd := (others => '0'); end case; apbo.prdata <= regsd; if (apbi.psel and apbi.penable and apbi.pwrite) = '1' then case apbi.paddr(5 downto 2) is when "0000" => v.mcfg1.romrws := apbi.pwdata(3 downto 0); v.mcfg1.romwws := apbi.pwdata(7 downto 4); v.mcfg1.romwidth := apbi.pwdata(9 downto 8); v.mcfg1.romwrite := apbi.pwdata(11); v.mcfg1.extlatch := apbi.pwdata(18); v.mcfg1.ioen := apbi.pwdata(19); v.mcfg1.iows := apbi.pwdata(23 downto 20); v.mcfg1.bexcen := apbi.pwdata(25); v.mcfg1.brdyen := apbi.pwdata(26); v.mcfg1.iowidth := apbi.pwdata(28 downto 27); when "0001" => v.mcfg2.ramrws := apbi.pwdata(1 downto 0); v.mcfg2.ramwws := apbi.pwdata(3 downto 2); v.mcfg2.ramwidth := apbi.pwdata(5 downto 4); v.mcfg2.rmw := apbi.pwdata(6); v.mcfg2.rambanksz := apbi.pwdata(12 downto 9); when others => null; end case; end if; -- select appropriate data during reads case r.area is when rom | ram => dataout := memdata; if (r.area = rom) and (BOOTOPT /= memory) then if (r.psel(0) = '0') then v.readdata := promdata; end if; if r.psel(1) = '0' then dataout := r.readdata; end if; end if; when others => if BUS8EN and (r.busw = "00") then dataout := r.data(31 downto 24) & r.data(31 downto 24) & r.data(31 downto 24) & r.data(31 downto 24); elsif BUS16EN and (r.busw = "01") then dataout := r.data(31 downto 16) & r.data(31 downto 16); else dataout := r.data; end if; end case; v.ready := ready; -- generate memory address if RAWADDR and (r.mcfg1.extlatch = '1') then memo.address <= v.address(27 downto 0); else memo.address <= r.address(27 downto 0); end if; -- use d(15:0) as I/O ports (only usefull in 8/16-bit mode) if BUS8EN or BUS16EN then mctrlo.pioh <= r.data(15 downto 0); if (r.mcfg1.romwidth(1) or r.mcfg1.iowidth(1) or r.mcfg2.ramwidth(1)) = '0' then v.writedata(15 downto 0) := r.writedata(15 downto 0); if pioo.wrio = '1' then v.writedata(15 downto 0) := pioo.piol(31 downto 16); end if; v.wrn(3 downto 2) := "11"; v.bdrive(3 downto 2) := not pioo.piodir(17 downto 16); end if; else mctrlo.pioh <= (others => '0'); end if; -- reset if rst.syncrst = '0' then v.bstate := idle; v.read := '1'; v.wrn := "1111"; v.writen := '1'; v.mcfg1.romwrite := '0'; v.mcfg1.extlatch := '0'; v.mcfg1.ioen := '0'; v.mcfg1.brdyen := '0'; v.mcfg1.bexcen := '0'; v.hsel := '0'; if ((BOOTOPT = memory) or ((BOOTOPT = dual) and (pioo.io8lsb(4) = '0'))) then v.mcfg1.romrws := "1111"; v.mcfg1.romwws := "1111"; v.mcfg1.romwidth := pioo.io8lsb(1 downto 0); else v.mcfg2.ramrws := std_logic_vector(BRAMRWS(1 downto 0)); v.mcfg2.ramwws := std_logic_vector(BRAMWWS(1 downto 0)); v.mcfg1.romrws := "0001"; v.mcfg1.romwws := "0001"; v.mcfg1.romwidth := "11"; end if; end if; -- pragma translate_off for i in dataout'range loop --' if is_x(dataout(i)) then dataout(i) := '1'; end if; end loop; -- pragma translate_on -- drive various register inputs and external outputs ri <= v; memo.ramsn <= r.ramsn; memo.ramoen <= r.ramoen; memo.romsn <= r.romsn; memo.oen <= r.oen; memo.iosn <= r.iosn(0); memo.read <= r.read; memo.wrn <= r.wrn; memo.writen <= r.writen; memo.bdrive <= (not r.bdrive) and memi.wrn; memo.data <= r.writedata; ahbso.hrdata <= dataout; ahbso.hready <= r.ready and noerror; ahbso.hresp <= r.hresp; ahbso.hsplit <= (others => '0'); end process; stdregs : process(clk,rst) begin if rising_edge(clk) then r <= ri; end if; if rst.rawrst = '0' then r.ramsn <= (others => '1'); r.romsn <= (others => '1'); r.oen <= '1'; r.bdrive <= (others => '0'); r.iosn <= "11"; r.ramoen <= (others => '1'); end if; end process; -- optional boot-prom promgen : if (BOOTOPT /= memory) generate bprom0 : bprom port map (clk => clk, cs => r.psel(0), addr => r.address, data => promdata); end generate; end;