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----------------------------------------------------------------------------- -- LEON3 Demonstration design -- Copyright (C) 2013 Aeroflex Gaisler AB ------------------------------------------------------------------------------ -- 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, 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 ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; use work.config.all; library techmap; use techmap.gencomp.all; entity leon3mp is generic ( fabtech : integer := CFG_FABTECH; memtech : integer := CFG_MEMTECH; padtech : integer := CFG_PADTECH; clktech : integer := CFG_CLKTECH; disas : integer := CFG_DISAS; -- Enable disassembly to console dbguart : integer := CFG_DUART; -- Print UART on console pclow : integer := CFG_PCLOW; scantest : integer := CFG_SCAN ); port ( resetn : in std_ulogic; clksel : in std_logic_vector(1 downto 0); clk : in std_ulogic; lock : out std_ulogic; errorn : inout std_ulogic; wdogn : inout std_ulogic; address : out std_logic_vector(27 downto 0); data : inout std_logic_vector(31 downto 0); cb : inout std_logic_vector(7 downto 0); sdclk : out std_ulogic; sdcsn : out std_logic_vector (1 downto 0); -- sdram chip select sdwen : out std_ulogic; -- sdram write enable sdrasn : out std_ulogic; -- sdram ras sdcasn : out std_ulogic; -- sdram cas sddqm : out std_logic_vector (3 downto 0); -- sdram dqm dsutx : out std_ulogic; -- DSU tx data / scanout dsurx : in std_ulogic; -- DSU rx data / scanin dsuen : in std_ulogic; dsubre : in std_ulogic; -- DSU break / scanen dsuact : out std_ulogic; -- DSU active / NT txd1 : out std_ulogic; -- UART1 tx data rxd1 : in std_ulogic; -- UART1 rx data txd2 : out std_ulogic; -- UART2 tx data rxd2 : in std_ulogic; -- UART2 rx data ramsn : out std_logic_vector (4 downto 0); ramoen : out std_logic_vector (4 downto 0); rwen : out std_logic_vector (3 downto 0); oen : out std_ulogic; writen : out std_ulogic; read : out std_ulogic; iosn : out std_ulogic; romsn : out std_logic_vector (1 downto 0); brdyn : in std_ulogic; bexcn : in std_ulogic; gpio : inout std_logic_vector(CFG_GRGPIO_WIDTH-1 downto 0); -- I/O port i2c_scl : inout std_ulogic; i2c_sda : inout std_ulogic; spi_miso : in std_ulogic; spi_mosi : out std_ulogic; spi_sck : out std_ulogic; spi_slvsel : out std_logic_vector(CFG_SPICTRL_SLVS-1 downto 0); prom32 : in std_ulogic; spw_clksel : in std_logic_vector(1 downto 0); spw_clk : in std_ulogic; spw_rxd : in std_logic_vector(0 to CFG_SPW_NUM-1); spw_rxs : in std_logic_vector(0 to CFG_SPW_NUM-1); spw_txd : out std_logic_vector(0 to CFG_SPW_NUM-1); spw_txs : out std_logic_vector(0 to CFG_SPW_NUM-1); gtx_clk : in std_ulogic; erx_clk : in std_ulogic; erxd : in std_logic_vector(7 downto 0); erx_dv : in std_ulogic; etx_clk : in std_ulogic; etxd : out std_logic_vector(7 downto 0); etx_en : out std_ulogic; etx_er : out std_ulogic; erx_er : in std_ulogic; erx_col : in std_ulogic; erx_crs : in std_ulogic; emdint : in std_ulogic; emdio : inout std_logic; emdc : out std_ulogic; testen : in std_ulogic; trst : in std_ulogic; tck : in std_ulogic; tms : in std_ulogic; tdi : in std_ulogic; tdo : out std_ulogic ); end; architecture rtl of leon3mp is signal lresetn : std_ulogic; signal lclksel : std_logic_vector (1 downto 0); signal lclk : std_ulogic; signal llock : std_ulogic; signal lerrorn : std_ulogic; signal laddress : std_logic_vector(27 downto 0); signal ldatain : std_logic_vector(31 downto 0); signal ldataout : std_logic_vector(31 downto 0); signal ldataen : std_logic_vector(31 downto 0); signal lcbin : std_logic_vector(7 downto 0); signal lcbout : std_logic_vector(7 downto 0); signal lcben : std_logic_vector(7 downto 0); signal lsdclk : std_ulogic; signal lsdcsn : std_logic_vector (1 downto 0); signal lsdwen : std_ulogic; signal lsdrasn : std_ulogic; signal lsdcasn : std_ulogic; signal lsddqm : std_logic_vector (3 downto 0); signal ldsutx : std_ulogic; signal ldsurx : std_ulogic; signal ldsuen : std_ulogic; signal ldsubre : std_ulogic; signal ldsuact : std_ulogic; signal ltxd1 : std_ulogic; signal lrxd1 : std_ulogic; signal ltxd2 : std_ulogic; signal lrxd2 : std_ulogic; signal lramsn : std_logic_vector (4 downto 0); signal lramoen : std_logic_vector (4 downto 0); signal lrwen : std_logic_vector (3 downto 0); signal loen : std_ulogic; signal lwriten : std_ulogic; signal lread : std_ulogic; signal liosn : std_ulogic; signal lromsn : std_logic_vector (1 downto 0); signal lbrdyn : std_ulogic; signal lbexcn : std_ulogic; signal lwdogn : std_ulogic; signal lgpioin : std_logic_vector(CFG_GRGPIO_WIDTH-1 downto 0); signal lgpioout : std_logic_vector(CFG_GRGPIO_WIDTH-1 downto 0); signal lgpioen : std_logic_vector(CFG_GRGPIO_WIDTH-1 downto 0); signal li2c_sclout : std_ulogic; signal li2c_sclen : std_ulogic; signal li2c_sclin : std_ulogic; signal li2c_sdaout : std_ulogic; signal li2c_sdaen : std_ulogic; signal li2c_sdain : std_ulogic; signal lspi_miso : std_ulogic; signal lspi_mosi : std_ulogic; signal lspi_sck : std_ulogic; signal lspi_slvsel : std_logic_vector(CFG_SPICTRL_SLVS-1 downto 0); signal lprom32 : std_ulogic; signal lspw_clksel : std_logic_vector (1 downto 0); signal lspw_clk : std_ulogic; signal lspw_rxd : std_logic_vector(0 to CFG_SPW_NUM-1); signal lspw_rxs : std_logic_vector(0 to CFG_SPW_NUM-1); signal lspw_txd : std_logic_vector(0 to CFG_SPW_NUM-1); signal lspw_txs : std_logic_vector(0 to CFG_SPW_NUM-1); signal lgtx_clk : std_ulogic; signal lerx_clk : std_ulogic; signal lerxd : std_logic_vector(7 downto 0); signal lerx_dv : std_ulogic; signal letx_clk : std_ulogic; signal letxd : std_logic_vector(7 downto 0); signal letx_en : std_ulogic; signal letx_er : std_ulogic; signal lerx_er : std_ulogic; signal lerx_col : std_ulogic; signal lerx_crs : std_ulogic; signal lemdint : std_ulogic; signal lemdioin : std_logic; signal lemdioout : std_logic; signal lemdioen : std_logic; signal lemdc : std_ulogic; signal ltesten : std_ulogic; signal ltrst : std_ulogic; signal ltck : std_ulogic; signal ltms : std_ulogic; signal ltdi : std_ulogic; signal ltdo : std_ulogic; signal ltdoen : std_ulogic; -- Use for ASIC --constant padvoltage : integer := x33v; --constant padlevel : integer := ttl; -- Use for FPGA constant padvoltage : integer := x18v; constant padlevel : integer := cmos; begin -- TODO: Move PAD options to 'xconfig' pads0 : entity work.pads generic map ( padtech => CFG_PADTECH, padlevel => padlevel, padstrength => 10, jtag_padfilter => pullup, testen_padfilter => pulldown, resetn_padfilter => schmitt, clk_padfilter => 0, spw_padstrength => 12, jtag_padstrength => 6, uart_padstrength => 6, dsu_padstrength => 6, padvoltage => padvoltage, spw_input_type => CFG_SPW_INPUT, oepol => padoen_polarity(CFG_PADTECH) ) port map ( --------------------------- --to chip boundary --------------------------- resetn => resetn , clksel => clksel , clk => clk , lock => lock , errorn => errorn , address => address , data => data , cb => cb , sdclk => sdclk , sdcsn => sdcsn , sdwen => sdwen , sdrasn => sdrasn , sdcasn => sdcasn , sddqm => sddqm , dsutx => dsutx , dsurx => dsurx , dsuen => dsuen , dsubre => dsubre , dsuact => dsuact , txd1 => txd1 , rxd1 => rxd1 , txd2 => txd2 , rxd2 => rxd2 , ramsn => ramsn , ramoen => ramoen , rwen => rwen , oen => oen , writen => writen , read => read , iosn => iosn , romsn => romsn , brdyn => brdyn , bexcn => bexcn , wdogn => wdogn , gpio => gpio , i2c_scl => i2c_scl , i2c_sda => i2c_sda , spi_miso => spi_miso , spi_mosi => spi_mosi , spi_sck => spi_sck , spi_slvsel => spi_slvsel, prom32 => prom32 , spw_clksel => spw_clksel, spw_clk => spw_clk , spw_rxd => spw_rxd , spw_rxs => spw_rxs , spw_txd => spw_txd , spw_txs => spw_txs , gtx_clk => gtx_clk , erx_clk => erx_clk , erxd => erxd , erx_dv => erx_dv , etx_clk => etx_clk , etxd => etxd , etx_en => etx_en , etx_er => etx_er , erx_er => erx_er , erx_col => erx_col , erx_crs => erx_crs , emdint => emdint , emdio => emdio , emdc => emdc , testen => testen , trst => trst , tck => tck , tms => tms , tdi => tdi , tdo => tdo , ------------------------- --- --to core ---------------------------- lresetn => lresetn , lclksel => lclksel , lclk => lclk , llock => llock , lerrorn => lerrorn , laddress => laddress , ldatain => ldatain , ldataout => ldataout , ldataen => ldataen , lcbin => lcbin , lcbout => lcbout , lcben => lcben , lsdclk => lsdclk , lsdcsn => lsdcsn , lsdwen => lsdwen , lsdrasn => lsdrasn , lsdcasn => lsdcasn , lsddqm => lsddqm , ldsutx => ldsutx , ldsurx => ldsurx , ldsuen => ldsuen , ldsubre => ldsubre , ldsuact => ldsuact , ltxd1 => ltxd1 , lrxd1 => lrxd1 , ltxd2 => ltxd2 , lrxd2 => lrxd2 , lramsn => lramsn , lramoen => lramoen , lrwen => lrwen , loen => loen , lwriten => lwriten , lread => lread , liosn => liosn , lromsn => lromsn , lbrdyn => lbrdyn , lbexcn => lbexcn , lwdogn => lwdogn , lgpioin => lgpioin , lgpioout => lgpioout , lgpioen => lgpioen , li2c_sclout => li2c_sclout, li2c_sclen => li2c_sclen , li2c_sclin => li2c_sclin , li2c_sdaout => li2c_sdaout, li2c_sdaen => li2c_sdaen , li2c_sdain => li2c_sdain , lspi_miso => lspi_miso , lspi_mosi => lspi_mosi , lspi_sck => lspi_sck , lspi_slvsel => lspi_slvsel, lprom32 => lprom32 , lspw_clksel => lspw_clksel, lspw_clk => lspw_clk , lspw_rxd => lspw_rxd , lspw_rxs => lspw_rxs , lspw_txd => lspw_txd , lspw_txs => lspw_txs , lgtx_clk => lgtx_clk , lerx_clk => lerx_clk , lerxd => lerxd , lerx_dv => lerx_dv , letx_clk => letx_clk , letxd => letxd , letx_en => letx_en , letx_er => letx_er , lerx_er => lerx_er , lerx_col => lerx_col , lerx_crs => lerx_crs , lemdint => lemdint , lemdioin => lemdioin , lemdioout => lemdioout , lemdioen => lemdioen , lemdc => lemdc , ltesten => ltesten , ltrst => ltrst , ltck => ltck , ltms => ltms , ltdi => ltdi , ltdo => ltdo , ltdoen => ltdoen ); -- ASIC Core core0 : entity work.core generic map ( fabtech => CFG_FABTECH, memtech => CFG_MEMTECH, padtech => CFG_PADTECH, clktech => CFG_CLKTECH, disas => CFG_DISAS, dbguart => CFG_DUART, pclow => CFG_PCLOW, scantest => CFG_SCAN, bscanen => CFG_BOUNDSCAN_EN, oepol => padoen_polarity(CFG_PADTECH) ) port map ( ---------------------------- -- ASIC Ports/Pads ---------------------------- resetn => lresetn , clksel => lclksel , clk => lclk , lock => llock , errorn => lerrorn , address => laddress , datain => ldatain , dataout => ldataout , dataen => ldataen , cbin => lcbin , cbout => lcbout , cben => lcben , sdclk => lsdclk , sdcsn => lsdcsn , sdwen => lsdwen , sdrasn => lsdrasn , sdcasn => lsdcasn , sddqm => lsddqm , dsutx => ldsutx , dsurx => ldsurx , dsuen => ldsuen , dsubre => ldsubre , dsuact => ldsuact , txd1 => ltxd1 , rxd1 => lrxd1 , txd2 => ltxd2 , rxd2 => lrxd2 , ramsn => lramsn , ramoen => lramoen , rwen => lrwen , oen => loen , writen => lwriten , read => lread , iosn => liosn , romsn => lromsn , brdyn => lbrdyn , bexcn => lbexcn , wdogn => lwdogn , gpioin => lgpioin , gpioout => lgpioout , gpioen => lgpioen , i2c_sclout => li2c_sclout, i2c_sclen => li2c_sclen , i2c_sclin => li2c_sclin , i2c_sdaout => li2c_sdaout, i2c_sdaen => li2c_sdaen , i2c_sdain => li2c_sdain , spi_miso => lspi_miso , spi_mosi => lspi_mosi , spi_sck => lspi_sck , spi_slvsel => lspi_slvsel, prom32 => lprom32 , spw_clksel => lspw_clksel, spw_clk => lspw_clk , spw_rxd => lspw_rxd , spw_rxs => lspw_rxs , spw_txd => lspw_txd , spw_txs => lspw_txs , gtx_clk => lgtx_clk , erx_clk => lerx_clk , erxd => lerxd , erx_dv => lerx_dv , etx_clk => letx_clk , etxd => letxd , etx_en => letx_en , etx_er => letx_er , erx_er => lerx_er , erx_col => lerx_col , erx_crs => lerx_crs , emdint => lemdint , emdioin => lemdioin , emdioout => lemdioout , emdioen => lemdioen , emdc => lemdc , testen => ltesten , trst => ltrst , tck => ltck , tms => ltms , tdi => ltdi , tdo => ltdo , tdoen => ltdoen , ---------------------------- -- BSCAN ---------------------------- chain_tck => OPEN , chain_tckn => OPEN , chain_tdi => OPEN , chain_tdo => '0', bsshft => OPEN , bscapt => OPEN , bsupdi => OPEN , bsupdo => OPEN , bsdrive => OPEN , bshighz => OPEN ); -- BSCAN -- TODO: ADD BSCAN end;
library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_signed.all; entity upcount is port ( Clear, Clock : in STD_LOGIC; Q : out STD_LOGIC_VECTOR(1 downto 0) ); end upcount; architecture Behavior of upcount is signal Count : STD_LOGIC_VECTOR(1 downto 0); begin process (Clock) begin if (Clock'EVENT and Clock = '1') then if Clear = '1' then Count <= "00"; else Count <= Count + 1; end if; end if; end process; Q <= Count; end Behavior;
library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_signed.all; entity upcount is port ( Clear, Clock : in STD_LOGIC; Q : out STD_LOGIC_VECTOR(1 downto 0) ); end upcount; architecture Behavior of upcount is signal Count : STD_LOGIC_VECTOR(1 downto 0); begin process (Clock) begin if (Clock'EVENT and Clock = '1') then if Clear = '1' then Count <= "00"; else Count <= Count + 1; end if; end if; end process; Q <= Count; end Behavior;
------------------------------------------------------------------------------ -- This file is a part of the GRLIB VHDL IP LIBRARY -- Copyright (C) 2003 - 2008, Gaisler Research -- Copyright (C) 2008 - 2014, Aeroflex 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: grethm -- File: grethm.vhd -- Author: Jiri Gaisler -- Description: Module to select between greth and greth1g ------------------------------------------------------------------------------ library ieee; library grlib; library gaisler; use ieee.std_logic_1164.all; use grlib.stdlib.all; use grlib.amba.all; library techmap; use techmap.gencomp.all; use gaisler.net.all; entity grethm is generic( hindex : integer := 0; pindex : integer := 0; paddr : integer := 0; pmask : integer := 16#FFF#; pirq : integer := 0; memtech : integer := 0; ifg_gap : integer := 24; attempt_limit : integer := 16; backoff_limit : integer := 10; slot_time : integer := 128; mdcscaler : integer range 0 to 255 := 25; enable_mdio : integer range 0 to 1 := 0; fifosize : integer range 4 to 64 := 8; nsync : integer range 1 to 2 := 2; edcl : integer range 0 to 3 := 0; edclbufsz : integer range 1 to 64 := 1; burstlength : integer range 4 to 128 := 32; macaddrh : integer := 16#00005E#; macaddrl : integer := 16#000000#; ipaddrh : integer := 16#c0a8#; ipaddrl : integer := 16#0035#; phyrstadr : integer range 0 to 32 := 0; rmii : integer range 0 to 1 := 0; sim : integer range 0 to 1 := 0; giga : integer range 0 to 1 := 0; oepol : integer range 0 to 1 := 0; scanen : integer range 0 to 1 := 0; ft : integer range 0 to 2 := 0; edclft : integer range 0 to 1 := 1; mdint_pol : integer range 0 to 1 := 0; enable_mdint : integer range 0 to 1 := 0; multicast : integer range 0 to 1 := 0; ramdebug : integer range 0 to 2 := 0; mdiohold : integer := 1; maxsize : integer := 1500; gmiimode : integer range 0 to 1 := 0 ); port( rst : in std_ulogic; clk : in std_ulogic; ahbmi : in ahb_mst_in_type; ahbmo : out ahb_mst_out_type; apbi : in apb_slv_in_type; apbo : out apb_slv_out_type; ethi : in eth_in_type; etho : out eth_out_type ); end entity; architecture rtl of grethm is begin m100 : if giga = 0 generate u0 : greth generic map ( hindex => hindex, pindex => pindex, paddr => paddr, pmask => pmask, pirq => pirq, memtech => memtech, ifg_gap => ifg_gap, attempt_limit => attempt_limit, backoff_limit => backoff_limit, slot_time => slot_time, mdcscaler => mdcscaler, enable_mdio => enable_mdio, fifosize => fifosize, nsync => nsync, edcl => edcl, edclbufsz => edclbufsz, macaddrh => macaddrh, macaddrl => macaddrl, ipaddrh => ipaddrh, ipaddrl => ipaddrl, phyrstadr => phyrstadr, rmii => rmii, oepol => oepol, scanen => scanen, ft => ft, edclft => edclft, mdint_pol => mdint_pol, enable_mdint => enable_mdint, multicast => multicast, ramdebug => ramdebug, mdiohold => mdiohold, maxsize => maxsize, gmiimode => gmiimode ) port map ( rst => rst, clk => clk, ahbmi => ahbmi, ahbmo => ahbmo, apbi => apbi, apbo => apbo, ethi => ethi, etho => etho); end generate; m1000 : if giga = 1 generate u0 : greth_gbit generic map ( hindex => hindex, pindex => pindex, paddr => paddr, pmask => pmask, pirq => pirq, memtech => memtech, ifg_gap => ifg_gap, attempt_limit => attempt_limit, backoff_limit => backoff_limit, slot_time => slot_time, mdcscaler => mdcscaler, nsync => nsync, edcl => edcl, edclbufsz => edclbufsz, burstlength => burstlength, macaddrh => macaddrh, macaddrl => macaddrl, ipaddrh => ipaddrh, ipaddrl => ipaddrl, phyrstadr => phyrstadr, sim => sim, oepol => oepol, scanen => scanen, ft => ft, edclft => edclft, mdint_pol => mdint_pol, enable_mdint => enable_mdint, multicast => multicast, ramdebug => ramdebug, mdiohold => mdiohold, gmiimode => gmiimode ) port map ( rst => rst, clk => clk, ahbmi => ahbmi, ahbmo => ahbmo, apbi => apbi, apbo => apbo, ethi => ethi, etho => etho); end generate; end architecture;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; package reu_pkg is constant c_status : unsigned(7 downto 0) := X"00"; constant c_command : unsigned(7 downto 0) := X"01"; constant c_c64base_l : unsigned(7 downto 0) := X"02"; constant c_c64base_h : unsigned(7 downto 0) := X"03"; constant c_reubase_l : unsigned(7 downto 0) := X"04"; constant c_reubase_m : unsigned(7 downto 0) := X"05"; constant c_reubase_h : unsigned(7 downto 0) := X"06"; constant c_translen_l : unsigned(7 downto 0) := X"07"; constant c_translen_h : unsigned(7 downto 0) := X"08"; constant c_irqmask : unsigned(7 downto 0) := X"09"; constant c_control : unsigned(7 downto 0) := X"0A"; -- extended registers constant c_size_read : unsigned(7 downto 0) := X"0C"; constant c_start_delay: unsigned(7 downto 0) := X"0D"; constant c_rate_div : unsigned(7 downto 0) := X"0E"; constant c_translen_x : unsigned(7 downto 0) := X"0F"; constant c_mode_toreu : std_logic_vector(1 downto 0) := "00"; constant c_mode_toc64 : std_logic_vector(1 downto 0) := "01"; constant c_mode_swap : std_logic_vector(1 downto 0) := "10"; constant c_mode_verify : std_logic_vector(1 downto 0) := "11"; end;
------------------------------------------------------------------------------- -- axi_vdma_sfifo_autord.vhd ------------------------------------------------------------------------------- -- -- ************************************************************************* -- -- (c) Copyright 2010-2011, 2013 Xilinx, Inc. All rights reserved. -- -- This file contains confidential and proprietary information -- of Xilinx, Inc. and is protected under U.S. and -- international copyright and other intellectual property -- laws. -- -- DISCLAIMER -- This disclaimer is not a license and does not grant any -- rights to the materials distributed herewith. Except as -- otherwise provided in a valid license issued to you by -- Xilinx, and to the maximum extent permitted by applicable -- law: (1) THESE MATERIALS ARE MADE AVAILABLE "AS IS" AND -- WITH ALL FAULTS, AND XILINX HEREBY DISCLAIMS ALL WARRANTIES -- AND CONDITIONS, EXPRESS, IMPLIED, OR STATUTORY, INCLUDING -- BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, NON- -- INFRINGEMENT, OR FITNESS FOR ANY PARTICULAR PURPOSE; and -- (2) Xilinx shall not be liable (whether in contract or tort, -- including negligence, or under any other theory of -- liability) for any loss or damage of any kind or nature -- related to, arising under or in connection with these -- materials, including for any direct, or any indirect, -- special, incidental, or consequential loss or damage -- (including loss of data, profits, goodwill, or any type of -- loss or damage suffered as a result of any action brought -- by a third party) even if such damage or loss was -- reasonably foreseeable or Xilinx had been advised of the -- possibility of the same. -- -- CRITICAL APPLICATIONS -- Xilinx products are not designed or intended to be fail- -- safe, or for use in any application requiring fail-safe -- performance, such as life-support or safety devices or -- systems, Class III medical devices, nuclear facilities, -- applications related to the deployment of airbags, or any -- other applications that could lead to death, personal -- injury, or severe property or environmental damage -- (individually and collectively, "Critical -- Applications"). Customer assumes the sole risk and -- liability of any use of Xilinx products in Critical -- Applications, subject only to applicable laws and -- regulations governing limitations on product liability. -- -- THIS COPYRIGHT NOTICE AND DISCLAIMER MUST BE RETAINED AS -- PART OF THIS FILE AT ALL TIMES. -- -- ************************************************************************* -- ------------------------------------------------------------------------------- -- Filename: axi_vdma_sfifo_autord.vhd -- Version: initial -- Description: -- This file contains the logic to generate a CoreGen call to create a -- synchronous FIFO as part of the synthesis process of XST. This eliminates -- the need for multiple fixed netlists for various sizes and widths of FIFOs. -- -- -- VHDL-Standard: VHDL'93 ------------------------------------------------------------------------------- -- Structure: -- axi_vdma.vhd -- |- axi_vdma_pkg.vhd -- |- axi_vdma_intrpt.vhd -- |- axi_vdma_rst_module.vhd -- | |- axi_vdma_reset.vhd (mm2s) -- | | |- axi_vdma_cdc.vhd -- | |- axi_vdma_reset.vhd (s2mm) -- | | |- axi_vdma_cdc.vhd -- | -- |- axi_vdma_reg_if.vhd -- | |- axi_vdma_lite_if.vhd -- | |- axi_vdma_cdc.vhd (mm2s) -- | |- axi_vdma_cdc.vhd (s2mm) -- | -- |- axi_vdma_sg_cdc.vhd (mm2s) -- |- axi_vdma_vid_cdc.vhd (mm2s) -- |- axi_vdma_fsync_gen.vhd (mm2s) -- |- axi_vdma_sof_gen.vhd (mm2s) -- |- axi_vdma_reg_module.vhd (mm2s) -- | |- axi_vdma_register.vhd (mm2s) -- | |- axi_vdma_regdirect.vhd (mm2s) -- |- axi_vdma_mngr.vhd (mm2s) -- | |- axi_vdma_sg_if.vhd (mm2s) -- | |- axi_vdma_sm.vhd (mm2s) -- | |- axi_vdma_cmdsts_if.vhd (mm2s) -- | |- axi_vdma_vidreg_module.vhd (mm2s) -- | | |- axi_vdma_sgregister.vhd (mm2s) -- | | |- axi_vdma_vregister.vhd (mm2s) -- | | |- axi_vdma_vaddrreg_mux.vhd (mm2s) -- | | |- axi_vdma_blkmem.vhd (mm2s) -- | |- axi_vdma_genlock_mngr.vhd (mm2s) -- | |- axi_vdma_genlock_mux.vhd (mm2s) -- | |- axi_vdma_greycoder.vhd (mm2s) -- |- axi_vdma_mm2s_linebuf.vhd (mm2s) -- | |- axi_vdma_sfifo_autord.vhd (mm2s) -- | |- axi_vdma_afifo_autord.vhd (mm2s) -- | |- axi_vdma_skid_buf.vhd (mm2s) -- | |- axi_vdma_cdc.vhd (mm2s) -- | -- |- axi_vdma_sg_cdc.vhd (s2mm) -- |- axi_vdma_vid_cdc.vhd (s2mm) -- |- axi_vdma_fsync_gen.vhd (s2mm) -- |- axi_vdma_sof_gen.vhd (s2mm) -- |- axi_vdma_reg_module.vhd (s2mm) -- | |- axi_vdma_register.vhd (s2mm) -- | |- axi_vdma_regdirect.vhd (s2mm) -- |- axi_vdma_mngr.vhd (s2mm) -- | |- axi_vdma_sg_if.vhd (s2mm) -- | |- axi_vdma_sm.vhd (s2mm) -- | |- axi_vdma_cmdsts_if.vhd (s2mm) -- | |- axi_vdma_vidreg_module.vhd (s2mm) -- | | |- axi_vdma_sgregister.vhd (s2mm) -- | | |- axi_vdma_vregister.vhd (s2mm) -- | | |- axi_vdma_vaddrreg_mux.vhd (s2mm) -- | | |- axi_vdma_blkmem.vhd (s2mm) -- | |- axi_vdma_genlock_mngr.vhd (s2mm) -- | |- axi_vdma_genlock_mux.vhd (s2mm) -- | |- axi_vdma_greycoder.vhd (s2mm) -- |- axi_vdma_s2mm_linebuf.vhd (s2mm) -- | |- axi_vdma_sfifo_autord.vhd (s2mm) -- | |- axi_vdma_afifo_autord.vhd (s2mm) -- | |- axi_vdma_skid_buf.vhd (s2mm) -- | |- axi_vdma_cdc.vhd (s2mm) -- | -- |- axi_datamover_v3_00_a.axi_datamover.vhd (FULL) -- |- axi_sg_v3_00_a.axi_sg.vhd -- ------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_arith.all; use IEEE.std_logic_unsigned.all; library lib_fifo_v1_0; use lib_fifo_v1_0.sync_fifo_fg; library axi_vdma_v6_2; use axi_vdma_v6_2.axi_vdma_pkg.all; ------------------------------------------------------------------------------- entity axi_vdma_sfifo_autord is generic ( C_DWIDTH : integer := 32; -- Sets the width of the FIFO Data C_DEPTH : integer := 128; -- Sets the depth of the FIFO C_DATA_CNT_WIDTH : integer := 8; -- Sets the width of the FIFO Data Count output C_NEED_ALMOST_EMPTY : Integer range 0 to 1 := 0; -- Indicates the need for an almost empty flag from the internal FIFO C_NEED_ALMOST_FULL : Integer range 0 to 1 := 0; -- Indicates the need for an almost full flag from the internal FIFO C_USE_BLKMEM : Integer range 0 to 1 := 1; -- Sets the type of memory to use for the FIFO -- 0 = Distributed Logic -- 1 = Block Ram C_FAMILY : String := "virtex7" -- Specifies the target FPGA Family ); port ( -- FIFO Inputs ------------------------------------------------------------------ SFIFO_Sinit : In std_logic; -- SFIFO_Clk : In std_logic; -- SFIFO_Wr_en : In std_logic; -- SFIFO_Din : In std_logic_vector(C_DWIDTH-1 downto 0); -- SFIFO_Rd_en : In std_logic; -- SFIFO_Clr_Rd_Data_Valid : In std_logic; -- -------------------------------------------------------------------------------- -- FIFO Outputs ----------------------------------------------------------------- SFIFO_DValid : Out std_logic; -- SFIFO_Dout : Out std_logic_vector(C_DWIDTH-1 downto 0); -- SFIFO_Full : Out std_logic; -- SFIFO_Empty : Out std_logic; -- SFIFO_Almost_full : Out std_logic; -- SFIFO_Almost_empty : Out std_logic; -- SFIFO_Rd_count : Out std_logic_vector(C_DATA_CNT_WIDTH-1 downto 0); -- SFIFO_Rd_count_minus1 : Out std_logic_vector(C_DATA_CNT_WIDTH-1 downto 0); -- SFIFO_Wr_count : Out std_logic_vector(C_DATA_CNT_WIDTH-1 downto 0); -- SFIFO_Rd_ack : Out std_logic -- -------------------------------------------------------------------------------- ); end entity axi_vdma_sfifo_autord; ----------------------------------------------------------------------------- -- Architecture section ----------------------------------------------------------------------------- architecture imp of axi_vdma_sfifo_autord is attribute DowngradeIPIdentifiedWarnings: string; attribute DowngradeIPIdentifiedWarnings of imp : architecture is "yes"; -- Constant declarations -- none -- Signal declarations signal write_data_lil_end : std_logic_vector(C_DWIDTH-1 downto 0) := (others => '0'); signal read_data_lil_end : std_logic_vector(C_DWIDTH-1 downto 0) := (others => '0'); signal raw_data_cnt_lil_end : std_logic_vector(C_DATA_CNT_WIDTH-1 downto 0) := (others => '0'); signal raw_data_count_int : natural := 0; signal raw_data_count_corr : std_logic_vector(C_DATA_CNT_WIDTH-1 downto 0) := (others => '0'); signal raw_data_count_corr_minus1 : std_logic_vector(C_DATA_CNT_WIDTH-1 downto 0) := (others => '0'); Signal corrected_empty : std_logic := '0'; Signal corrected_almost_empty : std_logic := '0'; Signal sig_SFIFO_empty : std_logic := '0'; -- backend fifo read ack sample and hold Signal sig_rddata_valid : std_logic := '0'; Signal hold_ff_q : std_logic := '0'; Signal ored_ack_ff_reset : std_logic := '0'; Signal autoread : std_logic := '0'; Signal sig_sfifo_rdack : std_logic := '0'; Signal fifo_read_enable : std_logic := '0'; begin -- Bit ordering translations write_data_lil_end <= SFIFO_Din; -- translate from Big Endian to little -- endian. SFIFO_Dout <= read_data_lil_end; -- translate from Little Endian to -- Big endian. -- Other port usages and assignments SFIFO_Rd_ack <= sig_sfifo_rdack; SFIFO_Almost_empty <= corrected_almost_empty; SFIFO_Empty <= corrected_empty; SFIFO_Wr_count <= raw_data_cnt_lil_end; SFIFO_Rd_count <= raw_data_count_corr; SFIFO_Rd_count_minus1 <= raw_data_count_corr_minus1; SFIFO_DValid <= sig_rddata_valid; -- Output data valid indicator fifo_read_enable <= SFIFO_Rd_en or autoread; ------------------------------------------------------------ -- Instance: I_SYNC_FIFOGEN_FIFO -- -- Description: -- Instance for the synchronous fifo from proc common. -- ------------------------------------------------------------ I_SYNC_FIFOGEN_FIFO : entity lib_fifo_v1_0.sync_fifo_fg generic map( C_FAMILY => C_FAMILY, -- requred for FIFO Gen C_DCOUNT_WIDTH => C_DATA_CNT_WIDTH, C_ENABLE_RLOCS => 0, C_HAS_DCOUNT => 1, C_SYNCHRONIZER_STAGE => MTBF_STAGES, C_HAS_RD_ACK => 1, C_HAS_RD_ERR => 0, C_HAS_WR_ACK => 1, C_HAS_WR_ERR => 0, C_MEMORY_TYPE => C_USE_BLKMEM, C_PORTS_DIFFER => 0, C_RD_ACK_LOW => 0, C_READ_DATA_WIDTH => C_DWIDTH, C_READ_DEPTH => C_DEPTH, C_RD_ERR_LOW => 0, C_WR_ACK_LOW => 0, C_WR_ERR_LOW => 0, C_WRITE_DATA_WIDTH => C_DWIDTH, C_WRITE_DEPTH => C_DEPTH --C_WRITE_DEPTH => C_DEPTH, --C_PRELOAD_REGS => 1, -- 1 = first word fall through --C_PRELOAD_LATENCY => 0, -- 0 = first word fall through --C_USE_EMBEDDED_REG => 1 -- 0 ; ) port map( Clk => SFIFO_Clk, Sinit => SFIFO_Sinit, Din => write_data_lil_end, Wr_en => SFIFO_Wr_en, Rd_en => fifo_read_enable, Dout => read_data_lil_end, Full => SFIFO_Full, Empty => sig_SFIFO_empty, Rd_ack => sig_sfifo_rdack, Wr_ack => open, Rd_err => open, Wr_err => open, Data_count => raw_data_cnt_lil_end ); ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- -- Read Ack assert & hold logic Needed because.... ------------------------------------------------------------------------------- -- 1) The CoreGen Sync FIFO has to be read once to get valid -- data to the read data port. -- 2) The Read ack from the fifo is only asserted for 1 clock. -- 3) A signal is needed that indicates valid data is at the read -- port of the FIFO and has not yet been used. This signal needs -- to be held until the next read operation occurs or a clear -- signal is received. ored_ack_ff_reset <= fifo_read_enable or SFIFO_Sinit or SFIFO_Clr_Rd_Data_Valid; sig_rddata_valid <= hold_ff_q or sig_sfifo_rdack; ------------------------------------------------------------- -- Synchronous Process with Sync Reset -- -- Label: IMP_ACK_HOLD_FLOP -- -- Process Description: -- Flop for registering the hold flag -- ------------------------------------------------------------- IMP_ACK_HOLD_FLOP : process (SFIFO_Clk) begin if (SFIFO_Clk'event and SFIFO_Clk = '1') then if (ored_ack_ff_reset = '1') then hold_ff_q <= '0'; else hold_ff_q <= sig_rddata_valid; end if; end if; end process IMP_ACK_HOLD_FLOP; -- generate auto-read enable. This keeps fresh data at the output -- of the FIFO whenever it is available. autoread <= '1' -- create a read strobe when the when (sig_rddata_valid = '0' and -- output data is NOT valid sig_SFIFO_empty = '0') -- and the FIFO is not empty Else '0'; raw_data_count_int <= CONV_INTEGER(raw_data_cnt_lil_end); ------------------------------------------------------------ -- If Generate -- -- Label: INCLUDE_ALMOST_EMPTY -- -- If Generate Description: -- This IFGen corrects the FIFO Read Count output for the -- auto read function and includes the generation of the -- Almost_Empty flag. -- ------------------------------------------------------------ INCLUDE_ALMOST_EMPTY : if (C_NEED_ALMOST_EMPTY = 1) generate -- local signals Signal raw_data_count_int_corr : integer := 0; Signal raw_data_count_int_corr_minus1 : integer := 0; begin ------------------------------------------------------------- -- Combinational Process -- -- Label: CORRECT_RD_CNT_IAE -- -- Process Description: -- This process corrects the FIFO Read Count output for the -- auto read function and includes the generation of the -- Almost_Empty flag. -- ------------------------------------------------------------- CORRECT_RD_CNT_IAE : process (sig_rddata_valid, sig_SFIFO_empty, raw_data_count_int) begin if (sig_rddata_valid = '0') then raw_data_count_int_corr <= 0; raw_data_count_int_corr_minus1 <= 0; corrected_empty <= '1'; corrected_almost_empty <= '0'; elsif (sig_SFIFO_empty = '1') then -- rddata valid and fifo empty raw_data_count_int_corr <= 1; raw_data_count_int_corr_minus1 <= 0; corrected_empty <= '0'; corrected_almost_empty <= '1'; Elsif (raw_data_count_int = 1) Then -- rddata valid and fifo almost empty raw_data_count_int_corr <= 2; raw_data_count_int_corr_minus1 <= 1; corrected_empty <= '0'; corrected_almost_empty <= '0'; else -- rddata valid and modify rd count from FIFO raw_data_count_int_corr <= raw_data_count_int+1; raw_data_count_int_corr_minus1 <= raw_data_count_int; corrected_empty <= '0'; corrected_almost_empty <= '0'; end if; end process CORRECT_RD_CNT_IAE; raw_data_count_corr <= CONV_STD_LOGIC_VECTOR(raw_data_count_int_corr, C_DATA_CNT_WIDTH); raw_data_count_corr_minus1 <= CONV_STD_LOGIC_VECTOR(raw_data_count_int_corr_minus1, C_DATA_CNT_WIDTH); end generate INCLUDE_ALMOST_EMPTY; ------------------------------------------------------------ -- If Generate -- -- Label: OMIT_ALMOST_EMPTY -- -- If Generate Description: -- This process corrects the FIFO Read Count output for the -- auto read function and omits the generation of the -- Almost_Empty flag. -- ------------------------------------------------------------ OMIT_ALMOST_EMPTY : if (C_NEED_ALMOST_EMPTY = 0) generate -- local signals Signal raw_data_count_int_corr : integer := 0; begin corrected_almost_empty <= '0'; -- always low ------------------------------------------------------------- -- Combinational Process -- -- Label: CORRECT_RD_CNT -- -- Process Description: -- This process corrects the FIFO Read Count output for the -- auto read function and omits the generation of the -- Almost_Empty flag. -- ------------------------------------------------------------- CORRECT_RD_CNT : process (sig_rddata_valid, sig_SFIFO_empty, raw_data_count_int) begin if (sig_rddata_valid = '0') then raw_data_count_int_corr <= 0; corrected_empty <= '1'; elsif (sig_SFIFO_empty = '1') then -- rddata valid and fifo empty raw_data_count_int_corr <= 1; corrected_empty <= '0'; Elsif (raw_data_count_int = 1) Then -- rddata valid and fifo almost empty raw_data_count_int_corr <= 2; corrected_empty <= '0'; else -- rddata valid and modify rd count from FIFO raw_data_count_int_corr <= raw_data_count_int+1; corrected_empty <= '0'; end if; end process CORRECT_RD_CNT; raw_data_count_corr <= CONV_STD_LOGIC_VECTOR(raw_data_count_int_corr, C_DATA_CNT_WIDTH); end generate OMIT_ALMOST_EMPTY; ------------------------------------------------------------ -- If Generate -- -- Label: INCLUDE_ALMOST_FULL -- -- If Generate Description: -- This IfGen Includes the generation of the Amost_Full flag. -- -- ------------------------------------------------------------ INCLUDE_ALMOST_FULL : if (C_NEED_ALMOST_FULL = 1) generate -- Local Constants Constant ALMOST_FULL_VALUE : integer := 2**(C_DATA_CNT_WIDTH-1)-1; begin SFIFO_Almost_full <= '1' When raw_data_count_int = ALMOST_FULL_VALUE Else '0'; end generate INCLUDE_ALMOST_FULL; ------------------------------------------------------------ -- If Generate -- -- Label: OMIT_ALMOST_FULL -- -- If Generate Description: -- This IfGen Omits the generation of the Amost_Full flag. -- -- ------------------------------------------------------------ OMIT_ALMOST_FULL : if (C_NEED_ALMOST_FULL = 0) generate begin SFIFO_Almost_full <= '0'; -- always low end generate OMIT_ALMOST_FULL; end imp;
------------------------------------------------------------------------------- -- axi_vdma_sfifo_autord.vhd ------------------------------------------------------------------------------- -- -- ************************************************************************* -- -- (c) Copyright 2010-2011, 2013 Xilinx, Inc. All rights reserved. -- -- This file contains confidential and proprietary information -- of Xilinx, Inc. and is protected under U.S. and -- international copyright and other intellectual property -- laws. -- -- DISCLAIMER -- This disclaimer is not a license and does not grant any -- rights to the materials distributed herewith. Except as -- otherwise provided in a valid license issued to you by -- Xilinx, and to the maximum extent permitted by applicable -- law: (1) THESE MATERIALS ARE MADE AVAILABLE "AS IS" AND -- WITH ALL FAULTS, AND XILINX HEREBY DISCLAIMS ALL WARRANTIES -- AND CONDITIONS, EXPRESS, IMPLIED, OR STATUTORY, INCLUDING -- BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, NON- -- INFRINGEMENT, OR FITNESS FOR ANY PARTICULAR PURPOSE; and -- (2) Xilinx shall not be liable (whether in contract or tort, -- including negligence, or under any other theory of -- liability) for any loss or damage of any kind or nature -- related to, arising under or in connection with these -- materials, including for any direct, or any indirect, -- special, incidental, or consequential loss or damage -- (including loss of data, profits, goodwill, or any type of -- loss or damage suffered as a result of any action brought -- by a third party) even if such damage or loss was -- reasonably foreseeable or Xilinx had been advised of the -- possibility of the same. -- -- CRITICAL APPLICATIONS -- Xilinx products are not designed or intended to be fail- -- safe, or for use in any application requiring fail-safe -- performance, such as life-support or safety devices or -- systems, Class III medical devices, nuclear facilities, -- applications related to the deployment of airbags, or any -- other applications that could lead to death, personal -- injury, or severe property or environmental damage -- (individually and collectively, "Critical -- Applications"). Customer assumes the sole risk and -- liability of any use of Xilinx products in Critical -- Applications, subject only to applicable laws and -- regulations governing limitations on product liability. -- -- THIS COPYRIGHT NOTICE AND DISCLAIMER MUST BE RETAINED AS -- PART OF THIS FILE AT ALL TIMES. -- -- ************************************************************************* -- ------------------------------------------------------------------------------- -- Filename: axi_vdma_sfifo_autord.vhd -- Version: initial -- Description: -- This file contains the logic to generate a CoreGen call to create a -- synchronous FIFO as part of the synthesis process of XST. This eliminates -- the need for multiple fixed netlists for various sizes and widths of FIFOs. -- -- -- VHDL-Standard: VHDL'93 ------------------------------------------------------------------------------- -- Structure: -- axi_vdma.vhd -- |- axi_vdma_pkg.vhd -- |- axi_vdma_intrpt.vhd -- |- axi_vdma_rst_module.vhd -- | |- axi_vdma_reset.vhd (mm2s) -- | | |- axi_vdma_cdc.vhd -- | |- axi_vdma_reset.vhd (s2mm) -- | | |- axi_vdma_cdc.vhd -- | -- |- axi_vdma_reg_if.vhd -- | |- axi_vdma_lite_if.vhd -- | |- axi_vdma_cdc.vhd (mm2s) -- | |- axi_vdma_cdc.vhd (s2mm) -- | -- |- axi_vdma_sg_cdc.vhd (mm2s) -- |- axi_vdma_vid_cdc.vhd (mm2s) -- |- axi_vdma_fsync_gen.vhd (mm2s) -- |- axi_vdma_sof_gen.vhd (mm2s) -- |- axi_vdma_reg_module.vhd (mm2s) -- | |- axi_vdma_register.vhd (mm2s) -- | |- axi_vdma_regdirect.vhd (mm2s) -- |- axi_vdma_mngr.vhd (mm2s) -- | |- axi_vdma_sg_if.vhd (mm2s) -- | |- axi_vdma_sm.vhd (mm2s) -- | |- axi_vdma_cmdsts_if.vhd (mm2s) -- | |- axi_vdma_vidreg_module.vhd (mm2s) -- | | |- axi_vdma_sgregister.vhd (mm2s) -- | | |- axi_vdma_vregister.vhd (mm2s) -- | | |- axi_vdma_vaddrreg_mux.vhd (mm2s) -- | | |- axi_vdma_blkmem.vhd (mm2s) -- | |- axi_vdma_genlock_mngr.vhd (mm2s) -- | |- axi_vdma_genlock_mux.vhd (mm2s) -- | |- axi_vdma_greycoder.vhd (mm2s) -- |- axi_vdma_mm2s_linebuf.vhd (mm2s) -- | |- axi_vdma_sfifo_autord.vhd (mm2s) -- | |- axi_vdma_afifo_autord.vhd (mm2s) -- | |- axi_vdma_skid_buf.vhd (mm2s) -- | |- axi_vdma_cdc.vhd (mm2s) -- | -- |- axi_vdma_sg_cdc.vhd (s2mm) -- |- axi_vdma_vid_cdc.vhd (s2mm) -- |- axi_vdma_fsync_gen.vhd (s2mm) -- |- axi_vdma_sof_gen.vhd (s2mm) -- |- axi_vdma_reg_module.vhd (s2mm) -- | |- axi_vdma_register.vhd (s2mm) -- | |- axi_vdma_regdirect.vhd (s2mm) -- |- axi_vdma_mngr.vhd (s2mm) -- | |- axi_vdma_sg_if.vhd (s2mm) -- | |- axi_vdma_sm.vhd (s2mm) -- | |- axi_vdma_cmdsts_if.vhd (s2mm) -- | |- axi_vdma_vidreg_module.vhd (s2mm) -- | | |- axi_vdma_sgregister.vhd (s2mm) -- | | |- axi_vdma_vregister.vhd (s2mm) -- | | |- axi_vdma_vaddrreg_mux.vhd (s2mm) -- | | |- axi_vdma_blkmem.vhd (s2mm) -- | |- axi_vdma_genlock_mngr.vhd (s2mm) -- | |- axi_vdma_genlock_mux.vhd (s2mm) -- | |- axi_vdma_greycoder.vhd (s2mm) -- |- axi_vdma_s2mm_linebuf.vhd (s2mm) -- | |- axi_vdma_sfifo_autord.vhd (s2mm) -- | |- axi_vdma_afifo_autord.vhd (s2mm) -- | |- axi_vdma_skid_buf.vhd (s2mm) -- | |- axi_vdma_cdc.vhd (s2mm) -- | -- |- axi_datamover_v3_00_a.axi_datamover.vhd (FULL) -- |- axi_sg_v3_00_a.axi_sg.vhd -- ------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_arith.all; use IEEE.std_logic_unsigned.all; library lib_fifo_v1_0; use lib_fifo_v1_0.sync_fifo_fg; library axi_vdma_v6_2; use axi_vdma_v6_2.axi_vdma_pkg.all; ------------------------------------------------------------------------------- entity axi_vdma_sfifo_autord is generic ( C_DWIDTH : integer := 32; -- Sets the width of the FIFO Data C_DEPTH : integer := 128; -- Sets the depth of the FIFO C_DATA_CNT_WIDTH : integer := 8; -- Sets the width of the FIFO Data Count output C_NEED_ALMOST_EMPTY : Integer range 0 to 1 := 0; -- Indicates the need for an almost empty flag from the internal FIFO C_NEED_ALMOST_FULL : Integer range 0 to 1 := 0; -- Indicates the need for an almost full flag from the internal FIFO C_USE_BLKMEM : Integer range 0 to 1 := 1; -- Sets the type of memory to use for the FIFO -- 0 = Distributed Logic -- 1 = Block Ram C_FAMILY : String := "virtex7" -- Specifies the target FPGA Family ); port ( -- FIFO Inputs ------------------------------------------------------------------ SFIFO_Sinit : In std_logic; -- SFIFO_Clk : In std_logic; -- SFIFO_Wr_en : In std_logic; -- SFIFO_Din : In std_logic_vector(C_DWIDTH-1 downto 0); -- SFIFO_Rd_en : In std_logic; -- SFIFO_Clr_Rd_Data_Valid : In std_logic; -- -------------------------------------------------------------------------------- -- FIFO Outputs ----------------------------------------------------------------- SFIFO_DValid : Out std_logic; -- SFIFO_Dout : Out std_logic_vector(C_DWIDTH-1 downto 0); -- SFIFO_Full : Out std_logic; -- SFIFO_Empty : Out std_logic; -- SFIFO_Almost_full : Out std_logic; -- SFIFO_Almost_empty : Out std_logic; -- SFIFO_Rd_count : Out std_logic_vector(C_DATA_CNT_WIDTH-1 downto 0); -- SFIFO_Rd_count_minus1 : Out std_logic_vector(C_DATA_CNT_WIDTH-1 downto 0); -- SFIFO_Wr_count : Out std_logic_vector(C_DATA_CNT_WIDTH-1 downto 0); -- SFIFO_Rd_ack : Out std_logic -- -------------------------------------------------------------------------------- ); end entity axi_vdma_sfifo_autord; ----------------------------------------------------------------------------- -- Architecture section ----------------------------------------------------------------------------- architecture imp of axi_vdma_sfifo_autord is attribute DowngradeIPIdentifiedWarnings: string; attribute DowngradeIPIdentifiedWarnings of imp : architecture is "yes"; -- Constant declarations -- none -- Signal declarations signal write_data_lil_end : std_logic_vector(C_DWIDTH-1 downto 0) := (others => '0'); signal read_data_lil_end : std_logic_vector(C_DWIDTH-1 downto 0) := (others => '0'); signal raw_data_cnt_lil_end : std_logic_vector(C_DATA_CNT_WIDTH-1 downto 0) := (others => '0'); signal raw_data_count_int : natural := 0; signal raw_data_count_corr : std_logic_vector(C_DATA_CNT_WIDTH-1 downto 0) := (others => '0'); signal raw_data_count_corr_minus1 : std_logic_vector(C_DATA_CNT_WIDTH-1 downto 0) := (others => '0'); Signal corrected_empty : std_logic := '0'; Signal corrected_almost_empty : std_logic := '0'; Signal sig_SFIFO_empty : std_logic := '0'; -- backend fifo read ack sample and hold Signal sig_rddata_valid : std_logic := '0'; Signal hold_ff_q : std_logic := '0'; Signal ored_ack_ff_reset : std_logic := '0'; Signal autoread : std_logic := '0'; Signal sig_sfifo_rdack : std_logic := '0'; Signal fifo_read_enable : std_logic := '0'; begin -- Bit ordering translations write_data_lil_end <= SFIFO_Din; -- translate from Big Endian to little -- endian. SFIFO_Dout <= read_data_lil_end; -- translate from Little Endian to -- Big endian. -- Other port usages and assignments SFIFO_Rd_ack <= sig_sfifo_rdack; SFIFO_Almost_empty <= corrected_almost_empty; SFIFO_Empty <= corrected_empty; SFIFO_Wr_count <= raw_data_cnt_lil_end; SFIFO_Rd_count <= raw_data_count_corr; SFIFO_Rd_count_minus1 <= raw_data_count_corr_minus1; SFIFO_DValid <= sig_rddata_valid; -- Output data valid indicator fifo_read_enable <= SFIFO_Rd_en or autoread; ------------------------------------------------------------ -- Instance: I_SYNC_FIFOGEN_FIFO -- -- Description: -- Instance for the synchronous fifo from proc common. -- ------------------------------------------------------------ I_SYNC_FIFOGEN_FIFO : entity lib_fifo_v1_0.sync_fifo_fg generic map( C_FAMILY => C_FAMILY, -- requred for FIFO Gen C_DCOUNT_WIDTH => C_DATA_CNT_WIDTH, C_ENABLE_RLOCS => 0, C_HAS_DCOUNT => 1, C_SYNCHRONIZER_STAGE => MTBF_STAGES, C_HAS_RD_ACK => 1, C_HAS_RD_ERR => 0, C_HAS_WR_ACK => 1, C_HAS_WR_ERR => 0, C_MEMORY_TYPE => C_USE_BLKMEM, C_PORTS_DIFFER => 0, C_RD_ACK_LOW => 0, C_READ_DATA_WIDTH => C_DWIDTH, C_READ_DEPTH => C_DEPTH, C_RD_ERR_LOW => 0, C_WR_ACK_LOW => 0, C_WR_ERR_LOW => 0, C_WRITE_DATA_WIDTH => C_DWIDTH, C_WRITE_DEPTH => C_DEPTH --C_WRITE_DEPTH => C_DEPTH, --C_PRELOAD_REGS => 1, -- 1 = first word fall through --C_PRELOAD_LATENCY => 0, -- 0 = first word fall through --C_USE_EMBEDDED_REG => 1 -- 0 ; ) port map( Clk => SFIFO_Clk, Sinit => SFIFO_Sinit, Din => write_data_lil_end, Wr_en => SFIFO_Wr_en, Rd_en => fifo_read_enable, Dout => read_data_lil_end, Full => SFIFO_Full, Empty => sig_SFIFO_empty, Rd_ack => sig_sfifo_rdack, Wr_ack => open, Rd_err => open, Wr_err => open, Data_count => raw_data_cnt_lil_end ); ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- -- Read Ack assert & hold logic Needed because.... ------------------------------------------------------------------------------- -- 1) The CoreGen Sync FIFO has to be read once to get valid -- data to the read data port. -- 2) The Read ack from the fifo is only asserted for 1 clock. -- 3) A signal is needed that indicates valid data is at the read -- port of the FIFO and has not yet been used. This signal needs -- to be held until the next read operation occurs or a clear -- signal is received. ored_ack_ff_reset <= fifo_read_enable or SFIFO_Sinit or SFIFO_Clr_Rd_Data_Valid; sig_rddata_valid <= hold_ff_q or sig_sfifo_rdack; ------------------------------------------------------------- -- Synchronous Process with Sync Reset -- -- Label: IMP_ACK_HOLD_FLOP -- -- Process Description: -- Flop for registering the hold flag -- ------------------------------------------------------------- IMP_ACK_HOLD_FLOP : process (SFIFO_Clk) begin if (SFIFO_Clk'event and SFIFO_Clk = '1') then if (ored_ack_ff_reset = '1') then hold_ff_q <= '0'; else hold_ff_q <= sig_rddata_valid; end if; end if; end process IMP_ACK_HOLD_FLOP; -- generate auto-read enable. This keeps fresh data at the output -- of the FIFO whenever it is available. autoread <= '1' -- create a read strobe when the when (sig_rddata_valid = '0' and -- output data is NOT valid sig_SFIFO_empty = '0') -- and the FIFO is not empty Else '0'; raw_data_count_int <= CONV_INTEGER(raw_data_cnt_lil_end); ------------------------------------------------------------ -- If Generate -- -- Label: INCLUDE_ALMOST_EMPTY -- -- If Generate Description: -- This IFGen corrects the FIFO Read Count output for the -- auto read function and includes the generation of the -- Almost_Empty flag. -- ------------------------------------------------------------ INCLUDE_ALMOST_EMPTY : if (C_NEED_ALMOST_EMPTY = 1) generate -- local signals Signal raw_data_count_int_corr : integer := 0; Signal raw_data_count_int_corr_minus1 : integer := 0; begin ------------------------------------------------------------- -- Combinational Process -- -- Label: CORRECT_RD_CNT_IAE -- -- Process Description: -- This process corrects the FIFO Read Count output for the -- auto read function and includes the generation of the -- Almost_Empty flag. -- ------------------------------------------------------------- CORRECT_RD_CNT_IAE : process (sig_rddata_valid, sig_SFIFO_empty, raw_data_count_int) begin if (sig_rddata_valid = '0') then raw_data_count_int_corr <= 0; raw_data_count_int_corr_minus1 <= 0; corrected_empty <= '1'; corrected_almost_empty <= '0'; elsif (sig_SFIFO_empty = '1') then -- rddata valid and fifo empty raw_data_count_int_corr <= 1; raw_data_count_int_corr_minus1 <= 0; corrected_empty <= '0'; corrected_almost_empty <= '1'; Elsif (raw_data_count_int = 1) Then -- rddata valid and fifo almost empty raw_data_count_int_corr <= 2; raw_data_count_int_corr_minus1 <= 1; corrected_empty <= '0'; corrected_almost_empty <= '0'; else -- rddata valid and modify rd count from FIFO raw_data_count_int_corr <= raw_data_count_int+1; raw_data_count_int_corr_minus1 <= raw_data_count_int; corrected_empty <= '0'; corrected_almost_empty <= '0'; end if; end process CORRECT_RD_CNT_IAE; raw_data_count_corr <= CONV_STD_LOGIC_VECTOR(raw_data_count_int_corr, C_DATA_CNT_WIDTH); raw_data_count_corr_minus1 <= CONV_STD_LOGIC_VECTOR(raw_data_count_int_corr_minus1, C_DATA_CNT_WIDTH); end generate INCLUDE_ALMOST_EMPTY; ------------------------------------------------------------ -- If Generate -- -- Label: OMIT_ALMOST_EMPTY -- -- If Generate Description: -- This process corrects the FIFO Read Count output for the -- auto read function and omits the generation of the -- Almost_Empty flag. -- ------------------------------------------------------------ OMIT_ALMOST_EMPTY : if (C_NEED_ALMOST_EMPTY = 0) generate -- local signals Signal raw_data_count_int_corr : integer := 0; begin corrected_almost_empty <= '0'; -- always low ------------------------------------------------------------- -- Combinational Process -- -- Label: CORRECT_RD_CNT -- -- Process Description: -- This process corrects the FIFO Read Count output for the -- auto read function and omits the generation of the -- Almost_Empty flag. -- ------------------------------------------------------------- CORRECT_RD_CNT : process (sig_rddata_valid, sig_SFIFO_empty, raw_data_count_int) begin if (sig_rddata_valid = '0') then raw_data_count_int_corr <= 0; corrected_empty <= '1'; elsif (sig_SFIFO_empty = '1') then -- rddata valid and fifo empty raw_data_count_int_corr <= 1; corrected_empty <= '0'; Elsif (raw_data_count_int = 1) Then -- rddata valid and fifo almost empty raw_data_count_int_corr <= 2; corrected_empty <= '0'; else -- rddata valid and modify rd count from FIFO raw_data_count_int_corr <= raw_data_count_int+1; corrected_empty <= '0'; end if; end process CORRECT_RD_CNT; raw_data_count_corr <= CONV_STD_LOGIC_VECTOR(raw_data_count_int_corr, C_DATA_CNT_WIDTH); end generate OMIT_ALMOST_EMPTY; ------------------------------------------------------------ -- If Generate -- -- Label: INCLUDE_ALMOST_FULL -- -- If Generate Description: -- This IfGen Includes the generation of the Amost_Full flag. -- -- ------------------------------------------------------------ INCLUDE_ALMOST_FULL : if (C_NEED_ALMOST_FULL = 1) generate -- Local Constants Constant ALMOST_FULL_VALUE : integer := 2**(C_DATA_CNT_WIDTH-1)-1; begin SFIFO_Almost_full <= '1' When raw_data_count_int = ALMOST_FULL_VALUE Else '0'; end generate INCLUDE_ALMOST_FULL; ------------------------------------------------------------ -- If Generate -- -- Label: OMIT_ALMOST_FULL -- -- If Generate Description: -- This IfGen Omits the generation of the Amost_Full flag. -- -- ------------------------------------------------------------ OMIT_ALMOST_FULL : if (C_NEED_ALMOST_FULL = 0) generate begin SFIFO_Almost_full <= '0'; -- always low end generate OMIT_ALMOST_FULL; end imp;
entity tb_repro_nat is end tb_repro_nat; library ieee; use ieee.std_logic_1164.all; architecture behav of tb_repro_nat is signal clk : std_logic; signal a : natural; signal b : natural; begin dut: entity work.repro_nat port map ( clk => clk, a => a, b => b); process procedure pulse is begin clk <= '0'; wait for 1 ns; clk <= '1'; wait for 1 ns; end pulse; begin a <= 125; pulse; assert b = 125 severity failure; a <= 7689; pulse; assert b = 7689 severity failure; wait; end process; end behav;
-- (c) Copyright 1995-2017 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. -- -- DO NOT MODIFY THIS FILE. -- IP VLNV: CPE233:F17:Counter10bit:1.0 -- IP Revision: 2 LIBRARY ieee; USE ieee.std_logic_1164.ALL; USE ieee.numeric_std.ALL; ENTITY Program_Counter_Counter10bit_0_1 IS PORT ( Din : IN STD_LOGIC_VECTOR(0 TO 9); LOAD : IN STD_LOGIC; INC : IN STD_LOGIC; RESET : IN STD_LOGIC; CLK : IN STD_LOGIC; COUNT : OUT STD_LOGIC_VECTOR(0 TO 9) ); END Program_Counter_Counter10bit_0_1; ARCHITECTURE Program_Counter_Counter10bit_0_1_arch OF Program_Counter_Counter10bit_0_1 IS ATTRIBUTE DowngradeIPIdentifiedWarnings : STRING; ATTRIBUTE DowngradeIPIdentifiedWarnings OF Program_Counter_Counter10bit_0_1_arch: ARCHITECTURE IS "yes"; COMPONENT Counter10bit IS PORT ( Din : IN STD_LOGIC_VECTOR(0 TO 9); LOAD : IN STD_LOGIC; INC : IN STD_LOGIC; RESET : IN STD_LOGIC; CLK : IN STD_LOGIC; COUNT : OUT STD_LOGIC_VECTOR(0 TO 9) ); END COMPONENT Counter10bit; ATTRIBUTE X_CORE_INFO : STRING; ATTRIBUTE X_CORE_INFO OF Program_Counter_Counter10bit_0_1_arch: ARCHITECTURE IS "Counter10bit,Vivado 2016.4"; ATTRIBUTE CHECK_LICENSE_TYPE : STRING; ATTRIBUTE CHECK_LICENSE_TYPE OF Program_Counter_Counter10bit_0_1_arch : ARCHITECTURE IS "Program_Counter_Counter10bit_0_1,Counter10bit,{}"; ATTRIBUTE X_INTERFACE_INFO : STRING; ATTRIBUTE X_INTERFACE_INFO OF RESET: SIGNAL IS "xilinx.com:signal:reset:1.0 RESET RST"; ATTRIBUTE X_INTERFACE_INFO OF CLK: SIGNAL IS "xilinx.com:signal:clock:1.0 CLK CLK"; BEGIN U0 : Counter10bit PORT MAP ( Din => Din, LOAD => LOAD, INC => INC, RESET => RESET, CLK => CLK, COUNT => COUNT ); END Program_Counter_Counter10bit_0_1_arch;
-- (c) Copyright 1995-2017 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. -- -- DO NOT MODIFY THIS FILE. -- IP VLNV: CPE233:F17:Counter10bit:1.0 -- IP Revision: 2 LIBRARY ieee; USE ieee.std_logic_1164.ALL; USE ieee.numeric_std.ALL; ENTITY Program_Counter_Counter10bit_0_1 IS PORT ( Din : IN STD_LOGIC_VECTOR(0 TO 9); LOAD : IN STD_LOGIC; INC : IN STD_LOGIC; RESET : IN STD_LOGIC; CLK : IN STD_LOGIC; COUNT : OUT STD_LOGIC_VECTOR(0 TO 9) ); END Program_Counter_Counter10bit_0_1; ARCHITECTURE Program_Counter_Counter10bit_0_1_arch OF Program_Counter_Counter10bit_0_1 IS ATTRIBUTE DowngradeIPIdentifiedWarnings : STRING; ATTRIBUTE DowngradeIPIdentifiedWarnings OF Program_Counter_Counter10bit_0_1_arch: ARCHITECTURE IS "yes"; COMPONENT Counter10bit IS PORT ( Din : IN STD_LOGIC_VECTOR(0 TO 9); LOAD : IN STD_LOGIC; INC : IN STD_LOGIC; RESET : IN STD_LOGIC; CLK : IN STD_LOGIC; COUNT : OUT STD_LOGIC_VECTOR(0 TO 9) ); END COMPONENT Counter10bit; ATTRIBUTE X_CORE_INFO : STRING; ATTRIBUTE X_CORE_INFO OF Program_Counter_Counter10bit_0_1_arch: ARCHITECTURE IS "Counter10bit,Vivado 2016.4"; ATTRIBUTE CHECK_LICENSE_TYPE : STRING; ATTRIBUTE CHECK_LICENSE_TYPE OF Program_Counter_Counter10bit_0_1_arch : ARCHITECTURE IS "Program_Counter_Counter10bit_0_1,Counter10bit,{}"; ATTRIBUTE X_INTERFACE_INFO : STRING; ATTRIBUTE X_INTERFACE_INFO OF RESET: SIGNAL IS "xilinx.com:signal:reset:1.0 RESET RST"; ATTRIBUTE X_INTERFACE_INFO OF CLK: SIGNAL IS "xilinx.com:signal:clock:1.0 CLK CLK"; BEGIN U0 : Counter10bit PORT MAP ( Din => Din, LOAD => LOAD, INC => INC, RESET => RESET, CLK => CLK, COUNT => COUNT ); END Program_Counter_Counter10bit_0_1_arch;
-------------------------------------------------------------------------------- -- -- filename: ps2_keyboard.vhd -- dependencies: debounce.vhd -- design software: quartus ii 32-bit version 12.1 build 177 sj full version -- -- hdl code is provided "as is." digi-key expressly disclaims any -- warranty of any kind, whether express or implied, including but not -- limited to, the implied warranties of merchantability, fitness for a -- particular purpose, or non-infringement. in no event shall digi-key -- be liable for any incidental, special, indirect or consequential -- damages, lost profits or lost data, harm to your equipment, cost of -- procurement of substitute goods, technology or services, any claims -- by third parties (including but not limited to any defense thereof), -- any claims for indemnity or contribution, or other similar costs. -- -- version history -- version 1.0 11/25/2013 scott larson -- initial public release -- -------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; entity ps2_keyboard is generic ( clk_freq : integer := 100_000_000 --system clock frequency in hz ); port( clk : in std_logic; --system clock ps2_clk : in std_logic; --clock signal from ps/2 keyboard ps2_data : in std_logic; --data signal from ps/2 keyboard ps2_code_new : out std_logic; --flag that new ps/2 code is available on ps2_code bus ps2_code : out std_logic_vector(7 downto 0)); --code received from ps/2 end ps2_keyboard; architecture logic of ps2_keyboard is signal ps2_clk_int : std_logic; --debounced clock signal from ps/2 keyboard signal ps2_data_int : std_logic; --debounced data signal from ps/2 keyboard signal ps2_word : std_logic_vector(10 downto 0); --stores the ps2 data word signal error : std_logic; --validate parity, start, and stop bits signal count_idle : integer range 0 to clk_freq/18_000; --counter to determine ps/2 is idle begin --synchronizer flip-flops process(clk) begin if(clk'event and clk = '1') then --rising edge of system clock ps2_clk_int <= ps2_clk; --synchronize ps/2 clock signal ps2_data_int <= ps2_data; --synchronize ps/2 data signal end if; end process; --input ps2 data process(ps2_clk_int) begin if(ps2_clk_int'event and ps2_clk_int = '0') then --falling edge of ps2 clock ps2_word <= ps2_data_int & ps2_word(10 downto 1); --shift in ps2 data bit end if; end process; --verify that parity, start, and stop bits are all correct error <= not (not ps2_word(0) and ps2_word(10) and (ps2_word(9) xor ps2_word(8) xor ps2_word(7) xor ps2_word(6) xor ps2_word(5) xor ps2_word(4) xor ps2_word(3) xor ps2_word(2) xor ps2_word(1))); --determine if ps2 port is idle (i.e. last transaction is finished) and output result process(clk) begin if(clk'event and clk = '1') then --rising edge of system clock if(ps2_clk_int = '0') then --low ps2 clock, ps/2 is active count_idle <= 0; --reset idle counter elsif(count_idle /= clk_freq/18_000) then --ps2 clock has been high less than a half clock period (<55us) count_idle <= count_idle + 1; --continue counting end if; if(count_idle = clk_freq/18_000 and error = '0') then --idle threshold reached and no errors detected ps2_code_new <= '1'; --set flag that new ps/2 code is available ps2_code <= ps2_word(8 downto 1); --output new ps/2 code else --ps/2 port active or error detected ps2_code_new <= '0'; --set flag that ps/2 transaction is in progress end if; end if; end process; end logic;
-------------------------------------------------------------------------------- -- -- filename: ps2_keyboard.vhd -- dependencies: debounce.vhd -- design software: quartus ii 32-bit version 12.1 build 177 sj full version -- -- hdl code is provided "as is." digi-key expressly disclaims any -- warranty of any kind, whether express or implied, including but not -- limited to, the implied warranties of merchantability, fitness for a -- particular purpose, or non-infringement. in no event shall digi-key -- be liable for any incidental, special, indirect or consequential -- damages, lost profits or lost data, harm to your equipment, cost of -- procurement of substitute goods, technology or services, any claims -- by third parties (including but not limited to any defense thereof), -- any claims for indemnity or contribution, or other similar costs. -- -- version history -- version 1.0 11/25/2013 scott larson -- initial public release -- -------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; entity ps2_keyboard is generic ( clk_freq : integer := 100_000_000 --system clock frequency in hz ); port( clk : in std_logic; --system clock ps2_clk : in std_logic; --clock signal from ps/2 keyboard ps2_data : in std_logic; --data signal from ps/2 keyboard ps2_code_new : out std_logic; --flag that new ps/2 code is available on ps2_code bus ps2_code : out std_logic_vector(7 downto 0)); --code received from ps/2 end ps2_keyboard; architecture logic of ps2_keyboard is signal ps2_clk_int : std_logic; --debounced clock signal from ps/2 keyboard signal ps2_data_int : std_logic; --debounced data signal from ps/2 keyboard signal ps2_word : std_logic_vector(10 downto 0); --stores the ps2 data word signal error : std_logic; --validate parity, start, and stop bits signal count_idle : integer range 0 to clk_freq/18_000; --counter to determine ps/2 is idle begin --synchronizer flip-flops process(clk) begin if(clk'event and clk = '1') then --rising edge of system clock ps2_clk_int <= ps2_clk; --synchronize ps/2 clock signal ps2_data_int <= ps2_data; --synchronize ps/2 data signal end if; end process; --input ps2 data process(ps2_clk_int) begin if(ps2_clk_int'event and ps2_clk_int = '0') then --falling edge of ps2 clock ps2_word <= ps2_data_int & ps2_word(10 downto 1); --shift in ps2 data bit end if; end process; --verify that parity, start, and stop bits are all correct error <= not (not ps2_word(0) and ps2_word(10) and (ps2_word(9) xor ps2_word(8) xor ps2_word(7) xor ps2_word(6) xor ps2_word(5) xor ps2_word(4) xor ps2_word(3) xor ps2_word(2) xor ps2_word(1))); --determine if ps2 port is idle (i.e. last transaction is finished) and output result process(clk) begin if(clk'event and clk = '1') then --rising edge of system clock if(ps2_clk_int = '0') then --low ps2 clock, ps/2 is active count_idle <= 0; --reset idle counter elsif(count_idle /= clk_freq/18_000) then --ps2 clock has been high less than a half clock period (<55us) count_idle <= count_idle + 1; --continue counting end if; if(count_idle = clk_freq/18_000 and error = '0') then --idle threshold reached and no errors detected ps2_code_new <= '1'; --set flag that new ps/2 code is available ps2_code <= ps2_word(8 downto 1); --output new ps/2 code else --ps/2 port active or error detected ps2_code_new <= '0'; --set flag that ps/2 transaction is in progress end if; end if; end process; end logic;
-- -- UART 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 board; use board.zpu_config.all; use board.zpupkg.all; use board.zpuinopkg.all; entity zpuino_uart is generic ( bits: integer := 11 ); 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(maxIObit downto minIObit); 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; enabled: out std_logic; tx: out std_logic; rx: in std_logic ); end entity zpuino_uart; architecture behave of zpuino_uart is component zpuino_uart_rx is port ( clk: in std_logic; rst: in std_logic; rx: in std_logic; rxclk: in std_logic; read: in std_logic; data: out std_logic_vector(7 downto 0); data_av: out std_logic ); end component zpuino_uart_rx; component TxUnit is port ( clk_i : in std_logic; -- Clock signal reset_i : in std_logic; -- Reset input enable_i : in std_logic; -- Enable input load_i : in std_logic; -- Load input txd_o : out std_logic; -- RS-232 data output busy_o : out std_logic; -- Tx Busy intx_o : out std_logic; -- Tx in progress datai_i : in std_logic_vector(7 downto 0)); -- Byte to transmit end component TxUnit; component uart_brgen is port ( clk: in std_logic; rst: in std_logic; en: in std_logic; count: in std_logic_vector(15 downto 0); clkout: out std_logic ); end component uart_brgen; component fifo is generic ( bits: integer := 11 ); port ( clk: in std_logic; rst: in std_logic; wr: in std_logic; rd: in std_logic; write: in std_logic_vector(7 downto 0); read : out std_logic_vector(7 downto 0); full: out std_logic; empty: out std_logic ); end component fifo; signal uart_read: std_logic; signal uart_write: std_logic; signal divider_tx: std_logic_vector(15 downto 0) := x"000f"; signal divider_rx_q: std_logic_vector(15 downto 0); signal data_ready: std_logic; signal received_data: std_logic_vector(7 downto 0); signal fifo_data: std_logic_vector(7 downto 0); signal uart_busy: std_logic; signal uart_intx: std_logic; signal fifo_empty: std_logic; signal rx_br: std_logic; signal tx_br: std_logic; signal rx_en: std_logic; signal dready_q: std_logic; signal data_ready_dly_q: std_logic; signal fifo_rd: std_logic; signal enabled_q: std_logic; begin enabled <= enabled_q; wb_inta_o <= '0'; wb_ack_o <= wb_cyc_i and wb_stb_i; rx_inst: zpuino_uart_rx port map( clk => wb_clk_i, rst => wb_rst_i, rxclk => rx_br, read => uart_read, rx => rx, data_av => data_ready, data => received_data ); uart_read <= dready_q; tx_core: TxUnit port map( clk_i => wb_clk_i, reset_i => wb_rst_i, enable_i => tx_br, load_i => uart_write, txd_o => tx, busy_o => uart_busy, intx_o => uart_intx, datai_i => wb_dat_i(7 downto 0) ); -- TODO: check multiple writes uart_write <= '1' when (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1') and wb_adr_i(2)='0' else '0'; -- Rx timing rx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => '1', clkout => rx_br, count => divider_rx_q ); -- Tx timing tx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => rx_br, clkout => tx_br, count => divider_tx ); process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then dready_q<='0'; data_ready_dly_q<='0'; else data_ready_dly_q<=data_ready; if data_ready='1' and data_ready_dly_q='0' then dready_q<='1'; else dready_q<='0'; end if; end if; end if; end process; fifo_instance: fifo generic map ( bits => bits ) port map ( clk => wb_clk_i, rst => wb_rst_i, wr => dready_q, rd => fifo_rd, write => received_data, read => fifo_data, full => open, empty => fifo_empty ); fifo_rd<='1' when wb_adr_i(2)='0' and (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='0') else '0'; process(wb_adr_i, received_data, uart_busy, data_ready, fifo_empty, fifo_data,uart_intx) begin case wb_adr_i(2) is when '1' => wb_dat_o <= (others => Undefined); wb_dat_o(0) <= not fifo_empty; wb_dat_o(1) <= uart_busy; wb_dat_o(2) <= uart_intx; when '0' => wb_dat_o <= (others => '0'); wb_dat_o(7 downto 0) <= fifo_data; when others => wb_dat_o <= (others => DontCareValue); end case; end process; process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then enabled_q<='0'; else if wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1' then if wb_adr_i(2)='1' then divider_rx_q <= wb_dat_i(15 downto 0); enabled_q <= wb_dat_i(16); end if; end if; end if; end if; end process; end behave;
-- -- UART 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 board; use board.zpu_config.all; use board.zpupkg.all; use board.zpuinopkg.all; entity zpuino_uart is generic ( bits: integer := 11 ); 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(maxIObit downto minIObit); 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; enabled: out std_logic; tx: out std_logic; rx: in std_logic ); end entity zpuino_uart; architecture behave of zpuino_uart is component zpuino_uart_rx is port ( clk: in std_logic; rst: in std_logic; rx: in std_logic; rxclk: in std_logic; read: in std_logic; data: out std_logic_vector(7 downto 0); data_av: out std_logic ); end component zpuino_uart_rx; component TxUnit is port ( clk_i : in std_logic; -- Clock signal reset_i : in std_logic; -- Reset input enable_i : in std_logic; -- Enable input load_i : in std_logic; -- Load input txd_o : out std_logic; -- RS-232 data output busy_o : out std_logic; -- Tx Busy intx_o : out std_logic; -- Tx in progress datai_i : in std_logic_vector(7 downto 0)); -- Byte to transmit end component TxUnit; component uart_brgen is port ( clk: in std_logic; rst: in std_logic; en: in std_logic; count: in std_logic_vector(15 downto 0); clkout: out std_logic ); end component uart_brgen; component fifo is generic ( bits: integer := 11 ); port ( clk: in std_logic; rst: in std_logic; wr: in std_logic; rd: in std_logic; write: in std_logic_vector(7 downto 0); read : out std_logic_vector(7 downto 0); full: out std_logic; empty: out std_logic ); end component fifo; signal uart_read: std_logic; signal uart_write: std_logic; signal divider_tx: std_logic_vector(15 downto 0) := x"000f"; signal divider_rx_q: std_logic_vector(15 downto 0); signal data_ready: std_logic; signal received_data: std_logic_vector(7 downto 0); signal fifo_data: std_logic_vector(7 downto 0); signal uart_busy: std_logic; signal uart_intx: std_logic; signal fifo_empty: std_logic; signal rx_br: std_logic; signal tx_br: std_logic; signal rx_en: std_logic; signal dready_q: std_logic; signal data_ready_dly_q: std_logic; signal fifo_rd: std_logic; signal enabled_q: std_logic; begin enabled <= enabled_q; wb_inta_o <= '0'; wb_ack_o <= wb_cyc_i and wb_stb_i; rx_inst: zpuino_uart_rx port map( clk => wb_clk_i, rst => wb_rst_i, rxclk => rx_br, read => uart_read, rx => rx, data_av => data_ready, data => received_data ); uart_read <= dready_q; tx_core: TxUnit port map( clk_i => wb_clk_i, reset_i => wb_rst_i, enable_i => tx_br, load_i => uart_write, txd_o => tx, busy_o => uart_busy, intx_o => uart_intx, datai_i => wb_dat_i(7 downto 0) ); -- TODO: check multiple writes uart_write <= '1' when (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1') and wb_adr_i(2)='0' else '0'; -- Rx timing rx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => '1', clkout => rx_br, count => divider_rx_q ); -- Tx timing tx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => rx_br, clkout => tx_br, count => divider_tx ); process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then dready_q<='0'; data_ready_dly_q<='0'; else data_ready_dly_q<=data_ready; if data_ready='1' and data_ready_dly_q='0' then dready_q<='1'; else dready_q<='0'; end if; end if; end if; end process; fifo_instance: fifo generic map ( bits => bits ) port map ( clk => wb_clk_i, rst => wb_rst_i, wr => dready_q, rd => fifo_rd, write => received_data, read => fifo_data, full => open, empty => fifo_empty ); fifo_rd<='1' when wb_adr_i(2)='0' and (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='0') else '0'; process(wb_adr_i, received_data, uart_busy, data_ready, fifo_empty, fifo_data,uart_intx) begin case wb_adr_i(2) is when '1' => wb_dat_o <= (others => Undefined); wb_dat_o(0) <= not fifo_empty; wb_dat_o(1) <= uart_busy; wb_dat_o(2) <= uart_intx; when '0' => wb_dat_o <= (others => '0'); wb_dat_o(7 downto 0) <= fifo_data; when others => wb_dat_o <= (others => DontCareValue); end case; end process; process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then enabled_q<='0'; else if wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1' then if wb_adr_i(2)='1' then divider_rx_q <= wb_dat_i(15 downto 0); enabled_q <= wb_dat_i(16); end if; end if; end if; end if; end process; end behave;
-- -- UART 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 board; use board.zpu_config.all; use board.zpupkg.all; use board.zpuinopkg.all; entity zpuino_uart is generic ( bits: integer := 11 ); 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(maxIObit downto minIObit); 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; enabled: out std_logic; tx: out std_logic; rx: in std_logic ); end entity zpuino_uart; architecture behave of zpuino_uart is component zpuino_uart_rx is port ( clk: in std_logic; rst: in std_logic; rx: in std_logic; rxclk: in std_logic; read: in std_logic; data: out std_logic_vector(7 downto 0); data_av: out std_logic ); end component zpuino_uart_rx; component TxUnit is port ( clk_i : in std_logic; -- Clock signal reset_i : in std_logic; -- Reset input enable_i : in std_logic; -- Enable input load_i : in std_logic; -- Load input txd_o : out std_logic; -- RS-232 data output busy_o : out std_logic; -- Tx Busy intx_o : out std_logic; -- Tx in progress datai_i : in std_logic_vector(7 downto 0)); -- Byte to transmit end component TxUnit; component uart_brgen is port ( clk: in std_logic; rst: in std_logic; en: in std_logic; count: in std_logic_vector(15 downto 0); clkout: out std_logic ); end component uart_brgen; component fifo is generic ( bits: integer := 11 ); port ( clk: in std_logic; rst: in std_logic; wr: in std_logic; rd: in std_logic; write: in std_logic_vector(7 downto 0); read : out std_logic_vector(7 downto 0); full: out std_logic; empty: out std_logic ); end component fifo; signal uart_read: std_logic; signal uart_write: std_logic; signal divider_tx: std_logic_vector(15 downto 0) := x"000f"; signal divider_rx_q: std_logic_vector(15 downto 0); signal data_ready: std_logic; signal received_data: std_logic_vector(7 downto 0); signal fifo_data: std_logic_vector(7 downto 0); signal uart_busy: std_logic; signal uart_intx: std_logic; signal fifo_empty: std_logic; signal rx_br: std_logic; signal tx_br: std_logic; signal rx_en: std_logic; signal dready_q: std_logic; signal data_ready_dly_q: std_logic; signal fifo_rd: std_logic; signal enabled_q: std_logic; begin enabled <= enabled_q; wb_inta_o <= '0'; wb_ack_o <= wb_cyc_i and wb_stb_i; rx_inst: zpuino_uart_rx port map( clk => wb_clk_i, rst => wb_rst_i, rxclk => rx_br, read => uart_read, rx => rx, data_av => data_ready, data => received_data ); uart_read <= dready_q; tx_core: TxUnit port map( clk_i => wb_clk_i, reset_i => wb_rst_i, enable_i => tx_br, load_i => uart_write, txd_o => tx, busy_o => uart_busy, intx_o => uart_intx, datai_i => wb_dat_i(7 downto 0) ); -- TODO: check multiple writes uart_write <= '1' when (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1') and wb_adr_i(2)='0' else '0'; -- Rx timing rx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => '1', clkout => rx_br, count => divider_rx_q ); -- Tx timing tx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => rx_br, clkout => tx_br, count => divider_tx ); process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then dready_q<='0'; data_ready_dly_q<='0'; else data_ready_dly_q<=data_ready; if data_ready='1' and data_ready_dly_q='0' then dready_q<='1'; else dready_q<='0'; end if; end if; end if; end process; fifo_instance: fifo generic map ( bits => bits ) port map ( clk => wb_clk_i, rst => wb_rst_i, wr => dready_q, rd => fifo_rd, write => received_data, read => fifo_data, full => open, empty => fifo_empty ); fifo_rd<='1' when wb_adr_i(2)='0' and (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='0') else '0'; process(wb_adr_i, received_data, uart_busy, data_ready, fifo_empty, fifo_data,uart_intx) begin case wb_adr_i(2) is when '1' => wb_dat_o <= (others => Undefined); wb_dat_o(0) <= not fifo_empty; wb_dat_o(1) <= uart_busy; wb_dat_o(2) <= uart_intx; when '0' => wb_dat_o <= (others => '0'); wb_dat_o(7 downto 0) <= fifo_data; when others => wb_dat_o <= (others => DontCareValue); end case; end process; process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then enabled_q<='0'; else if wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1' then if wb_adr_i(2)='1' then divider_rx_q <= wb_dat_i(15 downto 0); enabled_q <= wb_dat_i(16); end if; end if; end if; end if; end process; end behave;
-- -- UART 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 board; use board.zpu_config.all; use board.zpupkg.all; use board.zpuinopkg.all; entity zpuino_uart is generic ( bits: integer := 11 ); 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(maxIObit downto minIObit); 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; enabled: out std_logic; tx: out std_logic; rx: in std_logic ); end entity zpuino_uart; architecture behave of zpuino_uart is component zpuino_uart_rx is port ( clk: in std_logic; rst: in std_logic; rx: in std_logic; rxclk: in std_logic; read: in std_logic; data: out std_logic_vector(7 downto 0); data_av: out std_logic ); end component zpuino_uart_rx; component TxUnit is port ( clk_i : in std_logic; -- Clock signal reset_i : in std_logic; -- Reset input enable_i : in std_logic; -- Enable input load_i : in std_logic; -- Load input txd_o : out std_logic; -- RS-232 data output busy_o : out std_logic; -- Tx Busy intx_o : out std_logic; -- Tx in progress datai_i : in std_logic_vector(7 downto 0)); -- Byte to transmit end component TxUnit; component uart_brgen is port ( clk: in std_logic; rst: in std_logic; en: in std_logic; count: in std_logic_vector(15 downto 0); clkout: out std_logic ); end component uart_brgen; component fifo is generic ( bits: integer := 11 ); port ( clk: in std_logic; rst: in std_logic; wr: in std_logic; rd: in std_logic; write: in std_logic_vector(7 downto 0); read : out std_logic_vector(7 downto 0); full: out std_logic; empty: out std_logic ); end component fifo; signal uart_read: std_logic; signal uart_write: std_logic; signal divider_tx: std_logic_vector(15 downto 0) := x"000f"; signal divider_rx_q: std_logic_vector(15 downto 0); signal data_ready: std_logic; signal received_data: std_logic_vector(7 downto 0); signal fifo_data: std_logic_vector(7 downto 0); signal uart_busy: std_logic; signal uart_intx: std_logic; signal fifo_empty: std_logic; signal rx_br: std_logic; signal tx_br: std_logic; signal rx_en: std_logic; signal dready_q: std_logic; signal data_ready_dly_q: std_logic; signal fifo_rd: std_logic; signal enabled_q: std_logic; begin enabled <= enabled_q; wb_inta_o <= '0'; wb_ack_o <= wb_cyc_i and wb_stb_i; rx_inst: zpuino_uart_rx port map( clk => wb_clk_i, rst => wb_rst_i, rxclk => rx_br, read => uart_read, rx => rx, data_av => data_ready, data => received_data ); uart_read <= dready_q; tx_core: TxUnit port map( clk_i => wb_clk_i, reset_i => wb_rst_i, enable_i => tx_br, load_i => uart_write, txd_o => tx, busy_o => uart_busy, intx_o => uart_intx, datai_i => wb_dat_i(7 downto 0) ); -- TODO: check multiple writes uart_write <= '1' when (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1') and wb_adr_i(2)='0' else '0'; -- Rx timing rx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => '1', clkout => rx_br, count => divider_rx_q ); -- Tx timing tx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => rx_br, clkout => tx_br, count => divider_tx ); process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then dready_q<='0'; data_ready_dly_q<='0'; else data_ready_dly_q<=data_ready; if data_ready='1' and data_ready_dly_q='0' then dready_q<='1'; else dready_q<='0'; end if; end if; end if; end process; fifo_instance: fifo generic map ( bits => bits ) port map ( clk => wb_clk_i, rst => wb_rst_i, wr => dready_q, rd => fifo_rd, write => received_data, read => fifo_data, full => open, empty => fifo_empty ); fifo_rd<='1' when wb_adr_i(2)='0' and (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='0') else '0'; process(wb_adr_i, received_data, uart_busy, data_ready, fifo_empty, fifo_data,uart_intx) begin case wb_adr_i(2) is when '1' => wb_dat_o <= (others => Undefined); wb_dat_o(0) <= not fifo_empty; wb_dat_o(1) <= uart_busy; wb_dat_o(2) <= uart_intx; when '0' => wb_dat_o <= (others => '0'); wb_dat_o(7 downto 0) <= fifo_data; when others => wb_dat_o <= (others => DontCareValue); end case; end process; process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then enabled_q<='0'; else if wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1' then if wb_adr_i(2)='1' then divider_rx_q <= wb_dat_i(15 downto 0); enabled_q <= wb_dat_i(16); end if; end if; end if; end if; end process; end behave;
-- -- UART 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 board; use board.zpu_config.all; use board.zpupkg.all; use board.zpuinopkg.all; entity zpuino_uart is generic ( bits: integer := 11 ); 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(maxIObit downto minIObit); 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; enabled: out std_logic; tx: out std_logic; rx: in std_logic ); end entity zpuino_uart; architecture behave of zpuino_uart is component zpuino_uart_rx is port ( clk: in std_logic; rst: in std_logic; rx: in std_logic; rxclk: in std_logic; read: in std_logic; data: out std_logic_vector(7 downto 0); data_av: out std_logic ); end component zpuino_uart_rx; component TxUnit is port ( clk_i : in std_logic; -- Clock signal reset_i : in std_logic; -- Reset input enable_i : in std_logic; -- Enable input load_i : in std_logic; -- Load input txd_o : out std_logic; -- RS-232 data output busy_o : out std_logic; -- Tx Busy intx_o : out std_logic; -- Tx in progress datai_i : in std_logic_vector(7 downto 0)); -- Byte to transmit end component TxUnit; component uart_brgen is port ( clk: in std_logic; rst: in std_logic; en: in std_logic; count: in std_logic_vector(15 downto 0); clkout: out std_logic ); end component uart_brgen; component fifo is generic ( bits: integer := 11 ); port ( clk: in std_logic; rst: in std_logic; wr: in std_logic; rd: in std_logic; write: in std_logic_vector(7 downto 0); read : out std_logic_vector(7 downto 0); full: out std_logic; empty: out std_logic ); end component fifo; signal uart_read: std_logic; signal uart_write: std_logic; signal divider_tx: std_logic_vector(15 downto 0) := x"000f"; signal divider_rx_q: std_logic_vector(15 downto 0); signal data_ready: std_logic; signal received_data: std_logic_vector(7 downto 0); signal fifo_data: std_logic_vector(7 downto 0); signal uart_busy: std_logic; signal uart_intx: std_logic; signal fifo_empty: std_logic; signal rx_br: std_logic; signal tx_br: std_logic; signal rx_en: std_logic; signal dready_q: std_logic; signal data_ready_dly_q: std_logic; signal fifo_rd: std_logic; signal enabled_q: std_logic; begin enabled <= enabled_q; wb_inta_o <= '0'; wb_ack_o <= wb_cyc_i and wb_stb_i; rx_inst: zpuino_uart_rx port map( clk => wb_clk_i, rst => wb_rst_i, rxclk => rx_br, read => uart_read, rx => rx, data_av => data_ready, data => received_data ); uart_read <= dready_q; tx_core: TxUnit port map( clk_i => wb_clk_i, reset_i => wb_rst_i, enable_i => tx_br, load_i => uart_write, txd_o => tx, busy_o => uart_busy, intx_o => uart_intx, datai_i => wb_dat_i(7 downto 0) ); -- TODO: check multiple writes uart_write <= '1' when (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1') and wb_adr_i(2)='0' else '0'; -- Rx timing rx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => '1', clkout => rx_br, count => divider_rx_q ); -- Tx timing tx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => rx_br, clkout => tx_br, count => divider_tx ); process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then dready_q<='0'; data_ready_dly_q<='0'; else data_ready_dly_q<=data_ready; if data_ready='1' and data_ready_dly_q='0' then dready_q<='1'; else dready_q<='0'; end if; end if; end if; end process; fifo_instance: fifo generic map ( bits => bits ) port map ( clk => wb_clk_i, rst => wb_rst_i, wr => dready_q, rd => fifo_rd, write => received_data, read => fifo_data, full => open, empty => fifo_empty ); fifo_rd<='1' when wb_adr_i(2)='0' and (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='0') else '0'; process(wb_adr_i, received_data, uart_busy, data_ready, fifo_empty, fifo_data,uart_intx) begin case wb_adr_i(2) is when '1' => wb_dat_o <= (others => Undefined); wb_dat_o(0) <= not fifo_empty; wb_dat_o(1) <= uart_busy; wb_dat_o(2) <= uart_intx; when '0' => wb_dat_o <= (others => '0'); wb_dat_o(7 downto 0) <= fifo_data; when others => wb_dat_o <= (others => DontCareValue); end case; end process; process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then enabled_q<='0'; else if wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1' then if wb_adr_i(2)='1' then divider_rx_q <= wb_dat_i(15 downto 0); enabled_q <= wb_dat_i(16); end if; end if; end if; end if; end process; end behave;
-- -- UART 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 board; use board.zpu_config.all; use board.zpupkg.all; use board.zpuinopkg.all; entity zpuino_uart is generic ( bits: integer := 11 ); 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(maxIObit downto minIObit); 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; enabled: out std_logic; tx: out std_logic; rx: in std_logic ); end entity zpuino_uart; architecture behave of zpuino_uart is component zpuino_uart_rx is port ( clk: in std_logic; rst: in std_logic; rx: in std_logic; rxclk: in std_logic; read: in std_logic; data: out std_logic_vector(7 downto 0); data_av: out std_logic ); end component zpuino_uart_rx; component TxUnit is port ( clk_i : in std_logic; -- Clock signal reset_i : in std_logic; -- Reset input enable_i : in std_logic; -- Enable input load_i : in std_logic; -- Load input txd_o : out std_logic; -- RS-232 data output busy_o : out std_logic; -- Tx Busy intx_o : out std_logic; -- Tx in progress datai_i : in std_logic_vector(7 downto 0)); -- Byte to transmit end component TxUnit; component uart_brgen is port ( clk: in std_logic; rst: in std_logic; en: in std_logic; count: in std_logic_vector(15 downto 0); clkout: out std_logic ); end component uart_brgen; component fifo is generic ( bits: integer := 11 ); port ( clk: in std_logic; rst: in std_logic; wr: in std_logic; rd: in std_logic; write: in std_logic_vector(7 downto 0); read : out std_logic_vector(7 downto 0); full: out std_logic; empty: out std_logic ); end component fifo; signal uart_read: std_logic; signal uart_write: std_logic; signal divider_tx: std_logic_vector(15 downto 0) := x"000f"; signal divider_rx_q: std_logic_vector(15 downto 0); signal data_ready: std_logic; signal received_data: std_logic_vector(7 downto 0); signal fifo_data: std_logic_vector(7 downto 0); signal uart_busy: std_logic; signal uart_intx: std_logic; signal fifo_empty: std_logic; signal rx_br: std_logic; signal tx_br: std_logic; signal rx_en: std_logic; signal dready_q: std_logic; signal data_ready_dly_q: std_logic; signal fifo_rd: std_logic; signal enabled_q: std_logic; begin enabled <= enabled_q; wb_inta_o <= '0'; wb_ack_o <= wb_cyc_i and wb_stb_i; rx_inst: zpuino_uart_rx port map( clk => wb_clk_i, rst => wb_rst_i, rxclk => rx_br, read => uart_read, rx => rx, data_av => data_ready, data => received_data ); uart_read <= dready_q; tx_core: TxUnit port map( clk_i => wb_clk_i, reset_i => wb_rst_i, enable_i => tx_br, load_i => uart_write, txd_o => tx, busy_o => uart_busy, intx_o => uart_intx, datai_i => wb_dat_i(7 downto 0) ); -- TODO: check multiple writes uart_write <= '1' when (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1') and wb_adr_i(2)='0' else '0'; -- Rx timing rx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => '1', clkout => rx_br, count => divider_rx_q ); -- Tx timing tx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => rx_br, clkout => tx_br, count => divider_tx ); process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then dready_q<='0'; data_ready_dly_q<='0'; else data_ready_dly_q<=data_ready; if data_ready='1' and data_ready_dly_q='0' then dready_q<='1'; else dready_q<='0'; end if; end if; end if; end process; fifo_instance: fifo generic map ( bits => bits ) port map ( clk => wb_clk_i, rst => wb_rst_i, wr => dready_q, rd => fifo_rd, write => received_data, read => fifo_data, full => open, empty => fifo_empty ); fifo_rd<='1' when wb_adr_i(2)='0' and (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='0') else '0'; process(wb_adr_i, received_data, uart_busy, data_ready, fifo_empty, fifo_data,uart_intx) begin case wb_adr_i(2) is when '1' => wb_dat_o <= (others => Undefined); wb_dat_o(0) <= not fifo_empty; wb_dat_o(1) <= uart_busy; wb_dat_o(2) <= uart_intx; when '0' => wb_dat_o <= (others => '0'); wb_dat_o(7 downto 0) <= fifo_data; when others => wb_dat_o <= (others => DontCareValue); end case; end process; process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then enabled_q<='0'; else if wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1' then if wb_adr_i(2)='1' then divider_rx_q <= wb_dat_i(15 downto 0); enabled_q <= wb_dat_i(16); end if; end if; end if; end if; end process; end behave;
-- -- UART 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 board; use board.zpu_config.all; use board.zpupkg.all; use board.zpuinopkg.all; entity zpuino_uart is generic ( bits: integer := 11 ); 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(maxIObit downto minIObit); 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; enabled: out std_logic; tx: out std_logic; rx: in std_logic ); end entity zpuino_uart; architecture behave of zpuino_uart is component zpuino_uart_rx is port ( clk: in std_logic; rst: in std_logic; rx: in std_logic; rxclk: in std_logic; read: in std_logic; data: out std_logic_vector(7 downto 0); data_av: out std_logic ); end component zpuino_uart_rx; component TxUnit is port ( clk_i : in std_logic; -- Clock signal reset_i : in std_logic; -- Reset input enable_i : in std_logic; -- Enable input load_i : in std_logic; -- Load input txd_o : out std_logic; -- RS-232 data output busy_o : out std_logic; -- Tx Busy intx_o : out std_logic; -- Tx in progress datai_i : in std_logic_vector(7 downto 0)); -- Byte to transmit end component TxUnit; component uart_brgen is port ( clk: in std_logic; rst: in std_logic; en: in std_logic; count: in std_logic_vector(15 downto 0); clkout: out std_logic ); end component uart_brgen; component fifo is generic ( bits: integer := 11 ); port ( clk: in std_logic; rst: in std_logic; wr: in std_logic; rd: in std_logic; write: in std_logic_vector(7 downto 0); read : out std_logic_vector(7 downto 0); full: out std_logic; empty: out std_logic ); end component fifo; signal uart_read: std_logic; signal uart_write: std_logic; signal divider_tx: std_logic_vector(15 downto 0) := x"000f"; signal divider_rx_q: std_logic_vector(15 downto 0); signal data_ready: std_logic; signal received_data: std_logic_vector(7 downto 0); signal fifo_data: std_logic_vector(7 downto 0); signal uart_busy: std_logic; signal uart_intx: std_logic; signal fifo_empty: std_logic; signal rx_br: std_logic; signal tx_br: std_logic; signal rx_en: std_logic; signal dready_q: std_logic; signal data_ready_dly_q: std_logic; signal fifo_rd: std_logic; signal enabled_q: std_logic; begin enabled <= enabled_q; wb_inta_o <= '0'; wb_ack_o <= wb_cyc_i and wb_stb_i; rx_inst: zpuino_uart_rx port map( clk => wb_clk_i, rst => wb_rst_i, rxclk => rx_br, read => uart_read, rx => rx, data_av => data_ready, data => received_data ); uart_read <= dready_q; tx_core: TxUnit port map( clk_i => wb_clk_i, reset_i => wb_rst_i, enable_i => tx_br, load_i => uart_write, txd_o => tx, busy_o => uart_busy, intx_o => uart_intx, datai_i => wb_dat_i(7 downto 0) ); -- TODO: check multiple writes uart_write <= '1' when (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1') and wb_adr_i(2)='0' else '0'; -- Rx timing rx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => '1', clkout => rx_br, count => divider_rx_q ); -- Tx timing tx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => rx_br, clkout => tx_br, count => divider_tx ); process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then dready_q<='0'; data_ready_dly_q<='0'; else data_ready_dly_q<=data_ready; if data_ready='1' and data_ready_dly_q='0' then dready_q<='1'; else dready_q<='0'; end if; end if; end if; end process; fifo_instance: fifo generic map ( bits => bits ) port map ( clk => wb_clk_i, rst => wb_rst_i, wr => dready_q, rd => fifo_rd, write => received_data, read => fifo_data, full => open, empty => fifo_empty ); fifo_rd<='1' when wb_adr_i(2)='0' and (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='0') else '0'; process(wb_adr_i, received_data, uart_busy, data_ready, fifo_empty, fifo_data,uart_intx) begin case wb_adr_i(2) is when '1' => wb_dat_o <= (others => Undefined); wb_dat_o(0) <= not fifo_empty; wb_dat_o(1) <= uart_busy; wb_dat_o(2) <= uart_intx; when '0' => wb_dat_o <= (others => '0'); wb_dat_o(7 downto 0) <= fifo_data; when others => wb_dat_o <= (others => DontCareValue); end case; end process; process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then enabled_q<='0'; else if wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1' then if wb_adr_i(2)='1' then divider_rx_q <= wb_dat_i(15 downto 0); enabled_q <= wb_dat_i(16); end if; end if; end if; end if; end process; end behave;
-- -- UART 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 board; use board.zpu_config.all; use board.zpupkg.all; use board.zpuinopkg.all; entity zpuino_uart is generic ( bits: integer := 11 ); 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(maxIObit downto minIObit); 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; enabled: out std_logic; tx: out std_logic; rx: in std_logic ); end entity zpuino_uart; architecture behave of zpuino_uart is component zpuino_uart_rx is port ( clk: in std_logic; rst: in std_logic; rx: in std_logic; rxclk: in std_logic; read: in std_logic; data: out std_logic_vector(7 downto 0); data_av: out std_logic ); end component zpuino_uart_rx; component TxUnit is port ( clk_i : in std_logic; -- Clock signal reset_i : in std_logic; -- Reset input enable_i : in std_logic; -- Enable input load_i : in std_logic; -- Load input txd_o : out std_logic; -- RS-232 data output busy_o : out std_logic; -- Tx Busy intx_o : out std_logic; -- Tx in progress datai_i : in std_logic_vector(7 downto 0)); -- Byte to transmit end component TxUnit; component uart_brgen is port ( clk: in std_logic; rst: in std_logic; en: in std_logic; count: in std_logic_vector(15 downto 0); clkout: out std_logic ); end component uart_brgen; component fifo is generic ( bits: integer := 11 ); port ( clk: in std_logic; rst: in std_logic; wr: in std_logic; rd: in std_logic; write: in std_logic_vector(7 downto 0); read : out std_logic_vector(7 downto 0); full: out std_logic; empty: out std_logic ); end component fifo; signal uart_read: std_logic; signal uart_write: std_logic; signal divider_tx: std_logic_vector(15 downto 0) := x"000f"; signal divider_rx_q: std_logic_vector(15 downto 0); signal data_ready: std_logic; signal received_data: std_logic_vector(7 downto 0); signal fifo_data: std_logic_vector(7 downto 0); signal uart_busy: std_logic; signal uart_intx: std_logic; signal fifo_empty: std_logic; signal rx_br: std_logic; signal tx_br: std_logic; signal rx_en: std_logic; signal dready_q: std_logic; signal data_ready_dly_q: std_logic; signal fifo_rd: std_logic; signal enabled_q: std_logic; begin enabled <= enabled_q; wb_inta_o <= '0'; wb_ack_o <= wb_cyc_i and wb_stb_i; rx_inst: zpuino_uart_rx port map( clk => wb_clk_i, rst => wb_rst_i, rxclk => rx_br, read => uart_read, rx => rx, data_av => data_ready, data => received_data ); uart_read <= dready_q; tx_core: TxUnit port map( clk_i => wb_clk_i, reset_i => wb_rst_i, enable_i => tx_br, load_i => uart_write, txd_o => tx, busy_o => uart_busy, intx_o => uart_intx, datai_i => wb_dat_i(7 downto 0) ); -- TODO: check multiple writes uart_write <= '1' when (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1') and wb_adr_i(2)='0' else '0'; -- Rx timing rx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => '1', clkout => rx_br, count => divider_rx_q ); -- Tx timing tx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => rx_br, clkout => tx_br, count => divider_tx ); process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then dready_q<='0'; data_ready_dly_q<='0'; else data_ready_dly_q<=data_ready; if data_ready='1' and data_ready_dly_q='0' then dready_q<='1'; else dready_q<='0'; end if; end if; end if; end process; fifo_instance: fifo generic map ( bits => bits ) port map ( clk => wb_clk_i, rst => wb_rst_i, wr => dready_q, rd => fifo_rd, write => received_data, read => fifo_data, full => open, empty => fifo_empty ); fifo_rd<='1' when wb_adr_i(2)='0' and (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='0') else '0'; process(wb_adr_i, received_data, uart_busy, data_ready, fifo_empty, fifo_data,uart_intx) begin case wb_adr_i(2) is when '1' => wb_dat_o <= (others => Undefined); wb_dat_o(0) <= not fifo_empty; wb_dat_o(1) <= uart_busy; wb_dat_o(2) <= uart_intx; when '0' => wb_dat_o <= (others => '0'); wb_dat_o(7 downto 0) <= fifo_data; when others => wb_dat_o <= (others => DontCareValue); end case; end process; process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then enabled_q<='0'; else if wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1' then if wb_adr_i(2)='1' then divider_rx_q <= wb_dat_i(15 downto 0); enabled_q <= wb_dat_i(16); end if; end if; end if; end if; end process; end behave;
-- -- UART 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 board; use board.zpu_config.all; use board.zpupkg.all; use board.zpuinopkg.all; entity zpuino_uart is generic ( bits: integer := 11 ); 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(maxIObit downto minIObit); 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; enabled: out std_logic; tx: out std_logic; rx: in std_logic ); end entity zpuino_uart; architecture behave of zpuino_uart is component zpuino_uart_rx is port ( clk: in std_logic; rst: in std_logic; rx: in std_logic; rxclk: in std_logic; read: in std_logic; data: out std_logic_vector(7 downto 0); data_av: out std_logic ); end component zpuino_uart_rx; component TxUnit is port ( clk_i : in std_logic; -- Clock signal reset_i : in std_logic; -- Reset input enable_i : in std_logic; -- Enable input load_i : in std_logic; -- Load input txd_o : out std_logic; -- RS-232 data output busy_o : out std_logic; -- Tx Busy intx_o : out std_logic; -- Tx in progress datai_i : in std_logic_vector(7 downto 0)); -- Byte to transmit end component TxUnit; component uart_brgen is port ( clk: in std_logic; rst: in std_logic; en: in std_logic; count: in std_logic_vector(15 downto 0); clkout: out std_logic ); end component uart_brgen; component fifo is generic ( bits: integer := 11 ); port ( clk: in std_logic; rst: in std_logic; wr: in std_logic; rd: in std_logic; write: in std_logic_vector(7 downto 0); read : out std_logic_vector(7 downto 0); full: out std_logic; empty: out std_logic ); end component fifo; signal uart_read: std_logic; signal uart_write: std_logic; signal divider_tx: std_logic_vector(15 downto 0) := x"000f"; signal divider_rx_q: std_logic_vector(15 downto 0); signal data_ready: std_logic; signal received_data: std_logic_vector(7 downto 0); signal fifo_data: std_logic_vector(7 downto 0); signal uart_busy: std_logic; signal uart_intx: std_logic; signal fifo_empty: std_logic; signal rx_br: std_logic; signal tx_br: std_logic; signal rx_en: std_logic; signal dready_q: std_logic; signal data_ready_dly_q: std_logic; signal fifo_rd: std_logic; signal enabled_q: std_logic; begin enabled <= enabled_q; wb_inta_o <= '0'; wb_ack_o <= wb_cyc_i and wb_stb_i; rx_inst: zpuino_uart_rx port map( clk => wb_clk_i, rst => wb_rst_i, rxclk => rx_br, read => uart_read, rx => rx, data_av => data_ready, data => received_data ); uart_read <= dready_q; tx_core: TxUnit port map( clk_i => wb_clk_i, reset_i => wb_rst_i, enable_i => tx_br, load_i => uart_write, txd_o => tx, busy_o => uart_busy, intx_o => uart_intx, datai_i => wb_dat_i(7 downto 0) ); -- TODO: check multiple writes uart_write <= '1' when (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1') and wb_adr_i(2)='0' else '0'; -- Rx timing rx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => '1', clkout => rx_br, count => divider_rx_q ); -- Tx timing tx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => rx_br, clkout => tx_br, count => divider_tx ); process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then dready_q<='0'; data_ready_dly_q<='0'; else data_ready_dly_q<=data_ready; if data_ready='1' and data_ready_dly_q='0' then dready_q<='1'; else dready_q<='0'; end if; end if; end if; end process; fifo_instance: fifo generic map ( bits => bits ) port map ( clk => wb_clk_i, rst => wb_rst_i, wr => dready_q, rd => fifo_rd, write => received_data, read => fifo_data, full => open, empty => fifo_empty ); fifo_rd<='1' when wb_adr_i(2)='0' and (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='0') else '0'; process(wb_adr_i, received_data, uart_busy, data_ready, fifo_empty, fifo_data,uart_intx) begin case wb_adr_i(2) is when '1' => wb_dat_o <= (others => Undefined); wb_dat_o(0) <= not fifo_empty; wb_dat_o(1) <= uart_busy; wb_dat_o(2) <= uart_intx; when '0' => wb_dat_o <= (others => '0'); wb_dat_o(7 downto 0) <= fifo_data; when others => wb_dat_o <= (others => DontCareValue); end case; end process; process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then enabled_q<='0'; else if wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1' then if wb_adr_i(2)='1' then divider_rx_q <= wb_dat_i(15 downto 0); enabled_q <= wb_dat_i(16); end if; end if; end if; end if; end process; end behave;
-- -- UART 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 board; use board.zpu_config.all; use board.zpupkg.all; use board.zpuinopkg.all; entity zpuino_uart is generic ( bits: integer := 11 ); 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(maxIObit downto minIObit); 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; enabled: out std_logic; tx: out std_logic; rx: in std_logic ); end entity zpuino_uart; architecture behave of zpuino_uart is component zpuino_uart_rx is port ( clk: in std_logic; rst: in std_logic; rx: in std_logic; rxclk: in std_logic; read: in std_logic; data: out std_logic_vector(7 downto 0); data_av: out std_logic ); end component zpuino_uart_rx; component TxUnit is port ( clk_i : in std_logic; -- Clock signal reset_i : in std_logic; -- Reset input enable_i : in std_logic; -- Enable input load_i : in std_logic; -- Load input txd_o : out std_logic; -- RS-232 data output busy_o : out std_logic; -- Tx Busy intx_o : out std_logic; -- Tx in progress datai_i : in std_logic_vector(7 downto 0)); -- Byte to transmit end component TxUnit; component uart_brgen is port ( clk: in std_logic; rst: in std_logic; en: in std_logic; count: in std_logic_vector(15 downto 0); clkout: out std_logic ); end component uart_brgen; component fifo is generic ( bits: integer := 11 ); port ( clk: in std_logic; rst: in std_logic; wr: in std_logic; rd: in std_logic; write: in std_logic_vector(7 downto 0); read : out std_logic_vector(7 downto 0); full: out std_logic; empty: out std_logic ); end component fifo; signal uart_read: std_logic; signal uart_write: std_logic; signal divider_tx: std_logic_vector(15 downto 0) := x"000f"; signal divider_rx_q: std_logic_vector(15 downto 0); signal data_ready: std_logic; signal received_data: std_logic_vector(7 downto 0); signal fifo_data: std_logic_vector(7 downto 0); signal uart_busy: std_logic; signal uart_intx: std_logic; signal fifo_empty: std_logic; signal rx_br: std_logic; signal tx_br: std_logic; signal rx_en: std_logic; signal dready_q: std_logic; signal data_ready_dly_q: std_logic; signal fifo_rd: std_logic; signal enabled_q: std_logic; begin enabled <= enabled_q; wb_inta_o <= '0'; wb_ack_o <= wb_cyc_i and wb_stb_i; rx_inst: zpuino_uart_rx port map( clk => wb_clk_i, rst => wb_rst_i, rxclk => rx_br, read => uart_read, rx => rx, data_av => data_ready, data => received_data ); uart_read <= dready_q; tx_core: TxUnit port map( clk_i => wb_clk_i, reset_i => wb_rst_i, enable_i => tx_br, load_i => uart_write, txd_o => tx, busy_o => uart_busy, intx_o => uart_intx, datai_i => wb_dat_i(7 downto 0) ); -- TODO: check multiple writes uart_write <= '1' when (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1') and wb_adr_i(2)='0' else '0'; -- Rx timing rx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => '1', clkout => rx_br, count => divider_rx_q ); -- Tx timing tx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => rx_br, clkout => tx_br, count => divider_tx ); process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then dready_q<='0'; data_ready_dly_q<='0'; else data_ready_dly_q<=data_ready; if data_ready='1' and data_ready_dly_q='0' then dready_q<='1'; else dready_q<='0'; end if; end if; end if; end process; fifo_instance: fifo generic map ( bits => bits ) port map ( clk => wb_clk_i, rst => wb_rst_i, wr => dready_q, rd => fifo_rd, write => received_data, read => fifo_data, full => open, empty => fifo_empty ); fifo_rd<='1' when wb_adr_i(2)='0' and (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='0') else '0'; process(wb_adr_i, received_data, uart_busy, data_ready, fifo_empty, fifo_data,uart_intx) begin case wb_adr_i(2) is when '1' => wb_dat_o <= (others => Undefined); wb_dat_o(0) <= not fifo_empty; wb_dat_o(1) <= uart_busy; wb_dat_o(2) <= uart_intx; when '0' => wb_dat_o <= (others => '0'); wb_dat_o(7 downto 0) <= fifo_data; when others => wb_dat_o <= (others => DontCareValue); end case; end process; process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then enabled_q<='0'; else if wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1' then if wb_adr_i(2)='1' then divider_rx_q <= wb_dat_i(15 downto 0); enabled_q <= wb_dat_i(16); end if; end if; end if; end if; end process; end behave;
-- -- UART 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 board; use board.zpu_config.all; use board.zpupkg.all; use board.zpuinopkg.all; entity zpuino_uart is generic ( bits: integer := 11 ); 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(maxIObit downto minIObit); 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; enabled: out std_logic; tx: out std_logic; rx: in std_logic ); end entity zpuino_uart; architecture behave of zpuino_uart is component zpuino_uart_rx is port ( clk: in std_logic; rst: in std_logic; rx: in std_logic; rxclk: in std_logic; read: in std_logic; data: out std_logic_vector(7 downto 0); data_av: out std_logic ); end component zpuino_uart_rx; component TxUnit is port ( clk_i : in std_logic; -- Clock signal reset_i : in std_logic; -- Reset input enable_i : in std_logic; -- Enable input load_i : in std_logic; -- Load input txd_o : out std_logic; -- RS-232 data output busy_o : out std_logic; -- Tx Busy intx_o : out std_logic; -- Tx in progress datai_i : in std_logic_vector(7 downto 0)); -- Byte to transmit end component TxUnit; component uart_brgen is port ( clk: in std_logic; rst: in std_logic; en: in std_logic; count: in std_logic_vector(15 downto 0); clkout: out std_logic ); end component uart_brgen; component fifo is generic ( bits: integer := 11 ); port ( clk: in std_logic; rst: in std_logic; wr: in std_logic; rd: in std_logic; write: in std_logic_vector(7 downto 0); read : out std_logic_vector(7 downto 0); full: out std_logic; empty: out std_logic ); end component fifo; signal uart_read: std_logic; signal uart_write: std_logic; signal divider_tx: std_logic_vector(15 downto 0) := x"000f"; signal divider_rx_q: std_logic_vector(15 downto 0); signal data_ready: std_logic; signal received_data: std_logic_vector(7 downto 0); signal fifo_data: std_logic_vector(7 downto 0); signal uart_busy: std_logic; signal uart_intx: std_logic; signal fifo_empty: std_logic; signal rx_br: std_logic; signal tx_br: std_logic; signal rx_en: std_logic; signal dready_q: std_logic; signal data_ready_dly_q: std_logic; signal fifo_rd: std_logic; signal enabled_q: std_logic; begin enabled <= enabled_q; wb_inta_o <= '0'; wb_ack_o <= wb_cyc_i and wb_stb_i; rx_inst: zpuino_uart_rx port map( clk => wb_clk_i, rst => wb_rst_i, rxclk => rx_br, read => uart_read, rx => rx, data_av => data_ready, data => received_data ); uart_read <= dready_q; tx_core: TxUnit port map( clk_i => wb_clk_i, reset_i => wb_rst_i, enable_i => tx_br, load_i => uart_write, txd_o => tx, busy_o => uart_busy, intx_o => uart_intx, datai_i => wb_dat_i(7 downto 0) ); -- TODO: check multiple writes uart_write <= '1' when (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1') and wb_adr_i(2)='0' else '0'; -- Rx timing rx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => '1', clkout => rx_br, count => divider_rx_q ); -- Tx timing tx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => rx_br, clkout => tx_br, count => divider_tx ); process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then dready_q<='0'; data_ready_dly_q<='0'; else data_ready_dly_q<=data_ready; if data_ready='1' and data_ready_dly_q='0' then dready_q<='1'; else dready_q<='0'; end if; end if; end if; end process; fifo_instance: fifo generic map ( bits => bits ) port map ( clk => wb_clk_i, rst => wb_rst_i, wr => dready_q, rd => fifo_rd, write => received_data, read => fifo_data, full => open, empty => fifo_empty ); fifo_rd<='1' when wb_adr_i(2)='0' and (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='0') else '0'; process(wb_adr_i, received_data, uart_busy, data_ready, fifo_empty, fifo_data,uart_intx) begin case wb_adr_i(2) is when '1' => wb_dat_o <= (others => Undefined); wb_dat_o(0) <= not fifo_empty; wb_dat_o(1) <= uart_busy; wb_dat_o(2) <= uart_intx; when '0' => wb_dat_o <= (others => '0'); wb_dat_o(7 downto 0) <= fifo_data; when others => wb_dat_o <= (others => DontCareValue); end case; end process; process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then enabled_q<='0'; else if wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1' then if wb_adr_i(2)='1' then divider_rx_q <= wb_dat_i(15 downto 0); enabled_q <= wb_dat_i(16); end if; end if; end if; end if; end process; end behave;
-- -- UART 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 board; use board.zpu_config.all; use board.zpupkg.all; use board.zpuinopkg.all; entity zpuino_uart is generic ( bits: integer := 11 ); 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(maxIObit downto minIObit); 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; enabled: out std_logic; tx: out std_logic; rx: in std_logic ); end entity zpuino_uart; architecture behave of zpuino_uart is component zpuino_uart_rx is port ( clk: in std_logic; rst: in std_logic; rx: in std_logic; rxclk: in std_logic; read: in std_logic; data: out std_logic_vector(7 downto 0); data_av: out std_logic ); end component zpuino_uart_rx; component TxUnit is port ( clk_i : in std_logic; -- Clock signal reset_i : in std_logic; -- Reset input enable_i : in std_logic; -- Enable input load_i : in std_logic; -- Load input txd_o : out std_logic; -- RS-232 data output busy_o : out std_logic; -- Tx Busy intx_o : out std_logic; -- Tx in progress datai_i : in std_logic_vector(7 downto 0)); -- Byte to transmit end component TxUnit; component uart_brgen is port ( clk: in std_logic; rst: in std_logic; en: in std_logic; count: in std_logic_vector(15 downto 0); clkout: out std_logic ); end component uart_brgen; component fifo is generic ( bits: integer := 11 ); port ( clk: in std_logic; rst: in std_logic; wr: in std_logic; rd: in std_logic; write: in std_logic_vector(7 downto 0); read : out std_logic_vector(7 downto 0); full: out std_logic; empty: out std_logic ); end component fifo; signal uart_read: std_logic; signal uart_write: std_logic; signal divider_tx: std_logic_vector(15 downto 0) := x"000f"; signal divider_rx_q: std_logic_vector(15 downto 0); signal data_ready: std_logic; signal received_data: std_logic_vector(7 downto 0); signal fifo_data: std_logic_vector(7 downto 0); signal uart_busy: std_logic; signal uart_intx: std_logic; signal fifo_empty: std_logic; signal rx_br: std_logic; signal tx_br: std_logic; signal rx_en: std_logic; signal dready_q: std_logic; signal data_ready_dly_q: std_logic; signal fifo_rd: std_logic; signal enabled_q: std_logic; begin enabled <= enabled_q; wb_inta_o <= '0'; wb_ack_o <= wb_cyc_i and wb_stb_i; rx_inst: zpuino_uart_rx port map( clk => wb_clk_i, rst => wb_rst_i, rxclk => rx_br, read => uart_read, rx => rx, data_av => data_ready, data => received_data ); uart_read <= dready_q; tx_core: TxUnit port map( clk_i => wb_clk_i, reset_i => wb_rst_i, enable_i => tx_br, load_i => uart_write, txd_o => tx, busy_o => uart_busy, intx_o => uart_intx, datai_i => wb_dat_i(7 downto 0) ); -- TODO: check multiple writes uart_write <= '1' when (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1') and wb_adr_i(2)='0' else '0'; -- Rx timing rx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => '1', clkout => rx_br, count => divider_rx_q ); -- Tx timing tx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => rx_br, clkout => tx_br, count => divider_tx ); process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then dready_q<='0'; data_ready_dly_q<='0'; else data_ready_dly_q<=data_ready; if data_ready='1' and data_ready_dly_q='0' then dready_q<='1'; else dready_q<='0'; end if; end if; end if; end process; fifo_instance: fifo generic map ( bits => bits ) port map ( clk => wb_clk_i, rst => wb_rst_i, wr => dready_q, rd => fifo_rd, write => received_data, read => fifo_data, full => open, empty => fifo_empty ); fifo_rd<='1' when wb_adr_i(2)='0' and (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='0') else '0'; process(wb_adr_i, received_data, uart_busy, data_ready, fifo_empty, fifo_data,uart_intx) begin case wb_adr_i(2) is when '1' => wb_dat_o <= (others => Undefined); wb_dat_o(0) <= not fifo_empty; wb_dat_o(1) <= uart_busy; wb_dat_o(2) <= uart_intx; when '0' => wb_dat_o <= (others => '0'); wb_dat_o(7 downto 0) <= fifo_data; when others => wb_dat_o <= (others => DontCareValue); end case; end process; process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then enabled_q<='0'; else if wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1' then if wb_adr_i(2)='1' then divider_rx_q <= wb_dat_i(15 downto 0); enabled_q <= wb_dat_i(16); end if; end if; end if; end if; end process; end behave;
-- -- UART 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 board; use board.zpu_config.all; use board.zpupkg.all; use board.zpuinopkg.all; entity zpuino_uart is generic ( bits: integer := 11 ); 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(maxIObit downto minIObit); 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; enabled: out std_logic; tx: out std_logic; rx: in std_logic ); end entity zpuino_uart; architecture behave of zpuino_uart is component zpuino_uart_rx is port ( clk: in std_logic; rst: in std_logic; rx: in std_logic; rxclk: in std_logic; read: in std_logic; data: out std_logic_vector(7 downto 0); data_av: out std_logic ); end component zpuino_uart_rx; component TxUnit is port ( clk_i : in std_logic; -- Clock signal reset_i : in std_logic; -- Reset input enable_i : in std_logic; -- Enable input load_i : in std_logic; -- Load input txd_o : out std_logic; -- RS-232 data output busy_o : out std_logic; -- Tx Busy intx_o : out std_logic; -- Tx in progress datai_i : in std_logic_vector(7 downto 0)); -- Byte to transmit end component TxUnit; component uart_brgen is port ( clk: in std_logic; rst: in std_logic; en: in std_logic; count: in std_logic_vector(15 downto 0); clkout: out std_logic ); end component uart_brgen; component fifo is generic ( bits: integer := 11 ); port ( clk: in std_logic; rst: in std_logic; wr: in std_logic; rd: in std_logic; write: in std_logic_vector(7 downto 0); read : out std_logic_vector(7 downto 0); full: out std_logic; empty: out std_logic ); end component fifo; signal uart_read: std_logic; signal uart_write: std_logic; signal divider_tx: std_logic_vector(15 downto 0) := x"000f"; signal divider_rx_q: std_logic_vector(15 downto 0); signal data_ready: std_logic; signal received_data: std_logic_vector(7 downto 0); signal fifo_data: std_logic_vector(7 downto 0); signal uart_busy: std_logic; signal uart_intx: std_logic; signal fifo_empty: std_logic; signal rx_br: std_logic; signal tx_br: std_logic; signal rx_en: std_logic; signal dready_q: std_logic; signal data_ready_dly_q: std_logic; signal fifo_rd: std_logic; signal enabled_q: std_logic; begin enabled <= enabled_q; wb_inta_o <= '0'; wb_ack_o <= wb_cyc_i and wb_stb_i; rx_inst: zpuino_uart_rx port map( clk => wb_clk_i, rst => wb_rst_i, rxclk => rx_br, read => uart_read, rx => rx, data_av => data_ready, data => received_data ); uart_read <= dready_q; tx_core: TxUnit port map( clk_i => wb_clk_i, reset_i => wb_rst_i, enable_i => tx_br, load_i => uart_write, txd_o => tx, busy_o => uart_busy, intx_o => uart_intx, datai_i => wb_dat_i(7 downto 0) ); -- TODO: check multiple writes uart_write <= '1' when (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1') and wb_adr_i(2)='0' else '0'; -- Rx timing rx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => '1', clkout => rx_br, count => divider_rx_q ); -- Tx timing tx_timer: uart_brgen port map( clk => wb_clk_i, rst => wb_rst_i, en => rx_br, clkout => tx_br, count => divider_tx ); process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then dready_q<='0'; data_ready_dly_q<='0'; else data_ready_dly_q<=data_ready; if data_ready='1' and data_ready_dly_q='0' then dready_q<='1'; else dready_q<='0'; end if; end if; end if; end process; fifo_instance: fifo generic map ( bits => bits ) port map ( clk => wb_clk_i, rst => wb_rst_i, wr => dready_q, rd => fifo_rd, write => received_data, read => fifo_data, full => open, empty => fifo_empty ); fifo_rd<='1' when wb_adr_i(2)='0' and (wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='0') else '0'; process(wb_adr_i, received_data, uart_busy, data_ready, fifo_empty, fifo_data,uart_intx) begin case wb_adr_i(2) is when '1' => wb_dat_o <= (others => Undefined); wb_dat_o(0) <= not fifo_empty; wb_dat_o(1) <= uart_busy; wb_dat_o(2) <= uart_intx; when '0' => wb_dat_o <= (others => '0'); wb_dat_o(7 downto 0) <= fifo_data; when others => wb_dat_o <= (others => DontCareValue); end case; end process; process(wb_clk_i) begin if rising_edge(wb_clk_i) then if wb_rst_i='1' then enabled_q<='0'; else if wb_cyc_i='1' and wb_stb_i='1' and wb_we_i='1' then if wb_adr_i(2)='1' then divider_rx_q <= wb_dat_i(15 downto 0); enabled_q <= wb_dat_i(16); end if; end if; end if; end if; end process; end behave;
-- 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: tc718.vhd,v 1.2 2001-10-26 16:30:27 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY IS END c01s01b00x00p02n01i00718ent; -- missing identifier ARCHITECTURE c01s01b00x00p02n01i00718arch OF c01s01b00x00p02n01i00718ent IS BEGIN TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c01s01b00x00p02n01i00718 - Missing identifier." severity ERROR; wait; END PROCESS TESTING; END c01s01b00x00p02n01i00718arch;
-- 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: tc718.vhd,v 1.2 2001-10-26 16:30:27 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY IS END c01s01b00x00p02n01i00718ent; -- missing identifier ARCHITECTURE c01s01b00x00p02n01i00718arch OF c01s01b00x00p02n01i00718ent IS BEGIN TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c01s01b00x00p02n01i00718 - Missing identifier." severity ERROR; wait; END PROCESS TESTING; END c01s01b00x00p02n01i00718arch;
-- 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: tc718.vhd,v 1.2 2001-10-26 16:30:27 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY IS END c01s01b00x00p02n01i00718ent; -- missing identifier ARCHITECTURE c01s01b00x00p02n01i00718arch OF c01s01b00x00p02n01i00718ent IS BEGIN TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c01s01b00x00p02n01i00718 - Missing identifier." severity ERROR; wait; END PROCESS TESTING; END c01s01b00x00p02n01i00718arch;
---------------------------------------------------------------------------------- -- Engineer: Longofono -- Create Date: 04/25/2017 09:59:28 PM -- Description: Accelerometer Interface Circuit -- -- The circuit makes use of the accelerometer driver and its internal SPI -- controller to continuously poll the accelerometer for movement. When -- movement beyond a threshold is detected along any axis of motion, the -- erase signal is asserted, signalling upstream that the canvas should be -- erased (equivalent to system reset). -- -- As is, the accelerometer module outputs a 12 bit 2's complement number -- representing the acceleration in the x, y, and z directions. We don't -- necessarily care what direction it is changing in, only that it is not -- stationary. The accelerometer is quite sensitive, so we look at the -- two highest bits in each return value to judge movement. -- -- Written for use with the SPI interface and ADXL362Ctrl modules provided on -- the Nexys4 Github site. Accessed 4/25/2017: -- https://github.com/Digilent/Nexys4/tree/master/Projects/User_Demo/src/hdl -- ---------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; entity accel is generic(system_freq : integer := 100000000; -- System clock speed serial_freq : integer := 1000000; -- SPI clock speed average_window : integer := 16; -- Average this many samples update_frequency : integer := 100); -- Update at this rate port(clk, rst : in std_logic; shaking : out std_logic; -- Output to upstream SCLK : out std_logic; -- SPI clock MOSI : out std_logic; -- SPI Master output MISO : in std_logic; -- SPI Master input SS : out std_logic); -- SPI Slave select end accel; architecture behave of accel is -- Accelerometer control module component ADXL362Ctrl generic(SYSCLK_FREQUENCY_HZ : integer := 100000000; SCLK_FREQUENCY_HZ : integer := 1000000; NUM_READS_AVG : integer := 16; UPDATE_FREQUENCY_HZ : integer := 1000); port(SYSCLK : in STD_LOGIC; -- System Clock RESET : in STD_LOGIC; -- Accelerometer data signals ACCEL_X : out STD_LOGIC_VECTOR (11 downto 0); ACCEL_Y : out STD_LOGIC_VECTOR (11 downto 0); ACCEL_Z : out STD_LOGIC_VECTOR (11 downto 0); -- Accumulator for temporary sum (averaging) ACCEL_TMP : out STD_LOGIC_VECTOR (11 downto 0); -- Flag data is ready to read Data_Ready : out STD_LOGIC; --SPI Interface Signals for internal SPI controller SCLK : out STD_LOGIC; MOSI : out STD_LOGIC; MISO : in STD_LOGIC; SS : out STD_LOGIC ); end component; -- Catch return values from accelerometer signal x_val : std_logic_vector(11 downto 0); signal y_val : std_logic_vector(11 downto 0); signal z_val : std_logic_vector(11 downto 0); -- Used for averaging as an accumulator signal acc_tmp : std_logic_vector(11 downto 0); -- Catch value of hightest two acceleration bits signal out_val : std_logic; -- Catch interrupt that data is ready to read signal s_data : std_logic; begin -- architecture -- Accelerometer unit ACC_UNIT: ADXL362Ctrl generic map(SYSCLK_FREQUENCY_HZ => system_freq, SCLK_FREQUENCY_HZ => serial_freq, NUM_READS_AVG => average_window, UPDATE_FREQUENCY_HZ => update_frequency) port map(SYSCLK => clk, RESET => rst, ACCEL_X => x_val, ACCEL_Y => y_val, ACCEL_Z => z_val, ACCEL_TMP => acc_tmp, Data_Ready => s_data, SCLK => SCLK, MOSI => MOSI, MISO => MISO, SS => SS); -- Poll s_data, then gather values process(s_data, rst) begin if('1' = rst) then out_val <= '0'; elsif('1' = s_data) then -- Negative logic... out_val <= not( ( (x_val(10) and x_val(9)) or (y_val(10) and y_val(9)) or (z_val(10) and z_val(9)) ) ); end if; end process; -- Assign output value for upstream modules shaking <= out_val; end behave;
-- megafunction wizard: %RAM: 1-PORT% -- GENERATION: STANDARD -- VERSION: WM1.0 -- MODULE: altsyncram -- ============================================================ -- File Name: RAM.vhd -- Megafunction Name(s): -- altsyncram -- -- Simulation Library Files(s): -- altera_mf -- ============================================================ -- ************************************************************ -- THIS IS A WIZARD-GENERATED FILE. DO NOT EDIT THIS FILE! -- -- 13.0.1 Build 232 06/12/2013 SP 1 SJ Web Edition -- ************************************************************ --Copyright (C) 1991-2013 Altera Corporation --Your use of Altera Corporation's design tools, logic functions --and other software and tools, and its AMPP partner logic --functions, and any output files from any of the foregoing --(including device programming or simulation files), and any --associated documentation or information are expressly subject --to the terms and conditions of the Altera Program License --Subscription Agreement, Altera MegaCore Function License --Agreement, or other applicable license agreement, including, --without limitation, that your use is for the sole purpose of --programming logic devices manufactured by Altera and sold by --Altera or its authorized distributors. Please refer to the --applicable agreement for further details. LIBRARY ieee; USE ieee.std_logic_1164.all; LIBRARY altera_mf; USE altera_mf.all; ENTITY RAM IS PORT ( address : IN STD_LOGIC_VECTOR (14 DOWNTO 0); clock : IN STD_LOGIC := '1'; data : IN STD_LOGIC_VECTOR (15 DOWNTO 0); wren : IN STD_LOGIC ; q : OUT STD_LOGIC_VECTOR (15 DOWNTO 0) ); END RAM; ARCHITECTURE SYN OF ram IS SIGNAL sub_wire0 : STD_LOGIC_VECTOR (15 DOWNTO 0); COMPONENT altsyncram GENERIC ( clock_enable_input_a : STRING; clock_enable_output_a : STRING; init_file : STRING; intended_device_family : STRING; lpm_hint : STRING; lpm_type : STRING; numwords_a : NATURAL; operation_mode : STRING; outdata_aclr_a : STRING; outdata_reg_a : STRING; power_up_uninitialized : STRING; widthad_a : NATURAL; width_a : NATURAL; width_byteena_a : NATURAL ); PORT ( address_a : IN STD_LOGIC_VECTOR (14 DOWNTO 0); clock0 : IN STD_LOGIC ; data_a : IN STD_LOGIC_VECTOR (15 DOWNTO 0); wren_a : IN STD_LOGIC ; q_a : OUT STD_LOGIC_VECTOR (15 DOWNTO 0) ); END COMPONENT; BEGIN q <= sub_wire0(15 DOWNTO 0); altsyncram_component : altsyncram GENERIC MAP ( clock_enable_input_a => "BYPASS", clock_enable_output_a => "BYPASS", init_file => "cpuram.mif", intended_device_family => "Cyclone II", lpm_hint => "ENABLE_RUNTIME_MOD=NO", lpm_type => "altsyncram", numwords_a => 32768, operation_mode => "SINGLE_PORT", outdata_aclr_a => "NONE", outdata_reg_a => "CLOCK0", power_up_uninitialized => "FALSE", widthad_a => 15, width_a => 16, width_byteena_a => 1 ) PORT MAP ( address_a => address, clock0 => clock, data_a => data, wren_a => wren, q_a => sub_wire0 ); END SYN; -- ============================================================ -- CNX file retrieval info -- ============================================================ -- Retrieval info: PRIVATE: ADDRESSSTALL_A NUMERIC "0" -- Retrieval info: PRIVATE: AclrAddr NUMERIC "0" -- Retrieval info: PRIVATE: AclrByte NUMERIC "0" -- Retrieval info: PRIVATE: AclrData NUMERIC "0" -- Retrieval info: PRIVATE: AclrOutput NUMERIC "0" -- Retrieval info: PRIVATE: BYTE_ENABLE NUMERIC "0" -- Retrieval info: PRIVATE: BYTE_SIZE NUMERIC "8" -- Retrieval info: PRIVATE: BlankMemory NUMERIC "0" -- Retrieval info: PRIVATE: CLOCK_ENABLE_INPUT_A NUMERIC "0" -- Retrieval info: PRIVATE: CLOCK_ENABLE_OUTPUT_A NUMERIC "0" -- Retrieval info: PRIVATE: Clken NUMERIC "0" -- Retrieval info: PRIVATE: DataBusSeparated NUMERIC "1" -- Retrieval info: PRIVATE: IMPLEMENT_IN_LES NUMERIC "0" -- Retrieval info: PRIVATE: INIT_FILE_LAYOUT STRING "PORT_A" -- Retrieval info: PRIVATE: INIT_TO_SIM_X NUMERIC "0" -- Retrieval info: PRIVATE: INTENDED_DEVICE_FAMILY STRING "Cyclone II" -- Retrieval info: PRIVATE: JTAG_ENABLED NUMERIC "0" -- Retrieval info: PRIVATE: JTAG_ID STRING "NONE" -- Retrieval info: PRIVATE: MAXIMUM_DEPTH NUMERIC "0" -- Retrieval info: PRIVATE: MIFfilename STRING "cpuram.mif" -- Retrieval info: PRIVATE: NUMWORDS_A NUMERIC "32768" -- Retrieval info: PRIVATE: RAM_BLOCK_TYPE NUMERIC "0" -- Retrieval info: PRIVATE: READ_DURING_WRITE_MODE_PORT_A NUMERIC "3" -- Retrieval info: PRIVATE: RegAddr NUMERIC "1" -- Retrieval info: PRIVATE: RegData NUMERIC "1" -- Retrieval info: PRIVATE: RegOutput NUMERIC "1" -- Retrieval info: PRIVATE: SYNTH_WRAPPER_GEN_POSTFIX STRING "0" -- Retrieval info: PRIVATE: SingleClock NUMERIC "1" -- Retrieval info: PRIVATE: UseDQRAM NUMERIC "1" -- Retrieval info: PRIVATE: WRCONTROL_ACLR_A NUMERIC "0" -- Retrieval info: PRIVATE: WidthAddr NUMERIC "15" -- Retrieval info: PRIVATE: WidthData NUMERIC "16" -- Retrieval info: PRIVATE: rden NUMERIC "0" -- Retrieval info: LIBRARY: altera_mf altera_mf.altera_mf_components.all -- Retrieval info: CONSTANT: CLOCK_ENABLE_INPUT_A STRING "BYPASS" -- Retrieval info: CONSTANT: CLOCK_ENABLE_OUTPUT_A STRING "BYPASS" -- Retrieval info: CONSTANT: INIT_FILE STRING "cpuram.mif" -- Retrieval info: CONSTANT: INTENDED_DEVICE_FAMILY STRING "Cyclone II" -- Retrieval info: CONSTANT: LPM_HINT STRING "ENABLE_RUNTIME_MOD=NO" -- Retrieval info: CONSTANT: LPM_TYPE STRING "altsyncram" -- Retrieval info: CONSTANT: NUMWORDS_A NUMERIC "32768" -- Retrieval info: CONSTANT: OPERATION_MODE STRING "SINGLE_PORT" -- Retrieval info: CONSTANT: OUTDATA_ACLR_A STRING "NONE" -- Retrieval info: CONSTANT: OUTDATA_REG_A STRING "CLOCK0" -- Retrieval info: CONSTANT: POWER_UP_UNINITIALIZED STRING "FALSE" -- Retrieval info: CONSTANT: WIDTHAD_A NUMERIC "15" -- Retrieval info: CONSTANT: WIDTH_A NUMERIC "16" -- Retrieval info: CONSTANT: WIDTH_BYTEENA_A NUMERIC "1" -- Retrieval info: USED_PORT: address 0 0 15 0 INPUT NODEFVAL "address[14..0]" -- Retrieval info: USED_PORT: clock 0 0 0 0 INPUT VCC "clock" -- Retrieval info: USED_PORT: data 0 0 16 0 INPUT NODEFVAL "data[15..0]" -- Retrieval info: USED_PORT: q 0 0 16 0 OUTPUT NODEFVAL "q[15..0]" -- Retrieval info: USED_PORT: wren 0 0 0 0 INPUT NODEFVAL "wren" -- Retrieval info: CONNECT: @address_a 0 0 15 0 address 0 0 15 0 -- Retrieval info: CONNECT: @clock0 0 0 0 0 clock 0 0 0 0 -- Retrieval info: CONNECT: @data_a 0 0 16 0 data 0 0 16 0 -- Retrieval info: CONNECT: @wren_a 0 0 0 0 wren 0 0 0 0 -- Retrieval info: CONNECT: q 0 0 16 0 @q_a 0 0 16 0 -- Retrieval info: GEN_FILE: TYPE_NORMAL RAM.vhd TRUE -- Retrieval info: GEN_FILE: TYPE_NORMAL RAM.inc FALSE -- Retrieval info: GEN_FILE: TYPE_NORMAL RAM.cmp TRUE -- Retrieval info: GEN_FILE: TYPE_NORMAL RAM.bsf TRUE -- Retrieval info: GEN_FILE: TYPE_NORMAL RAM_inst.vhd FALSE -- Retrieval info: LIB_FILE: altera_mf
--------------------------------------------------------------------------- -- -- Title: Hardware Thread User Logic Exit Thread -- To be used as a place holder, and size estimate for HWTI -- --------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_arith.all; use IEEE.std_logic_unsigned.all; use IEEE.std_logic_misc.all; library Unisim; use Unisim.all; --------------------------------------------------------------------------- -- Port declarations --------------------------------------------------------------------------- -- Definition of Ports: -- -- Misc. Signals -- clock -- -- HWTI to HWTUL interconnect -- intrfc2thrd_address 32 bits memory -- intrfc2thrd_value 32 bits memory function -- intrfc2thrd_function 16 bits control -- intrfc2thrd_goWait 1 bits control -- -- HWTUL to HWTI interconnect -- thrd2intrfc_address 32 bits memory -- thrd2intrfc_value 32 bits memory function -- thrd2intrfc_function 16 bits function -- thrd2intrfc_opcode 6 bits memory function -- --------------------------------------------------------------------------- -- Thread Manager Entity section --------------------------------------------------------------------------- entity user_logic_hwtul is port ( clock : in std_logic; intrfc2thrd_address : in std_logic_vector(0 to 31); intrfc2thrd_value : in std_logic_vector(0 to 31); intrfc2thrd_function : in std_logic_vector(0 to 15); intrfc2thrd_goWait : in std_logic; thrd2intrfc_address : out std_logic_vector(0 to 31); thrd2intrfc_value : out std_logic_vector(0 to 31); thrd2intrfc_function : out std_logic_vector(0 to 15); thrd2intrfc_opcode : out std_logic_vector(0 to 5) ); end entity user_logic_hwtul; --------------------------------------------------------------------------- -- Architecture section --------------------------------------------------------------------------- architecture IMP of user_logic_hwtul is --------------------------------------------------------------------------- -- Signal declarations --------------------------------------------------------------------------- type state_machine is ( FUNCTION_RESET, FUNCTION_USER_SELECT, FUNCTION_START, FUNCTION_EXIT, STATE_1, STATE_2, STATE_3, STATE_4, STATE_5, STATE_6, STATE_7, STATE_8, STATE_9, STATE_10, STATE_11, STATE_12, STATE_13, STATE_14, STATE_15, STATE_16, STATE_17, STATE_18, STATE_19, STATE_20, STATE_21, STATE_22, STATE_23, STATE_24, STATE_25, STATE_26, STATE_27, STATE_28, STATE_29, STATE_30, WAIT_STATE, ERROR_STATE); -- Function definitions constant U_FUNCTION_RESET : std_logic_vector(0 to 15) := x"0000"; constant U_FUNCTION_WAIT : std_logic_vector(0 to 15) := x"0001"; constant U_FUNCTION_USER_SELECT : std_logic_vector(0 to 15) := x"0002"; constant U_FUNCTION_START : std_logic_vector(0 to 15) := x"0003"; constant U_STATE_1 : std_logic_vector(0 to 15) := x"0101"; constant U_STATE_2 : std_logic_vector(0 to 15) := x"0102"; constant U_STATE_3 : std_logic_vector(0 to 15) := x"0103"; constant U_STATE_4 : std_logic_vector(0 to 15) := x"0104"; constant U_STATE_5 : std_logic_vector(0 to 15) := x"0105"; constant U_STATE_6 : std_logic_vector(0 to 15) := x"0106"; constant U_STATE_7 : std_logic_vector(0 to 15) := x"0107"; constant U_STATE_8 : std_logic_vector(0 to 15) := x"0108"; constant U_STATE_9 : std_logic_vector(0 to 15) := x"0109"; constant U_STATE_10 : std_logic_vector(0 to 15) := x"0110"; constant U_STATE_11 : std_logic_vector(0 to 15) := x"0111"; constant U_STATE_12 : std_logic_vector(0 to 15) := x"0112"; constant U_STATE_13 : std_logic_vector(0 to 15) := x"0113"; constant U_STATE_14 : std_logic_vector(0 to 15) := x"0114"; constant U_STATE_15 : std_logic_vector(0 to 15) := x"0115"; constant U_STATE_16 : std_logic_vector(0 to 15) := x"0116"; constant U_STATE_17 : std_logic_vector(0 to 15) := x"0117"; constant U_STATE_18 : std_logic_vector(0 to 15) := x"0118"; constant U_STATE_19 : std_logic_vector(0 to 15) := x"0119"; constant U_STATE_20 : std_logic_vector(0 to 15) := x"0120"; constant U_STATE_21 : std_logic_vector(0 to 15) := x"0121"; constant U_STATE_22 : std_logic_vector(0 to 15) := x"0122"; constant U_STATE_23 : std_logic_vector(0 to 15) := x"0123"; constant U_STATE_24 : std_logic_vector(0 to 15) := x"0124"; constant U_STATE_25 : std_logic_vector(0 to 15) := x"0125"; constant U_STATE_26 : std_logic_vector(0 to 15) := x"0126"; constant U_STATE_27 : std_logic_vector(0 to 15) := x"0127"; constant U_STATE_28 : std_logic_vector(0 to 15) := x"0128"; constant U_STATE_29 : std_logic_vector(0 to 15) := x"0129"; constant U_STATE_30 : std_logic_vector(0 to 15) := x"0130"; -- Range 0003 to 7999 reserved for user logic's state machine -- Range 8000 to 9999 reserved for system calls constant FUNCTION_HTHREAD_ATTR_INIT : std_logic_vector(0 to 15) := x"8000"; constant FUNCTION_HTHREAD_ATTR_DESTROY : std_logic_vector(0 to 15) := x"8001"; constant FUNCTION_HTHREAD_CREATE : std_logic_vector(0 to 15) := x"8010"; constant FUNCTION_HTHREAD_JOIN : std_logic_vector(0 to 15) := x"8011"; constant FUNCTION_HTHREAD_SELF : std_logic_vector(0 to 15) := x"8012"; constant FUNCTION_HTHREAD_YIELD : std_logic_vector(0 to 15) := x"8013"; constant FUNCTION_HTHREAD_EQUAL : std_logic_vector(0 to 15) := x"8014"; constant FUNCTION_HTHREAD_EXIT : std_logic_vector(0 to 15) := x"8015"; constant FUNCTION_HTHREAD_EXIT_ERROR : std_logic_vector(0 to 15) := x"8016"; constant FUNCTION_HTHREAD_MUTEXATTR_INIT : std_logic_vector(0 to 15) := x"8020"; constant FUNCTION_HTHREAD_MUTEXATTR_DESTROY : std_logic_vector(0 to 15) := x"8021"; constant FUNCTION_HTHREAD_MUTEXATTR_SETNUM : std_logic_vector(0 to 15) := x"8022"; constant FUNCTION_HTHREAD_MUTEXATTR_GETNUM : std_logic_vector(0 to 15) := x"8023"; constant FUNCTION_HTHREAD_MUTEX_INIT : std_logic_vector(0 to 15) := x"8030"; constant FUNCTION_HTHREAD_MUTEX_DESTROY : std_logic_vector(0 to 15) := x"8031"; constant FUNCTION_HTHREAD_MUTEX_LOCK : std_logic_vector(0 to 15) := x"8032"; constant FUNCTION_HTHREAD_MUTEX_UNLOCK : std_logic_vector(0 to 15) := x"8033"; constant FUNCTION_HTHREAD_MUTEX_TRYLOCK : std_logic_vector(0 to 15) := x"8034"; constant FUNCTION_HTHREAD_CONDATTR_INIT : std_logic_vector(0 to 15) := x"8040"; constant FUNCTION_HTHREAD_CONDATTR_DESTROY : std_logic_vector(0 to 15) := x"8041"; constant FUNCTION_HTHREAD_CONDATTR_SETNUM : std_logic_vector(0 to 15) := x"8042"; constant FUNCTION_HTHREAD_CONDATTR_GETNUM : std_logic_vector(0 to 15) := x"8043"; constant FUNCTION_HTHREAD_COND_INIT : std_logic_vector(0 to 15) := x"8050"; constant FUNCTION_HTHREAD_COND_DESTROY : std_logic_vector(0 to 15) := x"8051"; constant FUNCTION_HTHREAD_COND_SIGNAL : std_logic_vector(0 to 15) := x"8052"; constant FUNCTION_HTHREAD_COND_BROADCAST : std_logic_vector(0 to 15) := x"8053"; constant FUNCTION_HTHREAD_COND_WAIT : std_logic_vector(0 to 15) := x"8054"; -- Ranged A000 to FFFF reserved for supported library calls constant FUNCTION_MALLOC : std_logic_vector(0 to 15) := x"A000"; constant FUNCTION_CALLOC : std_logic_vector(0 to 15) := x"A001"; constant FUNCTION_FREE : std_logic_vector(0 to 15) := x"A002"; -- user_opcode Constants constant OPCODE_NOOP : std_logic_vector(0 to 5) := "000000"; -- Memory sub-interface specific opcodes constant OPCODE_LOAD : std_logic_vector(0 to 5) := "000001"; constant OPCODE_STORE : std_logic_vector(0 to 5) := "000010"; constant OPCODE_DECLARE : std_logic_vector(0 to 5) := "000011"; constant OPCODE_READ : std_logic_vector(0 to 5) := "000100"; constant OPCODE_WRITE : std_logic_vector(0 to 5) := "000101"; constant OPCODE_ADDRESS : std_logic_vector(0 to 5) := "000110"; -- Function sub-interface specific opcodes constant OPCODE_PUSH : std_logic_vector(0 to 5) := "010000"; constant OPCODE_POP : std_logic_vector(0 to 5) := "010001"; constant OPCODE_CALL : std_logic_vector(0 to 5) := "010010"; constant OPCODE_RETURN : std_logic_vector(0 to 5) := "010011"; constant Z32 : std_logic_vector(0 to 31) := (others => '0'); signal current_state, next_state : state_machine := FUNCTION_RESET; signal return_state, return_state_next: state_machine := FUNCTION_RESET; signal toUser_address : std_logic_vector(0 to 31); signal toUser_value : std_logic_vector(0 to 31); signal toUser_function : std_logic_vector(0 to 15); signal toUser_goWait : std_logic; signal retVal, retVal_next : std_logic_vector(0 to 31); signal arg, arg_next : std_logic_vector(0 to 31); signal reg1, reg1_next : std_logic_vector(0 to 31); signal reg2, reg2_next : std_logic_vector(0 to 31); signal reg3, reg3_next : std_logic_vector(0 to 31); signal reg4, reg4_next : std_logic_vector(0 to 31); signal reg5, reg5_next : std_logic_vector(0 to 31); signal reg6, reg6_next : std_logic_vector(0 to 31); signal reg7, reg7_next : std_logic_vector(0 to 31); signal reg8, reg8_next : std_logic_vector(0 to 31); --------------------------------------------------------------------------- -- Begin architecture --------------------------------------------------------------------------- begin -- architecture IMP HWTUL_STATE_PROCESS : process (clock, intrfc2thrd_goWait) is begin if (clock'event and (clock = '1')) then toUser_address <= intrfc2thrd_address; toUser_value <= intrfc2thrd_value; toUser_function <= intrfc2thrd_function; toUser_goWait <= intrfc2thrd_goWait; return_state <= return_state_next; retVal <= retVal_next; arg <= arg_next; reg1 <= reg1_next; reg2 <= reg2_next; reg3 <= reg3_next; reg4 <= reg4_next; reg5 <= reg5_next; reg6 <= reg6_next; reg7 <= reg7_next; reg8 <= reg8_next; -- Find out if the HWTI is tell us what to do if (intrfc2thrd_goWait = '1') then case intrfc2thrd_function is -- Typically the HWTI will tell us to control our own destiny when U_FUNCTION_USER_SELECT => current_state <= next_state; -- List all the functions the HWTI could tell us to run when U_FUNCTION_RESET => current_state <= FUNCTION_RESET; when U_FUNCTION_START => current_state <= FUNCTION_START; when U_STATE_1 => current_state <= STATE_1; when U_STATE_2 => current_state <= STATE_2; when U_STATE_3 => current_state <= STATE_3; when U_STATE_4 => current_state <= STATE_4; when U_STATE_5 => current_state <= STATE_5; when U_STATE_6 => current_state <= STATE_6; when U_STATE_7 => current_state <= STATE_7; when U_STATE_8 => current_state <= STATE_8; when U_STATE_9 => current_state <= STATE_9; when U_STATE_10 => current_state <= STATE_10; when U_STATE_11 => current_state <= STATE_11; when U_STATE_12 => current_state <= STATE_12; when U_STATE_13 => current_state <= STATE_13; when U_STATE_14 => current_state <= STATE_14; when U_STATE_15 => current_state <= STATE_15; when U_STATE_16 => current_state <= STATE_16; when U_STATE_17 => current_state <= STATE_17; when U_STATE_18 => current_state <= STATE_18; when U_STATE_19 => current_state <= STATE_19; when U_STATE_20 => current_state <= STATE_20; when U_STATE_21 => current_state <= STATE_21; when U_STATE_22 => current_state <= STATE_22; when U_STATE_23 => current_state <= STATE_23; when U_STATE_24 => current_state <= STATE_24; when U_STATE_25 => current_state <= STATE_25; when U_STATE_26 => current_state <= STATE_26; when U_STATE_27 => current_state <= STATE_27; when U_STATE_28 => current_state <= STATE_28; when U_STATE_29 => current_state <= STATE_29; when U_STATE_30 => current_state <= STATE_30; -- If the HWTI tells us to do something we don't know, error when OTHERS => current_state <= ERROR_STATE; end case; else current_state <= WAIT_STATE; end if; end if; end process HWTUL_STATE_PROCESS; HWTUL_STATE_MACHINE : process (clock) is begin -- Default register assignments thrd2intrfc_opcode <= OPCODE_NOOP; -- When issuing an OPCODE, must be a pulse thrd2intrfc_address <= Z32; thrd2intrfc_value <= Z32; thrd2intrfc_function <= U_FUNCTION_USER_SELECT; return_state_next <= return_state; next_state <= current_state; retVal_next <= retVal; arg_next <= arg; reg1_next <= reg1; reg2_next <= reg2; reg3_next <= reg3; reg4_next <= reg4; reg5_next <= reg5; reg6_next <= reg6; reg7_next <= reg7; reg8_next <= reg8; ----------------------------------------------------------------------- -- Testcase: cond_wait_1.c -- reg1 = i -- reg2 = * mutex -- reg3 = * cond -- reg4 = * start_num -- reg5 = * havelock_num -- reg6 = * function -- reg7 = thread ----------------------------------------------------------------------- -- The state machine case current_state is when FUNCTION_RESET => --Set default values thrd2intrfc_opcode <= OPCODE_NOOP; thrd2intrfc_address <= Z32; thrd2intrfc_value <= Z32; thrd2intrfc_function <= U_FUNCTION_START; -- struct test_data * data = (struct test_data *) arg; when FUNCTION_START => -- Pop the argument thrd2intrfc_value <= Z32; thrd2intrfc_opcode <= OPCODE_POP; next_state <= WAIT_STATE; return_state_next <= STATE_1; when STATE_1 => arg_next <= intrfc2thrd_value; -- Read the address of mutex thrd2intrfc_opcode <= OPCODE_LOAD; thrd2intrfc_address <= intrfc2thrd_value; next_state <= WAIT_STATE; return_state_next <= STATE_2; when STATE_2 => reg2_next <= intrfc2thrd_value; -- Read the address of cond thrd2intrfc_opcode <= OPCODE_LOAD; thrd2intrfc_address <= arg + 4; next_state <= WAIT_STATE; return_state_next <= STATE_3; when STATE_3 => reg3_next <= intrfc2thrd_value; -- Read the address of start_num thrd2intrfc_opcode <= OPCODE_LOAD; thrd2intrfc_address <= arg + 8; next_state <= WAIT_STATE; return_state_next <= STATE_4; when STATE_4 => reg4_next <= intrfc2thrd_value; -- Read the address of havelock_num thrd2intrfc_opcode <= OPCODE_LOAD; thrd2intrfc_address <= arg + 12; next_state <= WAIT_STATE; return_state_next <= STATE_5; when STATE_5 => reg5_next <= intrfc2thrd_value; -- Read the address of function thrd2intrfc_opcode <= OPCODE_LOAD; thrd2intrfc_address <= arg + 16; next_state <= WAIT_STATE; return_state_next <= STATE_6; -- hthread_create( &data->thread, NULL, data->function, (void *) data ); when STATE_6 => reg6_next <= intrfc2thrd_value; -- push (void *) data thrd2intrfc_opcode <= OPCODE_PUSH; thrd2intrfc_value <= arg; next_state <= WAIT_STATE; return_state_next <= STATE_7; when STATE_7 => -- push data->function thrd2intrfc_opcode <= OPCODE_PUSH; thrd2intrfc_value <= reg6; next_state <= WAIT_STATE; return_state_next <= STATE_8; when STATE_8 => -- push NULL thrd2intrfc_opcode <= OPCODE_PUSH; thrd2intrfc_value <= Z32; next_state <= WAIT_STATE; return_state_next <= STATE_9; when STATE_9 => -- push &data->thread thrd2intrfc_opcode <= OPCODE_PUSH; thrd2intrfc_value <= arg + x"00000014"; next_state <= WAIT_STATE; return_state_next <= STATE_10; when STATE_10 => -- call hthread_create thrd2intrfc_opcode <= OPCODE_CALL; thrd2intrfc_function <= FUNCTION_HTHREAD_CREATE; thrd2intrfc_value <= Z32(0 to 15) & U_STATE_11; next_state <= WAIT_STATE; -- while( *(data->start_num) != THREAD_NUM ) hthread_yield(); when STATE_11 => -- Read the value of start_num thrd2intrfc_opcode <= OPCODE_LOAD; thrd2intrfc_address <= reg4; next_state <= WAIT_STATE; return_state_next <= STATE_12; when STATE_12 => case intrfc2thrd_value is when x"00000001" => next_state <= STATE_14; when others => next_state <= STATE_13; end case; when STATE_13 => -- call hthread_yield thrd2intrfc_opcode <= OPCODE_CALL; thrd2intrfc_function <= FUNCTION_HTHREAD_YIELD; thrd2intrfc_value <= Z32(0 to 15) & U_STATE_11; next_state <= WAIT_STATE; -- hthread_mutex_lock( data->mutex ); when STATE_14 => -- push data->mutex thrd2intrfc_opcode <= OPCODE_PUSH; thrd2intrfc_value <= reg2; next_state <= WAIT_STATE; return_state_next <= STATE_15; when STATE_15 => -- call hthread_mutex_lock thrd2intrfc_opcode <= OPCODE_CALL; thrd2intrfc_function <= FUNCTION_HTHREAD_MUTEX_LOCK; thrd2intrfc_value <= Z32(0 to 15) & U_STATE_16; next_state <= WAIT_STATE; -- retVal = *(data->waken_num); when STATE_16 => -- Read the value of waken_num thrd2intrfc_opcode <= OPCODE_LOAD; thrd2intrfc_address <= reg5; next_state <= WAIT_STATE; return_state_next <= STATE_17; -- hthread_cond_signal( data->cond ); when STATE_17 => retVal_next <= intrfc2thrd_value; -- push data->cond thrd2intrfc_opcode <= OPCODE_PUSH; thrd2intrfc_value <= reg3; next_state <= WAIT_STATE; return_state_next <= STATE_18; when STATE_18 => -- call hthread_cond_signal thrd2intrfc_opcode <= OPCODE_CALL; thrd2intrfc_function <= FUNCTION_HTHREAD_COND_SIGNAL; thrd2intrfc_value <= Z32(0 to 15) & U_STATE_19; next_state <= WAIT_STATE; -- hthread_mutex_unlock( data->mutex ); when STATE_19 => -- push data->mutex thrd2intrfc_opcode <= OPCODE_PUSH; thrd2intrfc_value <= reg2; next_state <= WAIT_STATE; return_state_next <= STATE_20; when STATE_20 => -- call hthread_mutex_unlock thrd2intrfc_opcode <= OPCODE_CALL; thrd2intrfc_function <= FUNCTION_HTHREAD_MUTEX_UNLOCK; thrd2intrfc_value <= Z32(0 to 15) & U_STATE_21; next_state <= WAIT_STATE; -- hthread_join( data->thread, NULL ); when STATE_21 => -- Load the value of data->thread thrd2intrfc_opcode <= OPCODE_LOAD; thrd2intrfc_address <= arg + x"00000014"; next_state <= WAIT_STATE; return_state_next <= STATE_22; when STATE_22 => reg7_next <= intrfc2thrd_value; -- push NULL thrd2intrfc_opcode <= OPCODE_PUSH; thrd2intrfc_value <= Z32; next_state <= WAIT_STATE; return_state_next <= STATE_23; when STATE_23 => -- push data->thread thrd2intrfc_opcode <= OPCODE_PUSH; thrd2intrfc_value <= reg7; next_state <= WAIT_STATE; return_state_next <= STATE_24; when STATE_24 => -- call hthread_join thrd2intrfc_opcode <= OPCODE_CALL; thrd2intrfc_function <= FUNCTION_HTHREAD_JOIN; thrd2intrfc_value <= Z32(0 to 15) & U_STATE_25; next_state <= WAIT_STATE; when STATE_25 => next_state <= FUNCTION_EXIT; when FUNCTION_EXIT => --Same as hthread_exit( (void *) retVal ); thrd2intrfc_value <= retVal; thrd2intrfc_opcode <= OPCODE_RETURN; next_state <= WAIT_STATE; when WAIT_STATE => next_state <= return_state; when ERROR_STATE => next_state <= ERROR_STATE; when others => next_state <= ERROR_STATE; end case; end process HWTUL_STATE_MACHINE; end architecture IMP;
-- ------------------------------------------------------------- -- -- Generated Architecture Declaration for struct of vgca_cpu -- -- Generated -- by: wig -- on: Thu Feb 10 19:03:15 2005 -- cmd: H:/work/eclipse/MIX/mix_0.pl -strip -nodelta ../../bugver.xls -- -- !!! Do not edit this file! Autogenerated by MIX !!! -- $Author: wig $ -- $Id: vgca_cpu-struct-a.vhd,v 1.2 2005/04/14 06:53:00 wig Exp $ -- $Date: 2005/04/14 06:53:00 $ -- $Log: vgca_cpu-struct-a.vhd,v $ -- Revision 1.2 2005/04/14 06:53:00 wig -- Updates: fixed import errors and adjusted I2C parser -- -- -- Based on Mix Architecture Template built into RCSfile: MixWriter.pm,v -- Id: MixWriter.pm,v 1.49 2005/01/27 08:20:30 wig Exp -- -- Generator: mix_0.pl Revision: 1.33 , wilfried.gaensheimer@micronas.com -- (C) 2003 Micronas GmbH -- -- -------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; -- No project specific VHDL libraries/arch -- -- -- Start of Generated Architecture struct of vgca_cpu -- architecture struct of vgca_cpu is -- Generated Constant Declarations -- -- Components -- -- Generated Components component cpu_watch -- -- No Generated Generics -- No Generated Port end component; -- --------- -- -- Nets -- -- -- Generated Signal List -- -- -- End of Generated Signal List -- begin -- -- Generated Concurrent Statements -- -- Generated Signal Assignments -- -- Generated Instances -- -- Generated Instances and Port Mappings -- Generated Instance Port Map for i_cpu_watch i_cpu_watch: cpu_watch ; -- End of Generated Instance Port Map for i_cpu_watch end struct; -- --!End of Architecture/s -- --------------------------------------------------------------
entity inst1 is end; architecture behav of inst1 is begin ins : entity ; end behav;
------------------------------------------------------------------------------- -- Filename: ac97_fifo.vhd -- -- Description: This module provides a FIFO interface for the AC97 -- module and provides an asyncrhonous interface for a -- higher level module that is not synchronous with the AC97 -- clock (Bit_Clk). -- -- This module provides a FIFO interface for both the incoming -- data (playback data) and outgoing data (record data). -- -- This module provides a bus independent interface so the -- module can be used for more than one bus interface. -- -- VHDL-Standard: VHDL'93 ------------------------------------------------------------------------------- -- Structure: -- ac97_core -- ac97_timing -- srl_fifo -- ------------------------------------------------------------------------------- -- Author: Mike Wirthlin -- -- ------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; use ieee.numeric_std.all; ------------------------------------------------------------------------------- -- ------------------------------------------------------------------------------- entity ac97_fifo is generic ( C_AWIDTH : integer := 32; C_DWIDTH : integer := 32; C_PLAYBACK : integer := 1; C_RECORD : integer := 1; -- Interrupt strategy -- 0 = No interrupts -- 1 = when fifos are half empty (in half empty, out is half full) -- 2 = when fifos are empty (in is empty, out is full) -- 3 = when fifos are equal to interrupt fifo depth C_INTR_LEVEL : integer := 0; -- Use block ram FIFOs if 1, otherwise use a shallow -- SRL fifo. C_USE_BRAM : integer := 1 ); port ( -- IP Interface Bus2IP_Clk : in std_logic; Bus2IP_Reset : in std_logic; Bus2IP_Addr : in std_logic_vector(0 to C_AWIDTH-1); Bus2IP_Data : in std_logic_vector(0 to C_AWIDTH-1); Bus2IP_BE : in std_logic_vector(0 to C_DWIDTH/8-1); Bus2IP_RdCE : in std_logic; Bus2IP_WrCE : in std_logic; IP2Bus_Data : out std_logic_vector(0 to C_DWIDTH-1); Interrupt: out std_logic; -- CODEC signals Bit_Clk : in std_logic; Sync : out std_logic; SData_Out : out std_logic; SData_In : in std_logic; AC97Reset_n : out std_logic ); end entity ac97_fifo; library opb_ac97_v2_00_a; use opb_ac97_v2_00_a.all; library unisim; use unisim.all; architecture IMP of ac97_fifo is component ac97_core is generic ( C_PCM_DATA_WIDTH : integer := 16 ); port ( Reset : in std_logic; -- signals attaching directly to AC97 codec AC97_Bit_Clk : in std_logic; AC97_Sync : out std_logic; AC97_SData_Out : out std_logic; AC97_SData_In : in std_logic; -- AC97 register interface AC97_Reg_Addr : in std_logic_vector(0 to 6); AC97_Reg_Write_Data : in std_logic_vector(0 to 15); AC97_Reg_Read_Data : out std_logic_vector(0 to 15); AC97_Reg_Read_Strobe : in std_logic; -- initiates a "read" command AC97_Reg_Write_Strobe : in std_logic; -- initiates a "write" command AC97_Reg_Busy : out std_logic; AC97_Reg_Error : out std_logic; AC97_Reg_Read_Data_Valid : out std_logic; -- Playback signal interface PCM_Playback_Left: in std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Playback_Right: in std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Playback_Left_Valid: in std_logic; PCM_Playback_Right_Valid: in std_logic; PCM_Playback_Left_Accept: out std_logic; PCM_Playback_Right_Accept: out std_logic; -- Record signal interface PCM_Record_Left: out std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Record_Right: out std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Record_Left_Valid: out std_logic; PCM_Record_Right_Valid: out std_logic; DEBUG : out std_logic_vector(0 to 15); CODEC_RDY : out std_logic ); end component ac97_core; component FDCPE port( Q : out std_ulogic; C : in std_ulogic; CE : in std_ulogic; CLR : in std_ulogic; D : in std_ulogic; PRE : in std_ulogic ); end component; component SRL_FIFO is generic ( C_DATA_BITS : integer; C_DEPTH : integer); port ( Clk : in std_logic; Reset : in std_logic; Clear_FIFO : in std_logic; FIFO_Write : in std_logic; Data_In : in std_logic_vector(0 to C_DATA_BITS-1); FIFO_Read : in std_logic; Data_Out : out std_logic_vector(0 to C_DATA_BITS-1); FIFO_Full : out std_logic; Data_Exists : out std_logic; FIFO_Level : out std_logic_vector(0 to 3); Half_Full : out std_logic; Half_Empty : out std_logic ); end component SRL_FIFO; component BRAM_FIFO is generic ( C_DATA_BITS : integer := 32; C_ADDR_BITS : integer := 9 ); port ( Clk : in std_logic; Reset : in std_logic; Clear_FIFO : in std_logic; FIFO_Write : in std_logic; Data_In : in std_logic_vector(0 to C_DATA_BITS-1); FIFO_Read : in std_logic; Data_Out : out std_logic_vector(0 to C_DATA_BITS-1); FIFO_Level : out std_logic_vector(0 to C_ADDR_BITS); Full : out std_logic; HalfFull : out std_logic; HalfEmpty : out std_logic; Overflow : out std_logic; Underflow : out std_logic; Empty : out std_logic ); end component BRAM_FIFO; -- OUT_FIFO: record data from out fifo (left and right) -- IN_FIFO: playback data (left and right) -- STATUS: status of FIFOs/AC97 -- CONTROL: overall controll. clear fifos, interrupts -- AC97_READ_ADR: result of AC97 register read -- AC97_WRITE_ADR: Value to send for a AC97 write -- AC97_CTRL_ADR: write ac97 command signal controller_addr : std_logic_vector(0 to 2); -- Register Map -- Addr Read Write -- 0x0 OUT_FIFO IN_FIFO -- 0x4 STATUS Control -- 0x8 AC97_READ AC97_WRITE -- 0xc N/A AC97_CNTRL constant IN_FIFO_ADR : std_logic_vector(0 to 2) := "000"; -- x0000 constant OUT_FIFO_ADR : std_logic_vector(0 to 2) := "000"; -- x0000 constant STATUS_ADR : std_logic_vector(0 to 2) := "001"; -- x0004 constant CTRL_ADR : std_logic_vector(0 to 2) := "001"; -- x0004 constant AC97_READ_ADR : std_logic_vector(0 to 2) := "010"; -- x0008 constant AC97_WRITE_ADR : std_logic_vector(0 to 2) := "010"; -- x0008 constant AC97_CTRL_ADR : std_logic_vector(0 to 2) := "011"; -- x000C constant DEBUG_ADR : std_logic_vector(0 to 2) := "011"; -- x000C -- Fifo signals signal in_FIFO_Write : std_logic; signal in_FIFO_Read : std_logic; signal in_Data_FIFO : std_logic_vector(0 to 31); signal in_FIFO_Full : std_logic; signal in_Data_Exists : std_logic; signal in_FIFO_Empty : std_logic; signal in_FIFO_Half_Full : std_logic; signal in_FIFO_Half_Empty : std_logic; signal out_FIFO_Write : std_logic; signal out_FIFO_Read : std_logic; signal out_Data_Read : std_logic_vector(0 to 31); signal out_Data_FIFO : std_logic_vector(0 to 31); signal out_FIFO_Full : std_logic; signal out_Data_Exists : std_logic; signal out_FIFO_Empty : std_logic; signal out_FIFO_Half_Empty : std_logic; signal out_FIFO_Half_Full : std_logic; signal out_FIFO_Overrun : std_logic := '0'; signal in_FIFO_Underrun : std_logic := '0'; signal clear_in_fifo : std_logic; signal clear_out_fifo : std_logic; signal in_fifo_interrupt_en : std_logic; signal out_fifo_interrupt_en : std_logic; signal status_Reg : std_logic_vector(31 downto 0) := (others => '0'); signal IpClk_ac97_reg_addr : std_logic_vector(0 to 6); signal IpClk_ac97_Reg_Write_Data : std_logic_vector(0 to 15); signal IpClk_ac97_reg_read : std_logic; signal BitClk_codec_rdy, IpClk_codec_rdy : std_logic := '0'; signal BitClk_ac97_Reg_Read_Data : std_logic_vector(0 to 15); signal IpClk_ac97_reg_access_S : std_logic; signal BitClk_ac97_reg_access_St : std_logic_vector(2 downto 0); signal BitClk_ac97_reg_access_S : std_logic; signal BitClk_ac97_reg_read_data_valid : std_logic; signal in_fifo_level, out_fifo_level : std_logic_vector(0 to 9); signal in_srl_fifo_level, out_srl_fifo_level : std_logic_vector(0 to 3); signal BitClk_ac97_reg_data_valid : std_logic; -- ignore? signal BitClk_record_left_valid,BitClk_record_right_valid : std_logic; signal BitClk_playback_left_accept,BitClk_playback_right_accept : std_logic; signal BitClk_ac97_reg_read_strobe : std_logic := '0'; signal BitClk_ac97_reg_write_strobe : std_logic := '0'; signal BitClk_playback_left_valid,BitClk_playback_right_valid : std_logic; signal BitClk_ac97_reg_busy, IpClk_ac97_reg_busy : std_logic := '0'; signal BitClk_ac97_reg_error, IpClk_ac97_reg_error : std_logic := '0'; signal IpClk_access_request : std_logic; signal IpClk_playback_accept_St : std_logic_vector(1 downto 0); signal IpClk_playback_accept_S : std_logic; signal IpClk_record_valid_St : std_logic_vector(1 downto 0); signal IpClk_record_accept_S : std_logic; signal ac97_reset_i : std_logic := '0'; signal register_access_busy : std_logic; type register_access_state is (IDLE, ISSUE_ACCESS, PROCESS_ACCESS); signal ac97_register_access_sm : register_access_state := IDLE; signal debug_i : std_logic_vector(0 to 15); signal ac97_core_reset : std_logic; begin -- architecture IMP ------------------------------------------------------------ -- IP Interface ------------------------------------------------------------ -- Register address decoding bits controller_addr <= Bus2IP_Addr(27 to 29); -- Output multiplixer for read registers: -- status register -- AC97 register data -- Audio data OUT_MUX: process (controller_addr, status_reg, Bitclk_ac97_Reg_Read_Data, out_Data_read) is begin IP2Bus_Data <= (others => '0'); case controller_addr is when STATUS_ADR => IP2Bus_Data((32-status_reg'length) to 31) <= status_reg; when AC97_READ_ADR => IP2Bus_Data(16 to 31) <= BitClk_ac97_Reg_Read_Data; -- todo: fix when DEBUG_ADR => IP2Bus_Data(16 to 31) <= debug_i; when others => IP2Bus_Data <= out_Data_Read; end case; end process OUT_MUX; ---------------------------------------------------------------- -- FIFO Control ---------------------------------------------------------------- -- Generating read and write pulses for FIFOs in_FIFO_write <= '1' when ( Bus2IP_WrCE = '1' and controller_addr = IN_FIFO_ADR) else '0'; out_FIFO_read <= '1' when (Bus2IP_RdCE = '1' and controller_addr = OUT_FIFO_ADR) else '0'; clear_fifo_PROCESS : process (Bus2IP_WrCE, controller_addr, Bus2IP_Data(30 to 31)) begin if Bus2IP_WrCE = '1' and controller_addr = CTRL_ADR then clear_in_fifo <= Bus2IP_Data(31); clear_out_fifo <= Bus2IP_Data(30); else clear_in_fifo <= '0'; clear_out_fifo <= '0'; end if; end process; ---------------------------------------------------------------- -- Interrupt enable register ---------------------------------------------------------------- fifo_interrupt_enable_proc : process (Bus2IP_Clk) begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then in_fifo_interrupt_en <= '0'; out_fifo_interrupt_en <= '0'; elsif Bus2IP_WrCE = '1' and controller_addr = CTRL_ADR then in_fifo_interrupt_en <= Bus2IP_Data(29); out_fifo_interrupt_en <= Bus2IP_Data(28); end if; end if; end process fifo_interrupt_enable_proc; ---------------------------------------------------------------- -- AC97Reset control register ---------------------------------------------------------------- ac97_reset_n_PROCESS : process (Bus2IP_Clk) begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then ac97_reset_i <= '1'; elsif Bus2IP_WrCE = '1' and controller_addr = CTRL_ADR then ac97_reset_i <= Bus2IP_Data(27); end if; end if; end process; AC97Reset_n <= not ac97_reset_i; -- The reset signal to the core & timing module occurs when -- the bus is reset or when the AC97 codec is reset ac97_core_reset <= ac97_reset_i or Bus2IP_Reset; ----------------------------------------------------------------------------- -- Status register ----------------------------------------------------------------------------- FIFO_Error_PROCESS : process (Bus2IP_Clk) is begin -- process AC97_Write_Reg_Data if Bus2IP_Clk'event and Bus2IP_Clk='1' then if Bus2IP_Reset = '1' then out_FIFO_Overrun <= '0'; in_FIFO_Underrun <= '0'; else if (clear_in_fifo = '1') then in_FIFO_Underrun <= '0'; elsif (in_Data_Exists = '0') and (in_FIFO_Read = '1') then in_FIFO_Underrun <= '1'; end if; if (clear_out_fifo = '1') then out_FIFO_Overrun <= '0'; elsif (out_FIFO_Full = '1') and (out_FIFO_Write = '1') and (out_FIFO_read = '0') then out_FIFO_Overrun <= '1'; end if; end if; end if; end process; status_reg(31 downto 22) <= out_fifo_level; status_reg(21 downto 12) <= in_fifo_level; --status_reg(11 downto 9) <= (others => '0'); status_reg(10) <= out_fifo_interrupt_en; status_reg(9) <= in_fifo_interrupt_en; status_reg(8) <= IpClk_ac97_reg_error; status_reg(7) <= out_FIFO_Overrun; status_reg(6) <= in_FIFO_Underrun; status_reg(5) <= IpClk_codec_rdy; status_reg(4) <= register_access_busy; --IpClk_ac97_reg_busy; status_reg(3) <= out_Data_Exists; status_reg(2) <= out_fifo_empty; status_reg(1) <= in_fifo_empty; status_reg(0) <= in_FIFO_Full; process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then IpClk_codec_rdy <= BitClk_codec_rdy; IpClk_ac97_reg_busy <= BitClk_ac97_reg_busy; IpClk_ac97_reg_error <= BitClk_ac97_reg_error; end if; end process; ----------------------------------------------------------------------------- -- AC97 Access Register ----------------------------------------------------------------------------- -- The AC97 access register is used to initiate an AC97 register -- read or write command. This register holds the AC97 address to -- read/write as well as the direction (IpClk_ac97_reg_read). AC97_Access_Reg : process (Bus2IP_Clk) is begin -- process AC97_Write_Reg_Data if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then IpClk_ac97_reg_addr <= (others => '0'); IpClk_ac97_reg_read <= '0'; else if Bus2IP_WrCE = '1' and AC97_CTRL_ADR = controller_addr then IpClk_ac97_reg_addr <= Bus2IP_Data(25 to 31); IpClk_ac97_reg_read <= Bus2IP_Data(24); end if; end if; end if; end process; ----------------------------------------------------------------------------- -- AC97 Write data register ----------------------------------------------------------------------------- -- AC97 Register Write Data: This register holds the data that is to -- be written to the AC97 internal register. -- -- Writing to this register does not cause the actual -- write process to the AC97. Once this register has been written, -- a command must be written to the AC97_Access_Reg to initiate the -- actual write. AC97_Write_Reg : process (Bus2IP_Clk) is begin -- process AC97_Write_Reg_Data if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then IpClk_ac97_reg_write_data <= (others => '0'); else if Bus2IP_WrCE = '1' and controller_addr = AC97_WRITE_ADR then IpClk_ac97_reg_write_data <= Bus2IP_Data(16 to 31); end if; end if; end if; end process; ----------------------------------------------------------------------------- -- AC97 Access initiate one shot ----------------------------------------------------------------------------- -- This one bit signal is asserted when a write occurs to the AC97_CTRL_ADDR. -- This is a one-shot signal that is only asserted for one cycle -- (Bus2IP_Clk). -- This signal will initiate the AC97 register access state machine. AC97_Access_S_PROCESS : process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_WrCE = '1' and controller_addr = AC97_CTRL_ADR then IpClk_ac97_reg_access_S <= '1'; -- one shot else IpClk_ac97_reg_access_S <= '0'; end if; end if; end process; -- busy signal process (Bus2IP_Clk) is begin if Bus2IP_Reset = '1' then ac97_register_access_sm <= IDLE; elsif Bus2IP_Clk'event and Bus2IP_Clk='1' then case ac97_register_access_sm is when IDLE => if IpClk_ac97_reg_access_S = '1' then ac97_register_access_sm <= ISSUE_ACCESS; end if; when ISSUE_ACCESS => -- TODO: add time out in case the codec is not hooked up if IpClk_ac97_reg_busy = '1' then ac97_register_access_sm <= PROCESS_ACCESS; end if; when PROCESS_ACCESS => if IpClk_ac97_reg_busy = '0' then ac97_register_access_sm <= IDLE; end if; end case; end if; end process; register_access_busy <= '1' when (ac97_register_access_sm = ISSUE_ACCESS or ac97_register_access_sm = PROCESS_ACCESS) else '0'; ----------------------------------------------------------------------------- -- Clock crossing signals ----------------------------------------------------------------------------- -- convert the one cycle strobe in the IpClk domain to -- the BitClk domain. fdcpe_1 : FDCPE port map ( Q => IpClk_access_request, C => '0', CE => '0', CLR => BitClk_ac97_reg_access_S, D => '0', PRE => IpClk_ac97_reg_access_S ); process (Bit_Clk) is begin if Bit_Clk'event and Bit_Clk='1' then BitClk_ac97_reg_access_St(0) <= IpClk_access_request; BitClk_ac97_reg_access_St(1) <= BitClk_ac97_reg_access_St(0); BitClk_ac97_reg_access_S <= BitClk_ac97_reg_access_St(0) and (not BitClk_ac97_reg_access_St(1)); end if; end process; BitClk_ac97_reg_read_strobe <= BitClk_ac97_reg_access_S and IpClk_ac97_reg_read; BitClk_ac97_reg_write_strobe <= BitClk_ac97_reg_access_S and (not IpClk_ac97_reg_read); BitClk_playback_left_valid <= '1'; BitClk_playback_right_valid <= '1'; ----------------------------------------------------------------------------- -- Fifo Control Signals (asynchronous clock transfer) -- ----------------------------------------------------------------------------- -- BitClk is slower than IpClk. process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_clk='1' then IpClk_playback_accept_St(0) <= BitClk_playback_left_accept; IpClk_playback_accept_St(1) <= IpClk_playback_accept_St(0); end if; IpClk_playback_accept_S <= IpClk_playback_accept_St(0) and (not IpClk_playback_accept_St(1)); end process; process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_clk='1' then IpClk_record_valid_St(0) <= BitClk_record_left_valid; IpClk_record_valid_St(1) <= IpClk_record_valid_St(0); end if; end process; IpClk_record_accept_S <= IpClk_record_valid_St(0) and (not IpClk_record_valid_St(1)); in_FIFO_Read <= IpClk_playback_accept_S; out_FIFO_Write <= IpClk_record_accept_S; ----------------------------------------------------------------------------- -- IN_FIFO -- -- This fifo receives data directly from the OPB bus and performs a "fifo -- write" for each OPB write to the FIFO. The FIFO sends data directly to the -- AC97 core and performs a "fifo read" every time a new AC97 frame is sent. -- ----------------------------------------------------------------------------- Using_Playback_SRL : if (C_PLAYBACK = 1 and C_USE_BRAM = 0) generate IN_FIFO : SRL_FIFO generic map ( C_DATA_BITS => 32, -- Left and Right channel C_DEPTH => 16) port map ( Clk => Bus2IP_Clk, Reset => Bus2IP_Reset, Clear_FIFO => clear_in_fifo, FIFO_Write => in_FIFO_Write, Data_In => Bus2IP_Data, FIFO_Read => in_FIFO_Read, Data_Out => in_Data_FIFO, FIFO_Full => in_FIFO_Full, Data_Exists => in_Data_Exists, FIFO_Level => in_srl_fifo_level, Half_Full => in_FIFO_Half_Full, Half_Empty => in_FIFO_Half_Empty); in_fifo_level <= "000000" & in_srl_fifo_level; in_FIFO_Empty <= not in_Data_Exists; end generate Using_Playback_SRL; Using_Playback_BRAM : if (C_PLAYBACK = 1 and C_USE_BRAM = 1) generate IN_FIFO : BRAM_FIFO port map ( Clk => Bus2IP_Clk, Reset => Bus2IP_Reset, Clear_FIFO => clear_in_fifo, FIFO_Write => in_FIFO_Write, Data_In => Bus2IP_Data, FIFO_Read => in_FIFO_Read, Data_Out => in_Data_FIFO, FIFO_Level => in_fifo_level, FULL => in_FIFO_Full, HalfFull => in_FIFO_HALF_FULL, HalfEmpty => in_FIFO_Half_Empty, Overflow => open, Underflow => open, Empty => in_FIFO_Empty ); in_Data_Exists <= not in_FIFO_Empty; end generate Using_Playback_BRAM; No_Playback : if (C_PLAYBACK = 0) generate in_Data_FIFO <= (others => '0'); in_FIFO_Full <= '0'; in_Data_Exists <= '0'; in_FIFO_Empty <= '0'; in_fifo_level <= (others => '0'); out_fifo_level <= (others => '0'); end generate No_Playback; ----------------------------------------------------------------------------- -- OUT_FIFO -- -- This fifo receives data directly from the AC97 and performs a "fifo -- write" for each AC97 frame. The FIFO sends data directly to the -- OPB Bus core and performs a "fifo read" every time data is read from the -- FIFO over the OPB bus. -- ----------------------------------------------------------------------------- Using_Recording_SRL : if (C_RECORD = 1 and C_USE_BRAM = 0) generate OUT_FIFO : SRL_FIFO generic map ( C_DATA_BITS => 32, -- [integer] C_DEPTH => 16) -- [integer] port map ( Clk => Bus2IP_Clk, -- [in std_logic] Reset => Bus2IP_Reset, -- [in std_logic] Clear_FIFO => clear_out_fifo, -- [in std_logic] FIFO_Write => out_FIFO_Write, -- [in std_logic] Data_In => out_Data_FIFO, FIFO_Read => out_FIFO_Read, -- [in std_logic] Data_Out => out_Data_Read, -- [out std_logic_vector(0 to C_OPB_DWIDTH-1)] FIFO_Full => out_FIFO_Full, -- [out std_logic] Data_Exists => out_Data_Exists, -- [out std_logic] FIFO_Level => out_srl_fifo_level, Half_Full => out_FIFO_Half_Full, -- [out std_logic] Half_Empty => open); -- [out std_logic] out_fifo_level <= "000000" & out_srl_fifo_level; out_fifo_empty <= not out_Data_exists; end generate Using_Recording_SRL; Using_Recording_BRAM : if (C_RECORD = 1 and C_USE_BRAM = 1) generate OUT_FIFO : BRAM_FIFO port map ( Clk => Bus2IP_Clk, Reset => Bus2IP_Reset, Clear_FIFO => clear_out_fifo, FIFO_Write => out_FIFO_Write, Data_In => out_Data_FIFO, FIFO_Read => out_FIFO_Read, Data_Out => out_Data_Read, FIFO_Level => out_fifo_level, FULL => out_FIFO_Full, HalfFull => out_FIFO_HALF_FULL, HalfEmpty => out_FIFO_HALF_Empty, Overflow => open, Underflow => open, Empty => out_FIFO_Empty); -- [out std_logic] out_Data_Exists <= not out_FIFO_Empty; end generate Using_Recording_BRAM; No_Recording : if (C_RECORD = 0) generate out_Data_Read <= (others => '0'); out_FIFO_Full <= '0'; out_Data_Exists <= '0'; end generate No_Recording; ----------------------------------------------------------------------------- -- Instanciating the core ----------------------------------------------------------------------------- ac97_core_I : ac97_core port map ( Reset => ac97_core_reset, AC97_Bit_Clk => Bit_Clk, AC97_Sync => Sync, AC97_SData_Out => SData_Out, AC97_SData_In => SData_In, AC97_Reg_Addr => IpClk_ac97_reg_addr, -- async AC97_Reg_Write_Data => IpClk_ac97_reg_write_data, -- async AC97_Reg_Read_Data => BitClk_ac97_Reg_Read_Data, AC97_Reg_Read_Strobe => BitClk_ac97_reg_read_strobe, AC97_Reg_Write_Strobe => BitClk_ac97_reg_write_strobe, AC97_Reg_Busy => BitClk_ac97_reg_busy, AC97_Reg_Error => BitClk_ac97_reg_error, AC97_Reg_Read_Data_Valid => BitClk_ac97_reg_data_valid, PCM_Playback_Left => in_Data_Fifo(16 to 31), PCM_Playback_Right => in_Data_Fifo(0 to 15), PCM_Playback_Left_Valid => BitClk_playback_left_valid, PCM_Playback_Right_Valid => BitClk_playback_right_valid, PCM_Playback_Left_Accept => BitClk_playback_left_accept, PCM_Playback_Right_Accept => BitClk_playback_right_accept, PCM_Record_Left => out_Data_Fifo(16 to 31), PCM_Record_Right => out_Data_Fifo(0 to 15), PCM_Record_Left_Valid => BitClk_record_left_valid, PCM_Record_Right_Valid => BitClk_record_right_valid, DEBUG => debug_i, CODEC_RDY => BitClk_codec_rdy ); ----------------------------------------------------------------------------- -- Handling the interrupts ----------------------------------------------------------------------------- Interrupt_Handle: process (in_FIFO_Half_Full, in_FIFO_Full, In_Data_Exists, in_fifo_interrupt_en, out_FIFO_Half_Full, out_FIFO_Half_Empty, out_FIFO_Full, out_Data_Exists, out_fifo_interrupt_en ) is begin -- process Playback_Interrupt_Handle if (C_INTR_LEVEL = 1) then Interrupt <= (in_fifo_interrupt_en and in_FIFO_Half_Empty) or (out_fifo_interrupt_en and out_FIFO_Half_Full); elsif (C_INTR_LEVEL = 2) then Interrupt <= (in_fifo_interrupt_en and in_FIFO_Full) or (out_fifo_interrupt_en and out_FIFO_Empty); elsif (C_INTR_LEVEL = 3) then Interrupt <= (in_fifo_interrupt_en and in_FIFO_Half_Full) or (out_fifo_interrupt_en and out_Fifo_Half_Empty); -- TODO: implement level 3 else Interrupt <= '0'; end if; end process Interrupt_Handle; end architecture IMP;
------------------------------------------------------------------------------- -- Filename: ac97_fifo.vhd -- -- Description: This module provides a FIFO interface for the AC97 -- module and provides an asyncrhonous interface for a -- higher level module that is not synchronous with the AC97 -- clock (Bit_Clk). -- -- This module provides a FIFO interface for both the incoming -- data (playback data) and outgoing data (record data). -- -- This module provides a bus independent interface so the -- module can be used for more than one bus interface. -- -- VHDL-Standard: VHDL'93 ------------------------------------------------------------------------------- -- Structure: -- ac97_core -- ac97_timing -- srl_fifo -- ------------------------------------------------------------------------------- -- Author: Mike Wirthlin -- -- ------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; use ieee.numeric_std.all; ------------------------------------------------------------------------------- -- ------------------------------------------------------------------------------- entity ac97_fifo is generic ( C_AWIDTH : integer := 32; C_DWIDTH : integer := 32; C_PLAYBACK : integer := 1; C_RECORD : integer := 1; -- Interrupt strategy -- 0 = No interrupts -- 1 = when fifos are half empty (in half empty, out is half full) -- 2 = when fifos are empty (in is empty, out is full) -- 3 = when fifos are equal to interrupt fifo depth C_INTR_LEVEL : integer := 0; -- Use block ram FIFOs if 1, otherwise use a shallow -- SRL fifo. C_USE_BRAM : integer := 1 ); port ( -- IP Interface Bus2IP_Clk : in std_logic; Bus2IP_Reset : in std_logic; Bus2IP_Addr : in std_logic_vector(0 to C_AWIDTH-1); Bus2IP_Data : in std_logic_vector(0 to C_AWIDTH-1); Bus2IP_BE : in std_logic_vector(0 to C_DWIDTH/8-1); Bus2IP_RdCE : in std_logic; Bus2IP_WrCE : in std_logic; IP2Bus_Data : out std_logic_vector(0 to C_DWIDTH-1); Interrupt: out std_logic; -- CODEC signals Bit_Clk : in std_logic; Sync : out std_logic; SData_Out : out std_logic; SData_In : in std_logic; AC97Reset_n : out std_logic ); end entity ac97_fifo; library opb_ac97_v2_00_a; use opb_ac97_v2_00_a.all; library unisim; use unisim.all; architecture IMP of ac97_fifo is component ac97_core is generic ( C_PCM_DATA_WIDTH : integer := 16 ); port ( Reset : in std_logic; -- signals attaching directly to AC97 codec AC97_Bit_Clk : in std_logic; AC97_Sync : out std_logic; AC97_SData_Out : out std_logic; AC97_SData_In : in std_logic; -- AC97 register interface AC97_Reg_Addr : in std_logic_vector(0 to 6); AC97_Reg_Write_Data : in std_logic_vector(0 to 15); AC97_Reg_Read_Data : out std_logic_vector(0 to 15); AC97_Reg_Read_Strobe : in std_logic; -- initiates a "read" command AC97_Reg_Write_Strobe : in std_logic; -- initiates a "write" command AC97_Reg_Busy : out std_logic; AC97_Reg_Error : out std_logic; AC97_Reg_Read_Data_Valid : out std_logic; -- Playback signal interface PCM_Playback_Left: in std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Playback_Right: in std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Playback_Left_Valid: in std_logic; PCM_Playback_Right_Valid: in std_logic; PCM_Playback_Left_Accept: out std_logic; PCM_Playback_Right_Accept: out std_logic; -- Record signal interface PCM_Record_Left: out std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Record_Right: out std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Record_Left_Valid: out std_logic; PCM_Record_Right_Valid: out std_logic; DEBUG : out std_logic_vector(0 to 15); CODEC_RDY : out std_logic ); end component ac97_core; component FDCPE port( Q : out std_ulogic; C : in std_ulogic; CE : in std_ulogic; CLR : in std_ulogic; D : in std_ulogic; PRE : in std_ulogic ); end component; component SRL_FIFO is generic ( C_DATA_BITS : integer; C_DEPTH : integer); port ( Clk : in std_logic; Reset : in std_logic; Clear_FIFO : in std_logic; FIFO_Write : in std_logic; Data_In : in std_logic_vector(0 to C_DATA_BITS-1); FIFO_Read : in std_logic; Data_Out : out std_logic_vector(0 to C_DATA_BITS-1); FIFO_Full : out std_logic; Data_Exists : out std_logic; FIFO_Level : out std_logic_vector(0 to 3); Half_Full : out std_logic; Half_Empty : out std_logic ); end component SRL_FIFO; component BRAM_FIFO is generic ( C_DATA_BITS : integer := 32; C_ADDR_BITS : integer := 9 ); port ( Clk : in std_logic; Reset : in std_logic; Clear_FIFO : in std_logic; FIFO_Write : in std_logic; Data_In : in std_logic_vector(0 to C_DATA_BITS-1); FIFO_Read : in std_logic; Data_Out : out std_logic_vector(0 to C_DATA_BITS-1); FIFO_Level : out std_logic_vector(0 to C_ADDR_BITS); Full : out std_logic; HalfFull : out std_logic; HalfEmpty : out std_logic; Overflow : out std_logic; Underflow : out std_logic; Empty : out std_logic ); end component BRAM_FIFO; -- OUT_FIFO: record data from out fifo (left and right) -- IN_FIFO: playback data (left and right) -- STATUS: status of FIFOs/AC97 -- CONTROL: overall controll. clear fifos, interrupts -- AC97_READ_ADR: result of AC97 register read -- AC97_WRITE_ADR: Value to send for a AC97 write -- AC97_CTRL_ADR: write ac97 command signal controller_addr : std_logic_vector(0 to 2); -- Register Map -- Addr Read Write -- 0x0 OUT_FIFO IN_FIFO -- 0x4 STATUS Control -- 0x8 AC97_READ AC97_WRITE -- 0xc N/A AC97_CNTRL constant IN_FIFO_ADR : std_logic_vector(0 to 2) := "000"; -- x0000 constant OUT_FIFO_ADR : std_logic_vector(0 to 2) := "000"; -- x0000 constant STATUS_ADR : std_logic_vector(0 to 2) := "001"; -- x0004 constant CTRL_ADR : std_logic_vector(0 to 2) := "001"; -- x0004 constant AC97_READ_ADR : std_logic_vector(0 to 2) := "010"; -- x0008 constant AC97_WRITE_ADR : std_logic_vector(0 to 2) := "010"; -- x0008 constant AC97_CTRL_ADR : std_logic_vector(0 to 2) := "011"; -- x000C constant DEBUG_ADR : std_logic_vector(0 to 2) := "011"; -- x000C -- Fifo signals signal in_FIFO_Write : std_logic; signal in_FIFO_Read : std_logic; signal in_Data_FIFO : std_logic_vector(0 to 31); signal in_FIFO_Full : std_logic; signal in_Data_Exists : std_logic; signal in_FIFO_Empty : std_logic; signal in_FIFO_Half_Full : std_logic; signal in_FIFO_Half_Empty : std_logic; signal out_FIFO_Write : std_logic; signal out_FIFO_Read : std_logic; signal out_Data_Read : std_logic_vector(0 to 31); signal out_Data_FIFO : std_logic_vector(0 to 31); signal out_FIFO_Full : std_logic; signal out_Data_Exists : std_logic; signal out_FIFO_Empty : std_logic; signal out_FIFO_Half_Empty : std_logic; signal out_FIFO_Half_Full : std_logic; signal out_FIFO_Overrun : std_logic := '0'; signal in_FIFO_Underrun : std_logic := '0'; signal clear_in_fifo : std_logic; signal clear_out_fifo : std_logic; signal in_fifo_interrupt_en : std_logic; signal out_fifo_interrupt_en : std_logic; signal status_Reg : std_logic_vector(31 downto 0) := (others => '0'); signal IpClk_ac97_reg_addr : std_logic_vector(0 to 6); signal IpClk_ac97_Reg_Write_Data : std_logic_vector(0 to 15); signal IpClk_ac97_reg_read : std_logic; signal BitClk_codec_rdy, IpClk_codec_rdy : std_logic := '0'; signal BitClk_ac97_Reg_Read_Data : std_logic_vector(0 to 15); signal IpClk_ac97_reg_access_S : std_logic; signal BitClk_ac97_reg_access_St : std_logic_vector(2 downto 0); signal BitClk_ac97_reg_access_S : std_logic; signal BitClk_ac97_reg_read_data_valid : std_logic; signal in_fifo_level, out_fifo_level : std_logic_vector(0 to 9); signal in_srl_fifo_level, out_srl_fifo_level : std_logic_vector(0 to 3); signal BitClk_ac97_reg_data_valid : std_logic; -- ignore? signal BitClk_record_left_valid,BitClk_record_right_valid : std_logic; signal BitClk_playback_left_accept,BitClk_playback_right_accept : std_logic; signal BitClk_ac97_reg_read_strobe : std_logic := '0'; signal BitClk_ac97_reg_write_strobe : std_logic := '0'; signal BitClk_playback_left_valid,BitClk_playback_right_valid : std_logic; signal BitClk_ac97_reg_busy, IpClk_ac97_reg_busy : std_logic := '0'; signal BitClk_ac97_reg_error, IpClk_ac97_reg_error : std_logic := '0'; signal IpClk_access_request : std_logic; signal IpClk_playback_accept_St : std_logic_vector(1 downto 0); signal IpClk_playback_accept_S : std_logic; signal IpClk_record_valid_St : std_logic_vector(1 downto 0); signal IpClk_record_accept_S : std_logic; signal ac97_reset_i : std_logic := '0'; signal register_access_busy : std_logic; type register_access_state is (IDLE, ISSUE_ACCESS, PROCESS_ACCESS); signal ac97_register_access_sm : register_access_state := IDLE; signal debug_i : std_logic_vector(0 to 15); signal ac97_core_reset : std_logic; begin -- architecture IMP ------------------------------------------------------------ -- IP Interface ------------------------------------------------------------ -- Register address decoding bits controller_addr <= Bus2IP_Addr(27 to 29); -- Output multiplixer for read registers: -- status register -- AC97 register data -- Audio data OUT_MUX: process (controller_addr, status_reg, Bitclk_ac97_Reg_Read_Data, out_Data_read) is begin IP2Bus_Data <= (others => '0'); case controller_addr is when STATUS_ADR => IP2Bus_Data((32-status_reg'length) to 31) <= status_reg; when AC97_READ_ADR => IP2Bus_Data(16 to 31) <= BitClk_ac97_Reg_Read_Data; -- todo: fix when DEBUG_ADR => IP2Bus_Data(16 to 31) <= debug_i; when others => IP2Bus_Data <= out_Data_Read; end case; end process OUT_MUX; ---------------------------------------------------------------- -- FIFO Control ---------------------------------------------------------------- -- Generating read and write pulses for FIFOs in_FIFO_write <= '1' when ( Bus2IP_WrCE = '1' and controller_addr = IN_FIFO_ADR) else '0'; out_FIFO_read <= '1' when (Bus2IP_RdCE = '1' and controller_addr = OUT_FIFO_ADR) else '0'; clear_fifo_PROCESS : process (Bus2IP_WrCE, controller_addr, Bus2IP_Data(30 to 31)) begin if Bus2IP_WrCE = '1' and controller_addr = CTRL_ADR then clear_in_fifo <= Bus2IP_Data(31); clear_out_fifo <= Bus2IP_Data(30); else clear_in_fifo <= '0'; clear_out_fifo <= '0'; end if; end process; ---------------------------------------------------------------- -- Interrupt enable register ---------------------------------------------------------------- fifo_interrupt_enable_proc : process (Bus2IP_Clk) begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then in_fifo_interrupt_en <= '0'; out_fifo_interrupt_en <= '0'; elsif Bus2IP_WrCE = '1' and controller_addr = CTRL_ADR then in_fifo_interrupt_en <= Bus2IP_Data(29); out_fifo_interrupt_en <= Bus2IP_Data(28); end if; end if; end process fifo_interrupt_enable_proc; ---------------------------------------------------------------- -- AC97Reset control register ---------------------------------------------------------------- ac97_reset_n_PROCESS : process (Bus2IP_Clk) begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then ac97_reset_i <= '1'; elsif Bus2IP_WrCE = '1' and controller_addr = CTRL_ADR then ac97_reset_i <= Bus2IP_Data(27); end if; end if; end process; AC97Reset_n <= not ac97_reset_i; -- The reset signal to the core & timing module occurs when -- the bus is reset or when the AC97 codec is reset ac97_core_reset <= ac97_reset_i or Bus2IP_Reset; ----------------------------------------------------------------------------- -- Status register ----------------------------------------------------------------------------- FIFO_Error_PROCESS : process (Bus2IP_Clk) is begin -- process AC97_Write_Reg_Data if Bus2IP_Clk'event and Bus2IP_Clk='1' then if Bus2IP_Reset = '1' then out_FIFO_Overrun <= '0'; in_FIFO_Underrun <= '0'; else if (clear_in_fifo = '1') then in_FIFO_Underrun <= '0'; elsif (in_Data_Exists = '0') and (in_FIFO_Read = '1') then in_FIFO_Underrun <= '1'; end if; if (clear_out_fifo = '1') then out_FIFO_Overrun <= '0'; elsif (out_FIFO_Full = '1') and (out_FIFO_Write = '1') and (out_FIFO_read = '0') then out_FIFO_Overrun <= '1'; end if; end if; end if; end process; status_reg(31 downto 22) <= out_fifo_level; status_reg(21 downto 12) <= in_fifo_level; --status_reg(11 downto 9) <= (others => '0'); status_reg(10) <= out_fifo_interrupt_en; status_reg(9) <= in_fifo_interrupt_en; status_reg(8) <= IpClk_ac97_reg_error; status_reg(7) <= out_FIFO_Overrun; status_reg(6) <= in_FIFO_Underrun; status_reg(5) <= IpClk_codec_rdy; status_reg(4) <= register_access_busy; --IpClk_ac97_reg_busy; status_reg(3) <= out_Data_Exists; status_reg(2) <= out_fifo_empty; status_reg(1) <= in_fifo_empty; status_reg(0) <= in_FIFO_Full; process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then IpClk_codec_rdy <= BitClk_codec_rdy; IpClk_ac97_reg_busy <= BitClk_ac97_reg_busy; IpClk_ac97_reg_error <= BitClk_ac97_reg_error; end if; end process; ----------------------------------------------------------------------------- -- AC97 Access Register ----------------------------------------------------------------------------- -- The AC97 access register is used to initiate an AC97 register -- read or write command. This register holds the AC97 address to -- read/write as well as the direction (IpClk_ac97_reg_read). AC97_Access_Reg : process (Bus2IP_Clk) is begin -- process AC97_Write_Reg_Data if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then IpClk_ac97_reg_addr <= (others => '0'); IpClk_ac97_reg_read <= '0'; else if Bus2IP_WrCE = '1' and AC97_CTRL_ADR = controller_addr then IpClk_ac97_reg_addr <= Bus2IP_Data(25 to 31); IpClk_ac97_reg_read <= Bus2IP_Data(24); end if; end if; end if; end process; ----------------------------------------------------------------------------- -- AC97 Write data register ----------------------------------------------------------------------------- -- AC97 Register Write Data: This register holds the data that is to -- be written to the AC97 internal register. -- -- Writing to this register does not cause the actual -- write process to the AC97. Once this register has been written, -- a command must be written to the AC97_Access_Reg to initiate the -- actual write. AC97_Write_Reg : process (Bus2IP_Clk) is begin -- process AC97_Write_Reg_Data if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then IpClk_ac97_reg_write_data <= (others => '0'); else if Bus2IP_WrCE = '1' and controller_addr = AC97_WRITE_ADR then IpClk_ac97_reg_write_data <= Bus2IP_Data(16 to 31); end if; end if; end if; end process; ----------------------------------------------------------------------------- -- AC97 Access initiate one shot ----------------------------------------------------------------------------- -- This one bit signal is asserted when a write occurs to the AC97_CTRL_ADDR. -- This is a one-shot signal that is only asserted for one cycle -- (Bus2IP_Clk). -- This signal will initiate the AC97 register access state machine. AC97_Access_S_PROCESS : process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_WrCE = '1' and controller_addr = AC97_CTRL_ADR then IpClk_ac97_reg_access_S <= '1'; -- one shot else IpClk_ac97_reg_access_S <= '0'; end if; end if; end process; -- busy signal process (Bus2IP_Clk) is begin if Bus2IP_Reset = '1' then ac97_register_access_sm <= IDLE; elsif Bus2IP_Clk'event and Bus2IP_Clk='1' then case ac97_register_access_sm is when IDLE => if IpClk_ac97_reg_access_S = '1' then ac97_register_access_sm <= ISSUE_ACCESS; end if; when ISSUE_ACCESS => -- TODO: add time out in case the codec is not hooked up if IpClk_ac97_reg_busy = '1' then ac97_register_access_sm <= PROCESS_ACCESS; end if; when PROCESS_ACCESS => if IpClk_ac97_reg_busy = '0' then ac97_register_access_sm <= IDLE; end if; end case; end if; end process; register_access_busy <= '1' when (ac97_register_access_sm = ISSUE_ACCESS or ac97_register_access_sm = PROCESS_ACCESS) else '0'; ----------------------------------------------------------------------------- -- Clock crossing signals ----------------------------------------------------------------------------- -- convert the one cycle strobe in the IpClk domain to -- the BitClk domain. fdcpe_1 : FDCPE port map ( Q => IpClk_access_request, C => '0', CE => '0', CLR => BitClk_ac97_reg_access_S, D => '0', PRE => IpClk_ac97_reg_access_S ); process (Bit_Clk) is begin if Bit_Clk'event and Bit_Clk='1' then BitClk_ac97_reg_access_St(0) <= IpClk_access_request; BitClk_ac97_reg_access_St(1) <= BitClk_ac97_reg_access_St(0); BitClk_ac97_reg_access_S <= BitClk_ac97_reg_access_St(0) and (not BitClk_ac97_reg_access_St(1)); end if; end process; BitClk_ac97_reg_read_strobe <= BitClk_ac97_reg_access_S and IpClk_ac97_reg_read; BitClk_ac97_reg_write_strobe <= BitClk_ac97_reg_access_S and (not IpClk_ac97_reg_read); BitClk_playback_left_valid <= '1'; BitClk_playback_right_valid <= '1'; ----------------------------------------------------------------------------- -- Fifo Control Signals (asynchronous clock transfer) -- ----------------------------------------------------------------------------- -- BitClk is slower than IpClk. process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_clk='1' then IpClk_playback_accept_St(0) <= BitClk_playback_left_accept; IpClk_playback_accept_St(1) <= IpClk_playback_accept_St(0); end if; IpClk_playback_accept_S <= IpClk_playback_accept_St(0) and (not IpClk_playback_accept_St(1)); end process; process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_clk='1' then IpClk_record_valid_St(0) <= BitClk_record_left_valid; IpClk_record_valid_St(1) <= IpClk_record_valid_St(0); end if; end process; IpClk_record_accept_S <= IpClk_record_valid_St(0) and (not IpClk_record_valid_St(1)); in_FIFO_Read <= IpClk_playback_accept_S; out_FIFO_Write <= IpClk_record_accept_S; ----------------------------------------------------------------------------- -- IN_FIFO -- -- This fifo receives data directly from the OPB bus and performs a "fifo -- write" for each OPB write to the FIFO. The FIFO sends data directly to the -- AC97 core and performs a "fifo read" every time a new AC97 frame is sent. -- ----------------------------------------------------------------------------- Using_Playback_SRL : if (C_PLAYBACK = 1 and C_USE_BRAM = 0) generate IN_FIFO : SRL_FIFO generic map ( C_DATA_BITS => 32, -- Left and Right channel C_DEPTH => 16) port map ( Clk => Bus2IP_Clk, Reset => Bus2IP_Reset, Clear_FIFO => clear_in_fifo, FIFO_Write => in_FIFO_Write, Data_In => Bus2IP_Data, FIFO_Read => in_FIFO_Read, Data_Out => in_Data_FIFO, FIFO_Full => in_FIFO_Full, Data_Exists => in_Data_Exists, FIFO_Level => in_srl_fifo_level, Half_Full => in_FIFO_Half_Full, Half_Empty => in_FIFO_Half_Empty); in_fifo_level <= "000000" & in_srl_fifo_level; in_FIFO_Empty <= not in_Data_Exists; end generate Using_Playback_SRL; Using_Playback_BRAM : if (C_PLAYBACK = 1 and C_USE_BRAM = 1) generate IN_FIFO : BRAM_FIFO port map ( Clk => Bus2IP_Clk, Reset => Bus2IP_Reset, Clear_FIFO => clear_in_fifo, FIFO_Write => in_FIFO_Write, Data_In => Bus2IP_Data, FIFO_Read => in_FIFO_Read, Data_Out => in_Data_FIFO, FIFO_Level => in_fifo_level, FULL => in_FIFO_Full, HalfFull => in_FIFO_HALF_FULL, HalfEmpty => in_FIFO_Half_Empty, Overflow => open, Underflow => open, Empty => in_FIFO_Empty ); in_Data_Exists <= not in_FIFO_Empty; end generate Using_Playback_BRAM; No_Playback : if (C_PLAYBACK = 0) generate in_Data_FIFO <= (others => '0'); in_FIFO_Full <= '0'; in_Data_Exists <= '0'; in_FIFO_Empty <= '0'; in_fifo_level <= (others => '0'); out_fifo_level <= (others => '0'); end generate No_Playback; ----------------------------------------------------------------------------- -- OUT_FIFO -- -- This fifo receives data directly from the AC97 and performs a "fifo -- write" for each AC97 frame. The FIFO sends data directly to the -- OPB Bus core and performs a "fifo read" every time data is read from the -- FIFO over the OPB bus. -- ----------------------------------------------------------------------------- Using_Recording_SRL : if (C_RECORD = 1 and C_USE_BRAM = 0) generate OUT_FIFO : SRL_FIFO generic map ( C_DATA_BITS => 32, -- [integer] C_DEPTH => 16) -- [integer] port map ( Clk => Bus2IP_Clk, -- [in std_logic] Reset => Bus2IP_Reset, -- [in std_logic] Clear_FIFO => clear_out_fifo, -- [in std_logic] FIFO_Write => out_FIFO_Write, -- [in std_logic] Data_In => out_Data_FIFO, FIFO_Read => out_FIFO_Read, -- [in std_logic] Data_Out => out_Data_Read, -- [out std_logic_vector(0 to C_OPB_DWIDTH-1)] FIFO_Full => out_FIFO_Full, -- [out std_logic] Data_Exists => out_Data_Exists, -- [out std_logic] FIFO_Level => out_srl_fifo_level, Half_Full => out_FIFO_Half_Full, -- [out std_logic] Half_Empty => open); -- [out std_logic] out_fifo_level <= "000000" & out_srl_fifo_level; out_fifo_empty <= not out_Data_exists; end generate Using_Recording_SRL; Using_Recording_BRAM : if (C_RECORD = 1 and C_USE_BRAM = 1) generate OUT_FIFO : BRAM_FIFO port map ( Clk => Bus2IP_Clk, Reset => Bus2IP_Reset, Clear_FIFO => clear_out_fifo, FIFO_Write => out_FIFO_Write, Data_In => out_Data_FIFO, FIFO_Read => out_FIFO_Read, Data_Out => out_Data_Read, FIFO_Level => out_fifo_level, FULL => out_FIFO_Full, HalfFull => out_FIFO_HALF_FULL, HalfEmpty => out_FIFO_HALF_Empty, Overflow => open, Underflow => open, Empty => out_FIFO_Empty); -- [out std_logic] out_Data_Exists <= not out_FIFO_Empty; end generate Using_Recording_BRAM; No_Recording : if (C_RECORD = 0) generate out_Data_Read <= (others => '0'); out_FIFO_Full <= '0'; out_Data_Exists <= '0'; end generate No_Recording; ----------------------------------------------------------------------------- -- Instanciating the core ----------------------------------------------------------------------------- ac97_core_I : ac97_core port map ( Reset => ac97_core_reset, AC97_Bit_Clk => Bit_Clk, AC97_Sync => Sync, AC97_SData_Out => SData_Out, AC97_SData_In => SData_In, AC97_Reg_Addr => IpClk_ac97_reg_addr, -- async AC97_Reg_Write_Data => IpClk_ac97_reg_write_data, -- async AC97_Reg_Read_Data => BitClk_ac97_Reg_Read_Data, AC97_Reg_Read_Strobe => BitClk_ac97_reg_read_strobe, AC97_Reg_Write_Strobe => BitClk_ac97_reg_write_strobe, AC97_Reg_Busy => BitClk_ac97_reg_busy, AC97_Reg_Error => BitClk_ac97_reg_error, AC97_Reg_Read_Data_Valid => BitClk_ac97_reg_data_valid, PCM_Playback_Left => in_Data_Fifo(16 to 31), PCM_Playback_Right => in_Data_Fifo(0 to 15), PCM_Playback_Left_Valid => BitClk_playback_left_valid, PCM_Playback_Right_Valid => BitClk_playback_right_valid, PCM_Playback_Left_Accept => BitClk_playback_left_accept, PCM_Playback_Right_Accept => BitClk_playback_right_accept, PCM_Record_Left => out_Data_Fifo(16 to 31), PCM_Record_Right => out_Data_Fifo(0 to 15), PCM_Record_Left_Valid => BitClk_record_left_valid, PCM_Record_Right_Valid => BitClk_record_right_valid, DEBUG => debug_i, CODEC_RDY => BitClk_codec_rdy ); ----------------------------------------------------------------------------- -- Handling the interrupts ----------------------------------------------------------------------------- Interrupt_Handle: process (in_FIFO_Half_Full, in_FIFO_Full, In_Data_Exists, in_fifo_interrupt_en, out_FIFO_Half_Full, out_FIFO_Half_Empty, out_FIFO_Full, out_Data_Exists, out_fifo_interrupt_en ) is begin -- process Playback_Interrupt_Handle if (C_INTR_LEVEL = 1) then Interrupt <= (in_fifo_interrupt_en and in_FIFO_Half_Empty) or (out_fifo_interrupt_en and out_FIFO_Half_Full); elsif (C_INTR_LEVEL = 2) then Interrupt <= (in_fifo_interrupt_en and in_FIFO_Full) or (out_fifo_interrupt_en and out_FIFO_Empty); elsif (C_INTR_LEVEL = 3) then Interrupt <= (in_fifo_interrupt_en and in_FIFO_Half_Full) or (out_fifo_interrupt_en and out_Fifo_Half_Empty); -- TODO: implement level 3 else Interrupt <= '0'; end if; end process Interrupt_Handle; end architecture IMP;
------------------------------------------------------------------------------- -- Filename: ac97_fifo.vhd -- -- Description: This module provides a FIFO interface for the AC97 -- module and provides an asyncrhonous interface for a -- higher level module that is not synchronous with the AC97 -- clock (Bit_Clk). -- -- This module provides a FIFO interface for both the incoming -- data (playback data) and outgoing data (record data). -- -- This module provides a bus independent interface so the -- module can be used for more than one bus interface. -- -- VHDL-Standard: VHDL'93 ------------------------------------------------------------------------------- -- Structure: -- ac97_core -- ac97_timing -- srl_fifo -- ------------------------------------------------------------------------------- -- Author: Mike Wirthlin -- -- ------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; use ieee.numeric_std.all; ------------------------------------------------------------------------------- -- ------------------------------------------------------------------------------- entity ac97_fifo is generic ( C_AWIDTH : integer := 32; C_DWIDTH : integer := 32; C_PLAYBACK : integer := 1; C_RECORD : integer := 1; -- Interrupt strategy -- 0 = No interrupts -- 1 = when fifos are half empty (in half empty, out is half full) -- 2 = when fifos are empty (in is empty, out is full) -- 3 = when fifos are equal to interrupt fifo depth C_INTR_LEVEL : integer := 0; -- Use block ram FIFOs if 1, otherwise use a shallow -- SRL fifo. C_USE_BRAM : integer := 1 ); port ( -- IP Interface Bus2IP_Clk : in std_logic; Bus2IP_Reset : in std_logic; Bus2IP_Addr : in std_logic_vector(0 to C_AWIDTH-1); Bus2IP_Data : in std_logic_vector(0 to C_AWIDTH-1); Bus2IP_BE : in std_logic_vector(0 to C_DWIDTH/8-1); Bus2IP_RdCE : in std_logic; Bus2IP_WrCE : in std_logic; IP2Bus_Data : out std_logic_vector(0 to C_DWIDTH-1); Interrupt: out std_logic; -- CODEC signals Bit_Clk : in std_logic; Sync : out std_logic; SData_Out : out std_logic; SData_In : in std_logic; AC97Reset_n : out std_logic ); end entity ac97_fifo; library opb_ac97_v2_00_a; use opb_ac97_v2_00_a.all; library unisim; use unisim.all; architecture IMP of ac97_fifo is component ac97_core is generic ( C_PCM_DATA_WIDTH : integer := 16 ); port ( Reset : in std_logic; -- signals attaching directly to AC97 codec AC97_Bit_Clk : in std_logic; AC97_Sync : out std_logic; AC97_SData_Out : out std_logic; AC97_SData_In : in std_logic; -- AC97 register interface AC97_Reg_Addr : in std_logic_vector(0 to 6); AC97_Reg_Write_Data : in std_logic_vector(0 to 15); AC97_Reg_Read_Data : out std_logic_vector(0 to 15); AC97_Reg_Read_Strobe : in std_logic; -- initiates a "read" command AC97_Reg_Write_Strobe : in std_logic; -- initiates a "write" command AC97_Reg_Busy : out std_logic; AC97_Reg_Error : out std_logic; AC97_Reg_Read_Data_Valid : out std_logic; -- Playback signal interface PCM_Playback_Left: in std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Playback_Right: in std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Playback_Left_Valid: in std_logic; PCM_Playback_Right_Valid: in std_logic; PCM_Playback_Left_Accept: out std_logic; PCM_Playback_Right_Accept: out std_logic; -- Record signal interface PCM_Record_Left: out std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Record_Right: out std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Record_Left_Valid: out std_logic; PCM_Record_Right_Valid: out std_logic; DEBUG : out std_logic_vector(0 to 15); CODEC_RDY : out std_logic ); end component ac97_core; component FDCPE port( Q : out std_ulogic; C : in std_ulogic; CE : in std_ulogic; CLR : in std_ulogic; D : in std_ulogic; PRE : in std_ulogic ); end component; component SRL_FIFO is generic ( C_DATA_BITS : integer; C_DEPTH : integer); port ( Clk : in std_logic; Reset : in std_logic; Clear_FIFO : in std_logic; FIFO_Write : in std_logic; Data_In : in std_logic_vector(0 to C_DATA_BITS-1); FIFO_Read : in std_logic; Data_Out : out std_logic_vector(0 to C_DATA_BITS-1); FIFO_Full : out std_logic; Data_Exists : out std_logic; FIFO_Level : out std_logic_vector(0 to 3); Half_Full : out std_logic; Half_Empty : out std_logic ); end component SRL_FIFO; component BRAM_FIFO is generic ( C_DATA_BITS : integer := 32; C_ADDR_BITS : integer := 9 ); port ( Clk : in std_logic; Reset : in std_logic; Clear_FIFO : in std_logic; FIFO_Write : in std_logic; Data_In : in std_logic_vector(0 to C_DATA_BITS-1); FIFO_Read : in std_logic; Data_Out : out std_logic_vector(0 to C_DATA_BITS-1); FIFO_Level : out std_logic_vector(0 to C_ADDR_BITS); Full : out std_logic; HalfFull : out std_logic; HalfEmpty : out std_logic; Overflow : out std_logic; Underflow : out std_logic; Empty : out std_logic ); end component BRAM_FIFO; -- OUT_FIFO: record data from out fifo (left and right) -- IN_FIFO: playback data (left and right) -- STATUS: status of FIFOs/AC97 -- CONTROL: overall controll. clear fifos, interrupts -- AC97_READ_ADR: result of AC97 register read -- AC97_WRITE_ADR: Value to send for a AC97 write -- AC97_CTRL_ADR: write ac97 command signal controller_addr : std_logic_vector(0 to 2); -- Register Map -- Addr Read Write -- 0x0 OUT_FIFO IN_FIFO -- 0x4 STATUS Control -- 0x8 AC97_READ AC97_WRITE -- 0xc N/A AC97_CNTRL constant IN_FIFO_ADR : std_logic_vector(0 to 2) := "000"; -- x0000 constant OUT_FIFO_ADR : std_logic_vector(0 to 2) := "000"; -- x0000 constant STATUS_ADR : std_logic_vector(0 to 2) := "001"; -- x0004 constant CTRL_ADR : std_logic_vector(0 to 2) := "001"; -- x0004 constant AC97_READ_ADR : std_logic_vector(0 to 2) := "010"; -- x0008 constant AC97_WRITE_ADR : std_logic_vector(0 to 2) := "010"; -- x0008 constant AC97_CTRL_ADR : std_logic_vector(0 to 2) := "011"; -- x000C constant DEBUG_ADR : std_logic_vector(0 to 2) := "011"; -- x000C -- Fifo signals signal in_FIFO_Write : std_logic; signal in_FIFO_Read : std_logic; signal in_Data_FIFO : std_logic_vector(0 to 31); signal in_FIFO_Full : std_logic; signal in_Data_Exists : std_logic; signal in_FIFO_Empty : std_logic; signal in_FIFO_Half_Full : std_logic; signal in_FIFO_Half_Empty : std_logic; signal out_FIFO_Write : std_logic; signal out_FIFO_Read : std_logic; signal out_Data_Read : std_logic_vector(0 to 31); signal out_Data_FIFO : std_logic_vector(0 to 31); signal out_FIFO_Full : std_logic; signal out_Data_Exists : std_logic; signal out_FIFO_Empty : std_logic; signal out_FIFO_Half_Empty : std_logic; signal out_FIFO_Half_Full : std_logic; signal out_FIFO_Overrun : std_logic := '0'; signal in_FIFO_Underrun : std_logic := '0'; signal clear_in_fifo : std_logic; signal clear_out_fifo : std_logic; signal in_fifo_interrupt_en : std_logic; signal out_fifo_interrupt_en : std_logic; signal status_Reg : std_logic_vector(31 downto 0) := (others => '0'); signal IpClk_ac97_reg_addr : std_logic_vector(0 to 6); signal IpClk_ac97_Reg_Write_Data : std_logic_vector(0 to 15); signal IpClk_ac97_reg_read : std_logic; signal BitClk_codec_rdy, IpClk_codec_rdy : std_logic := '0'; signal BitClk_ac97_Reg_Read_Data : std_logic_vector(0 to 15); signal IpClk_ac97_reg_access_S : std_logic; signal BitClk_ac97_reg_access_St : std_logic_vector(2 downto 0); signal BitClk_ac97_reg_access_S : std_logic; signal BitClk_ac97_reg_read_data_valid : std_logic; signal in_fifo_level, out_fifo_level : std_logic_vector(0 to 9); signal in_srl_fifo_level, out_srl_fifo_level : std_logic_vector(0 to 3); signal BitClk_ac97_reg_data_valid : std_logic; -- ignore? signal BitClk_record_left_valid,BitClk_record_right_valid : std_logic; signal BitClk_playback_left_accept,BitClk_playback_right_accept : std_logic; signal BitClk_ac97_reg_read_strobe : std_logic := '0'; signal BitClk_ac97_reg_write_strobe : std_logic := '0'; signal BitClk_playback_left_valid,BitClk_playback_right_valid : std_logic; signal BitClk_ac97_reg_busy, IpClk_ac97_reg_busy : std_logic := '0'; signal BitClk_ac97_reg_error, IpClk_ac97_reg_error : std_logic := '0'; signal IpClk_access_request : std_logic; signal IpClk_playback_accept_St : std_logic_vector(1 downto 0); signal IpClk_playback_accept_S : std_logic; signal IpClk_record_valid_St : std_logic_vector(1 downto 0); signal IpClk_record_accept_S : std_logic; signal ac97_reset_i : std_logic := '0'; signal register_access_busy : std_logic; type register_access_state is (IDLE, ISSUE_ACCESS, PROCESS_ACCESS); signal ac97_register_access_sm : register_access_state := IDLE; signal debug_i : std_logic_vector(0 to 15); signal ac97_core_reset : std_logic; begin -- architecture IMP ------------------------------------------------------------ -- IP Interface ------------------------------------------------------------ -- Register address decoding bits controller_addr <= Bus2IP_Addr(27 to 29); -- Output multiplixer for read registers: -- status register -- AC97 register data -- Audio data OUT_MUX: process (controller_addr, status_reg, Bitclk_ac97_Reg_Read_Data, out_Data_read) is begin IP2Bus_Data <= (others => '0'); case controller_addr is when STATUS_ADR => IP2Bus_Data((32-status_reg'length) to 31) <= status_reg; when AC97_READ_ADR => IP2Bus_Data(16 to 31) <= BitClk_ac97_Reg_Read_Data; -- todo: fix when DEBUG_ADR => IP2Bus_Data(16 to 31) <= debug_i; when others => IP2Bus_Data <= out_Data_Read; end case; end process OUT_MUX; ---------------------------------------------------------------- -- FIFO Control ---------------------------------------------------------------- -- Generating read and write pulses for FIFOs in_FIFO_write <= '1' when ( Bus2IP_WrCE = '1' and controller_addr = IN_FIFO_ADR) else '0'; out_FIFO_read <= '1' when (Bus2IP_RdCE = '1' and controller_addr = OUT_FIFO_ADR) else '0'; clear_fifo_PROCESS : process (Bus2IP_WrCE, controller_addr, Bus2IP_Data(30 to 31)) begin if Bus2IP_WrCE = '1' and controller_addr = CTRL_ADR then clear_in_fifo <= Bus2IP_Data(31); clear_out_fifo <= Bus2IP_Data(30); else clear_in_fifo <= '0'; clear_out_fifo <= '0'; end if; end process; ---------------------------------------------------------------- -- Interrupt enable register ---------------------------------------------------------------- fifo_interrupt_enable_proc : process (Bus2IP_Clk) begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then in_fifo_interrupt_en <= '0'; out_fifo_interrupt_en <= '0'; elsif Bus2IP_WrCE = '1' and controller_addr = CTRL_ADR then in_fifo_interrupt_en <= Bus2IP_Data(29); out_fifo_interrupt_en <= Bus2IP_Data(28); end if; end if; end process fifo_interrupt_enable_proc; ---------------------------------------------------------------- -- AC97Reset control register ---------------------------------------------------------------- ac97_reset_n_PROCESS : process (Bus2IP_Clk) begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then ac97_reset_i <= '1'; elsif Bus2IP_WrCE = '1' and controller_addr = CTRL_ADR then ac97_reset_i <= Bus2IP_Data(27); end if; end if; end process; AC97Reset_n <= not ac97_reset_i; -- The reset signal to the core & timing module occurs when -- the bus is reset or when the AC97 codec is reset ac97_core_reset <= ac97_reset_i or Bus2IP_Reset; ----------------------------------------------------------------------------- -- Status register ----------------------------------------------------------------------------- FIFO_Error_PROCESS : process (Bus2IP_Clk) is begin -- process AC97_Write_Reg_Data if Bus2IP_Clk'event and Bus2IP_Clk='1' then if Bus2IP_Reset = '1' then out_FIFO_Overrun <= '0'; in_FIFO_Underrun <= '0'; else if (clear_in_fifo = '1') then in_FIFO_Underrun <= '0'; elsif (in_Data_Exists = '0') and (in_FIFO_Read = '1') then in_FIFO_Underrun <= '1'; end if; if (clear_out_fifo = '1') then out_FIFO_Overrun <= '0'; elsif (out_FIFO_Full = '1') and (out_FIFO_Write = '1') and (out_FIFO_read = '0') then out_FIFO_Overrun <= '1'; end if; end if; end if; end process; status_reg(31 downto 22) <= out_fifo_level; status_reg(21 downto 12) <= in_fifo_level; --status_reg(11 downto 9) <= (others => '0'); status_reg(10) <= out_fifo_interrupt_en; status_reg(9) <= in_fifo_interrupt_en; status_reg(8) <= IpClk_ac97_reg_error; status_reg(7) <= out_FIFO_Overrun; status_reg(6) <= in_FIFO_Underrun; status_reg(5) <= IpClk_codec_rdy; status_reg(4) <= register_access_busy; --IpClk_ac97_reg_busy; status_reg(3) <= out_Data_Exists; status_reg(2) <= out_fifo_empty; status_reg(1) <= in_fifo_empty; status_reg(0) <= in_FIFO_Full; process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then IpClk_codec_rdy <= BitClk_codec_rdy; IpClk_ac97_reg_busy <= BitClk_ac97_reg_busy; IpClk_ac97_reg_error <= BitClk_ac97_reg_error; end if; end process; ----------------------------------------------------------------------------- -- AC97 Access Register ----------------------------------------------------------------------------- -- The AC97 access register is used to initiate an AC97 register -- read or write command. This register holds the AC97 address to -- read/write as well as the direction (IpClk_ac97_reg_read). AC97_Access_Reg : process (Bus2IP_Clk) is begin -- process AC97_Write_Reg_Data if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then IpClk_ac97_reg_addr <= (others => '0'); IpClk_ac97_reg_read <= '0'; else if Bus2IP_WrCE = '1' and AC97_CTRL_ADR = controller_addr then IpClk_ac97_reg_addr <= Bus2IP_Data(25 to 31); IpClk_ac97_reg_read <= Bus2IP_Data(24); end if; end if; end if; end process; ----------------------------------------------------------------------------- -- AC97 Write data register ----------------------------------------------------------------------------- -- AC97 Register Write Data: This register holds the data that is to -- be written to the AC97 internal register. -- -- Writing to this register does not cause the actual -- write process to the AC97. Once this register has been written, -- a command must be written to the AC97_Access_Reg to initiate the -- actual write. AC97_Write_Reg : process (Bus2IP_Clk) is begin -- process AC97_Write_Reg_Data if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then IpClk_ac97_reg_write_data <= (others => '0'); else if Bus2IP_WrCE = '1' and controller_addr = AC97_WRITE_ADR then IpClk_ac97_reg_write_data <= Bus2IP_Data(16 to 31); end if; end if; end if; end process; ----------------------------------------------------------------------------- -- AC97 Access initiate one shot ----------------------------------------------------------------------------- -- This one bit signal is asserted when a write occurs to the AC97_CTRL_ADDR. -- This is a one-shot signal that is only asserted for one cycle -- (Bus2IP_Clk). -- This signal will initiate the AC97 register access state machine. AC97_Access_S_PROCESS : process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_WrCE = '1' and controller_addr = AC97_CTRL_ADR then IpClk_ac97_reg_access_S <= '1'; -- one shot else IpClk_ac97_reg_access_S <= '0'; end if; end if; end process; -- busy signal process (Bus2IP_Clk) is begin if Bus2IP_Reset = '1' then ac97_register_access_sm <= IDLE; elsif Bus2IP_Clk'event and Bus2IP_Clk='1' then case ac97_register_access_sm is when IDLE => if IpClk_ac97_reg_access_S = '1' then ac97_register_access_sm <= ISSUE_ACCESS; end if; when ISSUE_ACCESS => -- TODO: add time out in case the codec is not hooked up if IpClk_ac97_reg_busy = '1' then ac97_register_access_sm <= PROCESS_ACCESS; end if; when PROCESS_ACCESS => if IpClk_ac97_reg_busy = '0' then ac97_register_access_sm <= IDLE; end if; end case; end if; end process; register_access_busy <= '1' when (ac97_register_access_sm = ISSUE_ACCESS or ac97_register_access_sm = PROCESS_ACCESS) else '0'; ----------------------------------------------------------------------------- -- Clock crossing signals ----------------------------------------------------------------------------- -- convert the one cycle strobe in the IpClk domain to -- the BitClk domain. fdcpe_1 : FDCPE port map ( Q => IpClk_access_request, C => '0', CE => '0', CLR => BitClk_ac97_reg_access_S, D => '0', PRE => IpClk_ac97_reg_access_S ); process (Bit_Clk) is begin if Bit_Clk'event and Bit_Clk='1' then BitClk_ac97_reg_access_St(0) <= IpClk_access_request; BitClk_ac97_reg_access_St(1) <= BitClk_ac97_reg_access_St(0); BitClk_ac97_reg_access_S <= BitClk_ac97_reg_access_St(0) and (not BitClk_ac97_reg_access_St(1)); end if; end process; BitClk_ac97_reg_read_strobe <= BitClk_ac97_reg_access_S and IpClk_ac97_reg_read; BitClk_ac97_reg_write_strobe <= BitClk_ac97_reg_access_S and (not IpClk_ac97_reg_read); BitClk_playback_left_valid <= '1'; BitClk_playback_right_valid <= '1'; ----------------------------------------------------------------------------- -- Fifo Control Signals (asynchronous clock transfer) -- ----------------------------------------------------------------------------- -- BitClk is slower than IpClk. process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_clk='1' then IpClk_playback_accept_St(0) <= BitClk_playback_left_accept; IpClk_playback_accept_St(1) <= IpClk_playback_accept_St(0); end if; IpClk_playback_accept_S <= IpClk_playback_accept_St(0) and (not IpClk_playback_accept_St(1)); end process; process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_clk='1' then IpClk_record_valid_St(0) <= BitClk_record_left_valid; IpClk_record_valid_St(1) <= IpClk_record_valid_St(0); end if; end process; IpClk_record_accept_S <= IpClk_record_valid_St(0) and (not IpClk_record_valid_St(1)); in_FIFO_Read <= IpClk_playback_accept_S; out_FIFO_Write <= IpClk_record_accept_S; ----------------------------------------------------------------------------- -- IN_FIFO -- -- This fifo receives data directly from the OPB bus and performs a "fifo -- write" for each OPB write to the FIFO. The FIFO sends data directly to the -- AC97 core and performs a "fifo read" every time a new AC97 frame is sent. -- ----------------------------------------------------------------------------- Using_Playback_SRL : if (C_PLAYBACK = 1 and C_USE_BRAM = 0) generate IN_FIFO : SRL_FIFO generic map ( C_DATA_BITS => 32, -- Left and Right channel C_DEPTH => 16) port map ( Clk => Bus2IP_Clk, Reset => Bus2IP_Reset, Clear_FIFO => clear_in_fifo, FIFO_Write => in_FIFO_Write, Data_In => Bus2IP_Data, FIFO_Read => in_FIFO_Read, Data_Out => in_Data_FIFO, FIFO_Full => in_FIFO_Full, Data_Exists => in_Data_Exists, FIFO_Level => in_srl_fifo_level, Half_Full => in_FIFO_Half_Full, Half_Empty => in_FIFO_Half_Empty); in_fifo_level <= "000000" & in_srl_fifo_level; in_FIFO_Empty <= not in_Data_Exists; end generate Using_Playback_SRL; Using_Playback_BRAM : if (C_PLAYBACK = 1 and C_USE_BRAM = 1) generate IN_FIFO : BRAM_FIFO port map ( Clk => Bus2IP_Clk, Reset => Bus2IP_Reset, Clear_FIFO => clear_in_fifo, FIFO_Write => in_FIFO_Write, Data_In => Bus2IP_Data, FIFO_Read => in_FIFO_Read, Data_Out => in_Data_FIFO, FIFO_Level => in_fifo_level, FULL => in_FIFO_Full, HalfFull => in_FIFO_HALF_FULL, HalfEmpty => in_FIFO_Half_Empty, Overflow => open, Underflow => open, Empty => in_FIFO_Empty ); in_Data_Exists <= not in_FIFO_Empty; end generate Using_Playback_BRAM; No_Playback : if (C_PLAYBACK = 0) generate in_Data_FIFO <= (others => '0'); in_FIFO_Full <= '0'; in_Data_Exists <= '0'; in_FIFO_Empty <= '0'; in_fifo_level <= (others => '0'); out_fifo_level <= (others => '0'); end generate No_Playback; ----------------------------------------------------------------------------- -- OUT_FIFO -- -- This fifo receives data directly from the AC97 and performs a "fifo -- write" for each AC97 frame. The FIFO sends data directly to the -- OPB Bus core and performs a "fifo read" every time data is read from the -- FIFO over the OPB bus. -- ----------------------------------------------------------------------------- Using_Recording_SRL : if (C_RECORD = 1 and C_USE_BRAM = 0) generate OUT_FIFO : SRL_FIFO generic map ( C_DATA_BITS => 32, -- [integer] C_DEPTH => 16) -- [integer] port map ( Clk => Bus2IP_Clk, -- [in std_logic] Reset => Bus2IP_Reset, -- [in std_logic] Clear_FIFO => clear_out_fifo, -- [in std_logic] FIFO_Write => out_FIFO_Write, -- [in std_logic] Data_In => out_Data_FIFO, FIFO_Read => out_FIFO_Read, -- [in std_logic] Data_Out => out_Data_Read, -- [out std_logic_vector(0 to C_OPB_DWIDTH-1)] FIFO_Full => out_FIFO_Full, -- [out std_logic] Data_Exists => out_Data_Exists, -- [out std_logic] FIFO_Level => out_srl_fifo_level, Half_Full => out_FIFO_Half_Full, -- [out std_logic] Half_Empty => open); -- [out std_logic] out_fifo_level <= "000000" & out_srl_fifo_level; out_fifo_empty <= not out_Data_exists; end generate Using_Recording_SRL; Using_Recording_BRAM : if (C_RECORD = 1 and C_USE_BRAM = 1) generate OUT_FIFO : BRAM_FIFO port map ( Clk => Bus2IP_Clk, Reset => Bus2IP_Reset, Clear_FIFO => clear_out_fifo, FIFO_Write => out_FIFO_Write, Data_In => out_Data_FIFO, FIFO_Read => out_FIFO_Read, Data_Out => out_Data_Read, FIFO_Level => out_fifo_level, FULL => out_FIFO_Full, HalfFull => out_FIFO_HALF_FULL, HalfEmpty => out_FIFO_HALF_Empty, Overflow => open, Underflow => open, Empty => out_FIFO_Empty); -- [out std_logic] out_Data_Exists <= not out_FIFO_Empty; end generate Using_Recording_BRAM; No_Recording : if (C_RECORD = 0) generate out_Data_Read <= (others => '0'); out_FIFO_Full <= '0'; out_Data_Exists <= '0'; end generate No_Recording; ----------------------------------------------------------------------------- -- Instanciating the core ----------------------------------------------------------------------------- ac97_core_I : ac97_core port map ( Reset => ac97_core_reset, AC97_Bit_Clk => Bit_Clk, AC97_Sync => Sync, AC97_SData_Out => SData_Out, AC97_SData_In => SData_In, AC97_Reg_Addr => IpClk_ac97_reg_addr, -- async AC97_Reg_Write_Data => IpClk_ac97_reg_write_data, -- async AC97_Reg_Read_Data => BitClk_ac97_Reg_Read_Data, AC97_Reg_Read_Strobe => BitClk_ac97_reg_read_strobe, AC97_Reg_Write_Strobe => BitClk_ac97_reg_write_strobe, AC97_Reg_Busy => BitClk_ac97_reg_busy, AC97_Reg_Error => BitClk_ac97_reg_error, AC97_Reg_Read_Data_Valid => BitClk_ac97_reg_data_valid, PCM_Playback_Left => in_Data_Fifo(16 to 31), PCM_Playback_Right => in_Data_Fifo(0 to 15), PCM_Playback_Left_Valid => BitClk_playback_left_valid, PCM_Playback_Right_Valid => BitClk_playback_right_valid, PCM_Playback_Left_Accept => BitClk_playback_left_accept, PCM_Playback_Right_Accept => BitClk_playback_right_accept, PCM_Record_Left => out_Data_Fifo(16 to 31), PCM_Record_Right => out_Data_Fifo(0 to 15), PCM_Record_Left_Valid => BitClk_record_left_valid, PCM_Record_Right_Valid => BitClk_record_right_valid, DEBUG => debug_i, CODEC_RDY => BitClk_codec_rdy ); ----------------------------------------------------------------------------- -- Handling the interrupts ----------------------------------------------------------------------------- Interrupt_Handle: process (in_FIFO_Half_Full, in_FIFO_Full, In_Data_Exists, in_fifo_interrupt_en, out_FIFO_Half_Full, out_FIFO_Half_Empty, out_FIFO_Full, out_Data_Exists, out_fifo_interrupt_en ) is begin -- process Playback_Interrupt_Handle if (C_INTR_LEVEL = 1) then Interrupt <= (in_fifo_interrupt_en and in_FIFO_Half_Empty) or (out_fifo_interrupt_en and out_FIFO_Half_Full); elsif (C_INTR_LEVEL = 2) then Interrupt <= (in_fifo_interrupt_en and in_FIFO_Full) or (out_fifo_interrupt_en and out_FIFO_Empty); elsif (C_INTR_LEVEL = 3) then Interrupt <= (in_fifo_interrupt_en and in_FIFO_Half_Full) or (out_fifo_interrupt_en and out_Fifo_Half_Empty); -- TODO: implement level 3 else Interrupt <= '0'; end if; end process Interrupt_Handle; end architecture IMP;
------------------------------------------------------------------------------- -- Filename: ac97_fifo.vhd -- -- Description: This module provides a FIFO interface for the AC97 -- module and provides an asyncrhonous interface for a -- higher level module that is not synchronous with the AC97 -- clock (Bit_Clk). -- -- This module provides a FIFO interface for both the incoming -- data (playback data) and outgoing data (record data). -- -- This module provides a bus independent interface so the -- module can be used for more than one bus interface. -- -- VHDL-Standard: VHDL'93 ------------------------------------------------------------------------------- -- Structure: -- ac97_core -- ac97_timing -- srl_fifo -- ------------------------------------------------------------------------------- -- Author: Mike Wirthlin -- -- ------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; use ieee.numeric_std.all; ------------------------------------------------------------------------------- -- ------------------------------------------------------------------------------- entity ac97_fifo is generic ( C_AWIDTH : integer := 32; C_DWIDTH : integer := 32; C_PLAYBACK : integer := 1; C_RECORD : integer := 1; -- Interrupt strategy -- 0 = No interrupts -- 1 = when fifos are half empty (in half empty, out is half full) -- 2 = when fifos are empty (in is empty, out is full) -- 3 = when fifos are equal to interrupt fifo depth C_INTR_LEVEL : integer := 0; -- Use block ram FIFOs if 1, otherwise use a shallow -- SRL fifo. C_USE_BRAM : integer := 1 ); port ( -- IP Interface Bus2IP_Clk : in std_logic; Bus2IP_Reset : in std_logic; Bus2IP_Addr : in std_logic_vector(0 to C_AWIDTH-1); Bus2IP_Data : in std_logic_vector(0 to C_AWIDTH-1); Bus2IP_BE : in std_logic_vector(0 to C_DWIDTH/8-1); Bus2IP_RdCE : in std_logic; Bus2IP_WrCE : in std_logic; IP2Bus_Data : out std_logic_vector(0 to C_DWIDTH-1); Interrupt: out std_logic; -- CODEC signals Bit_Clk : in std_logic; Sync : out std_logic; SData_Out : out std_logic; SData_In : in std_logic; AC97Reset_n : out std_logic ); end entity ac97_fifo; library opb_ac97_v2_00_a; use opb_ac97_v2_00_a.all; library unisim; use unisim.all; architecture IMP of ac97_fifo is component ac97_core is generic ( C_PCM_DATA_WIDTH : integer := 16 ); port ( Reset : in std_logic; -- signals attaching directly to AC97 codec AC97_Bit_Clk : in std_logic; AC97_Sync : out std_logic; AC97_SData_Out : out std_logic; AC97_SData_In : in std_logic; -- AC97 register interface AC97_Reg_Addr : in std_logic_vector(0 to 6); AC97_Reg_Write_Data : in std_logic_vector(0 to 15); AC97_Reg_Read_Data : out std_logic_vector(0 to 15); AC97_Reg_Read_Strobe : in std_logic; -- initiates a "read" command AC97_Reg_Write_Strobe : in std_logic; -- initiates a "write" command AC97_Reg_Busy : out std_logic; AC97_Reg_Error : out std_logic; AC97_Reg_Read_Data_Valid : out std_logic; -- Playback signal interface PCM_Playback_Left: in std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Playback_Right: in std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Playback_Left_Valid: in std_logic; PCM_Playback_Right_Valid: in std_logic; PCM_Playback_Left_Accept: out std_logic; PCM_Playback_Right_Accept: out std_logic; -- Record signal interface PCM_Record_Left: out std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Record_Right: out std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Record_Left_Valid: out std_logic; PCM_Record_Right_Valid: out std_logic; DEBUG : out std_logic_vector(0 to 15); CODEC_RDY : out std_logic ); end component ac97_core; component FDCPE port( Q : out std_ulogic; C : in std_ulogic; CE : in std_ulogic; CLR : in std_ulogic; D : in std_ulogic; PRE : in std_ulogic ); end component; component SRL_FIFO is generic ( C_DATA_BITS : integer; C_DEPTH : integer); port ( Clk : in std_logic; Reset : in std_logic; Clear_FIFO : in std_logic; FIFO_Write : in std_logic; Data_In : in std_logic_vector(0 to C_DATA_BITS-1); FIFO_Read : in std_logic; Data_Out : out std_logic_vector(0 to C_DATA_BITS-1); FIFO_Full : out std_logic; Data_Exists : out std_logic; FIFO_Level : out std_logic_vector(0 to 3); Half_Full : out std_logic; Half_Empty : out std_logic ); end component SRL_FIFO; component BRAM_FIFO is generic ( C_DATA_BITS : integer := 32; C_ADDR_BITS : integer := 9 ); port ( Clk : in std_logic; Reset : in std_logic; Clear_FIFO : in std_logic; FIFO_Write : in std_logic; Data_In : in std_logic_vector(0 to C_DATA_BITS-1); FIFO_Read : in std_logic; Data_Out : out std_logic_vector(0 to C_DATA_BITS-1); FIFO_Level : out std_logic_vector(0 to C_ADDR_BITS); Full : out std_logic; HalfFull : out std_logic; HalfEmpty : out std_logic; Overflow : out std_logic; Underflow : out std_logic; Empty : out std_logic ); end component BRAM_FIFO; -- OUT_FIFO: record data from out fifo (left and right) -- IN_FIFO: playback data (left and right) -- STATUS: status of FIFOs/AC97 -- CONTROL: overall controll. clear fifos, interrupts -- AC97_READ_ADR: result of AC97 register read -- AC97_WRITE_ADR: Value to send for a AC97 write -- AC97_CTRL_ADR: write ac97 command signal controller_addr : std_logic_vector(0 to 2); -- Register Map -- Addr Read Write -- 0x0 OUT_FIFO IN_FIFO -- 0x4 STATUS Control -- 0x8 AC97_READ AC97_WRITE -- 0xc N/A AC97_CNTRL constant IN_FIFO_ADR : std_logic_vector(0 to 2) := "000"; -- x0000 constant OUT_FIFO_ADR : std_logic_vector(0 to 2) := "000"; -- x0000 constant STATUS_ADR : std_logic_vector(0 to 2) := "001"; -- x0004 constant CTRL_ADR : std_logic_vector(0 to 2) := "001"; -- x0004 constant AC97_READ_ADR : std_logic_vector(0 to 2) := "010"; -- x0008 constant AC97_WRITE_ADR : std_logic_vector(0 to 2) := "010"; -- x0008 constant AC97_CTRL_ADR : std_logic_vector(0 to 2) := "011"; -- x000C constant DEBUG_ADR : std_logic_vector(0 to 2) := "011"; -- x000C -- Fifo signals signal in_FIFO_Write : std_logic; signal in_FIFO_Read : std_logic; signal in_Data_FIFO : std_logic_vector(0 to 31); signal in_FIFO_Full : std_logic; signal in_Data_Exists : std_logic; signal in_FIFO_Empty : std_logic; signal in_FIFO_Half_Full : std_logic; signal in_FIFO_Half_Empty : std_logic; signal out_FIFO_Write : std_logic; signal out_FIFO_Read : std_logic; signal out_Data_Read : std_logic_vector(0 to 31); signal out_Data_FIFO : std_logic_vector(0 to 31); signal out_FIFO_Full : std_logic; signal out_Data_Exists : std_logic; signal out_FIFO_Empty : std_logic; signal out_FIFO_Half_Empty : std_logic; signal out_FIFO_Half_Full : std_logic; signal out_FIFO_Overrun : std_logic := '0'; signal in_FIFO_Underrun : std_logic := '0'; signal clear_in_fifo : std_logic; signal clear_out_fifo : std_logic; signal in_fifo_interrupt_en : std_logic; signal out_fifo_interrupt_en : std_logic; signal status_Reg : std_logic_vector(31 downto 0) := (others => '0'); signal IpClk_ac97_reg_addr : std_logic_vector(0 to 6); signal IpClk_ac97_Reg_Write_Data : std_logic_vector(0 to 15); signal IpClk_ac97_reg_read : std_logic; signal BitClk_codec_rdy, IpClk_codec_rdy : std_logic := '0'; signal BitClk_ac97_Reg_Read_Data : std_logic_vector(0 to 15); signal IpClk_ac97_reg_access_S : std_logic; signal BitClk_ac97_reg_access_St : std_logic_vector(2 downto 0); signal BitClk_ac97_reg_access_S : std_logic; signal BitClk_ac97_reg_read_data_valid : std_logic; signal in_fifo_level, out_fifo_level : std_logic_vector(0 to 9); signal in_srl_fifo_level, out_srl_fifo_level : std_logic_vector(0 to 3); signal BitClk_ac97_reg_data_valid : std_logic; -- ignore? signal BitClk_record_left_valid,BitClk_record_right_valid : std_logic; signal BitClk_playback_left_accept,BitClk_playback_right_accept : std_logic; signal BitClk_ac97_reg_read_strobe : std_logic := '0'; signal BitClk_ac97_reg_write_strobe : std_logic := '0'; signal BitClk_playback_left_valid,BitClk_playback_right_valid : std_logic; signal BitClk_ac97_reg_busy, IpClk_ac97_reg_busy : std_logic := '0'; signal BitClk_ac97_reg_error, IpClk_ac97_reg_error : std_logic := '0'; signal IpClk_access_request : std_logic; signal IpClk_playback_accept_St : std_logic_vector(1 downto 0); signal IpClk_playback_accept_S : std_logic; signal IpClk_record_valid_St : std_logic_vector(1 downto 0); signal IpClk_record_accept_S : std_logic; signal ac97_reset_i : std_logic := '0'; signal register_access_busy : std_logic; type register_access_state is (IDLE, ISSUE_ACCESS, PROCESS_ACCESS); signal ac97_register_access_sm : register_access_state := IDLE; signal debug_i : std_logic_vector(0 to 15); signal ac97_core_reset : std_logic; begin -- architecture IMP ------------------------------------------------------------ -- IP Interface ------------------------------------------------------------ -- Register address decoding bits controller_addr <= Bus2IP_Addr(27 to 29); -- Output multiplixer for read registers: -- status register -- AC97 register data -- Audio data OUT_MUX: process (controller_addr, status_reg, Bitclk_ac97_Reg_Read_Data, out_Data_read) is begin IP2Bus_Data <= (others => '0'); case controller_addr is when STATUS_ADR => IP2Bus_Data((32-status_reg'length) to 31) <= status_reg; when AC97_READ_ADR => IP2Bus_Data(16 to 31) <= BitClk_ac97_Reg_Read_Data; -- todo: fix when DEBUG_ADR => IP2Bus_Data(16 to 31) <= debug_i; when others => IP2Bus_Data <= out_Data_Read; end case; end process OUT_MUX; ---------------------------------------------------------------- -- FIFO Control ---------------------------------------------------------------- -- Generating read and write pulses for FIFOs in_FIFO_write <= '1' when ( Bus2IP_WrCE = '1' and controller_addr = IN_FIFO_ADR) else '0'; out_FIFO_read <= '1' when (Bus2IP_RdCE = '1' and controller_addr = OUT_FIFO_ADR) else '0'; clear_fifo_PROCESS : process (Bus2IP_WrCE, controller_addr, Bus2IP_Data(30 to 31)) begin if Bus2IP_WrCE = '1' and controller_addr = CTRL_ADR then clear_in_fifo <= Bus2IP_Data(31); clear_out_fifo <= Bus2IP_Data(30); else clear_in_fifo <= '0'; clear_out_fifo <= '0'; end if; end process; ---------------------------------------------------------------- -- Interrupt enable register ---------------------------------------------------------------- fifo_interrupt_enable_proc : process (Bus2IP_Clk) begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then in_fifo_interrupt_en <= '0'; out_fifo_interrupt_en <= '0'; elsif Bus2IP_WrCE = '1' and controller_addr = CTRL_ADR then in_fifo_interrupt_en <= Bus2IP_Data(29); out_fifo_interrupt_en <= Bus2IP_Data(28); end if; end if; end process fifo_interrupt_enable_proc; ---------------------------------------------------------------- -- AC97Reset control register ---------------------------------------------------------------- ac97_reset_n_PROCESS : process (Bus2IP_Clk) begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then ac97_reset_i <= '1'; elsif Bus2IP_WrCE = '1' and controller_addr = CTRL_ADR then ac97_reset_i <= Bus2IP_Data(27); end if; end if; end process; AC97Reset_n <= not ac97_reset_i; -- The reset signal to the core & timing module occurs when -- the bus is reset or when the AC97 codec is reset ac97_core_reset <= ac97_reset_i or Bus2IP_Reset; ----------------------------------------------------------------------------- -- Status register ----------------------------------------------------------------------------- FIFO_Error_PROCESS : process (Bus2IP_Clk) is begin -- process AC97_Write_Reg_Data if Bus2IP_Clk'event and Bus2IP_Clk='1' then if Bus2IP_Reset = '1' then out_FIFO_Overrun <= '0'; in_FIFO_Underrun <= '0'; else if (clear_in_fifo = '1') then in_FIFO_Underrun <= '0'; elsif (in_Data_Exists = '0') and (in_FIFO_Read = '1') then in_FIFO_Underrun <= '1'; end if; if (clear_out_fifo = '1') then out_FIFO_Overrun <= '0'; elsif (out_FIFO_Full = '1') and (out_FIFO_Write = '1') and (out_FIFO_read = '0') then out_FIFO_Overrun <= '1'; end if; end if; end if; end process; status_reg(31 downto 22) <= out_fifo_level; status_reg(21 downto 12) <= in_fifo_level; --status_reg(11 downto 9) <= (others => '0'); status_reg(10) <= out_fifo_interrupt_en; status_reg(9) <= in_fifo_interrupt_en; status_reg(8) <= IpClk_ac97_reg_error; status_reg(7) <= out_FIFO_Overrun; status_reg(6) <= in_FIFO_Underrun; status_reg(5) <= IpClk_codec_rdy; status_reg(4) <= register_access_busy; --IpClk_ac97_reg_busy; status_reg(3) <= out_Data_Exists; status_reg(2) <= out_fifo_empty; status_reg(1) <= in_fifo_empty; status_reg(0) <= in_FIFO_Full; process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then IpClk_codec_rdy <= BitClk_codec_rdy; IpClk_ac97_reg_busy <= BitClk_ac97_reg_busy; IpClk_ac97_reg_error <= BitClk_ac97_reg_error; end if; end process; ----------------------------------------------------------------------------- -- AC97 Access Register ----------------------------------------------------------------------------- -- The AC97 access register is used to initiate an AC97 register -- read or write command. This register holds the AC97 address to -- read/write as well as the direction (IpClk_ac97_reg_read). AC97_Access_Reg : process (Bus2IP_Clk) is begin -- process AC97_Write_Reg_Data if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then IpClk_ac97_reg_addr <= (others => '0'); IpClk_ac97_reg_read <= '0'; else if Bus2IP_WrCE = '1' and AC97_CTRL_ADR = controller_addr then IpClk_ac97_reg_addr <= Bus2IP_Data(25 to 31); IpClk_ac97_reg_read <= Bus2IP_Data(24); end if; end if; end if; end process; ----------------------------------------------------------------------------- -- AC97 Write data register ----------------------------------------------------------------------------- -- AC97 Register Write Data: This register holds the data that is to -- be written to the AC97 internal register. -- -- Writing to this register does not cause the actual -- write process to the AC97. Once this register has been written, -- a command must be written to the AC97_Access_Reg to initiate the -- actual write. AC97_Write_Reg : process (Bus2IP_Clk) is begin -- process AC97_Write_Reg_Data if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then IpClk_ac97_reg_write_data <= (others => '0'); else if Bus2IP_WrCE = '1' and controller_addr = AC97_WRITE_ADR then IpClk_ac97_reg_write_data <= Bus2IP_Data(16 to 31); end if; end if; end if; end process; ----------------------------------------------------------------------------- -- AC97 Access initiate one shot ----------------------------------------------------------------------------- -- This one bit signal is asserted when a write occurs to the AC97_CTRL_ADDR. -- This is a one-shot signal that is only asserted for one cycle -- (Bus2IP_Clk). -- This signal will initiate the AC97 register access state machine. AC97_Access_S_PROCESS : process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_WrCE = '1' and controller_addr = AC97_CTRL_ADR then IpClk_ac97_reg_access_S <= '1'; -- one shot else IpClk_ac97_reg_access_S <= '0'; end if; end if; end process; -- busy signal process (Bus2IP_Clk) is begin if Bus2IP_Reset = '1' then ac97_register_access_sm <= IDLE; elsif Bus2IP_Clk'event and Bus2IP_Clk='1' then case ac97_register_access_sm is when IDLE => if IpClk_ac97_reg_access_S = '1' then ac97_register_access_sm <= ISSUE_ACCESS; end if; when ISSUE_ACCESS => -- TODO: add time out in case the codec is not hooked up if IpClk_ac97_reg_busy = '1' then ac97_register_access_sm <= PROCESS_ACCESS; end if; when PROCESS_ACCESS => if IpClk_ac97_reg_busy = '0' then ac97_register_access_sm <= IDLE; end if; end case; end if; end process; register_access_busy <= '1' when (ac97_register_access_sm = ISSUE_ACCESS or ac97_register_access_sm = PROCESS_ACCESS) else '0'; ----------------------------------------------------------------------------- -- Clock crossing signals ----------------------------------------------------------------------------- -- convert the one cycle strobe in the IpClk domain to -- the BitClk domain. fdcpe_1 : FDCPE port map ( Q => IpClk_access_request, C => '0', CE => '0', CLR => BitClk_ac97_reg_access_S, D => '0', PRE => IpClk_ac97_reg_access_S ); process (Bit_Clk) is begin if Bit_Clk'event and Bit_Clk='1' then BitClk_ac97_reg_access_St(0) <= IpClk_access_request; BitClk_ac97_reg_access_St(1) <= BitClk_ac97_reg_access_St(0); BitClk_ac97_reg_access_S <= BitClk_ac97_reg_access_St(0) and (not BitClk_ac97_reg_access_St(1)); end if; end process; BitClk_ac97_reg_read_strobe <= BitClk_ac97_reg_access_S and IpClk_ac97_reg_read; BitClk_ac97_reg_write_strobe <= BitClk_ac97_reg_access_S and (not IpClk_ac97_reg_read); BitClk_playback_left_valid <= '1'; BitClk_playback_right_valid <= '1'; ----------------------------------------------------------------------------- -- Fifo Control Signals (asynchronous clock transfer) -- ----------------------------------------------------------------------------- -- BitClk is slower than IpClk. process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_clk='1' then IpClk_playback_accept_St(0) <= BitClk_playback_left_accept; IpClk_playback_accept_St(1) <= IpClk_playback_accept_St(0); end if; IpClk_playback_accept_S <= IpClk_playback_accept_St(0) and (not IpClk_playback_accept_St(1)); end process; process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_clk='1' then IpClk_record_valid_St(0) <= BitClk_record_left_valid; IpClk_record_valid_St(1) <= IpClk_record_valid_St(0); end if; end process; IpClk_record_accept_S <= IpClk_record_valid_St(0) and (not IpClk_record_valid_St(1)); in_FIFO_Read <= IpClk_playback_accept_S; out_FIFO_Write <= IpClk_record_accept_S; ----------------------------------------------------------------------------- -- IN_FIFO -- -- This fifo receives data directly from the OPB bus and performs a "fifo -- write" for each OPB write to the FIFO. The FIFO sends data directly to the -- AC97 core and performs a "fifo read" every time a new AC97 frame is sent. -- ----------------------------------------------------------------------------- Using_Playback_SRL : if (C_PLAYBACK = 1 and C_USE_BRAM = 0) generate IN_FIFO : SRL_FIFO generic map ( C_DATA_BITS => 32, -- Left and Right channel C_DEPTH => 16) port map ( Clk => Bus2IP_Clk, Reset => Bus2IP_Reset, Clear_FIFO => clear_in_fifo, FIFO_Write => in_FIFO_Write, Data_In => Bus2IP_Data, FIFO_Read => in_FIFO_Read, Data_Out => in_Data_FIFO, FIFO_Full => in_FIFO_Full, Data_Exists => in_Data_Exists, FIFO_Level => in_srl_fifo_level, Half_Full => in_FIFO_Half_Full, Half_Empty => in_FIFO_Half_Empty); in_fifo_level <= "000000" & in_srl_fifo_level; in_FIFO_Empty <= not in_Data_Exists; end generate Using_Playback_SRL; Using_Playback_BRAM : if (C_PLAYBACK = 1 and C_USE_BRAM = 1) generate IN_FIFO : BRAM_FIFO port map ( Clk => Bus2IP_Clk, Reset => Bus2IP_Reset, Clear_FIFO => clear_in_fifo, FIFO_Write => in_FIFO_Write, Data_In => Bus2IP_Data, FIFO_Read => in_FIFO_Read, Data_Out => in_Data_FIFO, FIFO_Level => in_fifo_level, FULL => in_FIFO_Full, HalfFull => in_FIFO_HALF_FULL, HalfEmpty => in_FIFO_Half_Empty, Overflow => open, Underflow => open, Empty => in_FIFO_Empty ); in_Data_Exists <= not in_FIFO_Empty; end generate Using_Playback_BRAM; No_Playback : if (C_PLAYBACK = 0) generate in_Data_FIFO <= (others => '0'); in_FIFO_Full <= '0'; in_Data_Exists <= '0'; in_FIFO_Empty <= '0'; in_fifo_level <= (others => '0'); out_fifo_level <= (others => '0'); end generate No_Playback; ----------------------------------------------------------------------------- -- OUT_FIFO -- -- This fifo receives data directly from the AC97 and performs a "fifo -- write" for each AC97 frame. The FIFO sends data directly to the -- OPB Bus core and performs a "fifo read" every time data is read from the -- FIFO over the OPB bus. -- ----------------------------------------------------------------------------- Using_Recording_SRL : if (C_RECORD = 1 and C_USE_BRAM = 0) generate OUT_FIFO : SRL_FIFO generic map ( C_DATA_BITS => 32, -- [integer] C_DEPTH => 16) -- [integer] port map ( Clk => Bus2IP_Clk, -- [in std_logic] Reset => Bus2IP_Reset, -- [in std_logic] Clear_FIFO => clear_out_fifo, -- [in std_logic] FIFO_Write => out_FIFO_Write, -- [in std_logic] Data_In => out_Data_FIFO, FIFO_Read => out_FIFO_Read, -- [in std_logic] Data_Out => out_Data_Read, -- [out std_logic_vector(0 to C_OPB_DWIDTH-1)] FIFO_Full => out_FIFO_Full, -- [out std_logic] Data_Exists => out_Data_Exists, -- [out std_logic] FIFO_Level => out_srl_fifo_level, Half_Full => out_FIFO_Half_Full, -- [out std_logic] Half_Empty => open); -- [out std_logic] out_fifo_level <= "000000" & out_srl_fifo_level; out_fifo_empty <= not out_Data_exists; end generate Using_Recording_SRL; Using_Recording_BRAM : if (C_RECORD = 1 and C_USE_BRAM = 1) generate OUT_FIFO : BRAM_FIFO port map ( Clk => Bus2IP_Clk, Reset => Bus2IP_Reset, Clear_FIFO => clear_out_fifo, FIFO_Write => out_FIFO_Write, Data_In => out_Data_FIFO, FIFO_Read => out_FIFO_Read, Data_Out => out_Data_Read, FIFO_Level => out_fifo_level, FULL => out_FIFO_Full, HalfFull => out_FIFO_HALF_FULL, HalfEmpty => out_FIFO_HALF_Empty, Overflow => open, Underflow => open, Empty => out_FIFO_Empty); -- [out std_logic] out_Data_Exists <= not out_FIFO_Empty; end generate Using_Recording_BRAM; No_Recording : if (C_RECORD = 0) generate out_Data_Read <= (others => '0'); out_FIFO_Full <= '0'; out_Data_Exists <= '0'; end generate No_Recording; ----------------------------------------------------------------------------- -- Instanciating the core ----------------------------------------------------------------------------- ac97_core_I : ac97_core port map ( Reset => ac97_core_reset, AC97_Bit_Clk => Bit_Clk, AC97_Sync => Sync, AC97_SData_Out => SData_Out, AC97_SData_In => SData_In, AC97_Reg_Addr => IpClk_ac97_reg_addr, -- async AC97_Reg_Write_Data => IpClk_ac97_reg_write_data, -- async AC97_Reg_Read_Data => BitClk_ac97_Reg_Read_Data, AC97_Reg_Read_Strobe => BitClk_ac97_reg_read_strobe, AC97_Reg_Write_Strobe => BitClk_ac97_reg_write_strobe, AC97_Reg_Busy => BitClk_ac97_reg_busy, AC97_Reg_Error => BitClk_ac97_reg_error, AC97_Reg_Read_Data_Valid => BitClk_ac97_reg_data_valid, PCM_Playback_Left => in_Data_Fifo(16 to 31), PCM_Playback_Right => in_Data_Fifo(0 to 15), PCM_Playback_Left_Valid => BitClk_playback_left_valid, PCM_Playback_Right_Valid => BitClk_playback_right_valid, PCM_Playback_Left_Accept => BitClk_playback_left_accept, PCM_Playback_Right_Accept => BitClk_playback_right_accept, PCM_Record_Left => out_Data_Fifo(16 to 31), PCM_Record_Right => out_Data_Fifo(0 to 15), PCM_Record_Left_Valid => BitClk_record_left_valid, PCM_Record_Right_Valid => BitClk_record_right_valid, DEBUG => debug_i, CODEC_RDY => BitClk_codec_rdy ); ----------------------------------------------------------------------------- -- Handling the interrupts ----------------------------------------------------------------------------- Interrupt_Handle: process (in_FIFO_Half_Full, in_FIFO_Full, In_Data_Exists, in_fifo_interrupt_en, out_FIFO_Half_Full, out_FIFO_Half_Empty, out_FIFO_Full, out_Data_Exists, out_fifo_interrupt_en ) is begin -- process Playback_Interrupt_Handle if (C_INTR_LEVEL = 1) then Interrupt <= (in_fifo_interrupt_en and in_FIFO_Half_Empty) or (out_fifo_interrupt_en and out_FIFO_Half_Full); elsif (C_INTR_LEVEL = 2) then Interrupt <= (in_fifo_interrupt_en and in_FIFO_Full) or (out_fifo_interrupt_en and out_FIFO_Empty); elsif (C_INTR_LEVEL = 3) then Interrupt <= (in_fifo_interrupt_en and in_FIFO_Half_Full) or (out_fifo_interrupt_en and out_Fifo_Half_Empty); -- TODO: implement level 3 else Interrupt <= '0'; end if; end process Interrupt_Handle; end architecture IMP;
------------------------------------------------------------------------------- -- Filename: ac97_fifo.vhd -- -- Description: This module provides a FIFO interface for the AC97 -- module and provides an asyncrhonous interface for a -- higher level module that is not synchronous with the AC97 -- clock (Bit_Clk). -- -- This module provides a FIFO interface for both the incoming -- data (playback data) and outgoing data (record data). -- -- This module provides a bus independent interface so the -- module can be used for more than one bus interface. -- -- VHDL-Standard: VHDL'93 ------------------------------------------------------------------------------- -- Structure: -- ac97_core -- ac97_timing -- srl_fifo -- ------------------------------------------------------------------------------- -- Author: Mike Wirthlin -- -- ------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; use ieee.numeric_std.all; ------------------------------------------------------------------------------- -- ------------------------------------------------------------------------------- entity ac97_fifo is generic ( C_AWIDTH : integer := 32; C_DWIDTH : integer := 32; C_PLAYBACK : integer := 1; C_RECORD : integer := 1; -- Interrupt strategy -- 0 = No interrupts -- 1 = when fifos are half empty (in half empty, out is half full) -- 2 = when fifos are empty (in is empty, out is full) -- 3 = when fifos are equal to interrupt fifo depth C_INTR_LEVEL : integer := 0; -- Use block ram FIFOs if 1, otherwise use a shallow -- SRL fifo. C_USE_BRAM : integer := 1 ); port ( -- IP Interface Bus2IP_Clk : in std_logic; Bus2IP_Reset : in std_logic; Bus2IP_Addr : in std_logic_vector(0 to C_AWIDTH-1); Bus2IP_Data : in std_logic_vector(0 to C_AWIDTH-1); Bus2IP_BE : in std_logic_vector(0 to C_DWIDTH/8-1); Bus2IP_RdCE : in std_logic; Bus2IP_WrCE : in std_logic; IP2Bus_Data : out std_logic_vector(0 to C_DWIDTH-1); Interrupt: out std_logic; -- CODEC signals Bit_Clk : in std_logic; Sync : out std_logic; SData_Out : out std_logic; SData_In : in std_logic; AC97Reset_n : out std_logic ); end entity ac97_fifo; library opb_ac97_v2_00_a; use opb_ac97_v2_00_a.all; library unisim; use unisim.all; architecture IMP of ac97_fifo is component ac97_core is generic ( C_PCM_DATA_WIDTH : integer := 16 ); port ( Reset : in std_logic; -- signals attaching directly to AC97 codec AC97_Bit_Clk : in std_logic; AC97_Sync : out std_logic; AC97_SData_Out : out std_logic; AC97_SData_In : in std_logic; -- AC97 register interface AC97_Reg_Addr : in std_logic_vector(0 to 6); AC97_Reg_Write_Data : in std_logic_vector(0 to 15); AC97_Reg_Read_Data : out std_logic_vector(0 to 15); AC97_Reg_Read_Strobe : in std_logic; -- initiates a "read" command AC97_Reg_Write_Strobe : in std_logic; -- initiates a "write" command AC97_Reg_Busy : out std_logic; AC97_Reg_Error : out std_logic; AC97_Reg_Read_Data_Valid : out std_logic; -- Playback signal interface PCM_Playback_Left: in std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Playback_Right: in std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Playback_Left_Valid: in std_logic; PCM_Playback_Right_Valid: in std_logic; PCM_Playback_Left_Accept: out std_logic; PCM_Playback_Right_Accept: out std_logic; -- Record signal interface PCM_Record_Left: out std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Record_Right: out std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Record_Left_Valid: out std_logic; PCM_Record_Right_Valid: out std_logic; DEBUG : out std_logic_vector(0 to 15); CODEC_RDY : out std_logic ); end component ac97_core; component FDCPE port( Q : out std_ulogic; C : in std_ulogic; CE : in std_ulogic; CLR : in std_ulogic; D : in std_ulogic; PRE : in std_ulogic ); end component; component SRL_FIFO is generic ( C_DATA_BITS : integer; C_DEPTH : integer); port ( Clk : in std_logic; Reset : in std_logic; Clear_FIFO : in std_logic; FIFO_Write : in std_logic; Data_In : in std_logic_vector(0 to C_DATA_BITS-1); FIFO_Read : in std_logic; Data_Out : out std_logic_vector(0 to C_DATA_BITS-1); FIFO_Full : out std_logic; Data_Exists : out std_logic; FIFO_Level : out std_logic_vector(0 to 3); Half_Full : out std_logic; Half_Empty : out std_logic ); end component SRL_FIFO; component BRAM_FIFO is generic ( C_DATA_BITS : integer := 32; C_ADDR_BITS : integer := 9 ); port ( Clk : in std_logic; Reset : in std_logic; Clear_FIFO : in std_logic; FIFO_Write : in std_logic; Data_In : in std_logic_vector(0 to C_DATA_BITS-1); FIFO_Read : in std_logic; Data_Out : out std_logic_vector(0 to C_DATA_BITS-1); FIFO_Level : out std_logic_vector(0 to C_ADDR_BITS); Full : out std_logic; HalfFull : out std_logic; HalfEmpty : out std_logic; Overflow : out std_logic; Underflow : out std_logic; Empty : out std_logic ); end component BRAM_FIFO; -- OUT_FIFO: record data from out fifo (left and right) -- IN_FIFO: playback data (left and right) -- STATUS: status of FIFOs/AC97 -- CONTROL: overall controll. clear fifos, interrupts -- AC97_READ_ADR: result of AC97 register read -- AC97_WRITE_ADR: Value to send for a AC97 write -- AC97_CTRL_ADR: write ac97 command signal controller_addr : std_logic_vector(0 to 2); -- Register Map -- Addr Read Write -- 0x0 OUT_FIFO IN_FIFO -- 0x4 STATUS Control -- 0x8 AC97_READ AC97_WRITE -- 0xc N/A AC97_CNTRL constant IN_FIFO_ADR : std_logic_vector(0 to 2) := "000"; -- x0000 constant OUT_FIFO_ADR : std_logic_vector(0 to 2) := "000"; -- x0000 constant STATUS_ADR : std_logic_vector(0 to 2) := "001"; -- x0004 constant CTRL_ADR : std_logic_vector(0 to 2) := "001"; -- x0004 constant AC97_READ_ADR : std_logic_vector(0 to 2) := "010"; -- x0008 constant AC97_WRITE_ADR : std_logic_vector(0 to 2) := "010"; -- x0008 constant AC97_CTRL_ADR : std_logic_vector(0 to 2) := "011"; -- x000C constant DEBUG_ADR : std_logic_vector(0 to 2) := "011"; -- x000C -- Fifo signals signal in_FIFO_Write : std_logic; signal in_FIFO_Read : std_logic; signal in_Data_FIFO : std_logic_vector(0 to 31); signal in_FIFO_Full : std_logic; signal in_Data_Exists : std_logic; signal in_FIFO_Empty : std_logic; signal in_FIFO_Half_Full : std_logic; signal in_FIFO_Half_Empty : std_logic; signal out_FIFO_Write : std_logic; signal out_FIFO_Read : std_logic; signal out_Data_Read : std_logic_vector(0 to 31); signal out_Data_FIFO : std_logic_vector(0 to 31); signal out_FIFO_Full : std_logic; signal out_Data_Exists : std_logic; signal out_FIFO_Empty : std_logic; signal out_FIFO_Half_Empty : std_logic; signal out_FIFO_Half_Full : std_logic; signal out_FIFO_Overrun : std_logic := '0'; signal in_FIFO_Underrun : std_logic := '0'; signal clear_in_fifo : std_logic; signal clear_out_fifo : std_logic; signal in_fifo_interrupt_en : std_logic; signal out_fifo_interrupt_en : std_logic; signal status_Reg : std_logic_vector(31 downto 0) := (others => '0'); signal IpClk_ac97_reg_addr : std_logic_vector(0 to 6); signal IpClk_ac97_Reg_Write_Data : std_logic_vector(0 to 15); signal IpClk_ac97_reg_read : std_logic; signal BitClk_codec_rdy, IpClk_codec_rdy : std_logic := '0'; signal BitClk_ac97_Reg_Read_Data : std_logic_vector(0 to 15); signal IpClk_ac97_reg_access_S : std_logic; signal BitClk_ac97_reg_access_St : std_logic_vector(2 downto 0); signal BitClk_ac97_reg_access_S : std_logic; signal BitClk_ac97_reg_read_data_valid : std_logic; signal in_fifo_level, out_fifo_level : std_logic_vector(0 to 9); signal in_srl_fifo_level, out_srl_fifo_level : std_logic_vector(0 to 3); signal BitClk_ac97_reg_data_valid : std_logic; -- ignore? signal BitClk_record_left_valid,BitClk_record_right_valid : std_logic; signal BitClk_playback_left_accept,BitClk_playback_right_accept : std_logic; signal BitClk_ac97_reg_read_strobe : std_logic := '0'; signal BitClk_ac97_reg_write_strobe : std_logic := '0'; signal BitClk_playback_left_valid,BitClk_playback_right_valid : std_logic; signal BitClk_ac97_reg_busy, IpClk_ac97_reg_busy : std_logic := '0'; signal BitClk_ac97_reg_error, IpClk_ac97_reg_error : std_logic := '0'; signal IpClk_access_request : std_logic; signal IpClk_playback_accept_St : std_logic_vector(1 downto 0); signal IpClk_playback_accept_S : std_logic; signal IpClk_record_valid_St : std_logic_vector(1 downto 0); signal IpClk_record_accept_S : std_logic; signal ac97_reset_i : std_logic := '0'; signal register_access_busy : std_logic; type register_access_state is (IDLE, ISSUE_ACCESS, PROCESS_ACCESS); signal ac97_register_access_sm : register_access_state := IDLE; signal debug_i : std_logic_vector(0 to 15); signal ac97_core_reset : std_logic; begin -- architecture IMP ------------------------------------------------------------ -- IP Interface ------------------------------------------------------------ -- Register address decoding bits controller_addr <= Bus2IP_Addr(27 to 29); -- Output multiplixer for read registers: -- status register -- AC97 register data -- Audio data OUT_MUX: process (controller_addr, status_reg, Bitclk_ac97_Reg_Read_Data, out_Data_read) is begin IP2Bus_Data <= (others => '0'); case controller_addr is when STATUS_ADR => IP2Bus_Data((32-status_reg'length) to 31) <= status_reg; when AC97_READ_ADR => IP2Bus_Data(16 to 31) <= BitClk_ac97_Reg_Read_Data; -- todo: fix when DEBUG_ADR => IP2Bus_Data(16 to 31) <= debug_i; when others => IP2Bus_Data <= out_Data_Read; end case; end process OUT_MUX; ---------------------------------------------------------------- -- FIFO Control ---------------------------------------------------------------- -- Generating read and write pulses for FIFOs in_FIFO_write <= '1' when ( Bus2IP_WrCE = '1' and controller_addr = IN_FIFO_ADR) else '0'; out_FIFO_read <= '1' when (Bus2IP_RdCE = '1' and controller_addr = OUT_FIFO_ADR) else '0'; clear_fifo_PROCESS : process (Bus2IP_WrCE, controller_addr, Bus2IP_Data(30 to 31)) begin if Bus2IP_WrCE = '1' and controller_addr = CTRL_ADR then clear_in_fifo <= Bus2IP_Data(31); clear_out_fifo <= Bus2IP_Data(30); else clear_in_fifo <= '0'; clear_out_fifo <= '0'; end if; end process; ---------------------------------------------------------------- -- Interrupt enable register ---------------------------------------------------------------- fifo_interrupt_enable_proc : process (Bus2IP_Clk) begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then in_fifo_interrupt_en <= '0'; out_fifo_interrupt_en <= '0'; elsif Bus2IP_WrCE = '1' and controller_addr = CTRL_ADR then in_fifo_interrupt_en <= Bus2IP_Data(29); out_fifo_interrupt_en <= Bus2IP_Data(28); end if; end if; end process fifo_interrupt_enable_proc; ---------------------------------------------------------------- -- AC97Reset control register ---------------------------------------------------------------- ac97_reset_n_PROCESS : process (Bus2IP_Clk) begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then ac97_reset_i <= '1'; elsif Bus2IP_WrCE = '1' and controller_addr = CTRL_ADR then ac97_reset_i <= Bus2IP_Data(27); end if; end if; end process; AC97Reset_n <= not ac97_reset_i; -- The reset signal to the core & timing module occurs when -- the bus is reset or when the AC97 codec is reset ac97_core_reset <= ac97_reset_i or Bus2IP_Reset; ----------------------------------------------------------------------------- -- Status register ----------------------------------------------------------------------------- FIFO_Error_PROCESS : process (Bus2IP_Clk) is begin -- process AC97_Write_Reg_Data if Bus2IP_Clk'event and Bus2IP_Clk='1' then if Bus2IP_Reset = '1' then out_FIFO_Overrun <= '0'; in_FIFO_Underrun <= '0'; else if (clear_in_fifo = '1') then in_FIFO_Underrun <= '0'; elsif (in_Data_Exists = '0') and (in_FIFO_Read = '1') then in_FIFO_Underrun <= '1'; end if; if (clear_out_fifo = '1') then out_FIFO_Overrun <= '0'; elsif (out_FIFO_Full = '1') and (out_FIFO_Write = '1') and (out_FIFO_read = '0') then out_FIFO_Overrun <= '1'; end if; end if; end if; end process; status_reg(31 downto 22) <= out_fifo_level; status_reg(21 downto 12) <= in_fifo_level; --status_reg(11 downto 9) <= (others => '0'); status_reg(10) <= out_fifo_interrupt_en; status_reg(9) <= in_fifo_interrupt_en; status_reg(8) <= IpClk_ac97_reg_error; status_reg(7) <= out_FIFO_Overrun; status_reg(6) <= in_FIFO_Underrun; status_reg(5) <= IpClk_codec_rdy; status_reg(4) <= register_access_busy; --IpClk_ac97_reg_busy; status_reg(3) <= out_Data_Exists; status_reg(2) <= out_fifo_empty; status_reg(1) <= in_fifo_empty; status_reg(0) <= in_FIFO_Full; process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then IpClk_codec_rdy <= BitClk_codec_rdy; IpClk_ac97_reg_busy <= BitClk_ac97_reg_busy; IpClk_ac97_reg_error <= BitClk_ac97_reg_error; end if; end process; ----------------------------------------------------------------------------- -- AC97 Access Register ----------------------------------------------------------------------------- -- The AC97 access register is used to initiate an AC97 register -- read or write command. This register holds the AC97 address to -- read/write as well as the direction (IpClk_ac97_reg_read). AC97_Access_Reg : process (Bus2IP_Clk) is begin -- process AC97_Write_Reg_Data if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then IpClk_ac97_reg_addr <= (others => '0'); IpClk_ac97_reg_read <= '0'; else if Bus2IP_WrCE = '1' and AC97_CTRL_ADR = controller_addr then IpClk_ac97_reg_addr <= Bus2IP_Data(25 to 31); IpClk_ac97_reg_read <= Bus2IP_Data(24); end if; end if; end if; end process; ----------------------------------------------------------------------------- -- AC97 Write data register ----------------------------------------------------------------------------- -- AC97 Register Write Data: This register holds the data that is to -- be written to the AC97 internal register. -- -- Writing to this register does not cause the actual -- write process to the AC97. Once this register has been written, -- a command must be written to the AC97_Access_Reg to initiate the -- actual write. AC97_Write_Reg : process (Bus2IP_Clk) is begin -- process AC97_Write_Reg_Data if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then IpClk_ac97_reg_write_data <= (others => '0'); else if Bus2IP_WrCE = '1' and controller_addr = AC97_WRITE_ADR then IpClk_ac97_reg_write_data <= Bus2IP_Data(16 to 31); end if; end if; end if; end process; ----------------------------------------------------------------------------- -- AC97 Access initiate one shot ----------------------------------------------------------------------------- -- This one bit signal is asserted when a write occurs to the AC97_CTRL_ADDR. -- This is a one-shot signal that is only asserted for one cycle -- (Bus2IP_Clk). -- This signal will initiate the AC97 register access state machine. AC97_Access_S_PROCESS : process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_WrCE = '1' and controller_addr = AC97_CTRL_ADR then IpClk_ac97_reg_access_S <= '1'; -- one shot else IpClk_ac97_reg_access_S <= '0'; end if; end if; end process; -- busy signal process (Bus2IP_Clk) is begin if Bus2IP_Reset = '1' then ac97_register_access_sm <= IDLE; elsif Bus2IP_Clk'event and Bus2IP_Clk='1' then case ac97_register_access_sm is when IDLE => if IpClk_ac97_reg_access_S = '1' then ac97_register_access_sm <= ISSUE_ACCESS; end if; when ISSUE_ACCESS => -- TODO: add time out in case the codec is not hooked up if IpClk_ac97_reg_busy = '1' then ac97_register_access_sm <= PROCESS_ACCESS; end if; when PROCESS_ACCESS => if IpClk_ac97_reg_busy = '0' then ac97_register_access_sm <= IDLE; end if; end case; end if; end process; register_access_busy <= '1' when (ac97_register_access_sm = ISSUE_ACCESS or ac97_register_access_sm = PROCESS_ACCESS) else '0'; ----------------------------------------------------------------------------- -- Clock crossing signals ----------------------------------------------------------------------------- -- convert the one cycle strobe in the IpClk domain to -- the BitClk domain. fdcpe_1 : FDCPE port map ( Q => IpClk_access_request, C => '0', CE => '0', CLR => BitClk_ac97_reg_access_S, D => '0', PRE => IpClk_ac97_reg_access_S ); process (Bit_Clk) is begin if Bit_Clk'event and Bit_Clk='1' then BitClk_ac97_reg_access_St(0) <= IpClk_access_request; BitClk_ac97_reg_access_St(1) <= BitClk_ac97_reg_access_St(0); BitClk_ac97_reg_access_S <= BitClk_ac97_reg_access_St(0) and (not BitClk_ac97_reg_access_St(1)); end if; end process; BitClk_ac97_reg_read_strobe <= BitClk_ac97_reg_access_S and IpClk_ac97_reg_read; BitClk_ac97_reg_write_strobe <= BitClk_ac97_reg_access_S and (not IpClk_ac97_reg_read); BitClk_playback_left_valid <= '1'; BitClk_playback_right_valid <= '1'; ----------------------------------------------------------------------------- -- Fifo Control Signals (asynchronous clock transfer) -- ----------------------------------------------------------------------------- -- BitClk is slower than IpClk. process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_clk='1' then IpClk_playback_accept_St(0) <= BitClk_playback_left_accept; IpClk_playback_accept_St(1) <= IpClk_playback_accept_St(0); end if; IpClk_playback_accept_S <= IpClk_playback_accept_St(0) and (not IpClk_playback_accept_St(1)); end process; process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_clk='1' then IpClk_record_valid_St(0) <= BitClk_record_left_valid; IpClk_record_valid_St(1) <= IpClk_record_valid_St(0); end if; end process; IpClk_record_accept_S <= IpClk_record_valid_St(0) and (not IpClk_record_valid_St(1)); in_FIFO_Read <= IpClk_playback_accept_S; out_FIFO_Write <= IpClk_record_accept_S; ----------------------------------------------------------------------------- -- IN_FIFO -- -- This fifo receives data directly from the OPB bus and performs a "fifo -- write" for each OPB write to the FIFO. The FIFO sends data directly to the -- AC97 core and performs a "fifo read" every time a new AC97 frame is sent. -- ----------------------------------------------------------------------------- Using_Playback_SRL : if (C_PLAYBACK = 1 and C_USE_BRAM = 0) generate IN_FIFO : SRL_FIFO generic map ( C_DATA_BITS => 32, -- Left and Right channel C_DEPTH => 16) port map ( Clk => Bus2IP_Clk, Reset => Bus2IP_Reset, Clear_FIFO => clear_in_fifo, FIFO_Write => in_FIFO_Write, Data_In => Bus2IP_Data, FIFO_Read => in_FIFO_Read, Data_Out => in_Data_FIFO, FIFO_Full => in_FIFO_Full, Data_Exists => in_Data_Exists, FIFO_Level => in_srl_fifo_level, Half_Full => in_FIFO_Half_Full, Half_Empty => in_FIFO_Half_Empty); in_fifo_level <= "000000" & in_srl_fifo_level; in_FIFO_Empty <= not in_Data_Exists; end generate Using_Playback_SRL; Using_Playback_BRAM : if (C_PLAYBACK = 1 and C_USE_BRAM = 1) generate IN_FIFO : BRAM_FIFO port map ( Clk => Bus2IP_Clk, Reset => Bus2IP_Reset, Clear_FIFO => clear_in_fifo, FIFO_Write => in_FIFO_Write, Data_In => Bus2IP_Data, FIFO_Read => in_FIFO_Read, Data_Out => in_Data_FIFO, FIFO_Level => in_fifo_level, FULL => in_FIFO_Full, HalfFull => in_FIFO_HALF_FULL, HalfEmpty => in_FIFO_Half_Empty, Overflow => open, Underflow => open, Empty => in_FIFO_Empty ); in_Data_Exists <= not in_FIFO_Empty; end generate Using_Playback_BRAM; No_Playback : if (C_PLAYBACK = 0) generate in_Data_FIFO <= (others => '0'); in_FIFO_Full <= '0'; in_Data_Exists <= '0'; in_FIFO_Empty <= '0'; in_fifo_level <= (others => '0'); out_fifo_level <= (others => '0'); end generate No_Playback; ----------------------------------------------------------------------------- -- OUT_FIFO -- -- This fifo receives data directly from the AC97 and performs a "fifo -- write" for each AC97 frame. The FIFO sends data directly to the -- OPB Bus core and performs a "fifo read" every time data is read from the -- FIFO over the OPB bus. -- ----------------------------------------------------------------------------- Using_Recording_SRL : if (C_RECORD = 1 and C_USE_BRAM = 0) generate OUT_FIFO : SRL_FIFO generic map ( C_DATA_BITS => 32, -- [integer] C_DEPTH => 16) -- [integer] port map ( Clk => Bus2IP_Clk, -- [in std_logic] Reset => Bus2IP_Reset, -- [in std_logic] Clear_FIFO => clear_out_fifo, -- [in std_logic] FIFO_Write => out_FIFO_Write, -- [in std_logic] Data_In => out_Data_FIFO, FIFO_Read => out_FIFO_Read, -- [in std_logic] Data_Out => out_Data_Read, -- [out std_logic_vector(0 to C_OPB_DWIDTH-1)] FIFO_Full => out_FIFO_Full, -- [out std_logic] Data_Exists => out_Data_Exists, -- [out std_logic] FIFO_Level => out_srl_fifo_level, Half_Full => out_FIFO_Half_Full, -- [out std_logic] Half_Empty => open); -- [out std_logic] out_fifo_level <= "000000" & out_srl_fifo_level; out_fifo_empty <= not out_Data_exists; end generate Using_Recording_SRL; Using_Recording_BRAM : if (C_RECORD = 1 and C_USE_BRAM = 1) generate OUT_FIFO : BRAM_FIFO port map ( Clk => Bus2IP_Clk, Reset => Bus2IP_Reset, Clear_FIFO => clear_out_fifo, FIFO_Write => out_FIFO_Write, Data_In => out_Data_FIFO, FIFO_Read => out_FIFO_Read, Data_Out => out_Data_Read, FIFO_Level => out_fifo_level, FULL => out_FIFO_Full, HalfFull => out_FIFO_HALF_FULL, HalfEmpty => out_FIFO_HALF_Empty, Overflow => open, Underflow => open, Empty => out_FIFO_Empty); -- [out std_logic] out_Data_Exists <= not out_FIFO_Empty; end generate Using_Recording_BRAM; No_Recording : if (C_RECORD = 0) generate out_Data_Read <= (others => '0'); out_FIFO_Full <= '0'; out_Data_Exists <= '0'; end generate No_Recording; ----------------------------------------------------------------------------- -- Instanciating the core ----------------------------------------------------------------------------- ac97_core_I : ac97_core port map ( Reset => ac97_core_reset, AC97_Bit_Clk => Bit_Clk, AC97_Sync => Sync, AC97_SData_Out => SData_Out, AC97_SData_In => SData_In, AC97_Reg_Addr => IpClk_ac97_reg_addr, -- async AC97_Reg_Write_Data => IpClk_ac97_reg_write_data, -- async AC97_Reg_Read_Data => BitClk_ac97_Reg_Read_Data, AC97_Reg_Read_Strobe => BitClk_ac97_reg_read_strobe, AC97_Reg_Write_Strobe => BitClk_ac97_reg_write_strobe, AC97_Reg_Busy => BitClk_ac97_reg_busy, AC97_Reg_Error => BitClk_ac97_reg_error, AC97_Reg_Read_Data_Valid => BitClk_ac97_reg_data_valid, PCM_Playback_Left => in_Data_Fifo(16 to 31), PCM_Playback_Right => in_Data_Fifo(0 to 15), PCM_Playback_Left_Valid => BitClk_playback_left_valid, PCM_Playback_Right_Valid => BitClk_playback_right_valid, PCM_Playback_Left_Accept => BitClk_playback_left_accept, PCM_Playback_Right_Accept => BitClk_playback_right_accept, PCM_Record_Left => out_Data_Fifo(16 to 31), PCM_Record_Right => out_Data_Fifo(0 to 15), PCM_Record_Left_Valid => BitClk_record_left_valid, PCM_Record_Right_Valid => BitClk_record_right_valid, DEBUG => debug_i, CODEC_RDY => BitClk_codec_rdy ); ----------------------------------------------------------------------------- -- Handling the interrupts ----------------------------------------------------------------------------- Interrupt_Handle: process (in_FIFO_Half_Full, in_FIFO_Full, In_Data_Exists, in_fifo_interrupt_en, out_FIFO_Half_Full, out_FIFO_Half_Empty, out_FIFO_Full, out_Data_Exists, out_fifo_interrupt_en ) is begin -- process Playback_Interrupt_Handle if (C_INTR_LEVEL = 1) then Interrupt <= (in_fifo_interrupt_en and in_FIFO_Half_Empty) or (out_fifo_interrupt_en and out_FIFO_Half_Full); elsif (C_INTR_LEVEL = 2) then Interrupt <= (in_fifo_interrupt_en and in_FIFO_Full) or (out_fifo_interrupt_en and out_FIFO_Empty); elsif (C_INTR_LEVEL = 3) then Interrupt <= (in_fifo_interrupt_en and in_FIFO_Half_Full) or (out_fifo_interrupt_en and out_Fifo_Half_Empty); -- TODO: implement level 3 else Interrupt <= '0'; end if; end process Interrupt_Handle; end architecture IMP;
------------------------------------------------------------------------------- -- Filename: ac97_fifo.vhd -- -- Description: This module provides a FIFO interface for the AC97 -- module and provides an asyncrhonous interface for a -- higher level module that is not synchronous with the AC97 -- clock (Bit_Clk). -- -- This module provides a FIFO interface for both the incoming -- data (playback data) and outgoing data (record data). -- -- This module provides a bus independent interface so the -- module can be used for more than one bus interface. -- -- VHDL-Standard: VHDL'93 ------------------------------------------------------------------------------- -- Structure: -- ac97_core -- ac97_timing -- srl_fifo -- ------------------------------------------------------------------------------- -- Author: Mike Wirthlin -- -- ------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; use ieee.numeric_std.all; ------------------------------------------------------------------------------- -- ------------------------------------------------------------------------------- entity ac97_fifo is generic ( C_AWIDTH : integer := 32; C_DWIDTH : integer := 32; C_PLAYBACK : integer := 1; C_RECORD : integer := 1; -- Interrupt strategy -- 0 = No interrupts -- 1 = when fifos are half empty (in half empty, out is half full) -- 2 = when fifos are empty (in is empty, out is full) -- 3 = when fifos are equal to interrupt fifo depth C_INTR_LEVEL : integer := 0; -- Use block ram FIFOs if 1, otherwise use a shallow -- SRL fifo. C_USE_BRAM : integer := 1 ); port ( -- IP Interface Bus2IP_Clk : in std_logic; Bus2IP_Reset : in std_logic; Bus2IP_Addr : in std_logic_vector(0 to C_AWIDTH-1); Bus2IP_Data : in std_logic_vector(0 to C_AWIDTH-1); Bus2IP_BE : in std_logic_vector(0 to C_DWIDTH/8-1); Bus2IP_RdCE : in std_logic; Bus2IP_WrCE : in std_logic; IP2Bus_Data : out std_logic_vector(0 to C_DWIDTH-1); Interrupt: out std_logic; -- CODEC signals Bit_Clk : in std_logic; Sync : out std_logic; SData_Out : out std_logic; SData_In : in std_logic; AC97Reset_n : out std_logic ); end entity ac97_fifo; library opb_ac97_v2_00_a; use opb_ac97_v2_00_a.all; library unisim; use unisim.all; architecture IMP of ac97_fifo is component ac97_core is generic ( C_PCM_DATA_WIDTH : integer := 16 ); port ( Reset : in std_logic; -- signals attaching directly to AC97 codec AC97_Bit_Clk : in std_logic; AC97_Sync : out std_logic; AC97_SData_Out : out std_logic; AC97_SData_In : in std_logic; -- AC97 register interface AC97_Reg_Addr : in std_logic_vector(0 to 6); AC97_Reg_Write_Data : in std_logic_vector(0 to 15); AC97_Reg_Read_Data : out std_logic_vector(0 to 15); AC97_Reg_Read_Strobe : in std_logic; -- initiates a "read" command AC97_Reg_Write_Strobe : in std_logic; -- initiates a "write" command AC97_Reg_Busy : out std_logic; AC97_Reg_Error : out std_logic; AC97_Reg_Read_Data_Valid : out std_logic; -- Playback signal interface PCM_Playback_Left: in std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Playback_Right: in std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Playback_Left_Valid: in std_logic; PCM_Playback_Right_Valid: in std_logic; PCM_Playback_Left_Accept: out std_logic; PCM_Playback_Right_Accept: out std_logic; -- Record signal interface PCM_Record_Left: out std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Record_Right: out std_logic_vector(0 to C_PCM_DATA_WIDTH-1); PCM_Record_Left_Valid: out std_logic; PCM_Record_Right_Valid: out std_logic; DEBUG : out std_logic_vector(0 to 15); CODEC_RDY : out std_logic ); end component ac97_core; component FDCPE port( Q : out std_ulogic; C : in std_ulogic; CE : in std_ulogic; CLR : in std_ulogic; D : in std_ulogic; PRE : in std_ulogic ); end component; component SRL_FIFO is generic ( C_DATA_BITS : integer; C_DEPTH : integer); port ( Clk : in std_logic; Reset : in std_logic; Clear_FIFO : in std_logic; FIFO_Write : in std_logic; Data_In : in std_logic_vector(0 to C_DATA_BITS-1); FIFO_Read : in std_logic; Data_Out : out std_logic_vector(0 to C_DATA_BITS-1); FIFO_Full : out std_logic; Data_Exists : out std_logic; FIFO_Level : out std_logic_vector(0 to 3); Half_Full : out std_logic; Half_Empty : out std_logic ); end component SRL_FIFO; component BRAM_FIFO is generic ( C_DATA_BITS : integer := 32; C_ADDR_BITS : integer := 9 ); port ( Clk : in std_logic; Reset : in std_logic; Clear_FIFO : in std_logic; FIFO_Write : in std_logic; Data_In : in std_logic_vector(0 to C_DATA_BITS-1); FIFO_Read : in std_logic; Data_Out : out std_logic_vector(0 to C_DATA_BITS-1); FIFO_Level : out std_logic_vector(0 to C_ADDR_BITS); Full : out std_logic; HalfFull : out std_logic; HalfEmpty : out std_logic; Overflow : out std_logic; Underflow : out std_logic; Empty : out std_logic ); end component BRAM_FIFO; -- OUT_FIFO: record data from out fifo (left and right) -- IN_FIFO: playback data (left and right) -- STATUS: status of FIFOs/AC97 -- CONTROL: overall controll. clear fifos, interrupts -- AC97_READ_ADR: result of AC97 register read -- AC97_WRITE_ADR: Value to send for a AC97 write -- AC97_CTRL_ADR: write ac97 command signal controller_addr : std_logic_vector(0 to 2); -- Register Map -- Addr Read Write -- 0x0 OUT_FIFO IN_FIFO -- 0x4 STATUS Control -- 0x8 AC97_READ AC97_WRITE -- 0xc N/A AC97_CNTRL constant IN_FIFO_ADR : std_logic_vector(0 to 2) := "000"; -- x0000 constant OUT_FIFO_ADR : std_logic_vector(0 to 2) := "000"; -- x0000 constant STATUS_ADR : std_logic_vector(0 to 2) := "001"; -- x0004 constant CTRL_ADR : std_logic_vector(0 to 2) := "001"; -- x0004 constant AC97_READ_ADR : std_logic_vector(0 to 2) := "010"; -- x0008 constant AC97_WRITE_ADR : std_logic_vector(0 to 2) := "010"; -- x0008 constant AC97_CTRL_ADR : std_logic_vector(0 to 2) := "011"; -- x000C constant DEBUG_ADR : std_logic_vector(0 to 2) := "011"; -- x000C -- Fifo signals signal in_FIFO_Write : std_logic; signal in_FIFO_Read : std_logic; signal in_Data_FIFO : std_logic_vector(0 to 31); signal in_FIFO_Full : std_logic; signal in_Data_Exists : std_logic; signal in_FIFO_Empty : std_logic; signal in_FIFO_Half_Full : std_logic; signal in_FIFO_Half_Empty : std_logic; signal out_FIFO_Write : std_logic; signal out_FIFO_Read : std_logic; signal out_Data_Read : std_logic_vector(0 to 31); signal out_Data_FIFO : std_logic_vector(0 to 31); signal out_FIFO_Full : std_logic; signal out_Data_Exists : std_logic; signal out_FIFO_Empty : std_logic; signal out_FIFO_Half_Empty : std_logic; signal out_FIFO_Half_Full : std_logic; signal out_FIFO_Overrun : std_logic := '0'; signal in_FIFO_Underrun : std_logic := '0'; signal clear_in_fifo : std_logic; signal clear_out_fifo : std_logic; signal in_fifo_interrupt_en : std_logic; signal out_fifo_interrupt_en : std_logic; signal status_Reg : std_logic_vector(31 downto 0) := (others => '0'); signal IpClk_ac97_reg_addr : std_logic_vector(0 to 6); signal IpClk_ac97_Reg_Write_Data : std_logic_vector(0 to 15); signal IpClk_ac97_reg_read : std_logic; signal BitClk_codec_rdy, IpClk_codec_rdy : std_logic := '0'; signal BitClk_ac97_Reg_Read_Data : std_logic_vector(0 to 15); signal IpClk_ac97_reg_access_S : std_logic; signal BitClk_ac97_reg_access_St : std_logic_vector(2 downto 0); signal BitClk_ac97_reg_access_S : std_logic; signal BitClk_ac97_reg_read_data_valid : std_logic; signal in_fifo_level, out_fifo_level : std_logic_vector(0 to 9); signal in_srl_fifo_level, out_srl_fifo_level : std_logic_vector(0 to 3); signal BitClk_ac97_reg_data_valid : std_logic; -- ignore? signal BitClk_record_left_valid,BitClk_record_right_valid : std_logic; signal BitClk_playback_left_accept,BitClk_playback_right_accept : std_logic; signal BitClk_ac97_reg_read_strobe : std_logic := '0'; signal BitClk_ac97_reg_write_strobe : std_logic := '0'; signal BitClk_playback_left_valid,BitClk_playback_right_valid : std_logic; signal BitClk_ac97_reg_busy, IpClk_ac97_reg_busy : std_logic := '0'; signal BitClk_ac97_reg_error, IpClk_ac97_reg_error : std_logic := '0'; signal IpClk_access_request : std_logic; signal IpClk_playback_accept_St : std_logic_vector(1 downto 0); signal IpClk_playback_accept_S : std_logic; signal IpClk_record_valid_St : std_logic_vector(1 downto 0); signal IpClk_record_accept_S : std_logic; signal ac97_reset_i : std_logic := '0'; signal register_access_busy : std_logic; type register_access_state is (IDLE, ISSUE_ACCESS, PROCESS_ACCESS); signal ac97_register_access_sm : register_access_state := IDLE; signal debug_i : std_logic_vector(0 to 15); signal ac97_core_reset : std_logic; begin -- architecture IMP ------------------------------------------------------------ -- IP Interface ------------------------------------------------------------ -- Register address decoding bits controller_addr <= Bus2IP_Addr(27 to 29); -- Output multiplixer for read registers: -- status register -- AC97 register data -- Audio data OUT_MUX: process (controller_addr, status_reg, Bitclk_ac97_Reg_Read_Data, out_Data_read) is begin IP2Bus_Data <= (others => '0'); case controller_addr is when STATUS_ADR => IP2Bus_Data((32-status_reg'length) to 31) <= status_reg; when AC97_READ_ADR => IP2Bus_Data(16 to 31) <= BitClk_ac97_Reg_Read_Data; -- todo: fix when DEBUG_ADR => IP2Bus_Data(16 to 31) <= debug_i; when others => IP2Bus_Data <= out_Data_Read; end case; end process OUT_MUX; ---------------------------------------------------------------- -- FIFO Control ---------------------------------------------------------------- -- Generating read and write pulses for FIFOs in_FIFO_write <= '1' when ( Bus2IP_WrCE = '1' and controller_addr = IN_FIFO_ADR) else '0'; out_FIFO_read <= '1' when (Bus2IP_RdCE = '1' and controller_addr = OUT_FIFO_ADR) else '0'; clear_fifo_PROCESS : process (Bus2IP_WrCE, controller_addr, Bus2IP_Data(30 to 31)) begin if Bus2IP_WrCE = '1' and controller_addr = CTRL_ADR then clear_in_fifo <= Bus2IP_Data(31); clear_out_fifo <= Bus2IP_Data(30); else clear_in_fifo <= '0'; clear_out_fifo <= '0'; end if; end process; ---------------------------------------------------------------- -- Interrupt enable register ---------------------------------------------------------------- fifo_interrupt_enable_proc : process (Bus2IP_Clk) begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then in_fifo_interrupt_en <= '0'; out_fifo_interrupt_en <= '0'; elsif Bus2IP_WrCE = '1' and controller_addr = CTRL_ADR then in_fifo_interrupt_en <= Bus2IP_Data(29); out_fifo_interrupt_en <= Bus2IP_Data(28); end if; end if; end process fifo_interrupt_enable_proc; ---------------------------------------------------------------- -- AC97Reset control register ---------------------------------------------------------------- ac97_reset_n_PROCESS : process (Bus2IP_Clk) begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then ac97_reset_i <= '1'; elsif Bus2IP_WrCE = '1' and controller_addr = CTRL_ADR then ac97_reset_i <= Bus2IP_Data(27); end if; end if; end process; AC97Reset_n <= not ac97_reset_i; -- The reset signal to the core & timing module occurs when -- the bus is reset or when the AC97 codec is reset ac97_core_reset <= ac97_reset_i or Bus2IP_Reset; ----------------------------------------------------------------------------- -- Status register ----------------------------------------------------------------------------- FIFO_Error_PROCESS : process (Bus2IP_Clk) is begin -- process AC97_Write_Reg_Data if Bus2IP_Clk'event and Bus2IP_Clk='1' then if Bus2IP_Reset = '1' then out_FIFO_Overrun <= '0'; in_FIFO_Underrun <= '0'; else if (clear_in_fifo = '1') then in_FIFO_Underrun <= '0'; elsif (in_Data_Exists = '0') and (in_FIFO_Read = '1') then in_FIFO_Underrun <= '1'; end if; if (clear_out_fifo = '1') then out_FIFO_Overrun <= '0'; elsif (out_FIFO_Full = '1') and (out_FIFO_Write = '1') and (out_FIFO_read = '0') then out_FIFO_Overrun <= '1'; end if; end if; end if; end process; status_reg(31 downto 22) <= out_fifo_level; status_reg(21 downto 12) <= in_fifo_level; --status_reg(11 downto 9) <= (others => '0'); status_reg(10) <= out_fifo_interrupt_en; status_reg(9) <= in_fifo_interrupt_en; status_reg(8) <= IpClk_ac97_reg_error; status_reg(7) <= out_FIFO_Overrun; status_reg(6) <= in_FIFO_Underrun; status_reg(5) <= IpClk_codec_rdy; status_reg(4) <= register_access_busy; --IpClk_ac97_reg_busy; status_reg(3) <= out_Data_Exists; status_reg(2) <= out_fifo_empty; status_reg(1) <= in_fifo_empty; status_reg(0) <= in_FIFO_Full; process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then IpClk_codec_rdy <= BitClk_codec_rdy; IpClk_ac97_reg_busy <= BitClk_ac97_reg_busy; IpClk_ac97_reg_error <= BitClk_ac97_reg_error; end if; end process; ----------------------------------------------------------------------------- -- AC97 Access Register ----------------------------------------------------------------------------- -- The AC97 access register is used to initiate an AC97 register -- read or write command. This register holds the AC97 address to -- read/write as well as the direction (IpClk_ac97_reg_read). AC97_Access_Reg : process (Bus2IP_Clk) is begin -- process AC97_Write_Reg_Data if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then IpClk_ac97_reg_addr <= (others => '0'); IpClk_ac97_reg_read <= '0'; else if Bus2IP_WrCE = '1' and AC97_CTRL_ADR = controller_addr then IpClk_ac97_reg_addr <= Bus2IP_Data(25 to 31); IpClk_ac97_reg_read <= Bus2IP_Data(24); end if; end if; end if; end process; ----------------------------------------------------------------------------- -- AC97 Write data register ----------------------------------------------------------------------------- -- AC97 Register Write Data: This register holds the data that is to -- be written to the AC97 internal register. -- -- Writing to this register does not cause the actual -- write process to the AC97. Once this register has been written, -- a command must be written to the AC97_Access_Reg to initiate the -- actual write. AC97_Write_Reg : process (Bus2IP_Clk) is begin -- process AC97_Write_Reg_Data if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = '1' then IpClk_ac97_reg_write_data <= (others => '0'); else if Bus2IP_WrCE = '1' and controller_addr = AC97_WRITE_ADR then IpClk_ac97_reg_write_data <= Bus2IP_Data(16 to 31); end if; end if; end if; end process; ----------------------------------------------------------------------------- -- AC97 Access initiate one shot ----------------------------------------------------------------------------- -- This one bit signal is asserted when a write occurs to the AC97_CTRL_ADDR. -- This is a one-shot signal that is only asserted for one cycle -- (Bus2IP_Clk). -- This signal will initiate the AC97 register access state machine. AC97_Access_S_PROCESS : process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_WrCE = '1' and controller_addr = AC97_CTRL_ADR then IpClk_ac97_reg_access_S <= '1'; -- one shot else IpClk_ac97_reg_access_S <= '0'; end if; end if; end process; -- busy signal process (Bus2IP_Clk) is begin if Bus2IP_Reset = '1' then ac97_register_access_sm <= IDLE; elsif Bus2IP_Clk'event and Bus2IP_Clk='1' then case ac97_register_access_sm is when IDLE => if IpClk_ac97_reg_access_S = '1' then ac97_register_access_sm <= ISSUE_ACCESS; end if; when ISSUE_ACCESS => -- TODO: add time out in case the codec is not hooked up if IpClk_ac97_reg_busy = '1' then ac97_register_access_sm <= PROCESS_ACCESS; end if; when PROCESS_ACCESS => if IpClk_ac97_reg_busy = '0' then ac97_register_access_sm <= IDLE; end if; end case; end if; end process; register_access_busy <= '1' when (ac97_register_access_sm = ISSUE_ACCESS or ac97_register_access_sm = PROCESS_ACCESS) else '0'; ----------------------------------------------------------------------------- -- Clock crossing signals ----------------------------------------------------------------------------- -- convert the one cycle strobe in the IpClk domain to -- the BitClk domain. fdcpe_1 : FDCPE port map ( Q => IpClk_access_request, C => '0', CE => '0', CLR => BitClk_ac97_reg_access_S, D => '0', PRE => IpClk_ac97_reg_access_S ); process (Bit_Clk) is begin if Bit_Clk'event and Bit_Clk='1' then BitClk_ac97_reg_access_St(0) <= IpClk_access_request; BitClk_ac97_reg_access_St(1) <= BitClk_ac97_reg_access_St(0); BitClk_ac97_reg_access_S <= BitClk_ac97_reg_access_St(0) and (not BitClk_ac97_reg_access_St(1)); end if; end process; BitClk_ac97_reg_read_strobe <= BitClk_ac97_reg_access_S and IpClk_ac97_reg_read; BitClk_ac97_reg_write_strobe <= BitClk_ac97_reg_access_S and (not IpClk_ac97_reg_read); BitClk_playback_left_valid <= '1'; BitClk_playback_right_valid <= '1'; ----------------------------------------------------------------------------- -- Fifo Control Signals (asynchronous clock transfer) -- ----------------------------------------------------------------------------- -- BitClk is slower than IpClk. process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_clk='1' then IpClk_playback_accept_St(0) <= BitClk_playback_left_accept; IpClk_playback_accept_St(1) <= IpClk_playback_accept_St(0); end if; IpClk_playback_accept_S <= IpClk_playback_accept_St(0) and (not IpClk_playback_accept_St(1)); end process; process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_clk='1' then IpClk_record_valid_St(0) <= BitClk_record_left_valid; IpClk_record_valid_St(1) <= IpClk_record_valid_St(0); end if; end process; IpClk_record_accept_S <= IpClk_record_valid_St(0) and (not IpClk_record_valid_St(1)); in_FIFO_Read <= IpClk_playback_accept_S; out_FIFO_Write <= IpClk_record_accept_S; ----------------------------------------------------------------------------- -- IN_FIFO -- -- This fifo receives data directly from the OPB bus and performs a "fifo -- write" for each OPB write to the FIFO. The FIFO sends data directly to the -- AC97 core and performs a "fifo read" every time a new AC97 frame is sent. -- ----------------------------------------------------------------------------- Using_Playback_SRL : if (C_PLAYBACK = 1 and C_USE_BRAM = 0) generate IN_FIFO : SRL_FIFO generic map ( C_DATA_BITS => 32, -- Left and Right channel C_DEPTH => 16) port map ( Clk => Bus2IP_Clk, Reset => Bus2IP_Reset, Clear_FIFO => clear_in_fifo, FIFO_Write => in_FIFO_Write, Data_In => Bus2IP_Data, FIFO_Read => in_FIFO_Read, Data_Out => in_Data_FIFO, FIFO_Full => in_FIFO_Full, Data_Exists => in_Data_Exists, FIFO_Level => in_srl_fifo_level, Half_Full => in_FIFO_Half_Full, Half_Empty => in_FIFO_Half_Empty); in_fifo_level <= "000000" & in_srl_fifo_level; in_FIFO_Empty <= not in_Data_Exists; end generate Using_Playback_SRL; Using_Playback_BRAM : if (C_PLAYBACK = 1 and C_USE_BRAM = 1) generate IN_FIFO : BRAM_FIFO port map ( Clk => Bus2IP_Clk, Reset => Bus2IP_Reset, Clear_FIFO => clear_in_fifo, FIFO_Write => in_FIFO_Write, Data_In => Bus2IP_Data, FIFO_Read => in_FIFO_Read, Data_Out => in_Data_FIFO, FIFO_Level => in_fifo_level, FULL => in_FIFO_Full, HalfFull => in_FIFO_HALF_FULL, HalfEmpty => in_FIFO_Half_Empty, Overflow => open, Underflow => open, Empty => in_FIFO_Empty ); in_Data_Exists <= not in_FIFO_Empty; end generate Using_Playback_BRAM; No_Playback : if (C_PLAYBACK = 0) generate in_Data_FIFO <= (others => '0'); in_FIFO_Full <= '0'; in_Data_Exists <= '0'; in_FIFO_Empty <= '0'; in_fifo_level <= (others => '0'); out_fifo_level <= (others => '0'); end generate No_Playback; ----------------------------------------------------------------------------- -- OUT_FIFO -- -- This fifo receives data directly from the AC97 and performs a "fifo -- write" for each AC97 frame. The FIFO sends data directly to the -- OPB Bus core and performs a "fifo read" every time data is read from the -- FIFO over the OPB bus. -- ----------------------------------------------------------------------------- Using_Recording_SRL : if (C_RECORD = 1 and C_USE_BRAM = 0) generate OUT_FIFO : SRL_FIFO generic map ( C_DATA_BITS => 32, -- [integer] C_DEPTH => 16) -- [integer] port map ( Clk => Bus2IP_Clk, -- [in std_logic] Reset => Bus2IP_Reset, -- [in std_logic] Clear_FIFO => clear_out_fifo, -- [in std_logic] FIFO_Write => out_FIFO_Write, -- [in std_logic] Data_In => out_Data_FIFO, FIFO_Read => out_FIFO_Read, -- [in std_logic] Data_Out => out_Data_Read, -- [out std_logic_vector(0 to C_OPB_DWIDTH-1)] FIFO_Full => out_FIFO_Full, -- [out std_logic] Data_Exists => out_Data_Exists, -- [out std_logic] FIFO_Level => out_srl_fifo_level, Half_Full => out_FIFO_Half_Full, -- [out std_logic] Half_Empty => open); -- [out std_logic] out_fifo_level <= "000000" & out_srl_fifo_level; out_fifo_empty <= not out_Data_exists; end generate Using_Recording_SRL; Using_Recording_BRAM : if (C_RECORD = 1 and C_USE_BRAM = 1) generate OUT_FIFO : BRAM_FIFO port map ( Clk => Bus2IP_Clk, Reset => Bus2IP_Reset, Clear_FIFO => clear_out_fifo, FIFO_Write => out_FIFO_Write, Data_In => out_Data_FIFO, FIFO_Read => out_FIFO_Read, Data_Out => out_Data_Read, FIFO_Level => out_fifo_level, FULL => out_FIFO_Full, HalfFull => out_FIFO_HALF_FULL, HalfEmpty => out_FIFO_HALF_Empty, Overflow => open, Underflow => open, Empty => out_FIFO_Empty); -- [out std_logic] out_Data_Exists <= not out_FIFO_Empty; end generate Using_Recording_BRAM; No_Recording : if (C_RECORD = 0) generate out_Data_Read <= (others => '0'); out_FIFO_Full <= '0'; out_Data_Exists <= '0'; end generate No_Recording; ----------------------------------------------------------------------------- -- Instanciating the core ----------------------------------------------------------------------------- ac97_core_I : ac97_core port map ( Reset => ac97_core_reset, AC97_Bit_Clk => Bit_Clk, AC97_Sync => Sync, AC97_SData_Out => SData_Out, AC97_SData_In => SData_In, AC97_Reg_Addr => IpClk_ac97_reg_addr, -- async AC97_Reg_Write_Data => IpClk_ac97_reg_write_data, -- async AC97_Reg_Read_Data => BitClk_ac97_Reg_Read_Data, AC97_Reg_Read_Strobe => BitClk_ac97_reg_read_strobe, AC97_Reg_Write_Strobe => BitClk_ac97_reg_write_strobe, AC97_Reg_Busy => BitClk_ac97_reg_busy, AC97_Reg_Error => BitClk_ac97_reg_error, AC97_Reg_Read_Data_Valid => BitClk_ac97_reg_data_valid, PCM_Playback_Left => in_Data_Fifo(16 to 31), PCM_Playback_Right => in_Data_Fifo(0 to 15), PCM_Playback_Left_Valid => BitClk_playback_left_valid, PCM_Playback_Right_Valid => BitClk_playback_right_valid, PCM_Playback_Left_Accept => BitClk_playback_left_accept, PCM_Playback_Right_Accept => BitClk_playback_right_accept, PCM_Record_Left => out_Data_Fifo(16 to 31), PCM_Record_Right => out_Data_Fifo(0 to 15), PCM_Record_Left_Valid => BitClk_record_left_valid, PCM_Record_Right_Valid => BitClk_record_right_valid, DEBUG => debug_i, CODEC_RDY => BitClk_codec_rdy ); ----------------------------------------------------------------------------- -- Handling the interrupts ----------------------------------------------------------------------------- Interrupt_Handle: process (in_FIFO_Half_Full, in_FIFO_Full, In_Data_Exists, in_fifo_interrupt_en, out_FIFO_Half_Full, out_FIFO_Half_Empty, out_FIFO_Full, out_Data_Exists, out_fifo_interrupt_en ) is begin -- process Playback_Interrupt_Handle if (C_INTR_LEVEL = 1) then Interrupt <= (in_fifo_interrupt_en and in_FIFO_Half_Empty) or (out_fifo_interrupt_en and out_FIFO_Half_Full); elsif (C_INTR_LEVEL = 2) then Interrupt <= (in_fifo_interrupt_en and in_FIFO_Full) or (out_fifo_interrupt_en and out_FIFO_Empty); elsif (C_INTR_LEVEL = 3) then Interrupt <= (in_fifo_interrupt_en and in_FIFO_Half_Full) or (out_fifo_interrupt_en and out_Fifo_Half_Empty); -- TODO: implement level 3 else Interrupt <= '0'; end if; end process Interrupt_Handle; end architecture IMP;
architecture RTL of FIFO is begin LABEL : assert TRUE report "This is a string" severity WARNING; assert TRUE report "This is a string" severity WARNING; LABEL : assert TRUE report "This is a string"; LABEL : assert TRUE severity WARNING; postponed assert TRUE report "This is a string"; LABEL : postponed assert TRUE report "This is a string"; end architecture RTL;
--============================================================================= -- This file is part of FPGA_NEURAL-Network. -- -- FPGA_NEURAL-Network is free software: you can redistribute it and/or -- modify it under the terms of the GNU General Public License as published -- by the Free Software Foundation, either version 3 of the License, or -- (at your option) any later version. -- -- FPGA_NEURAL-Network 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 FPGA_NEURAL-Network. -- If not, see <http://www.gnu.org/licenses/>. --============================================================================= -- FILE NAME : generic_neuron.vhd -- PROJECT : FPGA_NEURAL-Network -- ENTITY : GENERIC_NEURON -- ARCHITECTURE : behaviour --============================================================================= -- AUTORS(s) : Agostini, N -- DEPARTMENT : Electrical Engineering (UFRGS) -- DATE : NOV 28, 2014 --============================================================================= -- Description: -- --============================================================================= library ieee; use ieee.std_logic_1164.all; use work.fixed_pkg.all; -- ieee_proposed for compatibility version use work.NN_TYPES_pkg.all; --============================================================================= -- Entity declaration for GENERIC_NEURON --============================================================================= entity GENERIC_NEURON is generic ( NUMBER_OF_INPUTS : natural; NEURON_WEIGHTS : ARRAY_OF_SFIXED ); port ( IN_VALUES :in ARRAY_OF_SFIXED; CONTROL :in std_logic; CLK :in std_logic; OUTPUT :out CONSTRAINED_SFIXED ); end GENERIC_NEURON; --============================================================================= -- architecture declaration --============================================================================= architecture BEHAVIOUR of GENERIC_NEURON is signal BIAS : CONSTRAINED_SFIXED; signal TO_SIGMOID : CONSTRAINED_SFIXED; component SIGMOID_SELECT port ( CLK : in std_logic; X_VALUE : in CONSTRAINED_SFIXED; Y_VALUE : out CONSTRAINED_SFIXED ); end component; --============================================================================= -- architecture begin --============================================================================= begin --initialization BIAS <= NEURON_WEIGHTS(NUMBER_OF_INPUTS); FORWARDPROPAGATION: process ( IN_VALUES, CONTROL, CLK ) variable NEWVALUE: CONSTRAINED_SFIXED; begin if CLK'event and CLK ='1'then NEWVALUE := to_sfixed(0 ,U_SIZE,L_SIZE); for I in 0 to (NUMBER_OF_INPUTS-1) loop NEWVALUE := resize( (NEWVALUE + resize( (IN_VALUES(I) * NEURON_WEIGHTS(I)), NEWVALUE'high,NEWVALUE'low)) ,NEWVALUE'high,NEWVALUE'low); end loop; NEWVALUE := resize( (NEWVALUE + BIAS), NEWVALUE'high,NEWVALUE'low); end if; TO_SIGMOID <= NEWVALUE; end process; SIGMOID: SIGMOID_SELECT port map ( CLK => CLK, X_VALUE => TO_SIGMOID, Y_VALUE => OUTPUT ); end; --============================================================================= -- architecture end --=============================================================================
--! --! @file: exercise8_2.vhd --! @brief: circuilar shift with compenet #1 constant width --! @author: Antonio Gutierrez --! @date: 2013-11-26 --! --! -------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_all; library work; use work.my_components.all; -- Main code -------------------------------------- entity exercise8_2 is generic (M: integer := 5); -- num of stages port ( clk, load: in std_logic; d: in twoD(0 to M-1, N-1 downto 0); q: buffer twoD(0 to M-1, N-1 downto 0)); constant N: integer := 8; -- bits per stage end entity exercise8_2; -------------------------------------- architecture circuit of exercise8_2 is signal u: twoD(0 to M-1, N-1 downto 0); -- output of muxes signal v: twoD(0 to M-1, N-1 downto 0); -- output of ffs begin gen1: for i in N-1 downto 0 generate -- width gen2: for j in 0 to M-1 generate -- length mux1: mux port map ( a => d(i, j), b => v(i, M-1( - j)), sel => load, q => u(i, j) ); dff1: flipflop port map ( d => u(i, j), clk => clk, q => v(i, j) ); end generate gen2; end generate gen1; end architecture circuit; --------------------------------------
-------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 14:26:54 07/12/05 -- Design Name: -- Module Name: mux2t1 - Behavioral -- Project Name: -- Target Device: -- 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 mux2t1 is Port ( -- G1_adder_shift : in std_logic_vector(8 downto 0); -- G2_adder_shift : in std_logic_vector(8 downto 0); -- sele : in std_logic; -- G_bar : out std_logic_vector(8 downto 0) In1 : in std_logic; In2 : in std_logic; sel : in std_logic; Output : out std_logic ); end mux2t1; architecture Behavioral of mux2t1 is begin -- process(G1_adder_shift, G2_adder_shift, sele) -- begin -- if (sele = '0') then -- G_bar <= G1_adder_shift; -- elsif (sele = '1') then -- G_bar <= G2_adder_shift; -- end if; -- end process; process( In1, In2, sel ) begin if ( sel = '0' ) then Output <= In1; elsif (sel = '1') then Output <= In2; end if; end process; end Behavioral;
-- IT Tijuana, NetList-FPGA-Optimizer 0.01 (printed on 2016-05-12.13:54:59) LIBRARY IEEE; USE IEEE.STD_LOGIC_1164.all; USE IEEE.NUMERIC_STD.all; ENTITY mesaia_alap_entity IS PORT ( reset, clk: IN std_logic; input1, input2, input3, input4, input5, input6, input7, input8, input9, input10, input11, input12, input13, input14, input15, input16, input17, input18, input19, input20, input21, input22, input23, input24, input25, input26, input27, input28, input29, input30, input31, input32, input33, input34, input35, input36, input37, input38, input39, input40, input41, input42, input43, input44, input45, input46, input47, input48: IN unsigned(0 TO 3); output1, output2, output3, output4: OUT unsigned(0 TO 4)); END mesaia_alap_entity; ARCHITECTURE mesaia_alap_description OF mesaia_alap_entity IS SIGNAL current_state : unsigned(0 TO 7) := "00000000"; SHARED VARIABLE register1: unsigned(0 TO 4) := "00000"; SHARED VARIABLE register2: unsigned(0 TO 4) := "00000"; SHARED VARIABLE register3: unsigned(0 TO 4) := "00000"; SHARED VARIABLE register4: unsigned(0 TO 4) := "00000"; SHARED VARIABLE register5: unsigned(0 TO 4) := "00000"; SHARED VARIABLE register6: unsigned(0 TO 4) := "00000"; SHARED VARIABLE register7: unsigned(0 TO 4) := "00000"; SHARED VARIABLE register8: unsigned(0 TO 4) := "00000"; SHARED VARIABLE register9: unsigned(0 TO 4) := "00000"; SHARED VARIABLE register10: unsigned(0 TO 4) := "00000"; SHARED VARIABLE register11: unsigned(0 TO 4) := "00000"; SHARED VARIABLE register12: unsigned(0 TO 4) := "00000"; SHARED VARIABLE register13: unsigned(0 TO 4) := "00000"; SHARED VARIABLE register14: unsigned(0 TO 4) := "00000"; SHARED VARIABLE register15: unsigned(0 TO 4) := "00000"; SHARED VARIABLE register16: unsigned(0 TO 4) := "00000"; SHARED VARIABLE register17: unsigned(0 TO 4) := "00000"; SHARED VARIABLE register18: unsigned(0 TO 4) := "00000"; BEGIN moore_machine: PROCESS(clk, reset) BEGIN IF reset = '0' THEN current_state <= "00000000"; ELSIF clk = '1' AND clk'event THEN IF current_state < 4 THEN current_state <= current_state + 1; END IF; END IF; END PROCESS moore_machine; operations: PROCESS(current_state) BEGIN CASE current_state IS WHEN "00000001" => register1 := input1 + 1; register2 := input2 * 2; register3 := input3 + 3; register4 := input4 * 4; register5 := input5 + 5; register6 := input6 * 6; register7 := input7 + 7; register8 := input8 * 8; register9 := input9 + 9; register10 := input10 * 10; register11 := input11 + 11; register12 := input12 * 12; register13 := input13 + 13; register14 := input14 * 14; register15 := input15 + 15; register16 := input16 * 16; WHEN "00000010" => register1 := register2 + register1; register2 := input17 * 17; register3 := register4 + register3; register4 := input18 * 18; register5 := register6 + register5; register6 := input19 * 19; register7 := register8 + register7; register8 := input20 * 20; register9 := register10 + register9; register10 := input21 * 21; register11 := register12 + register11; register12 := input22 * 22; register13 := register14 + register13; register14 := input23 * 23; register15 := register16 + register15; register16 := input24 * 24; WHEN "00000011" => register1 := register2 + register1; register2 := register4 + register3; register3 := input25 + 25; register4 := input26 * 26; register5 := register6 + register5; register6 := register8 + register7; register7 := input27 + 27; register8 := input28 * 28; register9 := register10 + register9; register10 := register12 + register11; register11 := input29 + 29; register12 := input30 * 30; register13 := register14 + register13; register14 := register16 + register15; register15 := input31 + 31; register16 := input32 * 32; WHEN "00000100" => register1 := ((NOT register1) + 1) XOR register1; register2 := ((NOT register2) + 1) XOR register2; register3 := register4 + register3; register4 := input33 * 37; register5 := ((NOT register5) + 1) XOR register5; register6 := ((NOT register6) + 1) XOR register6; register7 := register8 + register7; register8 := input34 * 42; register9 := ((NOT register9) + 1) XOR register9; register10 := ((NOT register10) + 1) XOR register10; register11 := register12 + register11; register12 := input35 * 47; register13 := ((NOT register13) + 1) XOR register13; register14 := ((NOT register14) + 1) XOR register14; register15 := register16 + register15; register16 := input36 * 52; register17 := input37 + 53; register18 := input38 * 54; WHEN "00000101" => register1 := register2 - register1; register2 := register4 + register3; register3 := input39 + 55; register4 := input40 * 56; register5 := register6 - register5; register6 := register8 + register7; register7 := input41 + 57; register8 := input42 * 58; register9 := register10 - register9; register10 := register12 + register11; register11 := input43 + 59; register12 := input44 * 60; register13 := register14 - register13; register14 := register16 + register15; register15 := register18 + register17; register16 := input45 * 61; WHEN "00000110" => register1 := register1 * 63; register2 := ((NOT register2) + 1) XOR register2; register3 := register4 + register3; register4 := input46 * 66; register5 := register5 * 68; register6 := ((NOT register6) + 1) XOR register6; register7 := register8 + register7; register8 := input47 * 71; register9 := register9 * 73; register10 := ((NOT register10) + 1) XOR register10; register11 := register12 + register11; register12 := input48 * 76; register13 := register13 * 78; register14 := ((NOT register14) + 1) XOR register14; register15 := register16 + register15; WHEN "00000111" => register1 := register2 + register1; register2 := register4 + register3; register3 := register6 + register5; register4 := register8 + register7; register5 := register10 + register9; register6 := register12 + register11; register7 := register14 + register13; WHEN "00001000" => output1 <= register1(0 TO 1) & register15(0 TO 2); output2 <= register3(0 TO 1) & register2(0 TO 2); output3 <= register5(0 TO 1) & register4(0 TO 2); output4 <= register7(0 TO 1) & register6(0 TO 2); WHEN OTHERS => NULL; END CASE; END PROCESS operations; END mesaia_alap_description;
-- ************************************************************************* -- -- (c) Copyright 2010-2011 Xilinx, Inc. All rights reserved. -- -- This file contains confidential and proprietary information -- of Xilinx, Inc. and is protected under U.S. and -- international copyright and other intellectual property -- laws. -- -- DISCLAIMER -- This disclaimer is not a license and does not grant any -- rights to the materials distributed herewith. Except as -- otherwise provided in a valid license issued to you by -- Xilinx, and to the maximum extent permitted by applicable -- law: (1) THESE MATERIALS ARE MADE AVAILABLE "AS IS" AND -- WITH ALL FAULTS, AND XILINX HEREBY DISCLAIMS ALL WARRANTIES -- AND CONDITIONS, EXPRESS, IMPLIED, OR STATUTORY, INCLUDING -- BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, NON- -- INFRINGEMENT, OR FITNESS FOR ANY PARTICULAR PURPOSE; and -- (2) Xilinx shall not be liable (whether in contract or tort, -- including negligence, or under any other theory of -- liability) for any loss or damage of any kind or nature -- related to, arising under or in connection with these -- materials, including for any direct, or any indirect, -- special, incidental, or consequential loss or damage -- (including loss of data, profits, goodwill, or any type of -- loss or damage suffered as a result of any action brought -- by a third party) even if such damage or loss was -- reasonably foreseeable or Xilinx had been advised of the -- possibility of the same. -- -- CRITICAL APPLICATIONS -- Xilinx products are not designed or intended to be fail- -- safe, or for use in any application requiring fail-safe -- performance, such as life-support or safety devices or -- systems, Class III medical devices, nuclear facilities, -- applications related to the deployment of airbags, or any -- other applications that could lead to death, personal -- injury, or severe property or environmental damage -- (individually and collectively, "Critical -- Applications"). Customer assumes the sole risk and -- liability of any use of Xilinx products in Critical -- Applications, subject only to applicable laws and -- regulations governing limitations on product liability. -- -- THIS COPYRIGHT NOTICE AND DISCLAIMER MUST BE RETAINED AS -- PART OF THIS FILE AT ALL TIMES. -- -- ************************************************************************* -- ------------------------------------------------------------------------------- -- Filename: axi_sg_updt_sm.vhd -- Description: This entity manages updating of descriptors. -- -- VHDL-Standard: VHDL'93 ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use ieee.std_logic_misc.all; library unisim; use unisim.vcomponents.all; library axi_sg_v4_1_3; use axi_sg_v4_1_3.axi_sg_pkg.all; ------------------------------------------------------------------------------- entity axi_sg_updt_sm is generic ( C_M_AXI_SG_ADDR_WIDTH : integer range 32 to 64 := 32; -- Master AXI Memory Map Address Width for Scatter Gather R/W Port C_INCLUDE_CH1 : integer range 0 to 1 := 1; -- Include or Exclude channel 1 scatter gather engine -- 0 = Exclude Channel 1 SG Engine -- 1 = Include Channel 1 SG Engine C_INCLUDE_CH2 : integer range 0 to 1 := 1; -- Include or Exclude channel 2 scatter gather engine -- 0 = Exclude Channel 2 SG Engine -- 1 = Include Channel 2 SG Engine C_SG_CH1_WORDS_TO_UPDATE : integer range 1 to 16 := 8; -- Number of words to fetch C_SG_CH1_FIRST_UPDATE_WORD : integer range 0 to 15 := 0; -- Starting update word offset C_SG_CH2_WORDS_TO_UPDATE : integer range 1 to 16 := 8; -- Number of words to fetch C_SG_CH2_FIRST_UPDATE_WORD : integer range 0 to 15 := 0 -- Starting update word offset ); port ( ----------------------------------------------------------------------- -- AXI Scatter Gather Interface ----------------------------------------------------------------------- m_axi_sg_aclk : in std_logic ; -- m_axi_sg_aresetn : in std_logic ; -- -- ftch_error : in std_logic ; -- -- -- Channel 1 Control and Status -- ch1_updt_queue_empty : in std_logic ; -- ch1_updt_curdesc_wren : in std_logic ; -- ch1_updt_curdesc : in std_logic_vector -- (C_M_AXI_SG_ADDR_WIDTH-1 downto 0) ; -- ch1_updt_ioc : in std_logic ; -- ch1_dma_interr : in std_logic ; -- ch1_dma_slverr : in std_logic ; -- ch1_dma_decerr : in std_logic ; -- ch1_updt_active : out std_logic ; -- ch1_updt_idle : out std_logic ; -- ch1_updt_interr_set : out std_logic ; -- ch1_updt_slverr_set : out std_logic ; -- ch1_updt_decerr_set : out std_logic ; -- ch1_dma_interr_set : out std_logic ; -- ch1_dma_slverr_set : out std_logic ; -- ch1_dma_decerr_set : out std_logic ; -- ch1_updt_ioc_irq_set : out std_logic ; -- ch1_updt_done : out std_logic ; -- -- -- Channel 2 Control and Status -- ch2_updt_queue_empty : in std_logic ; -- -- ch2_updt_curdesc_wren : in std_logic ; -- -- ch2_updt_curdesc : in std_logic_vector -- -- (C_M_AXI_SG_ADDR_WIDTH-1 downto 0) ; -- ch2_updt_ioc : in std_logic ; -- ch2_dma_interr : in std_logic ; -- ch2_dma_slverr : in std_logic ; -- ch2_dma_decerr : in std_logic ; -- ch2_updt_active : out std_logic ; -- ch2_updt_idle : out std_logic ; -- ch2_updt_interr_set : out std_logic ; -- ch2_updt_slverr_set : out std_logic ; -- ch2_updt_decerr_set : out std_logic ; -- ch2_dma_interr_set : out std_logic ; -- ch2_dma_slverr_set : out std_logic ; -- ch2_dma_decerr_set : out std_logic ; -- ch2_updt_ioc_irq_set : out std_logic ; -- ch2_updt_done : out std_logic ; -- -- -- DataMover Command -- updt_cmnd_wr : out std_logic ; -- updt_cmnd_data : out std_logic_vector -- ((C_M_AXI_SG_ADDR_WIDTH -- +CMD_BASE_WIDTH)-1 downto 0) ; -- -- DataMover Status -- updt_done : in std_logic ; -- updt_error : in std_logic ; -- updt_interr : in std_logic ; -- updt_slverr : in std_logic ; -- updt_decerr : in std_logic ; -- updt_error_addr : out std_logic_vector -- (C_M_AXI_SG_ADDR_WIDTH-1 downto 0) -- ); end axi_sg_updt_sm; ------------------------------------------------------------------------------- -- Architecture ------------------------------------------------------------------------------- architecture implementation of axi_sg_updt_sm is attribute DowngradeIPIdentifiedWarnings: string; attribute DowngradeIPIdentifiedWarnings of implementation : architecture is "yes"; ------------------------------------------------------------------------------- -- Functions ------------------------------------------------------------------------------- -- No Functions Declared ------------------------------------------------------------------------------- -- Constants Declarations ------------------------------------------------------------------------------- -- DataMover Commmand TAG constant UPDATE_CMD_TAG : std_logic_vector(3 downto 0) := (others => '0'); -- DataMover Command Type -- Always set to INCR type constant UPDATE_CMD_TYPE : std_logic := '1'; -- DataMover Cmnd Reserved Bits constant UPDATE_MSB_IGNORED : std_logic_vector(7 downto 0) := (others => '0'); -- DataMover Cmnd Reserved Bits constant UPDATE_LSB_IGNORED : std_logic_vector(15 downto 0) := (others => '0'); -- DataMover Cmnd Bytes to Xfer for Channel 1 constant UPDATE_CH1_CMD_BTT : std_logic_vector(SG_BTT_WIDTH-1 downto 0) := std_logic_vector(to_unsigned( (C_SG_CH1_WORDS_TO_UPDATE*4),SG_BTT_WIDTH)); -- DataMover Cmnd Bytes to Xfer for Channel 2 constant UPDATE_CH2_CMD_BTT : std_logic_vector(SG_BTT_WIDTH-1 downto 0) := std_logic_vector(to_unsigned( (C_SG_CH2_WORDS_TO_UPDATE*4),SG_BTT_WIDTH)); -- DataMover Cmnd Reserved Bits constant UPDATE_CMD_RSVD : std_logic_vector( DATAMOVER_CMD_RSVMSB_BOFST + C_M_AXI_SG_ADDR_WIDTH downto DATAMOVER_CMD_RSVLSB_BOFST + C_M_AXI_SG_ADDR_WIDTH) := (others => '0'); -- DataMover Cmnd Address Offset for channel 1 constant UPDATE_CH1_ADDR_OFFSET : integer := C_SG_CH1_FIRST_UPDATE_WORD*4; -- DataMover Cmnd Address Offset for channel 2 constant UPDATE_CH2_ADDR_OFFSET : integer := C_SG_CH2_FIRST_UPDATE_WORD*4; ------------------------------------------------------------------------------- -- Signal / Type Declarations ------------------------------------------------------------------------------- type SG_UPDATE_STATE_TYPE is ( IDLE, GET_UPDATE_PNTR, UPDATE_DESCRIPTOR, UPDATE_STATUS, UPDATE_ERROR ); signal updt_cs : SG_UPDATE_STATE_TYPE; signal updt_ns : SG_UPDATE_STATE_TYPE; -- State Machine Signals signal ch1_active_set : std_logic := '0'; signal ch2_active_set : std_logic := '0'; signal write_cmnd_cmb : std_logic := '0'; signal ch1_updt_sm_idle : std_logic := '0'; signal ch2_updt_sm_idle : std_logic := '0'; -- Misc Signals signal ch1_active_i : std_logic := '0'; signal service_ch1 : std_logic := '0'; signal ch2_active_i : std_logic := '0'; signal service_ch2 : std_logic := '0'; signal update_address : std_logic_vector (C_M_AXI_SG_ADDR_WIDTH-1 downto 0) := (others => '0'); signal update_cmd_btt : std_logic_vector (SG_BTT_WIDTH-1 downto 0) := (others => '0'); signal update_tag : std_logic_vector (3 downto 0); signal updt_ioc_irq_set : std_logic := '0'; signal ch1_interr_catch : std_logic := '0'; signal ch2_interr_catch : std_logic := '0'; signal ch1_decerr_catch : std_logic := '0'; signal ch2_decerr_catch : std_logic := '0'; signal ch1_slverr_catch : std_logic := '0'; signal ch2_slverr_catch : std_logic := '0'; signal updt_cmnd_data_int : std_logic_vector -- ((C_M_AXI_SG_ADDR_WIDTH -- +CMD_BASE_WIDTH)-1 downto 0) ; -- ------------------------------------------------------------------------------- -- Begin architecture logic ------------------------------------------------------------------------------- begin ch1_updt_active <= ch1_active_i; ch2_updt_active <= ch2_active_i; ------------------------------------------------------------------------------- -- Scatter Gather Fetch State Machine ------------------------------------------------------------------------------- SG_UPDT_MACHINE : process(updt_cs, ch1_active_i, ch2_active_i, service_ch1, service_ch2, ch1_updt_curdesc_wren, -- ch2_updt_curdesc_wren, updt_error, updt_done) begin -- Default signal assignment ch1_active_set <= '0'; ch2_active_set <= '0'; write_cmnd_cmb <= '0'; ch1_updt_sm_idle <= '0'; ch2_updt_sm_idle <= '0'; updt_ns <= updt_cs; case updt_cs is ------------------------------------------------------------------- when IDLE => ch1_updt_sm_idle <= not service_ch1; ch2_updt_sm_idle <= not service_ch2; -- error during update - therefore shut down if(updt_error = '1')then updt_ns <= UPDATE_ERROR; -- If channel 1 is running and not idle and queue is not full -- then fetch descriptor for channel 1 elsif(service_ch1 = '1')then ch1_active_set <= '1'; updt_ns <= GET_UPDATE_PNTR; -- If channel 2 is running and not idle and queue is not full -- then fetch descriptor for channel 2 elsif(service_ch2 = '1')then ch2_active_set <= '1'; updt_ns <= GET_UPDATE_PNTR; else updt_ns <= IDLE; end if; when GET_UPDATE_PNTR => if(ch1_updt_curdesc_wren = '1')then updt_ns <= UPDATE_DESCRIPTOR; else updt_ns <= GET_UPDATE_PNTR; end if; -- if(ch1_updt_curdesc_wren = '1' or ch2_updt_curdesc_wren = '1')then -- updt_ns <= UPDATE_DESCRIPTOR; -- else -- updt_ns <= GET_UPDATE_PNTR; -- end if; ------------------------------------------------------------------- when UPDATE_DESCRIPTOR => -- error during update - therefore shut down if(updt_error = '1')then -- coverage off updt_ns <= UPDATE_ERROR; -- coverage on -- write command else ch1_updt_sm_idle <= not ch1_active_i and not service_ch1; ch2_updt_sm_idle <= not ch2_active_i and not service_ch2; write_cmnd_cmb <= '1'; updt_ns <= UPDATE_STATUS; end if; ------------------------------------------------------------------- when UPDATE_STATUS => ch1_updt_sm_idle <= not ch1_active_i and not service_ch1; ch2_updt_sm_idle <= not ch2_active_i and not service_ch2; -- error during update - therefore shut down if(updt_error = '1')then -- coverage off updt_ns <= UPDATE_ERROR; -- coverage on -- wait until done with update elsif(updt_done = '1')then -- If just finished fethcing for channel 2 then... if(ch2_active_i = '1')then -- If ready, update descriptor for channel 1 if(service_ch1 = '1')then ch1_active_set <= '1'; updt_ns <= GET_UPDATE_PNTR; -- Otherwise return to IDLE else updt_ns <= IDLE; end if; -- If just finished fethcing for channel 1 then... elsif(ch1_active_i = '1')then -- If ready, update descriptor for channel 2 if(service_ch2 = '1')then ch2_active_set <= '1'; updt_ns <= GET_UPDATE_PNTR; -- Otherwise return to IDLE else updt_ns <= IDLE; end if; else -- coverage off updt_ns <= IDLE; -- coverage on end if; else updt_ns <= UPDATE_STATUS; end if; ------------------------------------------------------------------- when UPDATE_ERROR => ch1_updt_sm_idle <= '1'; ch2_updt_sm_idle <= '1'; updt_ns <= UPDATE_ERROR; ------------------------------------------------------------------- -- coverage off when others => updt_ns <= IDLE; -- coverage on end case; end process SG_UPDT_MACHINE; ------------------------------------------------------------------------------- -- Register states of state machine ------------------------------------------------------------------------------- REGISTER_STATE : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0')then updt_cs <= IDLE; else updt_cs <= updt_ns; end if; end if; end process REGISTER_STATE; ------------------------------------------------------------------------------- -- Channel included therefore generate fetch logic ------------------------------------------------------------------------------- GEN_CH1_UPDATE : if C_INCLUDE_CH1 = 1 generate begin ------------------------------------------------------------------------------- -- Active channel flag. Indicates which channel is active. -- 0 = channel active -- 1 = channel active ------------------------------------------------------------------------------- CH1_ACTIVE_PROCESS : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0')then ch1_active_i <= '0'; elsif(ch1_active_i = '1' and updt_done = '1')then ch1_active_i <= '0'; elsif(ch1_active_set = '1')then ch1_active_i <= '1'; end if; end if; end process CH1_ACTIVE_PROCESS; ------------------------------------------------------------------------------- -- Channel 1 ready to be serviced? ------------------------------------------------------------------------------- service_ch1 <= '1' when ch1_updt_queue_empty = '0' -- Queue not empty and ftch_error = '0' -- No SG Fetch Error else '0'; ------------------------------------------------------------------------------- -- Channel 1 Interrupt On Complete ------------------------------------------------------------------------------- CH1_INTR_PROCESS : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0')then ch1_updt_ioc_irq_set <= '0'; -- Set interrupt on Done and Descriptor IOC set elsif(updt_done = '1' and ch1_updt_ioc = '1')then ch1_updt_ioc_irq_set <= '1'; else ch1_updt_ioc_irq_set <= '0'; end if; end if; end process CH1_INTR_PROCESS; ------------------------------------------------------------------------------- -- Channel 1 DMA Internal Error ------------------------------------------------------------------------------- CH1_INTERR_PROCESS : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0')then ch1_dma_interr_set <= '0'; -- Set internal error on desc updt Done and Internal Error elsif(updt_done = '1' and ch1_dma_interr = '1')then ch1_dma_interr_set <= '1'; end if; end if; end process CH1_INTERR_PROCESS; ------------------------------------------------------------------------------- -- Channel 1 DMA Slave Error ------------------------------------------------------------------------------- CH1_SLVERR_PROCESS : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0')then ch1_dma_slverr_set <= '0'; -- Set slave error on desc updt Done and Slave Error elsif(updt_done = '1' and ch1_dma_slverr = '1')then ch1_dma_slverr_set <= '1'; end if; end if; end process CH1_SLVERR_PROCESS; ------------------------------------------------------------------------------- -- Channel 1 DMA Decode Error ------------------------------------------------------------------------------- CH1_DECERR_PROCESS : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0')then ch1_dma_decerr_set <= '0'; -- Set decode error on desc updt Done and Decode Error elsif(updt_done = '1' and ch1_dma_decerr = '1')then ch1_dma_decerr_set <= '1'; end if; end if; end process CH1_DECERR_PROCESS; ------------------------------------------------------------------------------- -- Log Fetch Errors ------------------------------------------------------------------------------- -- Log Slave Errors reported during descriptor update SLV_SET_PROCESS : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0')then ch1_updt_slverr_set <= '0'; elsif(ch1_active_i = '1' and updt_slverr = '1')then ch1_updt_slverr_set <= '1'; end if; end if; end process SLV_SET_PROCESS; -- Log Internal Errors reported during descriptor update INT_SET_PROCESS : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0')then ch1_updt_interr_set <= '0'; elsif(ch1_active_i = '1' and updt_interr = '1')then -- coverage off ch1_updt_interr_set <= '1'; -- coverage on end if; end if; end process INT_SET_PROCESS; -- Log Decode Errors reported during descriptor update DEC_SET_PROCESS : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0')then ch1_updt_decerr_set <= '0'; elsif(ch1_active_i = '1' and updt_decerr = '1')then ch1_updt_decerr_set <= '1'; end if; end if; end process DEC_SET_PROCESS; -- Indicate update is idle if state machine is idle and update queue is empty IDLE_PROCESS : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0' or updt_error = '1' or ftch_error = '1')then ch1_updt_idle <= '1'; elsif(service_ch1 = '1')then ch1_updt_idle <= '0'; elsif(service_ch1 = '0' and ch1_updt_sm_idle = '1')then ch1_updt_idle <= '1'; end if; end if; end process IDLE_PROCESS; --------------------------------------------------------------------------- -- Indicate update is done to allow fetch of next descriptor -- This is needed to prevent a partial descriptor being fetched -- and then axi read is throttled for extended periods until the -- remainder of the descriptor is fetched. -- -- Note: Only used when fetch queue not inluded otherwise -- tools optimize out this process --------------------------------------------------------------------------- REG_CH1_DONE : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0')then ch1_updt_done <= '0'; elsif(updt_done = '1' and ch1_active_i = '1')then ch1_updt_done <= '1'; else ch1_updt_done <= '0'; end if; end if; end process REG_CH1_DONE; end generate GEN_CH1_UPDATE; ------------------------------------------------------------------------------- -- Channel excluded therefore do not generate fetch logic ------------------------------------------------------------------------------- GEN_NO_CH1_UPDATE : if C_INCLUDE_CH1 = 0 generate begin service_ch1 <= '0'; ch1_active_i <= '0'; ch1_updt_idle <= '0'; ch1_updt_interr_set <= '0'; ch1_updt_slverr_set <= '0'; ch1_updt_decerr_set <= '0'; ch1_dma_interr_set <= '0'; ch1_dma_slverr_set <= '0'; ch1_dma_decerr_set <= '0'; ch1_updt_ioc_irq_set <= '0'; ch1_updt_done <= '0'; end generate GEN_NO_CH1_UPDATE; ------------------------------------------------------------------------------- -- Channel included therefore generate fetch logic ------------------------------------------------------------------------------- GEN_CH2_UPDATE : if C_INCLUDE_CH2 = 1 generate begin ------------------------------------------------------------------------------- -- Active channel flag. Indicates which channel is active. -- 0 = channel active -- 1 = channel active ------------------------------------------------------------------------------- CH2_ACTIVE_PROCESS : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0')then ch2_active_i <= '0'; elsif(ch2_active_i = '1' and updt_done = '1')then ch2_active_i <= '0'; elsif(ch2_active_set = '1')then ch2_active_i <= '1'; end if; end if; end process CH2_ACTIVE_PROCESS; ------------------------------------------------------------------------------- -- Channel 2 ready to be serviced? ------------------------------------------------------------------------------- service_ch2 <= '1' when ch2_updt_queue_empty = '0' -- Queue not empty and ftch_error = '0' -- No SG Fetch Error else '0'; ------------------------------------------------------------------------------- -- Channel 2 Interrupt On Complete ------------------------------------------------------------------------------- CH2_INTR_PROCESS : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0')then ch2_updt_ioc_irq_set <= '0'; -- Set interrupt on Done and Descriptor IOC set elsif(updt_done = '1' and ch2_updt_ioc = '1')then ch2_updt_ioc_irq_set <= '1'; else ch2_updt_ioc_irq_set <= '0'; end if; end if; end process CH2_INTR_PROCESS; ------------------------------------------------------------------------------- -- Channel 1 DMA Internal Error ------------------------------------------------------------------------------- CH2_INTERR_PROCESS : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0')then ch2_dma_interr_set <= '0'; -- Set internal error on desc updt Done and Internal Error elsif(updt_done = '1' and ch2_dma_interr = '1')then ch2_dma_interr_set <= '1'; end if; end if; end process CH2_INTERR_PROCESS; ------------------------------------------------------------------------------- -- Channel 1 DMA Slave Error ------------------------------------------------------------------------------- CH2_SLVERR_PROCESS : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0')then ch2_dma_slverr_set <= '0'; -- Set slave error on desc updt Done and Slave Error elsif(updt_done = '1' and ch2_dma_slverr = '1')then ch2_dma_slverr_set <= '1'; end if; end if; end process CH2_SLVERR_PROCESS; ------------------------------------------------------------------------------- -- Channel 1 DMA Decode Error ------------------------------------------------------------------------------- CH2_DECERR_PROCESS : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0')then ch2_dma_decerr_set <= '0'; -- Set decode error on desc updt Done and Decode Error elsif(updt_done = '1' and ch2_dma_decerr = '1')then ch2_dma_decerr_set <= '1'; end if; end if; end process CH2_DECERR_PROCESS; ------------------------------------------------------------------------------- -- Log Fetch Errors ------------------------------------------------------------------------------- -- Log Slave Errors reported during descriptor update SLV_SET_PROCESS : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0')then ch2_updt_slverr_set <= '0'; elsif(ch2_active_i = '1' and updt_slverr = '1')then ch2_updt_slverr_set <= '1'; end if; end if; end process SLV_SET_PROCESS; -- Log Internal Errors reported during descriptor update INT_SET_PROCESS : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0')then ch2_updt_interr_set <= '0'; elsif(ch2_active_i = '1' and updt_interr = '1')then -- coverage off ch2_updt_interr_set <= '1'; -- coverage on end if; end if; end process INT_SET_PROCESS; -- Log Decode Errors reported during descriptor update DEC_SET_PROCESS : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0')then ch2_updt_decerr_set <= '0'; elsif(ch2_active_i = '1' and updt_decerr = '1')then ch2_updt_decerr_set <= '1'; end if; end if; end process DEC_SET_PROCESS; -- Indicate update is idle if state machine is idle and update queue is empty IDLE_PROCESS : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0' or updt_error = '1' or ftch_error = '1')then ch2_updt_idle <= '1'; elsif(service_ch2 = '1')then ch2_updt_idle <= '0'; elsif(service_ch2 = '0' and ch2_updt_sm_idle = '1')then ch2_updt_idle <= '1'; end if; end if; end process IDLE_PROCESS; --------------------------------------------------------------------------- -- Indicate update is done to allow fetch of next descriptor -- This is needed to prevent a partial descriptor being fetched -- and then axi read is throttled for extended periods until the -- remainder of the descriptor is fetched. -- -- Note: Only used when fetch queue not inluded otherwise -- tools optimize out this process --------------------------------------------------------------------------- REG_CH2_DONE : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0')then ch2_updt_done <= '0'; elsif(updt_done = '1' and ch2_active_i = '1')then ch2_updt_done <= '1'; else ch2_updt_done <= '0'; end if; end if; end process REG_CH2_DONE; end generate GEN_CH2_UPDATE; ------------------------------------------------------------------------------- -- Channel excluded therefore do not generate fetch logic ------------------------------------------------------------------------------- GEN_NO_CH2_UPDATE : if C_INCLUDE_CH2 = 0 generate begin service_ch2 <= '0'; ch2_active_i <= '0'; ch2_updt_idle <= '0'; ch2_updt_interr_set <= '0'; ch2_updt_slverr_set <= '0'; ch2_updt_decerr_set <= '0'; ch2_dma_interr_set <= '0'; ch2_dma_slverr_set <= '0'; ch2_dma_decerr_set <= '0'; ch2_updt_ioc_irq_set <= '0'; ch2_updt_done <= '0'; end generate GEN_NO_CH2_UPDATE; --------------------------------------------------------------------------- -- Register Current Update Address. Address captured from channel port -- or queue by axi_sg_updt_queue --------------------------------------------------------------------------- REG_UPDATE_ADDRESS : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0')then update_address (C_M_AXI_SG_ADDR_WIDTH-1 downto 4) <= (others => '0'); -- update_tag <= "0000"; -- Channel 1 descriptor update pointer elsif(ch1_updt_curdesc_wren = '1')then update_address (C_M_AXI_SG_ADDR_WIDTH-1 downto 4) <= std_logic_vector(unsigned(ch1_updt_curdesc (C_M_AXI_SG_ADDR_WIDTH-1 downto 4)) + 1); -- update_tag <= "0001"; -- -- Channel 2 descriptor update pointer -- elsif(ch2_updt_curdesc_wren = '1')then -- update_address (C_M_AXI_SG_ADDR_WIDTH-1 downto 4) <= std_logic_vector(unsigned(ch2_updt_curdesc (C_M_AXI_SG_ADDR_WIDTH-1 downto 4)) -- + 1); -- update_tag <= "0000"; end if; end if; end process REG_UPDATE_ADDRESS; update_tag <= "0000" when ch2_active_i = '1' else "0001"; --REG_UPDATE_ADDRESS : process(m_axi_sg_aclk) -- begin -- if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then -- if(m_axi_sg_aresetn = '0')then -- update_address (C_M_AXI_SG_ADDR_WIDTH-1 downto 4) <= (others => '0'); -- update_tag <= "0000"; -- -- Channel 1 descriptor update pointer -- elsif(ch1_updt_curdesc_wren = '1')then -- update_address (C_M_AXI_SG_ADDR_WIDTH-1 downto 4) <= std_logic_vector(unsigned(ch1_updt_curdesc (C_M_AXI_SG_ADDR_WIDTH-1 downto 4)) -- + 1); -- update_tag <= "0001"; -- -- Channel 2 descriptor update pointer -- elsif(ch2_updt_curdesc_wren = '1')then -- update_address (C_M_AXI_SG_ADDR_WIDTH-1 downto 4) <= std_logic_vector(unsigned(ch2_updt_curdesc (C_M_AXI_SG_ADDR_WIDTH-1 downto 4)) -- + 1); -- update_tag <= "0000"; -- end if; -- end if; -- end process REG_UPDATE_ADDRESS; update_address (3 downto 0) <= "1100"; -- Assigne Bytes to Transfer (BTT) update_cmd_btt <= UPDATE_CH1_CMD_BTT when ch1_active_i = '1' else UPDATE_CH2_CMD_BTT; updt_cmnd_data <= updt_cmnd_data_int; ------------------------------------------------------------------------------- -- Build DataMover command ------------------------------------------------------------------------------- -- When command by sm, drive command to updt_cmdsts_if --GEN_DATAMOVER_CMND : process(m_axi_sg_aclk) -- begin -- if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then -- if(m_axi_sg_aresetn = '0')then -- updt_cmnd_wr <= '0'; -- updt_cmnd_data_int <= (others => '0'); -- -- Fetch SM issued a command write -- elsif(write_cmnd_cmb = '1')then updt_cmnd_wr <= write_cmnd_cmb; --'1'; updt_cmnd_data_int <= UPDATE_CMD_RSVD & update_tag --UPDATE_CMD_TAG & update_address & UPDATE_MSB_IGNORED & UPDATE_CMD_TYPE & UPDATE_LSB_IGNORED & update_cmd_btt; -- else -- updt_cmnd_wr <= '0'; -- end if; -- end if; -- end process GEN_DATAMOVER_CMND; ------------------------------------------------------------------------------- -- Capture and hold fetch address in case an error occurs ------------------------------------------------------------------------------- LOG_ERROR_ADDR : process(m_axi_sg_aclk) begin if(m_axi_sg_aclk'EVENT and m_axi_sg_aclk = '1')then if(m_axi_sg_aresetn = '0')then updt_error_addr (C_M_AXI_SG_ADDR_WIDTH-1 downto SG_ADDR_LSB) <= (others => '0'); elsif(write_cmnd_cmb = '1')then updt_error_addr (C_M_AXI_SG_ADDR_WIDTH-1 downto SG_ADDR_LSB) <= update_address(C_M_AXI_SG_ADDR_WIDTH-1 downto SG_ADDR_LSB); end if; end if; end process LOG_ERROR_ADDR; updt_error_addr (5 downto 0) <= "000000"; end implementation;
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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2015" `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 NYrdTNMqn5FUtu/sZs2oOOJayzIg3o9wiGWfLMpBkovCyYc18dvTyFvEfa2AsAyKBegsCwxTPfpr ySmePDtCMg== `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 IhX5yxY4OBlZwZvaazEwJV4OnsiHfjrpZB3IpZMSD/s+Cwa/5dsBg741Lc4SgogSf1Ex4XDNnl9H CvHBKCh5u0meeT0RidfrxmPwlbQ7uSt4F/miAXI1iXAimcPUY6j/PWpMrnIYh+TFSrYCVluJslFk EELXU0EkR4urlE0lhyY= `protect key_keyowner = "Aldec", key_keyname = "ALDEC15_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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"BASE64", line_length = 76, bytes = 256) `protect key_block TxI6eYScORM8Ldt8/qO07bswJ+DInBtDUnS9WNCkNA7lw0D28K7SnFMxU77STpHKS/u/0KwRPU+Q IEYdpa2XQ2G6DLmUqflg/EIkoQ12wc40GG84u2N2mDyPH+tmLG+V7A9qsQ7PzOZ6zvyxkVABkulo VDg5WByMI+4f8mG0KEU6EtqlMQMK7IvJP2T13qTHTDx8T3SKpDGEpLme4HosRbPMwyAN/0X/sYDy x/+KJsJ1p9D7wLDiGsidsce3QkS+yMrc/v/55jzY+U/z20sm/FEdbI29NYpzH2njqmVTlh+epO3W fYeX1tuUNemxe0z06LZJqbWWkrcw2QfN6fiVsA== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname = "MGC-VELOCE-RSA", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block A+AHQdSz9QxKV8sVHnqNgxsRx0C8MiDPavCE9qEyX7qFyY2w3wWvISCp0X/jBb064sUOzWHaasZf YyyvUTtUpbzv4pQ4uk98ILiofvL/O0QPRLRv3g6+0lhf78oLBk+/pq6tmfp575mbN+zNEiETWH2B gS6WB2pI0OLYI8FKt4A= `protect key_keyowner = "Mentor Graphics Corporation", key_keyname = "MGC-VERIF-SIM-RSA-2", 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 2015" `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 NYrdTNMqn5FUtu/sZs2oOOJayzIg3o9wiGWfLMpBkovCyYc18dvTyFvEfa2AsAyKBegsCwxTPfpr ySmePDtCMg== `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 IhX5yxY4OBlZwZvaazEwJV4OnsiHfjrpZB3IpZMSD/s+Cwa/5dsBg741Lc4SgogSf1Ex4XDNnl9H CvHBKCh5u0meeT0RidfrxmPwlbQ7uSt4F/miAXI1iXAimcPUY6j/PWpMrnIYh+TFSrYCVluJslFk EELXU0EkR4urlE0lhyY= `protect key_keyowner = "Aldec", key_keyname = "ALDEC15_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block OhxUD2uVj63nMz1omDJXp6aXDFPgelWZAEeMErvRDsMVXlgr5bXJSbdsRVdva17fwqclCJZw5eSw CUxRRnKZKM2Dbj0fTLwxrRryGdL4fM/JlLUVRfwdpKM+BoZh/2cnuxw3Nl/SGIcrK3fv7jfLYnI3 N4HRQoq1DEDeee6wLXWXBpzL1HhqiquhFegvXu5vSAq4FFT6VUYzSl6LruGwlyhJDssyzLo048wm HIp48yoHP13wS1lv7C/LJU6svP5gyKwnOZgpCfXb3dD6TaSmzBZqHEVaYJYax/0NCsLdkLz/3xgK dVI58t4ZY9aUmjPCeRTVRxSb2gnyJlebNGvVzQ== `protect key_keyowner = "ATRENTA", key_keyname = "ATR-SG-2015-RSA-3", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Iw8nvj5r9yIp7681RDd6Kvbz+QmrcR1ZtzvAvrxSizk50GiN431QFuDe53tBJMs352oqxHPMP7mv kcaG4Zjx+V6koCuWMqn8hJ92Fby+j4wrW5z5b751T2XdpiMdFDEBc4vYsU9Cd+twcx9+FFFYgySY Fb9bzOkFxSR2lewwiNp3PORA/PNA83U+m7/GtSPb63eJ8U2XaNQO0OVWVAcBN1t7YNpKiBdgDYNN 7QIX8wncDf19/DmKVlxV6xahK3qR2v46uh+5BVoE3fhWUce41lHr581F2KzuNHDzGoKdCHFtyvWr p1QXV5kSB3gR4sXdUx7v72jJI9xGevaxHHBOjA== `protect key_keyowner = "Xilinx", key_keyname = "xilinxt_2017_05", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block TxI6eYScORM8Ldt8/qO07bswJ+DInBtDUnS9WNCkNA7lw0D28K7SnFMxU77STpHKS/u/0KwRPU+Q IEYdpa2XQ2G6DLmUqflg/EIkoQ12wc40GG84u2N2mDyPH+tmLG+V7A9qsQ7PzOZ6zvyxkVABkulo VDg5WByMI+4f8mG0KEU6EtqlMQMK7IvJP2T13qTHTDx8T3SKpDGEpLme4HosRbPMwyAN/0X/sYDy x/+KJsJ1p9D7wLDiGsidsce3QkS+yMrc/v/55jzY+U/z20sm/FEdbI29NYpzH2njqmVTlh+epO3W fYeX1tuUNemxe0z06LZJqbWWkrcw2QfN6fiVsA== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname = "MGC-VELOCE-RSA", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block A+AHQdSz9QxKV8sVHnqNgxsRx0C8MiDPavCE9qEyX7qFyY2w3wWvISCp0X/jBb064sUOzWHaasZf YyyvUTtUpbzv4pQ4uk98ILiofvL/O0QPRLRv3g6+0lhf78oLBk+/pq6tmfp575mbN+zNEiETWH2B gS6WB2pI0OLYI8FKt4A= `protect key_keyowner = "Mentor Graphics Corporation", key_keyname = "MGC-VERIF-SIM-RSA-2", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block fIsSotJhFgxqi/ldUzVJv2ql4Ntar0Cb+w8uJ3HrrKuN1axuptl6+Kh4yFFqAvtyyqAffkweHHxQ HiEH4bBpDUVx4OM+9Xl/Co8J+3V/UdWsXA8TNXjFXwtCj9i/9NZUDfwdu2RsTUqe4P/RuTCD8Lpg /BcJsHrHUCRz/Pr+AXokXJe9hUGNIuEYt4Mjr33Rth0l992Cap1KsJKW1r3O23gHt8TpurMSgbV0 bjUoAfIH9B1FfGfqrDR6+ot1rvbJL35Dmbaiyrfzx7HU43XLgrj6CgqD9ELpgRsH2xuMttAUeVyT AiocoCWyRm5XU764RVvxu4r4OEF137RmYqXoBg== `protect data_method = "AES128-CBC" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 74224) `protect data_block RH4rw+RAj/ZuucjnVhQEVW1/ZrArE7LyYB1eRRPA5c0m0FXy6tSnWfN+Dh3298rnJCibfuWzLDz6 TImh371qWHEbTp2sgxHuDcM6JM6vukMrJLd0o+mXUXnX/pzWR5f6zMTZajqdwAt3l8Zfyvo7shS7 0TWYg57rpfGqdyeFaOlTWlTjzGt5+Td2VtPSQ9s85rYOVFcKEG7wpXh50WycEAH3LQNJxQMfP9F9 8EvGxjmsNaIPwry/voYXicbruux2VepS936yxviGxiQast0DTFrJWSJ21hbvA1Oa7PVj9nytFNGs h+g914VvQ2Vob8LFvrC4d4iQiEBuL95QgsEp8kYm7pHq8NOdkq9m4vMd4nn9kDQ3Kk1X4EPSKbdy aPC92MsZOTJo/6QkPdCmFmT0nS2GBa49vKFG16nOpwAgIphQff31QSJGMJGyvOQgbUUQZld0MXd3 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2015" `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 NYrdTNMqn5FUtu/sZs2oOOJayzIg3o9wiGWfLMpBkovCyYc18dvTyFvEfa2AsAyKBegsCwxTPfpr ySmePDtCMg== `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 IhX5yxY4OBlZwZvaazEwJV4OnsiHfjrpZB3IpZMSD/s+Cwa/5dsBg741Lc4SgogSf1Ex4XDNnl9H CvHBKCh5u0meeT0RidfrxmPwlbQ7uSt4F/miAXI1iXAimcPUY6j/PWpMrnIYh+TFSrYCVluJslFk EELXU0EkR4urlE0lhyY= `protect key_keyowner = "Aldec", key_keyname = "ALDEC15_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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"BASE64", line_length = 76, bytes = 256) `protect key_block TxI6eYScORM8Ldt8/qO07bswJ+DInBtDUnS9WNCkNA7lw0D28K7SnFMxU77STpHKS/u/0KwRPU+Q IEYdpa2XQ2G6DLmUqflg/EIkoQ12wc40GG84u2N2mDyPH+tmLG+V7A9qsQ7PzOZ6zvyxkVABkulo VDg5WByMI+4f8mG0KEU6EtqlMQMK7IvJP2T13qTHTDx8T3SKpDGEpLme4HosRbPMwyAN/0X/sYDy x/+KJsJ1p9D7wLDiGsidsce3QkS+yMrc/v/55jzY+U/z20sm/FEdbI29NYpzH2njqmVTlh+epO3W fYeX1tuUNemxe0z06LZJqbWWkrcw2QfN6fiVsA== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname = "MGC-VELOCE-RSA", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block A+AHQdSz9QxKV8sVHnqNgxsRx0C8MiDPavCE9qEyX7qFyY2w3wWvISCp0X/jBb064sUOzWHaasZf YyyvUTtUpbzv4pQ4uk98ILiofvL/O0QPRLRv3g6+0lhf78oLBk+/pq6tmfp575mbN+zNEiETWH2B gS6WB2pI0OLYI8FKt4A= `protect key_keyowner = "Mentor Graphics Corporation", key_keyname = "MGC-VERIF-SIM-RSA-2", 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 2015" `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 NYrdTNMqn5FUtu/sZs2oOOJayzIg3o9wiGWfLMpBkovCyYc18dvTyFvEfa2AsAyKBegsCwxTPfpr ySmePDtCMg== `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 IhX5yxY4OBlZwZvaazEwJV4OnsiHfjrpZB3IpZMSD/s+Cwa/5dsBg741Lc4SgogSf1Ex4XDNnl9H CvHBKCh5u0meeT0RidfrxmPwlbQ7uSt4F/miAXI1iXAimcPUY6j/PWpMrnIYh+TFSrYCVluJslFk EELXU0EkR4urlE0lhyY= `protect key_keyowner = "Aldec", key_keyname = "ALDEC15_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block OhxUD2uVj63nMz1omDJXp6aXDFPgelWZAEeMErvRDsMVXlgr5bXJSbdsRVdva17fwqclCJZw5eSw CUxRRnKZKM2Dbj0fTLwxrRryGdL4fM/JlLUVRfwdpKM+BoZh/2cnuxw3Nl/SGIcrK3fv7jfLYnI3 N4HRQoq1DEDeee6wLXWXBpzL1HhqiquhFegvXu5vSAq4FFT6VUYzSl6LruGwlyhJDssyzLo048wm HIp48yoHP13wS1lv7C/LJU6svP5gyKwnOZgpCfXb3dD6TaSmzBZqHEVaYJYax/0NCsLdkLz/3xgK dVI58t4ZY9aUmjPCeRTVRxSb2gnyJlebNGvVzQ== `protect key_keyowner = "ATRENTA", key_keyname = "ATR-SG-2015-RSA-3", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Iw8nvj5r9yIp7681RDd6Kvbz+QmrcR1ZtzvAvrxSizk50GiN431QFuDe53tBJMs352oqxHPMP7mv kcaG4Zjx+V6koCuWMqn8hJ92Fby+j4wrW5z5b751T2XdpiMdFDEBc4vYsU9Cd+twcx9+FFFYgySY Fb9bzOkFxSR2lewwiNp3PORA/PNA83U+m7/GtSPb63eJ8U2XaNQO0OVWVAcBN1t7YNpKiBdgDYNN 7QIX8wncDf19/DmKVlxV6xahK3qR2v46uh+5BVoE3fhWUce41lHr581F2KzuNHDzGoKdCHFtyvWr p1QXV5kSB3gR4sXdUx7v72jJI9xGevaxHHBOjA== `protect key_keyowner = "Xilinx", key_keyname = "xilinxt_2017_05", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block TxI6eYScORM8Ldt8/qO07bswJ+DInBtDUnS9WNCkNA7lw0D28K7SnFMxU77STpHKS/u/0KwRPU+Q IEYdpa2XQ2G6DLmUqflg/EIkoQ12wc40GG84u2N2mDyPH+tmLG+V7A9qsQ7PzOZ6zvyxkVABkulo VDg5WByMI+4f8mG0KEU6EtqlMQMK7IvJP2T13qTHTDx8T3SKpDGEpLme4HosRbPMwyAN/0X/sYDy x/+KJsJ1p9D7wLDiGsidsce3QkS+yMrc/v/55jzY+U/z20sm/FEdbI29NYpzH2njqmVTlh+epO3W fYeX1tuUNemxe0z06LZJqbWWkrcw2QfN6fiVsA== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname = "MGC-VELOCE-RSA", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block A+AHQdSz9QxKV8sVHnqNgxsRx0C8MiDPavCE9qEyX7qFyY2w3wWvISCp0X/jBb064sUOzWHaasZf YyyvUTtUpbzv4pQ4uk98ILiofvL/O0QPRLRv3g6+0lhf78oLBk+/pq6tmfp575mbN+zNEiETWH2B gS6WB2pI0OLYI8FKt4A= `protect key_keyowner = "Mentor Graphics Corporation", key_keyname = "MGC-VERIF-SIM-RSA-2", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block fIsSotJhFgxqi/ldUzVJv2ql4Ntar0Cb+w8uJ3HrrKuN1axuptl6+Kh4yFFqAvtyyqAffkweHHxQ HiEH4bBpDUVx4OM+9Xl/Co8J+3V/UdWsXA8TNXjFXwtCj9i/9NZUDfwdu2RsTUqe4P/RuTCD8Lpg /BcJsHrHUCRz/Pr+AXokXJe9hUGNIuEYt4Mjr33Rth0l992Cap1KsJKW1r3O23gHt8TpurMSgbV0 bjUoAfIH9B1FfGfqrDR6+ot1rvbJL35Dmbaiyrfzx7HU43XLgrj6CgqD9ELpgRsH2xuMttAUeVyT AiocoCWyRm5XU764RVvxu4r4OEF137RmYqXoBg== `protect data_method = "AES128-CBC" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 74224) `protect data_block RH4rw+RAj/ZuucjnVhQEVW1/ZrArE7LyYB1eRRPA5c0m0FXy6tSnWfN+Dh3298rnJCibfuWzLDz6 TImh371qWHEbTp2sgxHuDcM6JM6vukMrJLd0o+mXUXnX/pzWR5f6zMTZajqdwAt3l8Zfyvo7shS7 0TWYg57rpfGqdyeFaOlTWlTjzGt5+Td2VtPSQ9s85rYOVFcKEG7wpXh50WycEAH3LQNJxQMfP9F9 8EvGxjmsNaIPwry/voYXicbruux2VepS936yxviGxiQast0DTFrJWSJ21hbvA1Oa7PVj9nytFNGs h+g914VvQ2Vob8LFvrC4d4iQiEBuL95QgsEp8kYm7pHq8NOdkq9m4vMd4nn9kDQ3Kk1X4EPSKbdy aPC92MsZOTJo/6QkPdCmFmT0nS2GBa49vKFG16nOpwAgIphQff31QSJGMJGyvOQgbUUQZld0MXd3 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2015" `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 NYrdTNMqn5FUtu/sZs2oOOJayzIg3o9wiGWfLMpBkovCyYc18dvTyFvEfa2AsAyKBegsCwxTPfpr ySmePDtCMg== `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 IhX5yxY4OBlZwZvaazEwJV4OnsiHfjrpZB3IpZMSD/s+Cwa/5dsBg741Lc4SgogSf1Ex4XDNnl9H CvHBKCh5u0meeT0RidfrxmPwlbQ7uSt4F/miAXI1iXAimcPUY6j/PWpMrnIYh+TFSrYCVluJslFk EELXU0EkR4urlE0lhyY= `protect key_keyowner = "Aldec", key_keyname = "ALDEC15_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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"BASE64", line_length = 76, bytes = 256) `protect key_block TxI6eYScORM8Ldt8/qO07bswJ+DInBtDUnS9WNCkNA7lw0D28K7SnFMxU77STpHKS/u/0KwRPU+Q IEYdpa2XQ2G6DLmUqflg/EIkoQ12wc40GG84u2N2mDyPH+tmLG+V7A9qsQ7PzOZ6zvyxkVABkulo VDg5WByMI+4f8mG0KEU6EtqlMQMK7IvJP2T13qTHTDx8T3SKpDGEpLme4HosRbPMwyAN/0X/sYDy x/+KJsJ1p9D7wLDiGsidsce3QkS+yMrc/v/55jzY+U/z20sm/FEdbI29NYpzH2njqmVTlh+epO3W fYeX1tuUNemxe0z06LZJqbWWkrcw2QfN6fiVsA== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname = "MGC-VELOCE-RSA", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block A+AHQdSz9QxKV8sVHnqNgxsRx0C8MiDPavCE9qEyX7qFyY2w3wWvISCp0X/jBb064sUOzWHaasZf YyyvUTtUpbzv4pQ4uk98ILiofvL/O0QPRLRv3g6+0lhf78oLBk+/pq6tmfp575mbN+zNEiETWH2B gS6WB2pI0OLYI8FKt4A= `protect key_keyowner = "Mentor Graphics Corporation", key_keyname = "MGC-VERIF-SIM-RSA-2", 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 2015" `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 NYrdTNMqn5FUtu/sZs2oOOJayzIg3o9wiGWfLMpBkovCyYc18dvTyFvEfa2AsAyKBegsCwxTPfpr ySmePDtCMg== `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 IhX5yxY4OBlZwZvaazEwJV4OnsiHfjrpZB3IpZMSD/s+Cwa/5dsBg741Lc4SgogSf1Ex4XDNnl9H CvHBKCh5u0meeT0RidfrxmPwlbQ7uSt4F/miAXI1iXAimcPUY6j/PWpMrnIYh+TFSrYCVluJslFk EELXU0EkR4urlE0lhyY= `protect key_keyowner = "Aldec", key_keyname = "ALDEC15_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block OhxUD2uVj63nMz1omDJXp6aXDFPgelWZAEeMErvRDsMVXlgr5bXJSbdsRVdva17fwqclCJZw5eSw CUxRRnKZKM2Dbj0fTLwxrRryGdL4fM/JlLUVRfwdpKM+BoZh/2cnuxw3Nl/SGIcrK3fv7jfLYnI3 N4HRQoq1DEDeee6wLXWXBpzL1HhqiquhFegvXu5vSAq4FFT6VUYzSl6LruGwlyhJDssyzLo048wm HIp48yoHP13wS1lv7C/LJU6svP5gyKwnOZgpCfXb3dD6TaSmzBZqHEVaYJYax/0NCsLdkLz/3xgK dVI58t4ZY9aUmjPCeRTVRxSb2gnyJlebNGvVzQ== `protect key_keyowner = "ATRENTA", key_keyname = "ATR-SG-2015-RSA-3", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Iw8nvj5r9yIp7681RDd6Kvbz+QmrcR1ZtzvAvrxSizk50GiN431QFuDe53tBJMs352oqxHPMP7mv kcaG4Zjx+V6koCuWMqn8hJ92Fby+j4wrW5z5b751T2XdpiMdFDEBc4vYsU9Cd+twcx9+FFFYgySY Fb9bzOkFxSR2lewwiNp3PORA/PNA83U+m7/GtSPb63eJ8U2XaNQO0OVWVAcBN1t7YNpKiBdgDYNN 7QIX8wncDf19/DmKVlxV6xahK3qR2v46uh+5BVoE3fhWUce41lHr581F2KzuNHDzGoKdCHFtyvWr p1QXV5kSB3gR4sXdUx7v72jJI9xGevaxHHBOjA== `protect key_keyowner = "Xilinx", key_keyname = "xilinxt_2017_05", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block TxI6eYScORM8Ldt8/qO07bswJ+DInBtDUnS9WNCkNA7lw0D28K7SnFMxU77STpHKS/u/0KwRPU+Q IEYdpa2XQ2G6DLmUqflg/EIkoQ12wc40GG84u2N2mDyPH+tmLG+V7A9qsQ7PzOZ6zvyxkVABkulo VDg5WByMI+4f8mG0KEU6EtqlMQMK7IvJP2T13qTHTDx8T3SKpDGEpLme4HosRbPMwyAN/0X/sYDy x/+KJsJ1p9D7wLDiGsidsce3QkS+yMrc/v/55jzY+U/z20sm/FEdbI29NYpzH2njqmVTlh+epO3W fYeX1tuUNemxe0z06LZJqbWWkrcw2QfN6fiVsA== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname = "MGC-VELOCE-RSA", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block A+AHQdSz9QxKV8sVHnqNgxsRx0C8MiDPavCE9qEyX7qFyY2w3wWvISCp0X/jBb064sUOzWHaasZf YyyvUTtUpbzv4pQ4uk98ILiofvL/O0QPRLRv3g6+0lhf78oLBk+/pq6tmfp575mbN+zNEiETWH2B gS6WB2pI0OLYI8FKt4A= `protect key_keyowner = "Mentor Graphics Corporation", key_keyname = "MGC-VERIF-SIM-RSA-2", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block fIsSotJhFgxqi/ldUzVJv2ql4Ntar0Cb+w8uJ3HrrKuN1axuptl6+Kh4yFFqAvtyyqAffkweHHxQ HiEH4bBpDUVx4OM+9Xl/Co8J+3V/UdWsXA8TNXjFXwtCj9i/9NZUDfwdu2RsTUqe4P/RuTCD8Lpg /BcJsHrHUCRz/Pr+AXokXJe9hUGNIuEYt4Mjr33Rth0l992Cap1KsJKW1r3O23gHt8TpurMSgbV0 bjUoAfIH9B1FfGfqrDR6+ot1rvbJL35Dmbaiyrfzx7HU43XLgrj6CgqD9ELpgRsH2xuMttAUeVyT AiocoCWyRm5XU764RVvxu4r4OEF137RmYqXoBg== `protect data_method = "AES128-CBC" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 74224) `protect data_block RH4rw+RAj/ZuucjnVhQEVW1/ZrArE7LyYB1eRRPA5c0m0FXy6tSnWfN+Dh3298rnJCibfuWzLDz6 TImh371qWHEbTp2sgxHuDcM6JM6vukMrJLd0o+mXUXnX/pzWR5f6zMTZajqdwAt3l8Zfyvo7shS7 0TWYg57rpfGqdyeFaOlTWlTjzGt5+Td2VtPSQ9s85rYOVFcKEG7wpXh50WycEAH3LQNJxQMfP9F9 8EvGxjmsNaIPwry/voYXicbruux2VepS936yxviGxiQast0DTFrJWSJ21hbvA1Oa7PVj9nytFNGs h+g914VvQ2Vob8LFvrC4d4iQiEBuL95QgsEp8kYm7pHq8NOdkq9m4vMd4nn9kDQ3Kk1X4EPSKbdy aPC92MsZOTJo/6QkPdCmFmT0nS2GBa49vKFG16nOpwAgIphQff31QSJGMJGyvOQgbUUQZld0MXd3 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-- 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: tc3172.vhd,v 1.2 2001-10-26 16:29:52 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c14s01b00x00p22n01i03172ent IS END c14s01b00x00p22n01i03172ent; ARCHITECTURE c14s01b00x00p22n01i03172arch OF c14s01b00x00p22n01i03172ent IS type color is (red, green, blue); BEGIN TESTING: PROCESS BEGIN assert NOT( color'high = blue ) report "***PASSED TEST: c14s01b00x00p22n01i03172" severity NOTE; assert ( color'high = blue ) report "***FAILED TEST: c14s01b00x00p22n01i03172 - Predefined attribute HIGH test for enumeration type failed." severity ERROR; wait; END PROCESS TESTING; END c14s01b00x00p22n01i03172arch;
-- 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: tc3172.vhd,v 1.2 2001-10-26 16:29:52 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c14s01b00x00p22n01i03172ent IS END c14s01b00x00p22n01i03172ent; ARCHITECTURE c14s01b00x00p22n01i03172arch OF c14s01b00x00p22n01i03172ent IS type color is (red, green, blue); BEGIN TESTING: PROCESS BEGIN assert NOT( color'high = blue ) report "***PASSED TEST: c14s01b00x00p22n01i03172" severity NOTE; assert ( color'high = blue ) report "***FAILED TEST: c14s01b00x00p22n01i03172 - Predefined attribute HIGH test for enumeration type failed." severity ERROR; wait; END PROCESS TESTING; END c14s01b00x00p22n01i03172arch;
-- 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: tc3172.vhd,v 1.2 2001-10-26 16:29:52 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c14s01b00x00p22n01i03172ent IS END c14s01b00x00p22n01i03172ent; ARCHITECTURE c14s01b00x00p22n01i03172arch OF c14s01b00x00p22n01i03172ent IS type color is (red, green, blue); BEGIN TESTING: PROCESS BEGIN assert NOT( color'high = blue ) report "***PASSED TEST: c14s01b00x00p22n01i03172" severity NOTE; assert ( color'high = blue ) report "***FAILED TEST: c14s01b00x00p22n01i03172 - Predefined attribute HIGH test for enumeration type failed." severity ERROR; wait; END PROCESS TESTING; END c14s01b00x00p22n01i03172arch;
------------------------------------------------------- -- Design Name : lfsr -- File Name : lfsr_updown.vhd -- Function : Linear feedback shift register -- Coder : Deepak Kumar Tala (Verilog) -- Translator : Alexander H Pham (VHDL) ------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity lfsr_updown is generic ( WIDTH :integer := 8 ); port ( clk :in std_logic; -- Clock input reset :in std_logic; -- Reset input enable :in std_logic; -- Enable input up_down :in std_logic; -- Up Down input count :out std_logic_vector (WIDTH-1 downto 0); -- Count output overflow :out std_logic -- Overflow output ); end entity; architecture rtl of lfsr_updown is signal cnt :std_logic_vector (WIDTH-1 downto 0); begin process (up_down, cnt) begin if (((up_down = '1') and (cnt(WIDTH-1) = '1')) or ((up_down = '0') and ((cnt(WIDTH-1) = '1') and (cnt(WIDTH-2 downto 0) = "0")))) then overflow <= '1'; else overflow <= '0'; end if; end process; process (clk, reset, cnt, enable, up_down) variable temp_a :std_logic_vector (WIDTH-1 downto 0); variable temp_b :std_logic :='1'; begin temp_a := cnt and "01100011"; temp_b :='1'; for i in 0 to WIDTH-1 loop temp_b := temp_a(i) xnor temp_b; end loop; if (rising_edge(clk)) then if (reset = '1') then cnt <= (others=>'0'); elsif (enable = '1') then if (up_down = '1') then cnt <= (temp_b & cnt(WIDTH-1 downto 1)); else cnt <= (cnt(WIDTH-2 downto 0) & temp_b); end if; end if; end if; end process; count <= cnt; end architecture;
------------------------------------------------------- -- Design Name : lfsr -- File Name : lfsr_updown.vhd -- Function : Linear feedback shift register -- Coder : Deepak Kumar Tala (Verilog) -- Translator : Alexander H Pham (VHDL) ------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity lfsr_updown is generic ( WIDTH :integer := 8 ); port ( clk :in std_logic; -- Clock input reset :in std_logic; -- Reset input enable :in std_logic; -- Enable input up_down :in std_logic; -- Up Down input count :out std_logic_vector (WIDTH-1 downto 0); -- Count output overflow :out std_logic -- Overflow output ); end entity; architecture rtl of lfsr_updown is signal cnt :std_logic_vector (WIDTH-1 downto 0); begin process (up_down, cnt) begin if (((up_down = '1') and (cnt(WIDTH-1) = '1')) or ((up_down = '0') and ((cnt(WIDTH-1) = '1') and (cnt(WIDTH-2 downto 0) = "0")))) then overflow <= '1'; else overflow <= '0'; end if; end process; process (clk, reset, cnt, enable, up_down) variable temp_a :std_logic_vector (WIDTH-1 downto 0); variable temp_b :std_logic :='1'; begin temp_a := cnt and "01100011"; temp_b :='1'; for i in 0 to WIDTH-1 loop temp_b := temp_a(i) xnor temp_b; end loop; if (rising_edge(clk)) then if (reset = '1') then cnt <= (others=>'0'); elsif (enable = '1') then if (up_down = '1') then cnt <= (temp_b & cnt(WIDTH-1 downto 1)); else cnt <= (cnt(WIDTH-2 downto 0) & temp_b); end if; end if; end if; end process; count <= cnt; end architecture;
------------------------------------------------------- -- Design Name : lfsr -- File Name : lfsr_updown.vhd -- Function : Linear feedback shift register -- Coder : Deepak Kumar Tala (Verilog) -- Translator : Alexander H Pham (VHDL) ------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity lfsr_updown is generic ( WIDTH :integer := 8 ); port ( clk :in std_logic; -- Clock input reset :in std_logic; -- Reset input enable :in std_logic; -- Enable input up_down :in std_logic; -- Up Down input count :out std_logic_vector (WIDTH-1 downto 0); -- Count output overflow :out std_logic -- Overflow output ); end entity; architecture rtl of lfsr_updown is signal cnt :std_logic_vector (WIDTH-1 downto 0); begin process (up_down, cnt) begin if (((up_down = '1') and (cnt(WIDTH-1) = '1')) or ((up_down = '0') and ((cnt(WIDTH-1) = '1') and (cnt(WIDTH-2 downto 0) = "0")))) then overflow <= '1'; else overflow <= '0'; end if; end process; process (clk, reset, cnt, enable, up_down) variable temp_a :std_logic_vector (WIDTH-1 downto 0); variable temp_b :std_logic :='1'; begin temp_a := cnt and "01100011"; temp_b :='1'; for i in 0 to WIDTH-1 loop temp_b := temp_a(i) xnor temp_b; end loop; if (rising_edge(clk)) then if (reset = '1') then cnt <= (others=>'0'); elsif (enable = '1') then if (up_down = '1') then cnt <= (temp_b & cnt(WIDTH-1 downto 1)); else cnt <= (cnt(WIDTH-2 downto 0) & temp_b); end if; end if; end if; end process; count <= cnt; end architecture;
architecture RTL of FIFO is begin process begin a <= b; -- Comment ab <= xy; -- Comment -- Check for something if (a = b) then z <= y; -- Assign this statement -- Check for this other thing elsif (a + b -c = z) then z <= x; -- Assign this other statement end if; end process; -- Violations below process begin a <= b; -- Comment ab <= xy; -- Comment -- Check for something if (a = b) then z <= y; -- Assign this statement -- Check for this other thing elsif (a + b -c = z) then z <= x; -- Assign this other statement end if; end process; end architecture RTL;
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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 = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block uS9Fi4wEl+hlOoAxATWz7JOEkR0NrTOAPXB71RDz/0sJ9oBkdyJcZqzmiJBSpJVLGXrHypKErbng NIq2yEIKicsHE2U2q0TwmOX5SeBUf5ATfJiLQmZtyrgyJ/TKwJ5Nrg3HL+15E0oFzqZEKRQD0RV0 gUht+SMMiNU2xM6RPT7pKCsVb5W4nxZuUNAOyuABEDGRH8YW/kscyF5trBuA48XfiXtVpzBwqK6v PeJ+bU10he4Sno6k9Dn4FGHEKjKtWs1EQPCyJM25dDSrh8kM7MRJepMfF7YseaGlTZntu/uKxJDR ZL3LeAxQZMrU6BodVmaZalC+X5WBYD/UwSiWkQ== `protect data_method = "AES128-CBC" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 6592) `protect data_block ZuCxC8H+0HldnYRvOETqxx7GjtNevjwT19YPJihuMEf9KyVHlUbQSZL8rg3rpnJhT25RkBkkSnE1 S+l1jP5B8/z9etZE61uWLeSBOb3XtqN0zY1YJD9zSawLbhbYGBlPH4YIqd3LMyycSOWOMPabaMhH 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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 = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block uS9Fi4wEl+hlOoAxATWz7JOEkR0NrTOAPXB71RDz/0sJ9oBkdyJcZqzmiJBSpJVLGXrHypKErbng NIq2yEIKicsHE2U2q0TwmOX5SeBUf5ATfJiLQmZtyrgyJ/TKwJ5Nrg3HL+15E0oFzqZEKRQD0RV0 gUht+SMMiNU2xM6RPT7pKCsVb5W4nxZuUNAOyuABEDGRH8YW/kscyF5trBuA48XfiXtVpzBwqK6v PeJ+bU10he4Sno6k9Dn4FGHEKjKtWs1EQPCyJM25dDSrh8kM7MRJepMfF7YseaGlTZntu/uKxJDR ZL3LeAxQZMrU6BodVmaZalC+X5WBYD/UwSiWkQ== `protect data_method = "AES128-CBC" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 6592) `protect data_block ZuCxC8H+0HldnYRvOETqxx7GjtNevjwT19YPJihuMEf9KyVHlUbQSZL8rg3rpnJhT25RkBkkSnE1 S+l1jP5B8/z9etZE61uWLeSBOb3XtqN0zY1YJD9zSawLbhbYGBlPH4YIqd3LMyycSOWOMPabaMhH 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-- $Id: rlink_sp2c.vhd 1181 2019-07-08 17:00:50Z mueller $ -- SPDX-License-Identifier: GPL-3.0-or-later -- Copyright 2016-2019 by Walter F.J. Mueller <W.F.J.Mueller@gsi.de> -- ------------------------------------------------------------------------------ -- Module Name: rlink_sp2c - syn -- Description: rlink_core8 + serport_2clock2 combo -- -- Dependencies: rlink_core8 -- serport/serport_2clock2 -- rbus/rbd_rbmon -- rbus/rb_sres_or_2 -- -- Test bench: - -- -- Target Devices: generic -- Tool versions: viv 2015.4-2019.1; ghdl 0.33-0.35 -- -- Revision History: -- Date Rev Version Comment -- 2019-06-02 1159 1.0.1 use rbaddr_ constants -- 2016-03-28 755 1.0 Initial version (derived from rlink_sp1c) ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use work.slvtypes.all; use work.rblib.all; use work.rbdlib.all; use work.rlinklib.all; use work.serportlib.all; entity rlink_sp2c is -- rlink_core8+serport_2clock2 combo generic ( BTOWIDTH : positive := 5; -- rbus timeout counter width RTAWIDTH : positive := 12; -- retransmit buffer address width SYSID : slv32 := (others=>'0'); -- rlink system id IFAWIDTH : natural := 5; -- input fifo address width (0=none) OFAWIDTH : natural := 5; -- output fifo address width (0=none) ENAPIN_RLMON : integer := -1; -- SB_CNTL for rlmon (-1=none) ENAPIN_RLBMON: integer := -1; -- SB_CNTL for rlbmon (-1=none) ENAPIN_RBMON : integer := -1; -- SB_CNTL for rbmon (-1=none) CDWIDTH : positive := 13; -- clk divider width CDINIT : natural := 15; -- clk divider initial/reset setting RBMON_AWIDTH : natural := 0; -- rbmon: buffer size, (0=none) RBMON_RBADDR : slv16 := rbaddr_rbmon); -- rbmon: base addr port ( CLK : in slbit; -- U|clock (user design) CE_USEC : in slbit; -- U|1 usec clock enable CE_MSEC : in slbit; -- U|1 msec clock enable CE_INT : in slbit := '0'; -- U|rri ato time unit clock enable RESET : in slbit; -- U|reset CLKS : in slbit; -- S|clock (frontend:serial) CES_MSEC : in slbit; -- S|1 msec clock enable ENAXON : in slbit; -- U|enable xon/xoff handling ESCFILL : in slbit; -- U|enable fill escaping RXSD : in slbit; -- S|receive serial data (board view) TXSD : out slbit; -- S|transmit serial data (board view) CTS_N : in slbit := '0'; -- S|clear to send (act.low, board view) RTS_N : out slbit; -- S|request to send (act.low, brd view) RB_MREQ : out rb_mreq_type; -- U|rbus: request RB_SRES : in rb_sres_type; -- U|rbus: response RB_LAM : in slv16; -- U|rbus: look at me RB_STAT : in slv4; -- U|rbus: status flags RL_MONI : out rl_moni_type; -- U|rlink_core: monitor port SER_MONI : out serport_moni_type -- U|serport: monitor port ); end entity rlink_sp2c; architecture syn of rlink_sp2c is signal RLB_DI : slv8 := (others=>'0'); signal RLB_ENA : slbit := '0'; signal RLB_BUSY : slbit := '0'; signal RLB_DO : slv8 := (others=>'0'); signal RLB_VAL : slbit := '0'; signal RLB_HOLD : slbit := '0'; signal RB_MREQ_M : rb_mreq_type := rb_mreq_init; signal RB_SRES_M : rb_sres_type := rb_sres_init; signal RB_SRES_RBMON : rb_sres_type := rb_sres_init; begin CORE : rlink_core8 -- rlink master ---------------------- generic map ( BTOWIDTH => BTOWIDTH, RTAWIDTH => RTAWIDTH, SYSID => SYSID, ENAPIN_RLMON => ENAPIN_RLMON, ENAPIN_RLBMON=> ENAPIN_RLBMON, ENAPIN_RBMON => ENAPIN_RBMON) port map ( CLK => CLK, CE_INT => CE_INT, RESET => RESET, ESCXON => ENAXON, ESCFILL => ESCFILL, RLB_DI => RLB_DI, RLB_ENA => RLB_ENA, RLB_BUSY => RLB_BUSY, RLB_DO => RLB_DO, RLB_VAL => RLB_VAL, RLB_HOLD => RLB_HOLD, RL_MONI => RL_MONI, RB_MREQ => RB_MREQ_M, RB_SRES => RB_SRES_M, RB_LAM => RB_LAM, RB_STAT => RB_STAT ); SERPORT : serport_2clock2 -- serport interface ----------------- generic map ( CDWIDTH => CDWIDTH, CDINIT => CDINIT, RXFAWIDTH => IFAWIDTH, TXFAWIDTH => OFAWIDTH) port map ( CLKU => CLK, RESET => RESET, CLKS => CLKS, CES_MSEC => CES_MSEC, ENAXON => ENAXON, ENAESC => '0', -- escaping now in rlink_core8 RXDATA => RLB_DI, RXVAL => RLB_ENA, RXHOLD => RLB_BUSY, TXDATA => RLB_DO, TXENA => RLB_VAL, TXBUSY => RLB_HOLD, MONI => SER_MONI, RXSD => RXSD, TXSD => TXSD, RXRTS_N => RTS_N, TXCTS_N => CTS_N ); RBMON : if RBMON_AWIDTH > 0 generate -- rbus monitor -------------- begin I0 : rbd_rbmon generic map ( RB_ADDR => RBMON_RBADDR, AWIDTH => RBMON_AWIDTH) port map ( CLK => CLK, RESET => RESET, RB_MREQ => RB_MREQ_M, RB_SRES => RB_SRES_RBMON, RB_SRES_SUM => RB_SRES_M ); end generate RBMON; RB_SRES_OR : rb_sres_or_2 -- rbus or --------------------------- port map ( RB_SRES_1 => RB_SRES, RB_SRES_2 => RB_SRES_RBMON, RB_SRES_OR => RB_SRES_M ); RB_MREQ <= RB_MREQ_M; -- setup output signals end syn;
`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 X35dgitOLLFzz+lWaCnVY9MveSDbQftCKpabzKH5hC2g58phLDipYZgyUBtS5n0N6RI/O75AMPr0 L2jvl8tgGw== `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 oIcKSPlO7WLBENQCyWrIuGIu4TS95gKBTZM4beUqVvUA2DcOUt48MDSrB7dTpBJGXu+YU/tdyOZz 3B65toX+8LodCE3ifXBTBlkBWQd0lh0UYAhe8laBiuU0shlLGGab2IG8tVEjXN2Cnw/stdBp5R1A AGrjC6cUo+ri7RMqnew= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block MKu2wUf0a0K2ihdvNU3Z1/4gO5zko632wEieq7WJw0UnnfIKbg8qtSgV4stTofHAwYhPMrucUZHs TEcSKCugUL5auMaGWLNYVhPaCOfPmiENcUC2lqDZy5r1PcpVEr7M9yL5eqTKe6pMtHaybVd90r1J LblqzY8dIKsTlLd84PvY2FD+hk2+5AmtAMaxxxdJppQEBv0QfrPmPdfkd0DNtB5m3vEzPnDWsoDt voBeLNCgjXNc5bywArtEKGyxg4Gj3W200W/K1a0d8YThReyE8VRPxMv6Qcu7IZVRe/0bu+nUl5JY JHcDo0iBVmHoxUCB7BzDBSMpwLbgE3tWX8NabA== `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 QwpJRDuNntg+Xx8TpTIYjWyYdqcxj17USg1pnDifcjhqt3761ugwAIeQhPxkOKp040bjRuvbrPYM DiM1BzP3gWVTYdyeoAXJfOCaVtUFCBqxxWMsMh4x19SiYpe0/M6PzJ7mh6AIz/K1DS7Z1mAcAX3C VXPuveLAByRSC/jim9g= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block dwgdLkFCCsDhZDoT6o7BVKQuYGwER6pb5M0bVfGmTZUPLjw0ysoDBWTD//qpKXrYHZQYHLl6882Z 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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 X35dgitOLLFzz+lWaCnVY9MveSDbQftCKpabzKH5hC2g58phLDipYZgyUBtS5n0N6RI/O75AMPr0 L2jvl8tgGw== `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 oIcKSPlO7WLBENQCyWrIuGIu4TS95gKBTZM4beUqVvUA2DcOUt48MDSrB7dTpBJGXu+YU/tdyOZz 3B65toX+8LodCE3ifXBTBlkBWQd0lh0UYAhe8laBiuU0shlLGGab2IG8tVEjXN2Cnw/stdBp5R1A AGrjC6cUo+ri7RMqnew= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block MKu2wUf0a0K2ihdvNU3Z1/4gO5zko632wEieq7WJw0UnnfIKbg8qtSgV4stTofHAwYhPMrucUZHs TEcSKCugUL5auMaGWLNYVhPaCOfPmiENcUC2lqDZy5r1PcpVEr7M9yL5eqTKe6pMtHaybVd90r1J LblqzY8dIKsTlLd84PvY2FD+hk2+5AmtAMaxxxdJppQEBv0QfrPmPdfkd0DNtB5m3vEzPnDWsoDt voBeLNCgjXNc5bywArtEKGyxg4Gj3W200W/K1a0d8YThReyE8VRPxMv6Qcu7IZVRe/0bu+nUl5JY JHcDo0iBVmHoxUCB7BzDBSMpwLbgE3tWX8NabA== `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 QwpJRDuNntg+Xx8TpTIYjWyYdqcxj17USg1pnDifcjhqt3761ugwAIeQhPxkOKp040bjRuvbrPYM DiM1BzP3gWVTYdyeoAXJfOCaVtUFCBqxxWMsMh4x19SiYpe0/M6PzJ7mh6AIz/K1DS7Z1mAcAX3C VXPuveLAByRSC/jim9g= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block dwgdLkFCCsDhZDoT6o7BVKQuYGwER6pb5M0bVfGmTZUPLjw0ysoDBWTD//qpKXrYHZQYHLl6882Z 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-- 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: tc565.vhd,v 1.3 2001-10-29 02:12:45 paw Exp $ -- $Revision: 1.3 $ -- -- --------------------------------------------------------------------- -- **************************** -- -- Ported to VHDL 93 by port93.pl - Tue Nov 5 16:37:32 1996 -- -- **************************** -- -- **************************** -- -- Reversed to VHDL 87 by reverse87.pl - Tue Nov 5 11:25:30 1996 -- -- **************************** -- -- **************************** -- -- Ported to VHDL 93 by port93.pl - Mon Nov 4 17:36:04 1996 -- -- **************************** -- ENTITY c03s04b01x00p01n01i00565ent IS END c03s04b01x00p01n01i00565ent; ARCHITECTURE c03s04b01x00p01n01i00565arch OF c03s04b01x00p01n01i00565ent IS type positive_vector is array (positive range <>) of positive; type positive_vector_file is file of positive_vector; BEGIN TESTING: PROCESS file filein : positive_vector_file open write_mode is "iofile.25"; BEGIN for i in 1 to 100 loop write(filein,(1,2,3,4)); end loop; assert FALSE report "***PASSED TEST: c03s04b01x00p01n01i00565 - The output file will be verified by test s010236.vhd." severity NOTE; wait; END PROCESS TESTING; END c03s04b01x00p01n01i00565arch;
-- 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: tc565.vhd,v 1.3 2001-10-29 02:12:45 paw Exp $ -- $Revision: 1.3 $ -- -- --------------------------------------------------------------------- -- **************************** -- -- Ported to VHDL 93 by port93.pl - Tue Nov 5 16:37:32 1996 -- -- **************************** -- -- **************************** -- -- Reversed to VHDL 87 by reverse87.pl - Tue Nov 5 11:25:30 1996 -- -- **************************** -- -- **************************** -- -- Ported to VHDL 93 by port93.pl - Mon Nov 4 17:36:04 1996 -- -- **************************** -- ENTITY c03s04b01x00p01n01i00565ent IS END c03s04b01x00p01n01i00565ent; ARCHITECTURE c03s04b01x00p01n01i00565arch OF c03s04b01x00p01n01i00565ent IS type positive_vector is array (positive range <>) of positive; type positive_vector_file is file of positive_vector; BEGIN TESTING: PROCESS file filein : positive_vector_file open write_mode is "iofile.25"; BEGIN for i in 1 to 100 loop write(filein,(1,2,3,4)); end loop; assert FALSE report "***PASSED TEST: c03s04b01x00p01n01i00565 - The output file will be verified by test s010236.vhd." severity NOTE; wait; END PROCESS TESTING; END c03s04b01x00p01n01i00565arch;
-- 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: tc565.vhd,v 1.3 2001-10-29 02:12:45 paw Exp $ -- $Revision: 1.3 $ -- -- --------------------------------------------------------------------- -- **************************** -- -- Ported to VHDL 93 by port93.pl - Tue Nov 5 16:37:32 1996 -- -- **************************** -- -- **************************** -- -- Reversed to VHDL 87 by reverse87.pl - Tue Nov 5 11:25:30 1996 -- -- **************************** -- -- **************************** -- -- Ported to VHDL 93 by port93.pl - Mon Nov 4 17:36:04 1996 -- -- **************************** -- ENTITY c03s04b01x00p01n01i00565ent IS END c03s04b01x00p01n01i00565ent; ARCHITECTURE c03s04b01x00p01n01i00565arch OF c03s04b01x00p01n01i00565ent IS type positive_vector is array (positive range <>) of positive; type positive_vector_file is file of positive_vector; BEGIN TESTING: PROCESS file filein : positive_vector_file open write_mode is "iofile.25"; BEGIN for i in 1 to 100 loop write(filein,(1,2,3,4)); end loop; assert FALSE report "***PASSED TEST: c03s04b01x00p01n01i00565 - The output file will be verified by test s010236.vhd." severity NOTE; wait; END PROCESS TESTING; END c03s04b01x00p01n01i00565arch;
-- MULTIPLIER LOGIC - structural library ieee; USE ieee.std_logic_1164.all; use ieee.numeric_std.all; use ieee.std_logic_misc.all; ENTITY simple_booth_add_ext IS generic (N : integer := 8); PORT( Clock : in std_logic; Reset : in std_logic; sign : in std_logic; enable : in std_logic; valid : out std_logic; A : in std_logic_vector (N-1 downto 0); B : in std_logic_vector (N-1 downto 0); A_to_add : out std_logic_vector (2*N-1 downto 0); B_to_add : out std_logic_vector (2*N-1 downto 0); sign_to_add : out std_logic; final_out : out std_logic_vector (2*N-1 downto 0); ACC_from_add : in std_logic_vector (2*N-1 downto 0) ); END simple_booth_add_ext; architecture struct of simple_booth_add_ext is component booth_encoder port( B_in : in std_logic_vector (2 downto 0); A_out : out std_logic_vector (2 downto 0) ); end component; component shift generic( N : natural ); port( Clock : in std_logic; ALOAD : in std_logic; D : in std_logic_vector(N-1 downto 0); SO : out std_logic ); end component; component piso_r_2 generic( N : natural ); port( Clock : in std_logic; ALOAD : in std_logic; D : in std_logic_vector(N-1 downto 0); SO : out std_logic_vector(N-1 downto 0) ); end component; component mux8to1_gen generic ( M : integer ); port( A : in std_logic_vector (M-1 downto 0); B : in std_logic_vector (M-1 downto 0); C : in std_logic_vector (M-1 downto 0); D : in std_logic_vector (M-1 downto 0); E : in std_logic_vector (M-1 downto 0); F : in std_logic_vector (M-1 downto 0); G : in std_logic_vector (M-1 downto 0); H : in std_logic_vector (M-1 downto 0); S : in std_logic_vector (2 downto 0); Y : out std_logic_vector (M-1 downto 0) ); end component; component ff32_en generic( SIZE : integer ); port( D : in std_logic_vector(SIZE - 1 downto 0); Q : out std_logic_vector(SIZE - 1 downto 0); en : in std_logic; clk : in std_logic; rst : in std_logic ); end component; component mux21 port ( IN0 : in std_logic_vector(31 downto 0); IN1 : in std_logic_vector(31 downto 0); CTRL : in std_logic; OUT1 : out std_logic_vector(31 downto 0) ); end component; type mux_select is array (N/2 downto 0) of std_logic_vector(2 downto 0); signal tot_select : mux_select; signal piso_0_in : std_logic_vector(N/2 downto 0); signal piso_1_in : std_logic_vector(N/2 downto 0); signal piso_2_in : std_logic_vector(N/2 downto 0); signal piso_0_out : std_logic; signal piso_1_out : std_logic; signal piso_2_out : std_logic; signal enc_0_in : std_logic_vector(2 downto 0); signal enc_N2_in : std_logic_vector(2 downto 0); signal last_bit : std_logic; signal extend_vector : std_logic_vector(N-1 downto 0); signal extended_A : std_logic_vector(2*N-1 downto 0); signal zeros : std_logic_vector(2*N-1 downto 0); signal reg_enable : std_logic; signal A_to_mux : std_logic_vector(2*N-1 downto 0); signal A2_to_mux : std_logic_vector(2*N-1 downto 0); signal mux_out_to_add : std_logic_vector(2*N-1 downto 0); signal load : std_logic; signal input_mux_sel : std_logic_vector(2 downto 0); signal count : unsigned(4 downto 0); signal accumulate : std_logic_vector(2*N-1 downto 0); signal next_accumulate : std_logic_vector(2*N-1 downto 0); signal triggered : std_logic; begin last_bit <= sign and B(N-1); enc_0_in <= B(1 downto 0)&'0'; enc_N2_in <= last_bit&last_bit&B(N-1); piso_gen: for i in 0 to N/2 generate piso_0_in(i) <= tot_select(i)(0); piso_1_in(i) <= tot_select(i)(1); piso_2_in(i) <= tot_select(i)(2); end generate piso_gen; encod_loop: for i in 0 to N/2 generate en_level0 : IF i = 0 generate encod_0 : booth_encoder port map(enc_0_in, tot_select(i)); end generate en_level0; en_levelN : IF i = N/2 generate encod_i : booth_encoder port map(enc_N2_in, tot_select(i)); end generate en_levelN; en_leveli : IF i > 0 and i < N/2 generate encod_i : booth_encoder port map(B(2*i+1 downto 2*i-1), tot_select(i)); end generate en_leveli; end generate encod_loop; piso_0 : shift generic map( N => N/2+1) port map(Clock,load,piso_0_in,piso_0_out); piso_1 : shift generic map( N => N/2+1) port map(Clock,load,piso_1_in,piso_1_out); piso_2 : shift generic map( N => N/2+1) port map(Clock,load,piso_2_in,piso_2_out); extend_vector <= (others => A(N-1) and sign); extended_A <= extend_vector&A; zeros <= (others => '0'); A_reg : piso_r_2 generic map( N => 2*N) port map(Clock,load,extended_A,A_to_mux); A2_to_mux <= A_to_mux (2*N-2 downto 0)&'0'; input_mux_sel(0) <= piso_0_out; input_mux_sel(1) <= piso_1_out; input_mux_sel(2) <= piso_2_out; INPUTMUX: mux21 port map( IN0 => A_to_mux, IN1 => A2_to_mux, CTRL => input_mux_sel(0), OUT1 => B_to_add); ACCUMULATOR: ff32_en generic map( SIZE => N*2 )port map( D => next_accumulate, Q => accumulate, en => reg_enable, clk => Clock, rst => Reset); --on first clock cycle need to always enable accumulator reg_enable <= input_mux_sel(2) or nor_reduce(std_logic_vector(count) xor "01001"); A_to_add <= accumulate; sign_to_add <= input_mux_sel(1); --last output could be either from accumulator or directly from adder final_out <= accumulate when input_mux_sel(2) = '0' else ACC_from_add; --sequential process for count handling process(Reset,Clock) begin if Reset = '1' then count <= "01001"; else if Clock = '1' and Clock'event then if count /= 0 and enable = '1' then count <= count - 1; end if; if count = 0 then count <= "01001"; end if; end if; end if; end process; --combinatorial process for signals process(count,ACC_from_add) begin if count = 0 then valid <= '1'; next_accumulate <= ACC_from_add; load <= '0'; elsif count = 9 then valid <= '0'; next_accumulate <= (others => '0'); load <= '1'; else valid <= '0'; next_accumulate <= ACC_from_add; load <= '0'; end if; end process; end struct;
-- File: comm_fpga_fx2_v2.vhd -- Generated by MyHDL 0.9dev -- Date: Sat Jul 13 22:29:39 2013 library IEEE; use IEEE.std_logic_1164.all; use IEEE.numeric_std.all; use std.textio.all; use work.pck_myhdl_09.all; entity comm_fpga_fx2_v2 is port ( clk_in: in std_logic; reset_in: in std_logic; fx2FifoSel_out: out std_logic; fx2Data_in: in unsigned(7 downto 0); fx2Data_out: out unsigned(7 downto 0); fx2Data_sel: out std_logic; fx2Read_out: in std_logic; fx2GotData_in: in std_logic; fx2Write_out: in std_logic; fx2GotRoom_in: in std_logic; fx2PktEnd_out: in std_logic; chanAddr_out: in unsigned(6 downto 0); h2fData_out: in unsigned(7 downto 0); h2fValid_out: in std_logic; h2fReady_in: in std_logic; f2hData_in: in unsigned(7 downto 0); f2hValid_in: in std_logic; f2hReady_out: in std_logic ); end entity comm_fpga_fx2_v2; -- Original port definition -- This module bridges the "original" port mapping to the MyHDL -- version. architecture MyHDL of comm_fpga_fx2_v2 is constant fopREAD: integer := 2; constant FX2_IN_FIFO: integer := 1; constant FX2_OUT_FIFO: integer := 0; constant fopNOP: integer := 3; constant fopWRITE: integer := 1; signal g_fl_bus_chan_addr: unsigned(6 downto 0); signal g_fx2_bus_read: std_logic; signal g_is_write: std_logic; signal g_state: None; signal g_fl_bus_data_i: unsigned(7 downto 0); signal g_fx2_bus_gotroom: std_logic; signal g_fl_bus_data_o: unsigned(7 downto 0); signal g_fl_bus_ready_i: std_logic; signal g_fl_bus_ready_o: std_logic; signal g_is_aligned: std_logic; signal g_count: unsigned(31 downto 0); signal g_fifop: unsigned(1 downto 0); signal g_fl_bus_valid_o: std_logic; signal g_fx2_bus_write: std_logic; signal g_fl_bus_valid_i: std_logic; signal g_fx2_bus_gotdata: std_logic; signal g_fx2_bus_pktend: std_logic; begin g_fl_bus_data_i <= to_unsigned(0, 8); g_fx2_bus_gotroom <= '0'; g_fl_bus_ready_i <= '0'; g_fl_bus_valid_i <= '0'; g_fx2_bus_gotdata <= '0'; COMM_FPGA_FX2_V2_G_HDL_SM: process (clk_in, reset_in) is begin if (reset_in = '0') then g_count <= to_unsigned(0, 32); g_fl_bus_chan_addr <= to_unsigned(0, 7); fx2Data_out <= to_unsigned(0, 8); fx2FifoSel_out <= '0'; g_fifop <= to_unsigned(3, 2); g_is_write <= '0'; g_fl_bus_ready_o <= '0'; fx2Data_sel <= '0'; g_fl_bus_valid_o <= '0'; g_state <= IDLE; g_fx2_bus_pktend <= '0'; g_fl_bus_data_o <= to_unsigned(0, 8); g_is_aligned <= '0'; elsif rising_edge(clk_in) then case g_state is when GET_COUNT0 => if bool(g_fx2_bus_gotdata) then g_count <= shift_left(resize(fx2Data_in, 32), 24); g_state <= GET_COUNT1; else g_count <= to_unsigned(0, 32); end if; when GET_COUNT1 => if bool(g_fx2_bus_gotdata) then g_count <= (g_count or shift_left(resize(fx2Data_in, 32), 16)); g_state <= GET_COUNT2; end if; when GET_COUNT2 => if bool(g_fx2_bus_gotdata) then g_count <= (g_count or shift_left(resize(fx2Data_in, 32), 8)); g_state <= GET_COUNT3; end if; when GET_COUNT3 => if bool(g_fx2_bus_gotdata) then g_count <= (g_count or resize(fx2Data_in, 32)); if bool(g_is_write) then g_state <= BEGIN_WRITE; else if bool(g_fl_bus_ready_i) then g_fifop <= to_unsigned(fopREAD, 2); g_state <= READ; else g_fifop <= to_unsigned(fopNOP, 2); g_state <= READ_WAIT; end if; end if; end if; when BEGIN_WRITE => fx2FifoSel_out <= stdl(FX2_IN_FIFO); g_fifop <= to_unsigned(fopNOP, 2); if (g_count(9-1 downto 0) = 0) then g_is_aligned <= '1'; else g_is_aligned <= '0'; end if; g_state <= WRITE; when WRITE => if bool(g_fx2_bus_gotroom) then g_fl_bus_ready_o <= '1'; end if; if (bool(g_fx2_bus_gotroom) and bool(g_fl_bus_valid_i)) then g_fifop <= to_unsigned(fopWRITE, 2); fx2Data_out <= g_fl_bus_data_i; fx2Data_sel <= '1'; g_count <= (g_count - 1); if (g_count = 1) then if bool(g_is_aligned) then g_state <= END_WRITE_ALIGNED; else g_state <= END_WRITE_NONALIGNED; end if; end if; else g_fifop <= to_unsigned(fopNOP, 2); end if; when END_WRITE_ALIGNED => fx2FifoSel_out <= stdl(FX2_IN_FIFO); g_fifop <= to_unsigned(fopNOP, 2); g_state <= IDLE; when END_WRITE_NONALIGNED => fx2FifoSel_out <= stdl(FX2_IN_FIFO); g_fifop <= to_unsigned(fopNOP, 2); g_fx2_bus_pktend <= '0'; g_state <= IDLE; when READ => fx2FifoSel_out <= stdl(FX2_OUT_FIFO); if (bool(g_fx2_bus_gotdata) and bool(g_fl_bus_ready_i)) then assert (not bool(g_fx2_bus_read)) report "*** AssertionError ***" severity error; g_fl_bus_valid_o <= '1'; g_fl_bus_data_o <= fx2Data_in; if (g_count <= 1) then g_state <= IDLE; g_count <= to_unsigned(0, 32); else g_count <= (g_count - 1); end if; end if; when READ_WAIT => if (bool(g_fx2_bus_gotdata) and bool(g_fl_bus_ready_i)) then g_state <= READ; g_fifop <= to_unsigned(fopREAD, 2); end if; when others => g_fifop <= to_unsigned(fopREAD, 2); g_count <= to_unsigned(0, 32); g_fl_bus_valid_o <= '0'; if bool(g_fx2_bus_gotdata) then g_fl_bus_chan_addr <= fx2Data_in(7-1 downto 0); g_is_write <= fx2Data_in(7); g_state <= GET_COUNT0; end if; end case; end if; end process COMM_FPGA_FX2_V2_G_HDL_SM; g_fx2_bus_read <= g_fifop(0); g_fx2_bus_write <= g_fifop(1); end architecture MyHDL;
-- File: comm_fpga_fx2_v2.vhd -- Generated by MyHDL 0.9dev -- Date: Sat Jul 13 22:29:39 2013 library IEEE; use IEEE.std_logic_1164.all; use IEEE.numeric_std.all; use std.textio.all; use work.pck_myhdl_09.all; entity comm_fpga_fx2_v2 is port ( clk_in: in std_logic; reset_in: in std_logic; fx2FifoSel_out: out std_logic; fx2Data_in: in unsigned(7 downto 0); fx2Data_out: out unsigned(7 downto 0); fx2Data_sel: out std_logic; fx2Read_out: in std_logic; fx2GotData_in: in std_logic; fx2Write_out: in std_logic; fx2GotRoom_in: in std_logic; fx2PktEnd_out: in std_logic; chanAddr_out: in unsigned(6 downto 0); h2fData_out: in unsigned(7 downto 0); h2fValid_out: in std_logic; h2fReady_in: in std_logic; f2hData_in: in unsigned(7 downto 0); f2hValid_in: in std_logic; f2hReady_out: in std_logic ); end entity comm_fpga_fx2_v2; -- Original port definition -- This module bridges the "original" port mapping to the MyHDL -- version. architecture MyHDL of comm_fpga_fx2_v2 is constant fopREAD: integer := 2; constant FX2_IN_FIFO: integer := 1; constant FX2_OUT_FIFO: integer := 0; constant fopNOP: integer := 3; constant fopWRITE: integer := 1; signal g_fl_bus_chan_addr: unsigned(6 downto 0); signal g_fx2_bus_read: std_logic; signal g_is_write: std_logic; signal g_state: None; signal g_fl_bus_data_i: unsigned(7 downto 0); signal g_fx2_bus_gotroom: std_logic; signal g_fl_bus_data_o: unsigned(7 downto 0); signal g_fl_bus_ready_i: std_logic; signal g_fl_bus_ready_o: std_logic; signal g_is_aligned: std_logic; signal g_count: unsigned(31 downto 0); signal g_fifop: unsigned(1 downto 0); signal g_fl_bus_valid_o: std_logic; signal g_fx2_bus_write: std_logic; signal g_fl_bus_valid_i: std_logic; signal g_fx2_bus_gotdata: std_logic; signal g_fx2_bus_pktend: std_logic; begin g_fl_bus_data_i <= to_unsigned(0, 8); g_fx2_bus_gotroom <= '0'; g_fl_bus_ready_i <= '0'; g_fl_bus_valid_i <= '0'; g_fx2_bus_gotdata <= '0'; COMM_FPGA_FX2_V2_G_HDL_SM: process (clk_in, reset_in) is begin if (reset_in = '0') then g_count <= to_unsigned(0, 32); g_fl_bus_chan_addr <= to_unsigned(0, 7); fx2Data_out <= to_unsigned(0, 8); fx2FifoSel_out <= '0'; g_fifop <= to_unsigned(3, 2); g_is_write <= '0'; g_fl_bus_ready_o <= '0'; fx2Data_sel <= '0'; g_fl_bus_valid_o <= '0'; g_state <= IDLE; g_fx2_bus_pktend <= '0'; g_fl_bus_data_o <= to_unsigned(0, 8); g_is_aligned <= '0'; elsif rising_edge(clk_in) then case g_state is when GET_COUNT0 => if bool(g_fx2_bus_gotdata) then g_count <= shift_left(resize(fx2Data_in, 32), 24); g_state <= GET_COUNT1; else g_count <= to_unsigned(0, 32); end if; when GET_COUNT1 => if bool(g_fx2_bus_gotdata) then g_count <= (g_count or shift_left(resize(fx2Data_in, 32), 16)); g_state <= GET_COUNT2; end if; when GET_COUNT2 => if bool(g_fx2_bus_gotdata) then g_count <= (g_count or shift_left(resize(fx2Data_in, 32), 8)); g_state <= GET_COUNT3; end if; when GET_COUNT3 => if bool(g_fx2_bus_gotdata) then g_count <= (g_count or resize(fx2Data_in, 32)); if bool(g_is_write) then g_state <= BEGIN_WRITE; else if bool(g_fl_bus_ready_i) then g_fifop <= to_unsigned(fopREAD, 2); g_state <= READ; else g_fifop <= to_unsigned(fopNOP, 2); g_state <= READ_WAIT; end if; end if; end if; when BEGIN_WRITE => fx2FifoSel_out <= stdl(FX2_IN_FIFO); g_fifop <= to_unsigned(fopNOP, 2); if (g_count(9-1 downto 0) = 0) then g_is_aligned <= '1'; else g_is_aligned <= '0'; end if; g_state <= WRITE; when WRITE => if bool(g_fx2_bus_gotroom) then g_fl_bus_ready_o <= '1'; end if; if (bool(g_fx2_bus_gotroom) and bool(g_fl_bus_valid_i)) then g_fifop <= to_unsigned(fopWRITE, 2); fx2Data_out <= g_fl_bus_data_i; fx2Data_sel <= '1'; g_count <= (g_count - 1); if (g_count = 1) then if bool(g_is_aligned) then g_state <= END_WRITE_ALIGNED; else g_state <= END_WRITE_NONALIGNED; end if; end if; else g_fifop <= to_unsigned(fopNOP, 2); end if; when END_WRITE_ALIGNED => fx2FifoSel_out <= stdl(FX2_IN_FIFO); g_fifop <= to_unsigned(fopNOP, 2); g_state <= IDLE; when END_WRITE_NONALIGNED => fx2FifoSel_out <= stdl(FX2_IN_FIFO); g_fifop <= to_unsigned(fopNOP, 2); g_fx2_bus_pktend <= '0'; g_state <= IDLE; when READ => fx2FifoSel_out <= stdl(FX2_OUT_FIFO); if (bool(g_fx2_bus_gotdata) and bool(g_fl_bus_ready_i)) then assert (not bool(g_fx2_bus_read)) report "*** AssertionError ***" severity error; g_fl_bus_valid_o <= '1'; g_fl_bus_data_o <= fx2Data_in; if (g_count <= 1) then g_state <= IDLE; g_count <= to_unsigned(0, 32); else g_count <= (g_count - 1); end if; end if; when READ_WAIT => if (bool(g_fx2_bus_gotdata) and bool(g_fl_bus_ready_i)) then g_state <= READ; g_fifop <= to_unsigned(fopREAD, 2); end if; when others => g_fifop <= to_unsigned(fopREAD, 2); g_count <= to_unsigned(0, 32); g_fl_bus_valid_o <= '0'; if bool(g_fx2_bus_gotdata) then g_fl_bus_chan_addr <= fx2Data_in(7-1 downto 0); g_is_write <= fx2Data_in(7); g_state <= GET_COUNT0; end if; end case; end if; end process COMM_FPGA_FX2_V2_G_HDL_SM; g_fx2_bus_read <= g_fifop(0); g_fx2_bus_write <= g_fifop(1); end architecture MyHDL;
-- File: comm_fpga_fx2_v2.vhd -- Generated by MyHDL 0.9dev -- Date: Sat Jul 13 22:29:39 2013 library IEEE; use IEEE.std_logic_1164.all; use IEEE.numeric_std.all; use std.textio.all; use work.pck_myhdl_09.all; entity comm_fpga_fx2_v2 is port ( clk_in: in std_logic; reset_in: in std_logic; fx2FifoSel_out: out std_logic; fx2Data_in: in unsigned(7 downto 0); fx2Data_out: out unsigned(7 downto 0); fx2Data_sel: out std_logic; fx2Read_out: in std_logic; fx2GotData_in: in std_logic; fx2Write_out: in std_logic; fx2GotRoom_in: in std_logic; fx2PktEnd_out: in std_logic; chanAddr_out: in unsigned(6 downto 0); h2fData_out: in unsigned(7 downto 0); h2fValid_out: in std_logic; h2fReady_in: in std_logic; f2hData_in: in unsigned(7 downto 0); f2hValid_in: in std_logic; f2hReady_out: in std_logic ); end entity comm_fpga_fx2_v2; -- Original port definition -- This module bridges the "original" port mapping to the MyHDL -- version. architecture MyHDL of comm_fpga_fx2_v2 is constant fopREAD: integer := 2; constant FX2_IN_FIFO: integer := 1; constant FX2_OUT_FIFO: integer := 0; constant fopNOP: integer := 3; constant fopWRITE: integer := 1; signal g_fl_bus_chan_addr: unsigned(6 downto 0); signal g_fx2_bus_read: std_logic; signal g_is_write: std_logic; signal g_state: None; signal g_fl_bus_data_i: unsigned(7 downto 0); signal g_fx2_bus_gotroom: std_logic; signal g_fl_bus_data_o: unsigned(7 downto 0); signal g_fl_bus_ready_i: std_logic; signal g_fl_bus_ready_o: std_logic; signal g_is_aligned: std_logic; signal g_count: unsigned(31 downto 0); signal g_fifop: unsigned(1 downto 0); signal g_fl_bus_valid_o: std_logic; signal g_fx2_bus_write: std_logic; signal g_fl_bus_valid_i: std_logic; signal g_fx2_bus_gotdata: std_logic; signal g_fx2_bus_pktend: std_logic; begin g_fl_bus_data_i <= to_unsigned(0, 8); g_fx2_bus_gotroom <= '0'; g_fl_bus_ready_i <= '0'; g_fl_bus_valid_i <= '0'; g_fx2_bus_gotdata <= '0'; COMM_FPGA_FX2_V2_G_HDL_SM: process (clk_in, reset_in) is begin if (reset_in = '0') then g_count <= to_unsigned(0, 32); g_fl_bus_chan_addr <= to_unsigned(0, 7); fx2Data_out <= to_unsigned(0, 8); fx2FifoSel_out <= '0'; g_fifop <= to_unsigned(3, 2); g_is_write <= '0'; g_fl_bus_ready_o <= '0'; fx2Data_sel <= '0'; g_fl_bus_valid_o <= '0'; g_state <= IDLE; g_fx2_bus_pktend <= '0'; g_fl_bus_data_o <= to_unsigned(0, 8); g_is_aligned <= '0'; elsif rising_edge(clk_in) then case g_state is when GET_COUNT0 => if bool(g_fx2_bus_gotdata) then g_count <= shift_left(resize(fx2Data_in, 32), 24); g_state <= GET_COUNT1; else g_count <= to_unsigned(0, 32); end if; when GET_COUNT1 => if bool(g_fx2_bus_gotdata) then g_count <= (g_count or shift_left(resize(fx2Data_in, 32), 16)); g_state <= GET_COUNT2; end if; when GET_COUNT2 => if bool(g_fx2_bus_gotdata) then g_count <= (g_count or shift_left(resize(fx2Data_in, 32), 8)); g_state <= GET_COUNT3; end if; when GET_COUNT3 => if bool(g_fx2_bus_gotdata) then g_count <= (g_count or resize(fx2Data_in, 32)); if bool(g_is_write) then g_state <= BEGIN_WRITE; else if bool(g_fl_bus_ready_i) then g_fifop <= to_unsigned(fopREAD, 2); g_state <= READ; else g_fifop <= to_unsigned(fopNOP, 2); g_state <= READ_WAIT; end if; end if; end if; when BEGIN_WRITE => fx2FifoSel_out <= stdl(FX2_IN_FIFO); g_fifop <= to_unsigned(fopNOP, 2); if (g_count(9-1 downto 0) = 0) then g_is_aligned <= '1'; else g_is_aligned <= '0'; end if; g_state <= WRITE; when WRITE => if bool(g_fx2_bus_gotroom) then g_fl_bus_ready_o <= '1'; end if; if (bool(g_fx2_bus_gotroom) and bool(g_fl_bus_valid_i)) then g_fifop <= to_unsigned(fopWRITE, 2); fx2Data_out <= g_fl_bus_data_i; fx2Data_sel <= '1'; g_count <= (g_count - 1); if (g_count = 1) then if bool(g_is_aligned) then g_state <= END_WRITE_ALIGNED; else g_state <= END_WRITE_NONALIGNED; end if; end if; else g_fifop <= to_unsigned(fopNOP, 2); end if; when END_WRITE_ALIGNED => fx2FifoSel_out <= stdl(FX2_IN_FIFO); g_fifop <= to_unsigned(fopNOP, 2); g_state <= IDLE; when END_WRITE_NONALIGNED => fx2FifoSel_out <= stdl(FX2_IN_FIFO); g_fifop <= to_unsigned(fopNOP, 2); g_fx2_bus_pktend <= '0'; g_state <= IDLE; when READ => fx2FifoSel_out <= stdl(FX2_OUT_FIFO); if (bool(g_fx2_bus_gotdata) and bool(g_fl_bus_ready_i)) then assert (not bool(g_fx2_bus_read)) report "*** AssertionError ***" severity error; g_fl_bus_valid_o <= '1'; g_fl_bus_data_o <= fx2Data_in; if (g_count <= 1) then g_state <= IDLE; g_count <= to_unsigned(0, 32); else g_count <= (g_count - 1); end if; end if; when READ_WAIT => if (bool(g_fx2_bus_gotdata) and bool(g_fl_bus_ready_i)) then g_state <= READ; g_fifop <= to_unsigned(fopREAD, 2); end if; when others => g_fifop <= to_unsigned(fopREAD, 2); g_count <= to_unsigned(0, 32); g_fl_bus_valid_o <= '0'; if bool(g_fx2_bus_gotdata) then g_fl_bus_chan_addr <= fx2Data_in(7-1 downto 0); g_is_write <= fx2Data_in(7); g_state <= GET_COUNT0; end if; end case; end if; end process COMM_FPGA_FX2_V2_G_HDL_SM; g_fx2_bus_read <= g_fifop(0); g_fx2_bus_write <= g_fifop(1); end architecture MyHDL;
library IEEE; use IEEE.STD_LOGIC_1164.all; use IEEE.STD_LOGIC_ARITH.all; use IEEE.STD_LOGIC_UNSIGNED.all; -- Module Generates Video Sync Signals for Video Montor Interface -- RGB and Sync outputs tie directly to monitor conector pins ENTITY VGA_SYNC IS PORT( clock_48Mhz : IN STD_LOGIC; pixel_clock : OUT STD_LOGIC); END VGA_SYNC; ARCHITECTURE a OF VGA_SYNC IS SIGNAL pixel_clock_int : STD_LOGIC; COMPONENT video_PLL PORT ( inclk0 : IN STD_LOGIC := '0'; c0 : OUT STD_LOGIC ); end component; BEGIN -- PLL below is used to generate the pixel clock frequency -- Uses UP 3's 48Mhz USB clock for PLL's input clock video_PLL_inst : video_PLL PORT MAP ( inclk0 => Clock_48Mhz, c0 => pixel_clock_int ); -- output pixel clock and video on for external user logic pixel_clock <= pixel_clock_int; END a;
-- Copyright 1986-2015 Xilinx, Inc. All Rights Reserved. -- -------------------------------------------------------------------------------- -- Tool Version: Vivado v.2015.4 (win64) Build 1412921 Wed Nov 18 09:43:45 MST 2015 -- Date : Fri Mar 04 11:10:30 2016 -- Host : Dries007Laptop running 64-bit major release (build 9200) -- Command : write_vhdl -force -mode funcsim -- d:/Xilinx/Projects/VGA/VGA.srcs/sources_1/ip/clk_wiz_1/clk_wiz_1_sim_netlist.vhdl -- Design : clk_wiz_1 -- 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 : xc7a35tcpg236-1 -- -------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; library UNISIM; use UNISIM.VCOMPONENTS.ALL; entity clk_wiz_1_clk_wiz_1_clk_wiz is port ( clk_in1 : in STD_LOGIC; clk_out1 : out STD_LOGIC ); attribute ORIG_REF_NAME : string; attribute ORIG_REF_NAME of clk_wiz_1_clk_wiz_1_clk_wiz : entity is "clk_wiz_1_clk_wiz"; end clk_wiz_1_clk_wiz_1_clk_wiz; architecture STRUCTURE of clk_wiz_1_clk_wiz_1_clk_wiz is signal clk_in1_clk_wiz_1 : STD_LOGIC; signal clk_out1_clk_wiz_1 : STD_LOGIC; signal clkfbout_buf_clk_wiz_1 : STD_LOGIC; signal clkfbout_clk_wiz_1 : STD_LOGIC; signal NLW_mmcm_adv_inst_CLKFBOUTB_UNCONNECTED : STD_LOGIC; signal NLW_mmcm_adv_inst_CLKFBSTOPPED_UNCONNECTED : STD_LOGIC; signal NLW_mmcm_adv_inst_CLKINSTOPPED_UNCONNECTED : STD_LOGIC; signal NLW_mmcm_adv_inst_CLKOUT0B_UNCONNECTED : STD_LOGIC; signal NLW_mmcm_adv_inst_CLKOUT1_UNCONNECTED : STD_LOGIC; signal NLW_mmcm_adv_inst_CLKOUT1B_UNCONNECTED : STD_LOGIC; signal NLW_mmcm_adv_inst_CLKOUT2_UNCONNECTED : STD_LOGIC; signal NLW_mmcm_adv_inst_CLKOUT2B_UNCONNECTED : STD_LOGIC; signal NLW_mmcm_adv_inst_CLKOUT3_UNCONNECTED : STD_LOGIC; signal NLW_mmcm_adv_inst_CLKOUT3B_UNCONNECTED : STD_LOGIC; signal NLW_mmcm_adv_inst_CLKOUT4_UNCONNECTED : STD_LOGIC; signal NLW_mmcm_adv_inst_CLKOUT5_UNCONNECTED : STD_LOGIC; signal NLW_mmcm_adv_inst_CLKOUT6_UNCONNECTED : STD_LOGIC; signal NLW_mmcm_adv_inst_DRDY_UNCONNECTED : STD_LOGIC; signal NLW_mmcm_adv_inst_LOCKED_UNCONNECTED : STD_LOGIC; signal NLW_mmcm_adv_inst_PSDONE_UNCONNECTED : STD_LOGIC; signal NLW_mmcm_adv_inst_DO_UNCONNECTED : STD_LOGIC_VECTOR ( 15 downto 0 ); attribute BOX_TYPE : string; attribute BOX_TYPE of clkf_buf : label is "PRIMITIVE"; attribute BOX_TYPE of clkin1_ibufg : label is "PRIMITIVE"; attribute CAPACITANCE : string; attribute CAPACITANCE of clkin1_ibufg : label is "DONT_CARE"; attribute IBUF_DELAY_VALUE : string; attribute IBUF_DELAY_VALUE of clkin1_ibufg : label is "0"; attribute IFD_DELAY_VALUE : string; attribute IFD_DELAY_VALUE of clkin1_ibufg : label is "AUTO"; attribute BOX_TYPE of clkout1_buf : label is "PRIMITIVE"; attribute BOX_TYPE of mmcm_adv_inst : label is "PRIMITIVE"; begin clkf_buf: unisim.vcomponents.BUFG port map ( I => clkfbout_clk_wiz_1, O => clkfbout_buf_clk_wiz_1 ); clkin1_ibufg: unisim.vcomponents.IBUF generic map( IOSTANDARD => "DEFAULT" ) port map ( I => clk_in1, O => clk_in1_clk_wiz_1 ); clkout1_buf: unisim.vcomponents.BUFG port map ( I => clk_out1_clk_wiz_1, O => clk_out1 ); mmcm_adv_inst: unisim.vcomponents.MMCME2_ADV generic map( BANDWIDTH => "OPTIMIZED", CLKFBOUT_MULT_F => 32.000000, CLKFBOUT_PHASE => 0.000000, CLKFBOUT_USE_FINE_PS => false, CLKIN1_PERIOD => 10.000000, CLKIN2_PERIOD => 0.000000, CLKOUT0_DIVIDE_F => 128.000000, CLKOUT0_DUTY_CYCLE => 0.500000, CLKOUT0_PHASE => 0.000000, CLKOUT0_USE_FINE_PS => false, CLKOUT1_DIVIDE => 1, CLKOUT1_DUTY_CYCLE => 0.500000, CLKOUT1_PHASE => 0.000000, CLKOUT1_USE_FINE_PS => false, CLKOUT2_DIVIDE => 1, CLKOUT2_DUTY_CYCLE => 0.500000, CLKOUT2_PHASE => 0.000000, CLKOUT2_USE_FINE_PS => false, CLKOUT3_DIVIDE => 1, CLKOUT3_DUTY_CYCLE => 0.500000, CLKOUT3_PHASE => 0.000000, CLKOUT3_USE_FINE_PS => false, CLKOUT4_CASCADE => false, CLKOUT4_DIVIDE => 1, CLKOUT4_DUTY_CYCLE => 0.500000, CLKOUT4_PHASE => 0.000000, CLKOUT4_USE_FINE_PS => false, CLKOUT5_DIVIDE => 1, CLKOUT5_DUTY_CYCLE => 0.500000, CLKOUT5_PHASE => 0.000000, CLKOUT5_USE_FINE_PS => false, CLKOUT6_DIVIDE => 1, CLKOUT6_DUTY_CYCLE => 0.500000, CLKOUT6_PHASE => 0.000000, CLKOUT6_USE_FINE_PS => false, COMPENSATION => "ZHOLD", DIVCLK_DIVIDE => 5, IS_CLKINSEL_INVERTED => '0', IS_PSEN_INVERTED => '0', IS_PSINCDEC_INVERTED => '0', IS_PWRDWN_INVERTED => '0', IS_RST_INVERTED => '0', REF_JITTER1 => 0.010000, REF_JITTER2 => 0.010000, SS_EN => "FALSE", SS_MODE => "CENTER_HIGH", SS_MOD_PERIOD => 10000, STARTUP_WAIT => false ) port map ( CLKFBIN => clkfbout_buf_clk_wiz_1, CLKFBOUT => clkfbout_clk_wiz_1, CLKFBOUTB => NLW_mmcm_adv_inst_CLKFBOUTB_UNCONNECTED, CLKFBSTOPPED => NLW_mmcm_adv_inst_CLKFBSTOPPED_UNCONNECTED, CLKIN1 => clk_in1_clk_wiz_1, CLKIN2 => '0', CLKINSEL => '1', CLKINSTOPPED => NLW_mmcm_adv_inst_CLKINSTOPPED_UNCONNECTED, CLKOUT0 => clk_out1_clk_wiz_1, CLKOUT0B => NLW_mmcm_adv_inst_CLKOUT0B_UNCONNECTED, CLKOUT1 => NLW_mmcm_adv_inst_CLKOUT1_UNCONNECTED, CLKOUT1B => NLW_mmcm_adv_inst_CLKOUT1B_UNCONNECTED, CLKOUT2 => NLW_mmcm_adv_inst_CLKOUT2_UNCONNECTED, CLKOUT2B => NLW_mmcm_adv_inst_CLKOUT2B_UNCONNECTED, CLKOUT3 => NLW_mmcm_adv_inst_CLKOUT3_UNCONNECTED, CLKOUT3B => NLW_mmcm_adv_inst_CLKOUT3B_UNCONNECTED, CLKOUT4 => NLW_mmcm_adv_inst_CLKOUT4_UNCONNECTED, CLKOUT5 => NLW_mmcm_adv_inst_CLKOUT5_UNCONNECTED, CLKOUT6 => NLW_mmcm_adv_inst_CLKOUT6_UNCONNECTED, DADDR(6 downto 0) => B"0000000", DCLK => '0', DEN => '0', DI(15 downto 0) => B"0000000000000000", DO(15 downto 0) => NLW_mmcm_adv_inst_DO_UNCONNECTED(15 downto 0), DRDY => NLW_mmcm_adv_inst_DRDY_UNCONNECTED, DWE => '0', LOCKED => NLW_mmcm_adv_inst_LOCKED_UNCONNECTED, PSCLK => '0', PSDONE => NLW_mmcm_adv_inst_PSDONE_UNCONNECTED, PSEN => '0', PSINCDEC => '0', PWRDWN => '0', RST => '0' ); end STRUCTURE; library IEEE; use IEEE.STD_LOGIC_1164.ALL; library UNISIM; use UNISIM.VCOMPONENTS.ALL; entity clk_wiz_1 is port ( clk_in1 : in STD_LOGIC; clk_out1 : out STD_LOGIC ); attribute NotValidForBitStream : boolean; attribute NotValidForBitStream of clk_wiz_1 : entity is true; attribute CORE_GENERATION_INFO : string; attribute CORE_GENERATION_INFO of clk_wiz_1 : entity is "clk_wiz_1,clk_wiz_v5_2_1,{component_name=clk_wiz_1,use_phase_alignment=true,use_min_o_jitter=false,use_max_i_jitter=false,use_dyn_phase_shift=false,use_inclk_switchover=false,use_dyn_reconfig=false,enable_axi=0,feedback_source=FDBK_AUTO,PRIMITIVE=MMCM,num_out_clk=1,clkin1_period=10.0,clkin2_period=10.0,use_power_down=false,use_reset=false,use_locked=false,use_inclk_stopped=false,feedback_type=SINGLE,CLOCK_MGR_TYPE=NA,manual_override=false}"; end clk_wiz_1; architecture STRUCTURE of clk_wiz_1 is begin inst: entity work.clk_wiz_1_clk_wiz_1_clk_wiz port map ( clk_in1 => clk_in1, clk_out1 => clk_out1 ); end STRUCTURE;
-------------------------------------------------------------------------------- -- (c) Copyright 2010 - 2013 Xilinx, Inc. All rights reserved. -- -- This file contains confidential and proprietary information -- of Xilinx, Inc. and is protected under U.S. and -- international copyright and other intellectual property -- laws. -- -- DISCLAIMER -- This disclaimer is not a license and does not grant any -- rights to the materials distributed herewith. Except as -- otherwise provided in a valid license issued to you by -- Xilinx, and to the maximum extent permitted by applicable -- law: (1) THESE MATERIALS ARE MADE AVAILABLE "AS IS" AND -- WITH ALL FAULTS, AND XILINX HEREBY DISCLAIMS ALL WARRANTIES -- AND CONDITIONS, EXPRESS, IMPLIED, OR STATUTORY, INCLUDING -- BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, NON- -- INFRINGEMENT, OR FITNESS FOR ANY PARTICULAR PURPOSE; and -- (2) Xilinx shall not be liable (whether in contract or tort, -- including negligence, or under any other theory of -- liability) for any loss or damage of any kind or nature -- related to, arising under or in connection with these -- materials, including for any direct, or any indirect, -- special, incidental, or consequential loss or damage -- (including loss of data, profits, goodwill, or any type of -- loss or damage suffered as a result of any action brought -- by a third party) even if such damage or loss was -- reasonably foreseeable or Xilinx had been advised of the -- possibility of the same. -- -- CRITICAL APPLICATIONS -- Xilinx products are not designed or intended to be fail- -- safe, or for use in any application requiring fail-safe -- performance, such as life-support or safety devices or -- systems, Class III medical devices, nuclear facilities, -- applications related to the deployment of airbags, or any -- other applications that could lead to death, personal -- injury, or severe property or environmental damage -- (individually and collectively, "Critical -- Applications"). Customer assumes the sole risk and -- liability of any use of Xilinx products in Critical -- Applications, subject only to applicable laws and -- regulations governing limitations on product liability. -- -- THIS COPYRIGHT NOTICE AND DISCLAIMER MUST BE RETAINED AS -- PART OF THIS FILE AT ALL TIMES. -------------------------------------------------------------------------------- -- Description: -- This is an example testbench for the Fast Fourier Transform IP core. -- The testbench has been generated by Vivado to accompany the IP core -- instance you have generated. -- -- This testbench is for demonstration purposes only. See note below for -- instructions on how to use it with your core. -- -- See the Fast Fourier Transform product guide for further information -- about this core. -- -------------------------------------------------------------------------------- -- Using this testbench -- -- This testbench instantiates your generated Fast Fourier Transform core -- instance named "fft". -- -- Use Vivado's Run Simulation flow to run this testbench. See the Vivado -- documentation for details. -------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use ieee.math_real.all; entity tb_fft is end tb_fft; architecture tb of tb_fft is ----------------------------------------------------------------------- -- Timing constants ----------------------------------------------------------------------- constant CLOCK_PERIOD : time := 100 ns; constant T_HOLD : time := 10 ns; constant T_STROBE : time := CLOCK_PERIOD - (1 ns); ----------------------------------------------------------------------- -- DUT signals ----------------------------------------------------------------------- -- General signals signal aclk : std_logic := '0'; -- the master clock -- Config slave channel signals signal s_axis_config_tvalid : std_logic := '0'; -- payload is valid signal s_axis_config_tready : std_logic := '1'; -- slave is ready signal s_axis_config_tdata : std_logic_vector(7 downto 0) := (others => '0'); -- data payload -- Data slave channel signals signal s_axis_data_tvalid : std_logic := '0'; -- payload is valid signal s_axis_data_tready : std_logic := '1'; -- slave is ready signal s_axis_data_tdata : std_logic_vector(31 downto 0) := (others => '0'); -- data payload signal s_axis_data_tlast : std_logic := '0'; -- indicates end of packet -- Data master channel signals signal m_axis_data_tvalid : std_logic := '0'; -- payload is valid signal m_axis_data_tready : std_logic := '1'; -- slave is ready signal m_axis_data_tdata : std_logic_vector(63 downto 0) := (others => '0'); -- data payload signal m_axis_data_tuser : std_logic_vector(15 downto 0) := (others => '0'); -- user-defined payload signal m_axis_data_tlast : std_logic := '0'; -- indicates end of packet -- Event signals signal event_frame_started : std_logic := '0'; signal event_tlast_unexpected : std_logic := '0'; signal event_tlast_missing : std_logic := '0'; signal event_status_channel_halt : std_logic := '0'; signal event_data_in_channel_halt : std_logic := '0'; signal event_data_out_channel_halt : std_logic := '0'; ----------------------------------------------------------------------- -- Aliases for AXI channel TDATA and TUSER fields -- These are a convenience for viewing data in a simulator waveform viewer. -- If using ModelSim or Questa, add "-voptargs=+acc=n" to the vsim command -- to prevent the simulator optimizing away these signals. ----------------------------------------------------------------------- -- Config slave channel alias signals signal s_axis_config_tdata_fwd_inv : std_logic := '0'; -- forward or inverse -- Data slave channel alias signals signal s_axis_data_tdata_re : std_logic_vector(15 downto 0) := (others => '0'); -- real data signal s_axis_data_tdata_im : std_logic_vector(15 downto 0) := (others => '0'); -- imaginary data -- Data master channel alias signals signal m_axis_data_tdata_re : std_logic_vector(28 downto 0) := (others => '0'); -- real data signal m_axis_data_tdata_im : std_logic_vector(28 downto 0) := (others => '0'); -- imaginary data signal m_axis_data_tuser_xk_index : std_logic_vector(11 downto 0) := (others => '0'); -- sample index ----------------------------------------------------------------------- -- Constants, types and functions to create input data ----------------------------------------------------------------------- constant IP_WIDTH : integer := 16; constant MAX_SAMPLES : integer := 2**12; -- maximum number of samples in a frame type T_IP_SAMPLE is record re : std_logic_vector(IP_WIDTH-1 downto 0); im : std_logic_vector(IP_WIDTH-1 downto 0); end record; type T_IP_TABLE is array (0 to MAX_SAMPLES-1) of T_IP_SAMPLE; -- Zeroed input data table, for reset and initialization constant IP_TABLE_CLEAR : T_IP_TABLE := (others => (re => (others => '0'), im => (others => '0'))); -- Function to generate input data table -- Data is a complex sinusoid exp(-jwt) with a frequency 2.6 times the frame size -- added to another with a lower magnitude and a higher frequency function create_ip_table return T_IP_TABLE is variable result : T_IP_TABLE; variable theta : real; variable theta2 : real; variable re_real : real; variable im_real : real; variable re_int : integer; variable im_int : integer; constant DATA_WIDTH : integer := 14; begin for i in 0 to MAX_SAMPLES-1 loop theta := real(i) / real(MAX_SAMPLES) * 2.6 * 2.0 * MATH_PI; re_real := cos(-theta); im_real := sin(-theta); theta2 := real(i) / real(MAX_SAMPLES) * 23.2 * 2.0 * MATH_PI; re_real := re_real + (cos(-theta2) / 4.0); im_real := im_real + (sin(-theta2) / 4.0); re_int := integer(round(re_real * real(2**(DATA_WIDTH)))); im_int := integer(round(im_real * real(2**(DATA_WIDTH)))); result(i).re := std_logic_vector(to_signed(re_int, IP_WIDTH)); result(i).im := std_logic_vector(to_signed(im_int, IP_WIDTH)); end loop; return result; end function create_ip_table; -- Call the function to create the input data constant IP_DATA : T_IP_TABLE := create_ip_table; ----------------------------------------------------------------------- -- Testbench signals ----------------------------------------------------------------------- -- Communication between processes regarding DUT configuration type T_DO_CONFIG is (NONE, IMMEDIATE, AFTER_START, DONE); shared variable do_config : T_DO_CONFIG := NONE; -- instruction for driving config slave channel type T_CFG_FWD_INV is (FWD, INV); signal cfg_fwd_inv : T_CFG_FWD_INV := FWD; -- Recording output data, for reuse as input data signal ip_frame : integer := 0; -- input / configuration frame number signal op_data : T_IP_TABLE := IP_TABLE_CLEAR; -- recorded output data signal op_frame : integer := 0; -- output frame number (incremented at end of frame output) begin ----------------------------------------------------------------------- -- Instantiate the DUT ----------------------------------------------------------------------- dut : entity work.fft port map ( aclk => aclk, s_axis_config_tvalid => s_axis_config_tvalid, s_axis_config_tready => s_axis_config_tready, s_axis_config_tdata => s_axis_config_tdata, s_axis_data_tvalid => s_axis_data_tvalid, s_axis_data_tready => s_axis_data_tready, s_axis_data_tdata => s_axis_data_tdata, s_axis_data_tlast => s_axis_data_tlast, m_axis_data_tvalid => m_axis_data_tvalid, m_axis_data_tready => m_axis_data_tready, m_axis_data_tdata => m_axis_data_tdata, m_axis_data_tuser => m_axis_data_tuser, m_axis_data_tlast => m_axis_data_tlast, event_frame_started => event_frame_started, event_tlast_unexpected => event_tlast_unexpected, event_tlast_missing => event_tlast_missing, event_status_channel_halt => event_status_channel_halt, event_data_in_channel_halt => event_data_in_channel_halt, event_data_out_channel_halt => event_data_out_channel_halt ); ----------------------------------------------------------------------- -- Generate clock ----------------------------------------------------------------------- clock_gen : process begin aclk <= '0'; wait for CLOCK_PERIOD; loop aclk <= '0'; wait for CLOCK_PERIOD/2; aclk <= '1'; wait for CLOCK_PERIOD/2; end loop; end process clock_gen; ----------------------------------------------------------------------- -- Generate data slave channel inputs ----------------------------------------------------------------------- data_stimuli : process -- Variables for random number generation variable seed1, seed2 : positive; variable rand : real; -- Procedure to drive an input sample with specific data -- data is the data value to drive on the tdata signal -- last is the bit value to drive on the tlast signal -- valid_mode defines how to drive TVALID: 0 = TVALID always high, 1 = TVALID low occasionally procedure drive_sample ( data : std_logic_vector(31 downto 0); last : std_logic; valid_mode : integer := 0 ) is begin s_axis_data_tdata <= data; s_axis_data_tlast <= last; if valid_mode = 1 then uniform(seed1, seed2, rand); -- generate random number if rand < 0.25 then s_axis_data_tvalid <= '0'; uniform(seed1, seed2, rand); -- generate another random number wait for CLOCK_PERIOD * integer(round(rand * 4.0)); -- hold TVALID low for up to 4 cycles s_axis_data_tvalid <= '1'; -- now assert TVALID else s_axis_data_tvalid <= '1'; end if; else s_axis_data_tvalid <= '1'; end if; loop wait until rising_edge(aclk); exit when s_axis_data_tready = '1'; end loop; wait for T_HOLD; s_axis_data_tvalid <= '0'; end procedure drive_sample; -- Procedure to drive an input frame with a table of data -- data is the data table containing input data -- valid_mode defines how to drive TVALID: 0 = TVALID always high, 1 = TVALID low occasionally procedure drive_frame ( data : T_IP_TABLE; valid_mode : integer := 0 ) is variable samples : integer; variable index : integer; variable sample_data : std_logic_vector(31 downto 0); variable sample_last : std_logic; begin samples := data'length; index := 0; while index < data'length loop -- Look up sample data in data table, construct TDATA value sample_data(15 downto 0) := data(index).re; -- real data sample_data(31 downto 16) := data(index).im; -- imaginary data -- Construct TLAST's value index := index + 1; if index >= data'length then sample_last := '1'; else sample_last := '0'; end if; -- Drive the sample drive_sample(sample_data, sample_last, valid_mode); end loop; end procedure drive_frame; variable op_data_saved : T_IP_TABLE; -- to save a copy of recorded output data begin -- Drive inputs T_HOLD time after rising edge of clock wait until rising_edge(aclk); wait for T_HOLD; -- Drive a frame of input data ip_frame <= 1; drive_frame(IP_DATA); -- Allow the result to emerge wait until m_axis_data_tlast = '1'; wait until rising_edge(aclk); wait for T_HOLD; -- Take a copy of the result, to use later as input op_data_saved := op_data; -- Now perform an inverse transform on the result to get back to the original input -- Set up the configuration (config_stimuli process handles the config slave channel) ip_frame <= 2; cfg_fwd_inv <= INV; do_config := IMMEDIATE; while do_config /= DONE loop wait until rising_edge(aclk); end loop; wait for T_HOLD; -- Configuration is done. Set up another configuration to return to forward transforms, -- and make the configuration occur as soon as the next frame has begun ip_frame <= 3; cfg_fwd_inv <= FWD; do_config := AFTER_START; -- Now drive the input data, using the output data of the last frame drive_frame(op_data); wait until m_axis_data_tlast = '1'; wait until rising_edge(aclk); wait for T_HOLD; -- The frame is complete, and the configuration to forward transforms has already been done, -- so drive the input data, using the output data of the last frame, -- which is the same as the original input (excepting scaling and finite precision effects). -- This time, deassert the data slave channel TVALID occasionally to illustrate AXI handshaking effects: -- as the core is configured to use Non Real Time throttle scheme, it will pause when TVALID is low. drive_frame(op_data, 1); -- During the output of this frame, deassert the data master channel TREADY occasionally: -- as the core is configured to use Non Real Time throttle scheme, it will pause when TREADY is low. wait until m_axis_data_tvalid = '1'; wait until rising_edge(aclk); while m_axis_data_tlast /= '1' loop wait for T_HOLD; uniform(seed1, seed2, rand); -- generate random number if rand < 0.25 then m_axis_data_tready <= '0'; else m_axis_data_tready <= '1'; end if; wait until rising_edge(aclk); end loop; wait for T_HOLD; m_axis_data_tready <= '1'; wait for CLOCK_PERIOD; -- Now run 4 back-to-back transforms, as quickly as possible. -- First queue up 2 configurations: these will be applied successively over the next 2 transforms. -- 1st configuration ip_frame <= 4; cfg_fwd_inv <= FWD; -- forward transform do_config := IMMEDIATE; while do_config /= DONE loop wait until rising_edge(aclk); end loop; wait for T_HOLD; -- 2nd configuration: same as 1st, except: ip_frame <= 5; cfg_fwd_inv <= INV; -- inverse transform do_config := IMMEDIATE; while do_config /= DONE loop wait until rising_edge(aclk); end loop; wait for T_HOLD; -- Drive the 1st data frame drive_frame(IP_DATA); -- Request a 3rd configuration, to be sent after 2nd data frame starts ip_frame <= 6; cfg_fwd_inv <= FWD; -- forward transform do_config := AFTER_START; -- Drive the 2nd data frame drive_frame(op_data_saved); -- Request a 4th configuration, to be sent after 3rd data frame starts: same as 3rd, except: ip_frame <= 7; cfg_fwd_inv <= INV; -- inverse transform do_config := AFTER_START; -- Drive the 3rd data frame drive_frame(IP_DATA); -- Drive the 4th data frame drive_frame(op_data_saved); -- Wait until all the output data from all frames has been produced wait until op_frame = 7; wait for CLOCK_PERIOD * 10; -- End of test report "Not a real failure. Simulation finished successfully. Test completed successfully" severity failure; wait; end process data_stimuli; ----------------------------------------------------------------------- -- Generate config slave channel inputs ----------------------------------------------------------------------- config_stimuli : process begin -- Drive a configuration when requested by data_stimuli process wait until rising_edge(aclk); while do_config = NONE or do_config = DONE loop wait until rising_edge(aclk); end loop; -- If the configuration is requested to occur after the next frame starts, wait for that event if do_config = AFTER_START then wait until event_frame_started = '1'; wait until rising_edge(aclk); end if; -- Drive inputs T_HOLD time after rising edge of clock wait for T_HOLD; -- Construct the config slave channel TDATA signal s_axis_config_tdata <= (others => '0'); -- clear unused bits -- Format the transform direction if cfg_fwd_inv = FWD then s_axis_config_tdata(0) <= '1'; -- forward elsif cfg_fwd_inv = INV then s_axis_config_tdata(0) <= '0'; -- inverse end if; -- Drive the transaction on the config slave channel s_axis_config_tvalid <= '1'; loop wait until rising_edge(aclk); exit when s_axis_config_tready = '1'; end loop; wait for T_HOLD; s_axis_config_tvalid <= '0'; -- Tell the data_stimuli process that the configuration has been done do_config := DONE; end process config_stimuli; ----------------------------------------------------------------------- -- Record outputs, to use later as inputs for another frame ----------------------------------------------------------------------- record_outputs : process (aclk) variable index : integer := 0; begin if rising_edge(aclk) then if m_axis_data_tvalid = '1' and m_axis_data_tready = '1' then -- Record output data such that it can be used as input data -- Output sample index is given by xk_index field of m_axis_data_tuser index := to_integer(unsigned(m_axis_data_tuser(11 downto 0))); -- Truncate output data to match input data width op_data(index).re <= m_axis_data_tdata(28 downto 13); op_data(index).im <= m_axis_data_tdata(60 downto 45); -- Track the number of output frames if m_axis_data_tlast = '1' then -- end of output frame: increment frame counter op_frame <= op_frame + 1; end if; end if; end if; end process record_outputs; ----------------------------------------------------------------------- -- Check outputs ----------------------------------------------------------------------- check_outputs : process variable check_ok : boolean := true; -- Previous values of data master channel signals variable m_data_tvalid_prev : std_logic := '0'; variable m_data_tready_prev : std_logic := '0'; variable m_data_tdata_prev : std_logic_vector(63 downto 0) := (others => '0'); variable m_data_tuser_prev : std_logic_vector(15 downto 0) := (others => '0'); begin -- Check outputs T_STROBE time after rising edge of clock wait until rising_edge(aclk); wait for T_STROBE; -- Do not check the output payload values, as this requires a numerical model -- which would make this demonstration testbench unwieldy. -- Instead, check the protocol of the data master channel: -- check that the payload is valid (not X) when TVALID is high -- and check that the payload does not change while TVALID is high until TREADY goes high if m_axis_data_tvalid = '1' then if is_x(m_axis_data_tdata) then report "ERROR: m_axis_data_tdata is invalid when m_axis_data_tvalid is high" severity error; check_ok := false; end if; if is_x(m_axis_data_tuser) then report "ERROR: m_axis_data_tuser is invalid when m_axis_data_tvalid is high" severity error; check_ok := false; end if; if m_data_tvalid_prev = '1' and m_data_tready_prev = '0' then -- payload must be the same as last cycle if m_axis_data_tdata /= m_data_tdata_prev then report "ERROR: m_axis_data_tdata changed while m_axis_data_tvalid was high and m_axis_data_tready was low" severity error; check_ok := false; end if; if m_axis_data_tuser /= m_data_tuser_prev then report "ERROR: m_axis_data_tuser changed while m_axis_data_tvalid was high and m_axis_data_tready was low" severity error; check_ok := false; end if; end if; end if; assert check_ok report "ERROR: terminating test with failures." severity failure; -- Record payload values for checking next clock cycle if check_ok then m_data_tvalid_prev := m_axis_data_tvalid; m_data_tready_prev := m_axis_data_tready; m_data_tdata_prev := m_axis_data_tdata; m_data_tuser_prev := m_axis_data_tuser; end if; end process check_outputs; ----------------------------------------------------------------------- -- Assign TDATA / TUSER fields to aliases, for easy simulator waveform viewing ----------------------------------------------------------------------- -- Config slave channel alias signals s_axis_config_tdata_fwd_inv <= s_axis_config_tdata(0); -- Data slave channel alias signals s_axis_data_tdata_re <= s_axis_data_tdata(15 downto 0); s_axis_data_tdata_im <= s_axis_data_tdata(31 downto 16); -- Data master channel alias signals m_axis_data_tdata_re <= m_axis_data_tdata(28 downto 0); m_axis_data_tdata_im <= m_axis_data_tdata(60 downto 32); m_axis_data_tuser_xk_index <= m_axis_data_tuser(11 downto 0); end tb;
-------------------------------------------------------------------------------- -- (c) Copyright 2010 - 2013 Xilinx, Inc. All rights reserved. -- -- This file contains confidential and proprietary information -- of Xilinx, Inc. and is protected under U.S. and -- international copyright and other intellectual property -- laws. -- -- DISCLAIMER -- This disclaimer is not a license and does not grant any -- rights to the materials distributed herewith. Except as -- otherwise provided in a valid license issued to you by -- Xilinx, and to the maximum extent permitted by applicable -- law: (1) THESE MATERIALS ARE MADE AVAILABLE "AS IS" AND -- WITH ALL FAULTS, AND XILINX HEREBY DISCLAIMS ALL WARRANTIES -- AND CONDITIONS, EXPRESS, IMPLIED, OR STATUTORY, INCLUDING -- BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, NON- -- INFRINGEMENT, OR FITNESS FOR ANY PARTICULAR PURPOSE; and -- (2) Xilinx shall not be liable (whether in contract or tort, -- including negligence, or under any other theory of -- liability) for any loss or damage of any kind or nature -- related to, arising under or in connection with these -- materials, including for any direct, or any indirect, -- special, incidental, or consequential loss or damage -- (including loss of data, profits, goodwill, or any type of -- loss or damage suffered as a result of any action brought -- by a third party) even if such damage or loss was -- reasonably foreseeable or Xilinx had been advised of the -- possibility of the same. -- -- CRITICAL APPLICATIONS -- Xilinx products are not designed or intended to be fail- -- safe, or for use in any application requiring fail-safe -- performance, such as life-support or safety devices or -- systems, Class III medical devices, nuclear facilities, -- applications related to the deployment of airbags, or any -- other applications that could lead to death, personal -- injury, or severe property or environmental damage -- (individually and collectively, "Critical -- Applications"). Customer assumes the sole risk and -- liability of any use of Xilinx products in Critical -- Applications, subject only to applicable laws and -- regulations governing limitations on product liability. -- -- THIS COPYRIGHT NOTICE AND DISCLAIMER MUST BE RETAINED AS -- PART OF THIS FILE AT ALL TIMES. -------------------------------------------------------------------------------- -- Description: -- This is an example testbench for the Fast Fourier Transform IP core. -- The testbench has been generated by Vivado to accompany the IP core -- instance you have generated. -- -- This testbench is for demonstration purposes only. See note below for -- instructions on how to use it with your core. -- -- See the Fast Fourier Transform product guide for further information -- about this core. -- -------------------------------------------------------------------------------- -- Using this testbench -- -- This testbench instantiates your generated Fast Fourier Transform core -- instance named "fft". -- -- Use Vivado's Run Simulation flow to run this testbench. See the Vivado -- documentation for details. -------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use ieee.math_real.all; entity tb_fft is end tb_fft; architecture tb of tb_fft is ----------------------------------------------------------------------- -- Timing constants ----------------------------------------------------------------------- constant CLOCK_PERIOD : time := 100 ns; constant T_HOLD : time := 10 ns; constant T_STROBE : time := CLOCK_PERIOD - (1 ns); ----------------------------------------------------------------------- -- DUT signals ----------------------------------------------------------------------- -- General signals signal aclk : std_logic := '0'; -- the master clock -- Config slave channel signals signal s_axis_config_tvalid : std_logic := '0'; -- payload is valid signal s_axis_config_tready : std_logic := '1'; -- slave is ready signal s_axis_config_tdata : std_logic_vector(7 downto 0) := (others => '0'); -- data payload -- Data slave channel signals signal s_axis_data_tvalid : std_logic := '0'; -- payload is valid signal s_axis_data_tready : std_logic := '1'; -- slave is ready signal s_axis_data_tdata : std_logic_vector(31 downto 0) := (others => '0'); -- data payload signal s_axis_data_tlast : std_logic := '0'; -- indicates end of packet -- Data master channel signals signal m_axis_data_tvalid : std_logic := '0'; -- payload is valid signal m_axis_data_tready : std_logic := '1'; -- slave is ready signal m_axis_data_tdata : std_logic_vector(63 downto 0) := (others => '0'); -- data payload signal m_axis_data_tuser : std_logic_vector(15 downto 0) := (others => '0'); -- user-defined payload signal m_axis_data_tlast : std_logic := '0'; -- indicates end of packet -- Event signals signal event_frame_started : std_logic := '0'; signal event_tlast_unexpected : std_logic := '0'; signal event_tlast_missing : std_logic := '0'; signal event_status_channel_halt : std_logic := '0'; signal event_data_in_channel_halt : std_logic := '0'; signal event_data_out_channel_halt : std_logic := '0'; ----------------------------------------------------------------------- -- Aliases for AXI channel TDATA and TUSER fields -- These are a convenience for viewing data in a simulator waveform viewer. -- If using ModelSim or Questa, add "-voptargs=+acc=n" to the vsim command -- to prevent the simulator optimizing away these signals. ----------------------------------------------------------------------- -- Config slave channel alias signals signal s_axis_config_tdata_fwd_inv : std_logic := '0'; -- forward or inverse -- Data slave channel alias signals signal s_axis_data_tdata_re : std_logic_vector(15 downto 0) := (others => '0'); -- real data signal s_axis_data_tdata_im : std_logic_vector(15 downto 0) := (others => '0'); -- imaginary data -- Data master channel alias signals signal m_axis_data_tdata_re : std_logic_vector(28 downto 0) := (others => '0'); -- real data signal m_axis_data_tdata_im : std_logic_vector(28 downto 0) := (others => '0'); -- imaginary data signal m_axis_data_tuser_xk_index : std_logic_vector(11 downto 0) := (others => '0'); -- sample index ----------------------------------------------------------------------- -- Constants, types and functions to create input data ----------------------------------------------------------------------- constant IP_WIDTH : integer := 16; constant MAX_SAMPLES : integer := 2**12; -- maximum number of samples in a frame type T_IP_SAMPLE is record re : std_logic_vector(IP_WIDTH-1 downto 0); im : std_logic_vector(IP_WIDTH-1 downto 0); end record; type T_IP_TABLE is array (0 to MAX_SAMPLES-1) of T_IP_SAMPLE; -- Zeroed input data table, for reset and initialization constant IP_TABLE_CLEAR : T_IP_TABLE := (others => (re => (others => '0'), im => (others => '0'))); -- Function to generate input data table -- Data is a complex sinusoid exp(-jwt) with a frequency 2.6 times the frame size -- added to another with a lower magnitude and a higher frequency function create_ip_table return T_IP_TABLE is variable result : T_IP_TABLE; variable theta : real; variable theta2 : real; variable re_real : real; variable im_real : real; variable re_int : integer; variable im_int : integer; constant DATA_WIDTH : integer := 14; begin for i in 0 to MAX_SAMPLES-1 loop theta := real(i) / real(MAX_SAMPLES) * 2.6 * 2.0 * MATH_PI; re_real := cos(-theta); im_real := sin(-theta); theta2 := real(i) / real(MAX_SAMPLES) * 23.2 * 2.0 * MATH_PI; re_real := re_real + (cos(-theta2) / 4.0); im_real := im_real + (sin(-theta2) / 4.0); re_int := integer(round(re_real * real(2**(DATA_WIDTH)))); im_int := integer(round(im_real * real(2**(DATA_WIDTH)))); result(i).re := std_logic_vector(to_signed(re_int, IP_WIDTH)); result(i).im := std_logic_vector(to_signed(im_int, IP_WIDTH)); end loop; return result; end function create_ip_table; -- Call the function to create the input data constant IP_DATA : T_IP_TABLE := create_ip_table; ----------------------------------------------------------------------- -- Testbench signals ----------------------------------------------------------------------- -- Communication between processes regarding DUT configuration type T_DO_CONFIG is (NONE, IMMEDIATE, AFTER_START, DONE); shared variable do_config : T_DO_CONFIG := NONE; -- instruction for driving config slave channel type T_CFG_FWD_INV is (FWD, INV); signal cfg_fwd_inv : T_CFG_FWD_INV := FWD; -- Recording output data, for reuse as input data signal ip_frame : integer := 0; -- input / configuration frame number signal op_data : T_IP_TABLE := IP_TABLE_CLEAR; -- recorded output data signal op_frame : integer := 0; -- output frame number (incremented at end of frame output) begin ----------------------------------------------------------------------- -- Instantiate the DUT ----------------------------------------------------------------------- dut : entity work.fft port map ( aclk => aclk, s_axis_config_tvalid => s_axis_config_tvalid, s_axis_config_tready => s_axis_config_tready, s_axis_config_tdata => s_axis_config_tdata, s_axis_data_tvalid => s_axis_data_tvalid, s_axis_data_tready => s_axis_data_tready, s_axis_data_tdata => s_axis_data_tdata, s_axis_data_tlast => s_axis_data_tlast, m_axis_data_tvalid => m_axis_data_tvalid, m_axis_data_tready => m_axis_data_tready, m_axis_data_tdata => m_axis_data_tdata, m_axis_data_tuser => m_axis_data_tuser, m_axis_data_tlast => m_axis_data_tlast, event_frame_started => event_frame_started, event_tlast_unexpected => event_tlast_unexpected, event_tlast_missing => event_tlast_missing, event_status_channel_halt => event_status_channel_halt, event_data_in_channel_halt => event_data_in_channel_halt, event_data_out_channel_halt => event_data_out_channel_halt ); ----------------------------------------------------------------------- -- Generate clock ----------------------------------------------------------------------- clock_gen : process begin aclk <= '0'; wait for CLOCK_PERIOD; loop aclk <= '0'; wait for CLOCK_PERIOD/2; aclk <= '1'; wait for CLOCK_PERIOD/2; end loop; end process clock_gen; ----------------------------------------------------------------------- -- Generate data slave channel inputs ----------------------------------------------------------------------- data_stimuli : process -- Variables for random number generation variable seed1, seed2 : positive; variable rand : real; -- Procedure to drive an input sample with specific data -- data is the data value to drive on the tdata signal -- last is the bit value to drive on the tlast signal -- valid_mode defines how to drive TVALID: 0 = TVALID always high, 1 = TVALID low occasionally procedure drive_sample ( data : std_logic_vector(31 downto 0); last : std_logic; valid_mode : integer := 0 ) is begin s_axis_data_tdata <= data; s_axis_data_tlast <= last; if valid_mode = 1 then uniform(seed1, seed2, rand); -- generate random number if rand < 0.25 then s_axis_data_tvalid <= '0'; uniform(seed1, seed2, rand); -- generate another random number wait for CLOCK_PERIOD * integer(round(rand * 4.0)); -- hold TVALID low for up to 4 cycles s_axis_data_tvalid <= '1'; -- now assert TVALID else s_axis_data_tvalid <= '1'; end if; else s_axis_data_tvalid <= '1'; end if; loop wait until rising_edge(aclk); exit when s_axis_data_tready = '1'; end loop; wait for T_HOLD; s_axis_data_tvalid <= '0'; end procedure drive_sample; -- Procedure to drive an input frame with a table of data -- data is the data table containing input data -- valid_mode defines how to drive TVALID: 0 = TVALID always high, 1 = TVALID low occasionally procedure drive_frame ( data : T_IP_TABLE; valid_mode : integer := 0 ) is variable samples : integer; variable index : integer; variable sample_data : std_logic_vector(31 downto 0); variable sample_last : std_logic; begin samples := data'length; index := 0; while index < data'length loop -- Look up sample data in data table, construct TDATA value sample_data(15 downto 0) := data(index).re; -- real data sample_data(31 downto 16) := data(index).im; -- imaginary data -- Construct TLAST's value index := index + 1; if index >= data'length then sample_last := '1'; else sample_last := '0'; end if; -- Drive the sample drive_sample(sample_data, sample_last, valid_mode); end loop; end procedure drive_frame; variable op_data_saved : T_IP_TABLE; -- to save a copy of recorded output data begin -- Drive inputs T_HOLD time after rising edge of clock wait until rising_edge(aclk); wait for T_HOLD; -- Drive a frame of input data ip_frame <= 1; drive_frame(IP_DATA); -- Allow the result to emerge wait until m_axis_data_tlast = '1'; wait until rising_edge(aclk); wait for T_HOLD; -- Take a copy of the result, to use later as input op_data_saved := op_data; -- Now perform an inverse transform on the result to get back to the original input -- Set up the configuration (config_stimuli process handles the config slave channel) ip_frame <= 2; cfg_fwd_inv <= INV; do_config := IMMEDIATE; while do_config /= DONE loop wait until rising_edge(aclk); end loop; wait for T_HOLD; -- Configuration is done. Set up another configuration to return to forward transforms, -- and make the configuration occur as soon as the next frame has begun ip_frame <= 3; cfg_fwd_inv <= FWD; do_config := AFTER_START; -- Now drive the input data, using the output data of the last frame drive_frame(op_data); wait until m_axis_data_tlast = '1'; wait until rising_edge(aclk); wait for T_HOLD; -- The frame is complete, and the configuration to forward transforms has already been done, -- so drive the input data, using the output data of the last frame, -- which is the same as the original input (excepting scaling and finite precision effects). -- This time, deassert the data slave channel TVALID occasionally to illustrate AXI handshaking effects: -- as the core is configured to use Non Real Time throttle scheme, it will pause when TVALID is low. drive_frame(op_data, 1); -- During the output of this frame, deassert the data master channel TREADY occasionally: -- as the core is configured to use Non Real Time throttle scheme, it will pause when TREADY is low. wait until m_axis_data_tvalid = '1'; wait until rising_edge(aclk); while m_axis_data_tlast /= '1' loop wait for T_HOLD; uniform(seed1, seed2, rand); -- generate random number if rand < 0.25 then m_axis_data_tready <= '0'; else m_axis_data_tready <= '1'; end if; wait until rising_edge(aclk); end loop; wait for T_HOLD; m_axis_data_tready <= '1'; wait for CLOCK_PERIOD; -- Now run 4 back-to-back transforms, as quickly as possible. -- First queue up 2 configurations: these will be applied successively over the next 2 transforms. -- 1st configuration ip_frame <= 4; cfg_fwd_inv <= FWD; -- forward transform do_config := IMMEDIATE; while do_config /= DONE loop wait until rising_edge(aclk); end loop; wait for T_HOLD; -- 2nd configuration: same as 1st, except: ip_frame <= 5; cfg_fwd_inv <= INV; -- inverse transform do_config := IMMEDIATE; while do_config /= DONE loop wait until rising_edge(aclk); end loop; wait for T_HOLD; -- Drive the 1st data frame drive_frame(IP_DATA); -- Request a 3rd configuration, to be sent after 2nd data frame starts ip_frame <= 6; cfg_fwd_inv <= FWD; -- forward transform do_config := AFTER_START; -- Drive the 2nd data frame drive_frame(op_data_saved); -- Request a 4th configuration, to be sent after 3rd data frame starts: same as 3rd, except: ip_frame <= 7; cfg_fwd_inv <= INV; -- inverse transform do_config := AFTER_START; -- Drive the 3rd data frame drive_frame(IP_DATA); -- Drive the 4th data frame drive_frame(op_data_saved); -- Wait until all the output data from all frames has been produced wait until op_frame = 7; wait for CLOCK_PERIOD * 10; -- End of test report "Not a real failure. Simulation finished successfully. Test completed successfully" severity failure; wait; end process data_stimuli; ----------------------------------------------------------------------- -- Generate config slave channel inputs ----------------------------------------------------------------------- config_stimuli : process begin -- Drive a configuration when requested by data_stimuli process wait until rising_edge(aclk); while do_config = NONE or do_config = DONE loop wait until rising_edge(aclk); end loop; -- If the configuration is requested to occur after the next frame starts, wait for that event if do_config = AFTER_START then wait until event_frame_started = '1'; wait until rising_edge(aclk); end if; -- Drive inputs T_HOLD time after rising edge of clock wait for T_HOLD; -- Construct the config slave channel TDATA signal s_axis_config_tdata <= (others => '0'); -- clear unused bits -- Format the transform direction if cfg_fwd_inv = FWD then s_axis_config_tdata(0) <= '1'; -- forward elsif cfg_fwd_inv = INV then s_axis_config_tdata(0) <= '0'; -- inverse end if; -- Drive the transaction on the config slave channel s_axis_config_tvalid <= '1'; loop wait until rising_edge(aclk); exit when s_axis_config_tready = '1'; end loop; wait for T_HOLD; s_axis_config_tvalid <= '0'; -- Tell the data_stimuli process that the configuration has been done do_config := DONE; end process config_stimuli; ----------------------------------------------------------------------- -- Record outputs, to use later as inputs for another frame ----------------------------------------------------------------------- record_outputs : process (aclk) variable index : integer := 0; begin if rising_edge(aclk) then if m_axis_data_tvalid = '1' and m_axis_data_tready = '1' then -- Record output data such that it can be used as input data -- Output sample index is given by xk_index field of m_axis_data_tuser index := to_integer(unsigned(m_axis_data_tuser(11 downto 0))); -- Truncate output data to match input data width op_data(index).re <= m_axis_data_tdata(28 downto 13); op_data(index).im <= m_axis_data_tdata(60 downto 45); -- Track the number of output frames if m_axis_data_tlast = '1' then -- end of output frame: increment frame counter op_frame <= op_frame + 1; end if; end if; end if; end process record_outputs; ----------------------------------------------------------------------- -- Check outputs ----------------------------------------------------------------------- check_outputs : process variable check_ok : boolean := true; -- Previous values of data master channel signals variable m_data_tvalid_prev : std_logic := '0'; variable m_data_tready_prev : std_logic := '0'; variable m_data_tdata_prev : std_logic_vector(63 downto 0) := (others => '0'); variable m_data_tuser_prev : std_logic_vector(15 downto 0) := (others => '0'); begin -- Check outputs T_STROBE time after rising edge of clock wait until rising_edge(aclk); wait for T_STROBE; -- Do not check the output payload values, as this requires a numerical model -- which would make this demonstration testbench unwieldy. -- Instead, check the protocol of the data master channel: -- check that the payload is valid (not X) when TVALID is high -- and check that the payload does not change while TVALID is high until TREADY goes high if m_axis_data_tvalid = '1' then if is_x(m_axis_data_tdata) then report "ERROR: m_axis_data_tdata is invalid when m_axis_data_tvalid is high" severity error; check_ok := false; end if; if is_x(m_axis_data_tuser) then report "ERROR: m_axis_data_tuser is invalid when m_axis_data_tvalid is high" severity error; check_ok := false; end if; if m_data_tvalid_prev = '1' and m_data_tready_prev = '0' then -- payload must be the same as last cycle if m_axis_data_tdata /= m_data_tdata_prev then report "ERROR: m_axis_data_tdata changed while m_axis_data_tvalid was high and m_axis_data_tready was low" severity error; check_ok := false; end if; if m_axis_data_tuser /= m_data_tuser_prev then report "ERROR: m_axis_data_tuser changed while m_axis_data_tvalid was high and m_axis_data_tready was low" severity error; check_ok := false; end if; end if; end if; assert check_ok report "ERROR: terminating test with failures." severity failure; -- Record payload values for checking next clock cycle if check_ok then m_data_tvalid_prev := m_axis_data_tvalid; m_data_tready_prev := m_axis_data_tready; m_data_tdata_prev := m_axis_data_tdata; m_data_tuser_prev := m_axis_data_tuser; end if; end process check_outputs; ----------------------------------------------------------------------- -- Assign TDATA / TUSER fields to aliases, for easy simulator waveform viewing ----------------------------------------------------------------------- -- Config slave channel alias signals s_axis_config_tdata_fwd_inv <= s_axis_config_tdata(0); -- Data slave channel alias signals s_axis_data_tdata_re <= s_axis_data_tdata(15 downto 0); s_axis_data_tdata_im <= s_axis_data_tdata(31 downto 16); -- Data master channel alias signals m_axis_data_tdata_re <= m_axis_data_tdata(28 downto 0); m_axis_data_tdata_im <= m_axis_data_tdata(60 downto 32); m_axis_data_tuser_xk_index <= m_axis_data_tuser(11 downto 0); end tb;
-------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; -------------------------------------- entity vending_machine_tb is end entity vending_machine_tb; -------------------------------------- architecture circuit of vending_machine_tb is -- dut declaration component vending_machine is port ( clk, rst: in std_logic; nickel_in, dime_in, quarter_in: in boolean; candy_out, nickel_out, dime_out: out std_logic); end component vending_machine; -- signal declaration signal clk_tb: std_logic := '0'; signal rst_tb: std_logic := '1'; signal nickel_in_tb, dime_in_tb, quarter_in_tb: boolean; signal candy_out_tb, nickel_out_tb, dime_out_tb: std_logic; begin -- dut instantiation dut: vending_machine port map ( clk_tb, rst_tb, nickel_in_tb, dime_in_tb, quarter_in_tb, candy_out_tb, nickel_out_tb, dime_out_tb ); -- stimuli generation -- clock clk_tb <= not clk_tb after 20 ns; -- rst rst_tb <= '0' after 40 ns; -- nickel_in nickel_in_tb <= false, true after 120 ns, false after 160 ns; -- dime_in dime_in_tb <= false, true after 200 ns, false after 240 ns; -- quarter_in quarter_in_tb <= false, true after 280 ns, false after 320 ns; end architecture circuit;
-- 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 3 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, see <http://www.gnu.org/licenses/> -- -- Copyright (C) 2014 Jakub Kicinski <kubakici@wp.pl> library IEEE; use IEEE.STD_LOGIC_1164.all; use IEEE.STD_LOGIC_ARITH.all; use IEEE.STD_LOGIC_UNSIGNED.all; -- Binary wrap-around counter entity counter is generic (N_BITS : integer); port (Clk : in std_logic; Rst : in std_logic; Cnt : out std_logic_vector (N_BITS - 1 downto 0)); end counter; -- Operation: -- Increase input from 0 to 2^N_BITS - 1 then start from zero again architecture Behavioral of counter is signal count : std_logic_vector (N_BITS - 1 downto 0); begin Cnt <= count; inc : process (Clk) begin if RISING_EDGE(Clk) then count <= count + 1; if Rst = '1' then count <= (others => '0'); end if; end if; end process; end Behavioral;
-- wasca.vhd -- Generated using ACDS version 14.1 186 at 2015.05.28.08:37:08 library IEEE; use IEEE.std_logic_1164.all; use IEEE.numeric_std.all; entity wasca_toplevel is port ( clk_clk : in std_logic := '0'; -- clk.clk sdram_addr : out std_logic_vector(12 downto 0); -- external_sdram_controller_wire.addr sdram_ba : out std_logic_vector(1 downto 0); -- .ba sdram_cas_n : out std_logic; -- .cas_n sdram_cke : out std_logic; -- .cke sdram_cs_n : out std_logic; -- .cs_n sdram_dq : inout std_logic_vector(15 downto 0) := (others => '0'); -- .dq sdram_dqm : out std_logic_vector(1 downto 0); -- .dqm sdram_ras_n : out std_logic; -- .ras_n sdram_we_n : out std_logic; -- .we_n sdram_clk : out std_logic; -- .clk reset_reset_n : in std_logic := '0'; -- reset.reset_n abus_address : in std_logic_vector(24 downto 1) := (others => '0'); -- sega_saturn_abus_slave_0_abus.address abus_data : inout std_logic_vector(15 downto 0) := (others => '0'); -- .data abus_chipselect : in std_logic_vector(2 downto 0) := (others => '0'); -- .chipselect abus_read : in std_logic := '0'; -- .read abus_write : in std_logic_vector(1 downto 0) := (others => '0'); -- .write abus_interrupt : out std_logic := '0'; -- .interrupt abus_interrupt_disable_out : out std_logic := '1'; -- abus_direction : out std_logic := '0'; -- .direction heartbeat : out std_logic := '0' ; spi_stm32_MISO : in std_logic; -- MISO spi_stm32_MOSI : out std_logic := '0'; -- MOSI spi_stm32_SCLK : out std_logic := '0'; -- SCLK spi_stm32_sync_miso : in std_logic; -- SPI synchronization spi_stm32_sync_mosi : out std_logic := '0'; -- SS_n uart_0_external_connection_txd : out std_logic := '0' ); end entity wasca_toplevel; architecture rtl of wasca_toplevel is component wasca is port ( abus_avalon_sdram_bridge_0_abus_address : in std_logic_vector(24 downto 0) := (others => 'X'); -- address abus_avalon_sdram_bridge_0_abus_read : in std_logic := 'X'; -- read abus_avalon_sdram_bridge_0_abus_data : inout std_logic_vector(15 downto 0) := (others => 'X'); -- data abus_avalon_sdram_bridge_0_abus_chipselect : in std_logic_vector(2 downto 0) := (others => 'X'); -- chipselect abus_avalon_sdram_bridge_0_abus_direction : out std_logic; -- direction abus_avalon_sdram_bridge_0_abus_interrupt_disable_out : out std_logic; -- interrupt_disable_out abus_avalon_sdram_bridge_0_abus_interrupt : out std_logic; -- interrupt abus_avalon_sdram_bridge_0_abus_writebyteenable_n : in std_logic_vector(1 downto 0) := (others => 'X'); -- writebyteenable_n abus_avalon_sdram_bridge_0_abus_reset : in std_logic := 'X'; -- reset abus_avalon_sdram_bridge_0_sdram_addr : out std_logic_vector(12 downto 0); -- addr abus_avalon_sdram_bridge_0_sdram_ba : out std_logic_vector(1 downto 0); -- ba abus_avalon_sdram_bridge_0_sdram_cas_n : out std_logic; -- cas_n abus_avalon_sdram_bridge_0_sdram_cke : out std_logic; -- cke abus_avalon_sdram_bridge_0_sdram_cs_n : out std_logic; -- cs_n abus_avalon_sdram_bridge_0_sdram_dq : inout std_logic_vector(15 downto 0) := (others => 'X'); -- dq abus_avalon_sdram_bridge_0_sdram_dqm : out std_logic_vector(1 downto 0); -- dqm abus_avalon_sdram_bridge_0_sdram_ras_n : out std_logic; -- ras_n abus_avalon_sdram_bridge_0_sdram_we_n : out std_logic; -- we_n abus_avalon_sdram_bridge_0_sdram_clk : out std_logic; -- clk buffered_spi_sync_miso : in std_logic; -- SPI synchronization buffered_spi_sync_mosi : out std_logic; -- cs buffered_spi_mosi : out std_logic; -- mosi buffered_spi_clk : out std_logic; -- clk buffered_spi_miso : in std_logic := 'X'; -- miso buffered_spi_cs : out std_logic; -- cs clk_clk : in std_logic := 'X'; -- clk clock_116_mhz_clk : out std_logic; -- clk reset_reset_n : in std_logic := 'X'; -- reset_n reset_controller_0_reset_in1_reset : in std_logic := 'X'; -- reset heartbeat_heartbeat_out : out std_logic; -- txd uart_0_external_connection_rxd : in std_logic := 'Z'; -- rxd uart_0_external_connection_txd : out std_logic -- txd ); end component wasca; --signal sega_saturn_abus_slave_0_abus_address_demuxed : std_logic_vector(25 downto 0) := (others => '0'); --signal sega_saturn_abus_slave_0_abus_data_demuxed : std_logic_vector(15 downto 0) := (others => '0'); signal clock_116_mhz : std_logic := '0'; signal por_counter : unsigned(31 downto 0) := (others => '0'); signal por_reset : std_logic := '0'; signal por_reset_n : std_logic := '0'; signal abus_address_with_a0 : std_logic_vector(24 downto 0) := (others => '0'); begin sdram_clk <= not clock_116_mhz; abus_address_with_a0 <= abus_address&"0"; my_little_wasca : component wasca port map ( clk_clk => clk_clk, clock_116_mhz_clk => clock_116_mhz, abus_avalon_sdram_bridge_0_sdram_addr => sdram_addr, abus_avalon_sdram_bridge_0_sdram_ba => sdram_ba, abus_avalon_sdram_bridge_0_sdram_cas_n => sdram_cas_n, abus_avalon_sdram_bridge_0_sdram_cke => sdram_cke, abus_avalon_sdram_bridge_0_sdram_cs_n => sdram_cs_n, abus_avalon_sdram_bridge_0_sdram_dq => sdram_dq, abus_avalon_sdram_bridge_0_sdram_dqm => sdram_dqm, abus_avalon_sdram_bridge_0_sdram_ras_n => sdram_ras_n, abus_avalon_sdram_bridge_0_sdram_we_n => sdram_we_n, abus_avalon_sdram_bridge_0_abus_address => abus_address_with_a0, abus_avalon_sdram_bridge_0_abus_chipselect => "1"&abus_chipselect(1 downto 0),--work only with CS1 and CS0 for now abus_avalon_sdram_bridge_0_abus_read => abus_read, abus_avalon_sdram_bridge_0_abus_writebyteenable_n => abus_write, abus_avalon_sdram_bridge_0_abus_interrupt => abus_interrupt, abus_avalon_sdram_bridge_0_abus_data => abus_data, abus_avalon_sdram_bridge_0_abus_direction => abus_direction, abus_avalon_sdram_bridge_0_abus_interrupt_disable_out => open,--abus_interrupt_disable_out, abus_avalon_sdram_bridge_0_abus_reset => reset_reset_n, heartbeat_heartbeat_out => heartbeat, buffered_spi_sync_miso => spi_stm32_sync_miso, buffered_spi_sync_mosi => spi_stm32_sync_mosi, buffered_spi_miso => spi_stm32_MISO, buffered_spi_mosi => spi_stm32_MOSI, buffered_spi_clk => spi_stm32_SCLK, buffered_spi_cs => open, reset_reset_n => por_reset_n, reset_controller_0_reset_in1_reset => por_reset, uart_0_external_connection_rxd => '0', uart_0_external_connection_txd => uart_0_external_connection_txd ); --empty subsystem -- external_sdram_controller_wire_addr <= (others => 'Z'); -- external_sdram_controller_wire_ba <= (others => 'Z'); -- external_sdram_controller_wire_cas_n <= (others => 'Z'); -- external_sdram_controller_wire_cke <= (others => 'Z'); -- external_sdram_controller_wire_cs_n <= (others => 'Z'); -- external_sdram_controller_wire_dq <= (others => 'Z'); -- external_sdram_controller_wire_dqm <= (others => 'Z'); -- external_sdram_controller_wire_ras_n <= (others => 'Z'); -- external_sdram_controller_wire_we_n <= (others => 'Z'); -- external_sdram_controller_wire_clk <= (others => 'Z'); -- sega_saturn_abus_slave_0_abus_data <= (others => 'Z'); -- sega_saturn_abus_slave_0_abus_interrupt <= (others => 'Z'); -- sega_saturn_abus_slave_0_abus_disableout <= '1'; -- sega_saturn_abus_slave_0_abus_direction <= '0'; -- spi_sd_card_MOSI <= 'Z'; -- spi_sd_card_SCLK <= 'Z'; -- spi_sd_card_SS_n <= 'Z'; -- uart_0_external_connection_txd <= 'Z'; -- spi_stm32_MISO <= 'Z'; -- audio_out_DACDAT <= 'Z'; --sega_saturn_abus_slave_0_abus_direction <= '0'; abus_interrupt_disable_out <= '1'; --por process (clock_116_mhz) begin if std_logic(por_counter(24)) = '0' then por_counter <= por_counter + 1; end if; end process; por_reset <= (std_logic(por_counter(22))); por_reset_n <= not (std_logic(por_counter(22))); end architecture rtl; -- of wasca_toplevel
architecture rtl of fifo is begin a <= (others => (others => '0')); process begin a <= (others => (others => '0')); end process; end architecture; architecture rtl of fifo is begin a <= (others =>(others => '0')); process begin a <= (others => (others =>'0')); end process; 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: tc152.vhd,v 1.2 2001-10-26 16:30:10 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c04s03b02x02p16n01i00152ent_a IS port (signal input_1 : in bit; signal input_2 : in bit; signal output : out bit); END c04s03b02x02p16n01i00152ent_a; ARCHITECTURE c04s03b02x02p16n01i00152arch_a OF c04s03b02x02p16n01i00152ent_a IS BEGIN END c04s03b02x02p16n01i00152arch_a; ENTITY c04s03b02x02p16n01i00152ent IS port (X: in BIT; Z: out BIT); END c04s03b02x02p16n01i00152ent; ARCHITECTURE c04s03b02x02p16n01i00152arch OF c04s03b02x02p16n01i00152ent IS component input2 port (signal input_1 : in bit; signal input_2 : in bit; signal output : out bit); end component; for G1 : input2 use entity work.c04s03b02x02p16n01i00152ent_a(c04s03b02x02p16n01i00152arch_a); type byte is array (1 to 8) of bit; signal A1 : byte; BEGIN G1: input2 port map (X, A1, Z); -- Failure_here TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c04s03b02x02p16n01i00152 - The type of an actual should be same as that of the formal." severity ERROR; wait; END PROCESS TESTING; END c04s03b02x02p16n01i00152arch;
-- 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: tc152.vhd,v 1.2 2001-10-26 16:30:10 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c04s03b02x02p16n01i00152ent_a IS port (signal input_1 : in bit; signal input_2 : in bit; signal output : out bit); END c04s03b02x02p16n01i00152ent_a; ARCHITECTURE c04s03b02x02p16n01i00152arch_a OF c04s03b02x02p16n01i00152ent_a IS BEGIN END c04s03b02x02p16n01i00152arch_a; ENTITY c04s03b02x02p16n01i00152ent IS port (X: in BIT; Z: out BIT); END c04s03b02x02p16n01i00152ent; ARCHITECTURE c04s03b02x02p16n01i00152arch OF c04s03b02x02p16n01i00152ent IS component input2 port (signal input_1 : in bit; signal input_2 : in bit; signal output : out bit); end component; for G1 : input2 use entity work.c04s03b02x02p16n01i00152ent_a(c04s03b02x02p16n01i00152arch_a); type byte is array (1 to 8) of bit; signal A1 : byte; BEGIN G1: input2 port map (X, A1, Z); -- Failure_here TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c04s03b02x02p16n01i00152 - The type of an actual should be same as that of the formal." severity ERROR; wait; END PROCESS TESTING; END c04s03b02x02p16n01i00152arch;
-- 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: tc152.vhd,v 1.2 2001-10-26 16:30:10 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c04s03b02x02p16n01i00152ent_a IS port (signal input_1 : in bit; signal input_2 : in bit; signal output : out bit); END c04s03b02x02p16n01i00152ent_a; ARCHITECTURE c04s03b02x02p16n01i00152arch_a OF c04s03b02x02p16n01i00152ent_a IS BEGIN END c04s03b02x02p16n01i00152arch_a; ENTITY c04s03b02x02p16n01i00152ent IS port (X: in BIT; Z: out BIT); END c04s03b02x02p16n01i00152ent; ARCHITECTURE c04s03b02x02p16n01i00152arch OF c04s03b02x02p16n01i00152ent IS component input2 port (signal input_1 : in bit; signal input_2 : in bit; signal output : out bit); end component; for G1 : input2 use entity work.c04s03b02x02p16n01i00152ent_a(c04s03b02x02p16n01i00152arch_a); type byte is array (1 to 8) of bit; signal A1 : byte; BEGIN G1: input2 port map (X, A1, Z); -- Failure_here TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c04s03b02x02p16n01i00152 - The type of an actual should be same as that of the formal." severity ERROR; wait; END PROCESS TESTING; END c04s03b02x02p16n01i00152arch;
library ieee; use ieee.std_logic_1164.all; entity inner is port ( clk : in std_logic; inner_counter : in std_logic_vector(6 downto 0)); end inner; architecture default of inner is begin assert now < 1 ns or inner_counter (6) /= 'U' severity error; assert inner_counter (6) /= 'U' severity error; --do something end architecture; library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity test_bench is end test_bench; architecture default of test_bench is signal clk : std_logic := '0'; signal counter : unsigned(7 downto 0) := (others => '0'); begin i0: entity work.inner port map ( clk => clk, inner_counter => std_logic_vector(counter(6 downto 0))); process begin clk <= '1'; wait for 1 ns; clk <= '0'; wait for 1 ns; end process; process(clk) begin if rising_edge(clk) then counter <= counter + 1; end if; end process; end default;
library ieee; use ieee.std_logic_1164.all; entity inner is port ( clk : in std_logic; inner_counter : in std_logic_vector(6 downto 0)); end inner; architecture default of inner is begin assert now < 1 ns or inner_counter (6) /= 'U' severity error; assert inner_counter (6) /= 'U' severity error; --do something end architecture; library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity test_bench is end test_bench; architecture default of test_bench is signal clk : std_logic := '0'; signal counter : unsigned(7 downto 0) := (others => '0'); begin i0: entity work.inner port map ( clk => clk, inner_counter => std_logic_vector(counter(6 downto 0))); process begin clk <= '1'; wait for 1 ns; clk <= '0'; wait for 1 ns; end process; process(clk) begin if rising_edge(clk) then counter <= counter + 1; end if; end process; end default;
-------------------------------------------------------------------------------- -- -- AM2901 Benchmark -- -- Source: AMD data book -- -- VHDL Benchmark author Indraneel Ghosh -- University Of California, Irvine, CA 92717 -- -- Developed on Jan 1, 1992 -- -- Verification Information: -- -- Verified By whom? Date Simulator -- -------- ------------ -------- ------------ -- Syntax yes Champaka Ramachandran Sept 17, 92 ZYCAD -- Functionality yes Champaka Ramachandran Sept 17, 92 ZYCAD -------------------------------------------------------------------------------- --library ZYCAD; use work.TYPES.all; use work.MVL7_functions.all; entity E is end; architecture A of E is component alu_inst port ( RE, S : in MVL7_vector(3 downto 0); I : in MVL7_vector(8 downto 0); C0 : in MVL7; C4, OVR, F30, F3, Pbar, Gbar : out MVL7; F : out MVL7_vector(3 downto 0) ); end component; signal RE, S : MVL7_vector(3 downto 0); signal I : MVL7_vector(8 downto 0); signal C0 : MVL7; signal C4, OVR, F30, F3, Pbar, Gbar : MVL7; signal F : MVL7_vector(3 downto 0); for all : alu_inst use entity work.alu(alu); begin alu_inst1 : alu_inst port map( RE, S, I, C0, C4, OVR, F30, F3, Pbar, Gbar, F ); process begin ---------------------------------------------------------------------------- RE <= "0001"; --#1 S <= "0001"; C0 <= '0'; -- Compute RE + S. ( RE = 0001, S = 0001) I <= "000000000"; wait for 1 ns; assert (F = "0010") report "Assert a1 : < F /= '0010'> " severity warning; assert (C4 = '0') report "Assert a2 : < C4 /= '0'> " severity warning; assert (OVR = '0') report "Assert a3 : < OVR /= '0'> " severity warning; assert (F30 = '0') report "Assert a4 : < F30 /= '0'> " severity warning; assert (F3 = '0') report "Assert a5 : < F3 /= '0'> " severity warning; assert (Pbar = '1') report "Assert a6 : < Pbar /= '1'> " severity warning; assert (Gbar = '1') report "Assert a7 : < Gbar /= '1'> " severity warning; wait for 1 ns; ---------------------------------------------------------------------------- RE <= "0010"; --#2 S <= "0010"; C0 <= '1'; -- Compute RE + S + 1. ( RE = 0010, S = 0010) I <= "000000000"; wait for 1 ns; assert (F = "0101") report "Assert b1 : < F /= '0101'> " severity warning; assert (C4 = '0') report "Assert b2 : < C4 /= '0'> " severity warning; assert (OVR = '0') report "Assert b3 : < OVR /= '0'> " severity warning; assert (F30 = '0') report "Assert b4 : < F30 /= '0'> " severity warning; assert (F3 = '0') report "Assert b5 : < F3 /= '0'> " severity warning; assert (Pbar = '1') report "Assert b6 : < Pbar /= '1'> " severity warning; assert (Gbar = '1') report "Assert b7 : < Gbar /= '1'> " severity warning; wait for 1 ns; ---------------------------------------------------------------------------- RE <= "0100"; --#3 S <= "0100"; C0 <= '0'; -- Compute RE + S. ( RE = 0100, S = 0100) I <= "000000000"; wait for 1 ns; assert (F = "1000") report "Assert c1 : < F /= '1000'> " severity warning; assert (C4 = '0') report "Assert c2 : < C4 /= '0'> " severity warning; assert (OVR = '1') report "Assert c3 : < OVR /= '1'> " severity warning; assert (F30 = '0') report "Assert c4 : < F30 /= '0'> " severity warning; assert (F3 = '1') report "Assert c5 : < F3 /= '1'> " severity warning; assert (Pbar = '1') report "Assert c6 : < Pbar /= '1'> " severity warning; assert (Gbar = '1') report "Assert c7 : < Gbar /= '1'> " severity warning; wait for 1 ns; ---------------------------------------------------------------------------- RE <= "1000"; --#4 S <= "1000"; C0 <= '0'; -- Compute RE + S. ( RE = 1000, S = 1000) I <= "000000000"; wait for 1 ns; assert (F = "0000") report "Assert d1 : < F /= '0000'> " severity warning; assert (C4 = '1') report "Assert d2 : < C4 /= '1'> " severity warning; assert (OVR = '1') report "Assert d3 : < OVR /= '1'> " severity warning; assert (F30 = '1') report "Assert d4 : < F30 /= '1'> " severity warning; assert (F3 = '0') report "Assert d5 : < F3 /= '0'> " severity warning; assert (Pbar = '1') report "Assert d6 : < Pbar /= '1'> " severity warning; assert (Gbar = '0') report "Assert d7 : < Gbar /= '0'> " severity warning; wait for 1 ns; ---------------------------------------------------------------------------- RE <= "0001"; --#5 S <= "0010"; C0 <= '1'; -- Compute S - RE. ( RE = 0001, S = 0010) I <= "000001000"; wait for 1 ns; assert (F = "0001") report "Assert e1 : < F /= '0001'> " severity warning; assert (C4 = '1') report "Assert e2 : < C4 /= '1'> " severity warning; assert (OVR = '0') report "Assert e3 : < OVR /= '0'> " severity warning; assert (F30 = '0') report "Assert e4 : < F30 /= '0'> " severity warning; assert (F3 = '0') report "Assert e5 : < F3 /= '0'> " severity warning; assert (Pbar = '1') report "Assert e6 : < Pbar /= '1'> " severity warning; assert (Gbar = '0') report "Assert e7 : < Gbar /= '0'> " severity warning; wait for 1 ns; ---------------------------------------------------------------------------- RE <= "0001"; --#6 S <= "0010"; C0 <= '0'; -- Compute S - RE -1. ( RE = 0001, S = 0010) I <= "000001000"; wait for 1 ns; assert (F = "0000") report "Assert f1 : < F /= '0000'> " severity warning; assert (C4 = '1') report "Assert f2 : < C4 /= '1'> " severity warning; assert (OVR = '0') report "Assert f3 : < OVR /= '0'> " severity warning; assert (F30 = '1') report "Assert f4 : < F30 /= '1'> " severity warning; assert (F3 = '0') report "Assert f5 : < F3 /= '0'> " severity warning; assert (Pbar = '1') report "Assert f6 : < Pbar /= '1'> " severity warning; assert (Gbar = '0') report "Assert f7 : < Gbar /= '0'> " severity warning; wait for 1 ns; ---------------------------------------------------------------------------- RE <= "1000"; --#7 S <= "0001"; C0 <= '1'; -- Compute RE - S. ( RE = 1000, S = 0001) I <= "000010000"; wait for 1 ns; assert (F = "0111") report "Assert g1 : < F /= '0111'> " severity warning; assert (C4 = '1') report "Assert g2 : < C4 /= '1'> " severity warning; assert (OVR = '1') report "Assert g3 : < OVR /= '1'> " severity warning; assert (F30 = '0') report "Assert g4 : < F30 /= '0'> " severity warning; assert (F3 = '0') report "Assert g5 : < F3 /= '0'> " severity warning; assert (Pbar = '1') report "Assert g6 : < Pbar /= '1'> " severity warning; assert (Gbar = '0') report "Assert g7 : < Gbar /= '0'> " severity warning; wait for 1 ns; ---------------------------------------------------------------------------- RE <= "1000"; --#8 S <= "0001"; C0 <= '0'; -- Compute RE - S - 1. ( RE = 1000, S = 0001) I <= "000010000"; wait for 1 ns; assert (F = "0110") report "Assert h1 : < F /= '0110'> " severity warning; assert (C4 = '1') report "Assert h2 : < C4 /= '1'> " severity warning; assert (OVR = '1') report "Assert h3 : < OVR /= '1'> " severity warning; assert (F30 = '0') report "Assert h4 : < F30 /= '0'> " severity warning; assert (F3 = '0') report "Assert h5 : < F3 /= '0'> " severity warning; assert (Pbar = '1') report "Assert h6 : < Pbar /= '1'> " severity warning; assert (Gbar = '0') report "Assert h7 : < Gbar /= '0'> " severity warning; wait for 1 ns; ---------------------------------------------------------------------------- RE <= "1010"; --#9 S <= "1001"; C0 <= '0'; -- Compute RE or S. ( RE = 1010, S = 1001) I <= "000011000"; wait for 1 ns; assert (C4 = '0') report "Assert i2 : < C4 /= '0'> " severity warning; assert (OVR = '0') report "Assert i3 : < OVR /= '0'> " severity warning; assert (F = "1011") report "Assert i1 : < F /= '1011'> " severity warning; assert (F30 = '0') report "Assert i4 : < F30 /= '0'> " severity warning; assert (F3 = '1') report "Assert i5 : < F3 /= '1'> " severity warning; assert (Pbar = '1') report "Assert i6 : < Pbar /= '1'> " severity warning; assert (Gbar = '0') report "Assert i7 : < Gbar /= '0'> " severity warning; wait for 1 ns; ---------------------------------------------------------------------------- RE <= "1010"; --#10 S <= "1001"; C0 <= '0'; -- Compute RE and S. ( RE = 1010, S = 1001) I <= "000100000"; wait for 1 ns; assert (F = "1000") report "Assert j1 : < F /= '1000'> " severity warning; assert (C4 = '0') report "Assert j2 : < C4 /= '0'> " severity warning; assert (OVR = '0') report "Assert j3 : < OVR /= '0'> " severity warning; assert (F30 = '0') report "Assert j4 : < F30 /= '0'> " severity warning; assert (F3 = '1') report "Assert j5 : < F3 /= '1'> " severity warning; assert (Pbar = '1') report "Assert j6 : < Pbar /= '1'> " severity warning; assert (Gbar = '0') report "Assert j7 : < Gbar /= '0'> " severity warning; wait for 1 ns; ---------------------------------------------------------------------------- RE <= "1010"; --#11 S <= "1001"; C0 <= '0'; -- Compute not(RE) and S. ( RE = 1010, S = 1001) I <= "000101000"; wait for 1 ns; assert (F = "0001") report "Assert k1 : < F /= '0001'> " severity warning; assert (C4 = '0') report "Assert k2 : < C4 /= '0'> " severity warning; assert (OVR = '1') report "Assert k3 : < OVR /= '1'> " severity warning; assert (F30 = '0') report "Assert k4 : < F30 /= '0'> " severity warning; assert (F3 = '0') report "Assert k5 : < F3 /= '0'> " severity warning; assert (Pbar = '1') report "Assert k6 : < Pbar /= '1'> " severity warning; assert (Gbar = '0') report "Assert k7 : < Gbar /= '0'> " severity warning; wait for 1 ns; ---------------------------------------------------------------------------- RE <= "1010"; --#12 S <= "1001"; C0 <= '0'; -- Compute RE xor S. ( RE = 1010, S = 1001) I <= "000110000"; wait for 1 ns; assert (F = "0011") report "Assert l1 : < F /= '0011'> " severity warning; assert (C4 = '0') report "Assert l2 : < C4 /= '0'> " severity warning; assert (OVR = '1') report "Assert l3 : < OVR /= '1'> " severity warning; assert (F30 = '0') report "Assert l4 : < F30 /= '0'> " severity warning; assert (F3 = '0') report "Assert l5 : < F3 /= '0'> " severity warning; assert (Pbar = '1') report "Assert l6 : < Pbar /= '1'> " severity warning; assert (Gbar = '0') report "Assert l7 : < Gbar /= '0'> " severity warning; wait for 1 ns; ---------------------------------------------------------------------------- RE <= "0101"; --#13 S <= "1001"; C0 <= '0'; -- Compute RE xnor S. ( RE = 0101, S = 1001) I <= "000111000"; wait for 1 ns; assert (F = "0011") report "Assert m1 : < F /= '0011'> " severity warning; assert (C4 = '1') report "Assert m2 : < C4 /= '1'> " severity warning; assert (OVR = '0') report "Assert m3 : < OVR /= '0'> " severity warning; assert (F30 = '0') report "Assert m4 : < F30 /= '0'> " severity warning; assert (F3 = '0') report "Assert m5 : < F3 /= '0'> " severity warning; assert (Pbar = '1') report "Assert m6 : < Pbar /= '1'> " severity warning; assert (Gbar = '1') report "Assert m7 : < Gbar /= '1'> " severity warning; wait for 1 ns; ---------------------------------------------------------------------------- end process; end A;
------------------------------------------------------------------------------ -- LEON3 Demonstration design -- Copyright (C) 2004 Jiri Gaisler, Gaisler Research ------------------------------------------------------------------------------ -- This file is a part of the GRLIB VHDL IP LIBRARY -- Copyright (C) 2003 - 2008, Gaisler Research -- Copyright (C) 2008 - 2014, Aeroflex 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 ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; library grlib; use grlib.amba.all; use grlib.stdlib.all; library techmap; use techmap.gencomp.all; library gaisler; use gaisler.memctrl.all; use gaisler.ddrpkg.all; use gaisler.leon3.all; use gaisler.uart.all; use gaisler.net.all; use gaisler.misc.all; use gaisler.jtag.all; library esa; use esa.memoryctrl.all; use work.config.all; entity leon3mp is generic ( fabtech : integer := CFG_FABTECH; memtech : integer := CFG_MEMTECH; padtech : integer := CFG_PADTECH; clktech : integer := CFG_CLKTECH; ncpu : integer := CFG_NCPU; disas : integer := CFG_DISAS; -- Enable disassembly to console dbguart : integer := CFG_DUART; -- Print UART on console pclow : integer := CFG_PCLOW; freq : integer := 50000; -- frequency of main clock (used for PLLs) dbits : integer := CFG_DDR2SP_DATAWIDTH ); port ( resetn : in std_ulogic; clk : in std_ulogic; clk125 : in std_ulogic; errorn : out std_ulogic; -- debug support unit dsubren : in std_ulogic; dsuact : out std_ulogic; -- console/debug UART --rxd1 : in std_logic; --txd1 : out std_logic; gpio : in std_logic_vector(CFG_GRGPIO_WIDTH-1 downto 0); -- I/O port -- flash/ssram bus address : out std_logic_vector(24 downto 0); data : inout std_logic_vector(31 downto 0); rstoutn : out std_ulogic; sram_advn : out std_ulogic; sram_csn : out std_logic; sram_wen : out std_logic; sram_ben : out std_logic_vector (0 to 3); sram_oen : out std_ulogic; sram_clk : out std_ulogic; sram_psn : out std_ulogic; sram_wait : in std_logic_vector(1 downto 0); flash_clk : out std_ulogic; flash_advn : out std_logic; flash_cen : out std_logic; flash_oen : out std_logic; flash_resetn: out std_logic; flash_wen : out std_logic; max_csn : out std_logic; -- sram_adsp_n : out std_ulogic; -- pragma translate_off iosn : out std_ulogic; -- pragma translate_on ddr_clk : out std_logic_vector(2 downto 0); ddr_clkb : out std_logic_vector(2 downto 0); ddr_cke : out std_logic_vector(1 downto 0); ddr_csb : out std_logic_vector(1 downto 0); ddr_odt : out std_logic_vector(1 downto 0); ddr_web : out std_ulogic; -- ddr write enable ddr_rasb : out std_ulogic; -- ddr ras ddr_casb : out std_ulogic; -- ddr cas ddr_dm : out std_logic_vector (8 downto 0); -- ddr dm ddr_dqsp : inout std_logic_vector (8 downto 0); -- ddr dqs ddr_dqsn : inout std_logic_vector (8 downto 0); -- ddr dqs ddr_ad : out std_logic_vector (15 downto 0); -- ddr address ddr_ba : out std_logic_vector (2 downto 0); -- ddr bank address ddr_dq : inout std_logic_vector (71 downto 0); -- ddr data -- ddra_cke : out std_logic; ddra_csb : out std_logic; -- ddra_web : out std_ulogic; -- ddr write enable -- ddra_rasb : out std_ulogic; -- ddr ras -- ddra_casb : out std_ulogic; -- ddr cas -- ddra_ad : out std_logic_vector (14 downto 0); -- ddr address -- ddra_ba : out std_logic_vector (2 downto 0); -- ddr bank address -- -- ddrb_cke : out std_logic; ddrb_csb : out std_logic; -- ddrb_web : out std_ulogic; -- ddr write enable -- ddrb_rasb : out std_ulogic; -- ddr ras -- ddrb_casb : out std_ulogic; -- ddr cas -- ddrb_ad : out std_logic_vector (14 downto 0); -- ddr address -- ddrb_ba : out std_logic_vector (2 downto 0); -- ddr bank address -- -- ddrab_clk : inout std_logic_vector(1 downto 0); -- ddrab_clkb : inout std_logic_vector(1 downto 0); -- ddrab_odt : out std_logic_vector(1 downto 0); -- ddrab_dqsp : inout std_logic_vector(1 downto 0); -- ddr dqs -- ddrab_dqsn : inout std_logic_vector(1 downto 0); -- ddr dqs -- ddrab_dm : out std_logic_vector(1 downto 0); -- ddr dm -- ddrab_dq : inout std_logic_vector (15 downto 0);-- ddr data phy_gtx_clk : out std_logic; phy_mii_data: inout std_logic; -- ethernet PHY interface phy_tx_clk : in std_ulogic; phy_rx_clk : in std_ulogic; phy_rx_data : in std_logic_vector(7 downto 0); phy_dv : in std_ulogic; phy_rx_er : in std_ulogic; phy_col : in std_ulogic; phy_crs : in std_ulogic; phy_tx_data : out std_logic_vector(7 downto 0); phy_tx_en : out std_ulogic; phy_tx_er : out std_ulogic; phy_mii_clk : out std_ulogic; phy_rst_n : out std_ulogic ); end; architecture rtl of leon3mp is constant blength : integer := 12; constant fifodepth : integer := 8; constant maxahbm : integer := NCPU+CFG_AHB_UART+CFG_AHB_JTAG+CFG_GRETH; signal vcc, gnd : std_logic_vector(7 downto 0); signal memi, smemi : memory_in_type; signal memo, smemo : memory_out_type; signal wpo : wprot_out_type; signal ddrclkfb, ssrclkfb, ddr_clkl, ddr_clk90l, ddr_clknl, ddr_clk270l : std_ulogic; signal ddr_clkv : std_logic_vector(2 downto 0); signal ddr_clkbv : std_logic_vector(2 downto 0); signal ddr_ckev : std_logic_vector(1 downto 0); signal ddr_csbv : std_logic_vector(1 downto 0); signal ddr_adl : std_logic_vector (13 downto 0); signal clklock, lock, clkml, rst, ndsuact : std_ulogic; signal tck, tckn, tms, tdi, tdo : std_ulogic; signal ddrclk, ddrrst : std_ulogic; signal ddr_clk_fb : std_ulogic; -- -- DDR2 Device A&B -- signal ddrab_clkv : std_logic_vector(2 downto 0); -- signal ddrab_clkbv : std_logic_vector(2 downto 0); -- signal ddra_ckev : std_logic_vector(1 downto 0); -- signal ddra_csbv : std_logic_vector(1 downto 0); -- signal ddrb_ckev : std_logic_vector(1 downto 0); -- signal ddrb_csbv : std_logic_vector(1 downto 0); -- signal lockab : std_logic; -- signal clkmlab : std_logic; -- attribute syn_keep : boolean; -- attribute syn_preserve : boolean; -- attribute syn_keep of clkml : signal is true; -- attribute syn_preserve of clkml : signal is true; signal apbi : apb_slv_in_type; signal apbo : apb_slv_out_vector := (others => apb_none); signal ahbsi : ahb_slv_in_type; signal ahbso : ahb_slv_out_vector := (others => ahbs_none); signal ahbmi : ahb_mst_in_type; signal ahbmo : ahb_mst_out_vector := (others => ahbm_none); signal clkm, rstn, sram_clkl : std_ulogic; signal cgi,cgi2 : clkgen_in_type; signal cgo,cgo2 : clkgen_out_type; signal u1i, dui : uart_in_type; signal u1o, duo : uart_out_type; signal irqi : irq_in_vector(0 to NCPU-1); signal irqo : irq_out_vector(0 to NCPU-1); signal dbgi : l3_debug_in_vector(0 to NCPU-1); signal dbgo : l3_debug_out_vector(0 to NCPU-1); signal dsui : dsu_in_type; signal dsuo : dsu_out_type; signal ethi, ethi1, ethi2 : eth_in_type; signal etho, etho1, etho2 : eth_out_type; signal ethclk, egtx_clk_fb : std_ulogic; signal egtx_clk, legtx_clk, l2egtx_clk : std_ulogic; signal gpti : gptimer_in_type; signal gpioi : gpio_in_type; signal gpioo : gpio_out_type; constant IOAEN : integer := 1; constant BOARD_FREQ : integer := 50000; -- input frequency in KHz constant CPU_FREQ : integer := BOARD_FREQ * CFG_CLKMUL / CFG_CLKDIV; -- cpu frequency in KHz signal lclk, lclkout, lclk125, clkm125 : std_ulogic; signal dsubre : std_ulogic; begin ---------------------------------------------------------------------- --- Reset and Clock generation ------------------------------------- ---------------------------------------------------------------------- vcc <= (others => '1'); gnd <= (others => '0'); cgi.pllctrl <= "00"; cgi.pllrst <= not resetn; cgi.pllref <= '0'; cgi2.pllctrl <= "00"; cgi2.pllrst <= not resetn; cgi2.pllref <= '0'; clklock <= cgo.clklock and lock; clk_pad : clkpad generic map (tech => padtech) port map (clk, lclk); clk125_pad : clkpad generic map (tech => padtech) port map (clk125, lclk125); clkgen0 : clkgen -- clock generator using toplevel generic 'freq' generic map (tech => CFG_CLKTECH, clk_mul => CFG_CLKMUL, clk_div => CFG_CLKDIV, sdramen => 1, freq => freq) port map (clkin => lclk, pciclkin => gnd(0), clk => clkm, clkn => open, clk2x => open, sdclk => sram_clkl, pciclk => open, cgi => cgi, cgo => cgo); clkm125 <= lclk125; phy_gtx_clk <= lclk125; ssrclk_pad : outpad generic map (tech => padtech, slew => 1, strength => 24) port map (sram_clk, sram_clkl); flashclk_pad : outpad generic map (tech => padtech, slew => 1, strength => 24) port map (flash_clk, sram_clkl); rst0 : rstgen -- reset generator port map (resetn, clkm, clklock, rstn); rstoutn <= resetn; ---------------------------------------------------------------------- --- AHB CONTROLLER -------------------------------------------------- ---------------------------------------------------------------------- ahb0 : ahbctrl -- AHB arbiter/multiplexer generic map (defmast => CFG_DEFMST, split => CFG_SPLIT, rrobin => CFG_RROBIN, ioaddr => CFG_AHBIO, ioen => IOAEN, nahbm => maxahbm, nahbs => 8) port map (rstn, clkm, ahbmi, ahbmo, ahbsi, ahbso); ---------------------------------------------------------------------- --- LEON3 processor and DSU ----------------------------------------- ---------------------------------------------------------------------- l3 : if CFG_LEON3 = 1 generate cpu : for i in 0 to NCPU-1 generate u0 : leon3s -- LEON3 processor generic map (i, fabtech, memtech, CFG_NWIN, CFG_DSU, CFG_FPU, CFG_V8, 0, CFG_MAC, pclow, CFG_NOTAG, CFG_NWP, CFG_ICEN, CFG_IREPL, CFG_ISETS, CFG_ILINE, CFG_ISETSZ, CFG_ILOCK, CFG_DCEN, CFG_DREPL, CFG_DSETS, CFG_DLINE, CFG_DSETSZ, CFG_DLOCK, CFG_DSNOOP, CFG_ILRAMEN, CFG_ILRAMSZ, CFG_ILRAMADDR, CFG_DLRAMEN, CFG_DLRAMSZ, CFG_DLRAMADDR, CFG_MMUEN, CFG_ITLBNUM, CFG_DTLBNUM, CFG_TLB_TYPE, CFG_TLB_REP, CFG_LDDEL, disas, CFG_ITBSZ, CFG_PWD, CFG_SVT, CFG_RSTADDR, NCPU-1) port map (clkm, rstn, ahbmi, ahbmo(i), ahbsi, ahbso, irqi(i), irqo(i), dbgi(i), dbgo(i)); end generate; errorn_pad : outpad generic map (tech => padtech) port map (errorn, dbgo(0).error); dsugen : if CFG_DSU = 1 generate dsu0 : dsu3 -- LEON3 Debug Support Unit generic map (hindex => 2, haddr => 16#900#, hmask => 16#F00#, ncpu => NCPU, tbits => 30, tech => memtech, irq => 0, kbytes => CFG_ATBSZ) port map (rstn, clkm, ahbmi, ahbsi, ahbso(2), dbgo, dbgi, dsui, dsuo); dsui.enable <= '1'; dsubre_pad : inpad generic map (tech => padtech) port map (dsubre, dsui.break); dsuact_pad : outpad generic map (tech => padtech) port map (dsuact, dsuo.active); end generate; end generate; nodsu : if CFG_DSU = 0 generate ahbso(2) <= ahbs_none; dsuo.tstop <= '0'; dsuo.active <= '0'; end generate; -- dcomgen : if CFG_AHB_UART = 1 generate -- dcom0 : ahbuart -- Debug UART -- generic map (hindex => NCPU, pindex => 4, paddr => 7) -- port map (rstn, clkm, dui, duo, apbi, apbo(4), ahbmi, ahbmo(NCPU)); -- dsurx_pad : inpad generic map (tech => padtech) port map (rxd1, dui.rxd); -- dsutx_pad : outpad generic map (tech => padtech) port map (txd1, duo.txd); -- end generate; -- nouah : if CFG_AHB_UART = 0 generate apbo(4) <= apb_none; end generate; ahbjtaggen0 :if CFG_AHB_JTAG = 1 generate ahbjtag0 : ahbjtag generic map(tech => fabtech, hindex => NCPU+CFG_AHB_UART) port map(rstn, clkm, tck, tms, tdi, tdo, ahbmi, ahbmo(NCPU+CFG_AHB_UART), open, open, open, open, open, open, open, gnd(0)); end generate; ---------------------------------------------------------------------- --- Memory controllers ---------------------------------------------- ---------------------------------------------------------------------- mg2 : if CFG_MCTRL_LEON2 = 1 generate -- LEON2 memory controller sr1 :mctrl generic map (hindex => 0, pindex => 0, paddr => 0, ramaddr => 16#a00#, rammask =>16#F00#, srbanks => 1, sden => 0, ram16 => 1) port map (rstn, clkm, memi, memo, ahbsi, ahbso(0), apbi, apbo(0), wpo); end generate; memi.brdyn <= '1'; memi.bexcn <= '1'; memi.writen <= '1'; memi.wrn <= "1111"; memi.bwidth <= "01"; mg0 : if (CFG_MCTRL_LEON2 + CFG_SSCTRL) = 0 generate -- no prom/sram pads apbo(0) <= apb_none; ahbso(0) <= ahbs_none; srams_pad : outpad generic map ( tech => padtech) port map (sram_csn, vcc(0)); flash_cen_pad : outpad generic map (tech => padtech) port map (flash_cen, vcc(0)); end generate; mgpads : if (CFG_MCTRL_LEON2 + CFG_SSCTRL) /= 0 generate -- prom/sram pads addr_pad : outpadv generic map (width => 25, tech => padtech) port map (address, memo.address(25 downto 1)); srams_pad : outpad generic map ( tech => padtech) port map (sram_csn, memo.ramsn(0)); sram_oen_pad : outpad generic map (tech => padtech) port map (sram_oen, memo.oen); sram_rwen_pad : outpadv generic map (width => 4, tech => padtech) port map (sram_ben, memo.wrn); sram_wri_pad : outpad generic map (tech => padtech) port map (sram_wen, memo.writen); data_pad : iopadvv generic map (tech => padtech, width => 32) port map (data(31 downto 0), memo.data(31 downto 0), memo.vbdrive, memi.data(31 downto 0)); sram_advn_pad : outpad generic map (tech => padtech) port map (sram_advn, gnd(0)); sram_psn_pad : outpad generic map (tech => padtech) port map (sram_psn, vcc(0)); flash_advn_pad : outpad generic map (tech => padtech) port map (flash_advn, gnd(0)); flash_cen_pad : outpad generic map (tech => padtech) port map (flash_cen, memo.romsn(0)); flash_oen_pad : outpad generic map (tech => padtech) port map (flash_oen, memo.oen); flash_wri_pad : outpad generic map (tech => padtech) port map (flash_wen, memo.writen); flash_reset_pad : outpad generic map (tech => padtech) port map (flash_resetn, resetn); -- pragma translate_off iosn_pad : outpad generic map (tech => padtech) port map (iosn, memo.iosn); -- pragma translate_on end generate; max_csn_pad : outpad generic map (tech => padtech) port map (max_csn, vcc(0)); ddrsp0 : if (CFG_DDR2SP /= 0) generate ddrc0 : ddr2spa generic map ( fabtech => fabtech, memtech => memtech, hindex => 3, haddr => 16#400#, hmask => 16#C00#, ioaddr => 1, pwron => CFG_DDR2SP_INIT, MHz => 125000/1000, rskew => 0, TRFC => CFG_DDR2SP_TRFC, clkmul => (CFG_DDR2SP_FREQ*5)/125, clkdiv => 5, ahbfreq => CPU_FREQ/1000, col => CFG_DDR2SP_COL, Mbyte => CFG_DDR2SP_SIZE, ddrbits => dbits, ddelayb0 => CFG_DDR2SP_DELAY0, ddelayb1 => CFG_DDR2SP_DELAY1, ddelayb2 => CFG_DDR2SP_DELAY2, ddelayb3 => CFG_DDR2SP_DELAY3, ddelayb4 => CFG_DDR2SP_DELAY4, ddelayb5 => CFG_DDR2SP_DELAY5, ddelayb6 => CFG_DDR2SP_DELAY6, ddelayb7 => CFG_DDR2SP_DELAY7, odten => 3, octen => 1, readdly => 1) port map ( resetn, rstn, clkm125, clkm, clkm125, lock, clkml, clkml, ahbsi, ahbso(3), ddr_clkv, ddr_clkbv, ddr_clk_fb, ddr_clk_fb, ddr_ckev, ddr_csbv, ddr_web, ddr_rasb, ddr_casb, ddr_dm(dbits/8-1 downto 0), ddr_dqsp(dbits/8-1 downto 0), ddr_dqsn(dbits/8-1 downto 0), ddr_ad(13 downto 0), ddr_ba(1 downto 0), ddr_dq(dbits-1 downto 0), ddr_odt); ddr_clk <= ddr_clkv(2 downto 0); ddr_clkb <= ddr_clkbv(2 downto 0); ddr_cke <= ddr_ckev(1 downto 0); ddr_csb <= ddr_csbv(1 downto 0); ddr_ad(15 downto 14) <= (others => '0'); ddr_ba(2) <= '0'; end generate; noddr : if (CFG_DDR2SP = 0) generate lock <= '1'; end generate; -- Disable DDR2 Device A and B ddra_csb <= '1'; ddrb_csb <= '1'; ----------------------------------------------------------------------- --- ETHERNET --------------------------------------------------------- ----------------------------------------------------------------------- eth1 : if CFG_GRETH = 1 generate -- Gaisler ethernet MAC e1 : grethm generic map(hindex => NCPU+CFG_AHB_UART+CFG_AHB_JTAG, pindex => 11, paddr => 11, pirq => 12, memtech => memtech, mdcscaler => CPU_FREQ/1000, enable_mdio => 1, fifosize => CFG_ETH_FIFO, nsync => 2, edcl => CFG_DSU_ETH, edclbufsz => CFG_ETH_BUF, macaddrh => CFG_ETH_ENM, macaddrl => CFG_ETH_ENL, phyrstadr => 18, ipaddrh => CFG_ETH_IPM, ipaddrl => CFG_ETH_IPL, giga => CFG_GRETH1G) port map( rst => rstn, clk => clkm, ahbmi => ahbmi, ahbmo => ahbmo(NCPU+CFG_AHB_UART+CFG_AHB_JTAG), apbi => apbi, apbo => apbo(11), ethi => ethi, etho => etho); emdio_pad : iopad generic map (tech => padtech) port map (phy_mii_data, etho.mdio_o, etho.mdio_oe, ethi.mdio_i); etxc_pad : clkpad generic map (tech => padtech, arch => 2) port map (phy_tx_clk, ethi.tx_clk); erxc_pad : clkpad generic map (tech => padtech, arch => 2) port map (phy_rx_clk, ethi.rx_clk); erxd_pad : inpadv generic map (tech => padtech, width => 8) port map (phy_rx_data, ethi.rxd(7 downto 0)); erxdv_pad : inpad generic map (tech => padtech) port map (phy_dv, ethi.rx_dv); erxer_pad : inpad generic map (tech => padtech) port map (phy_rx_er, ethi.rx_er); erxco_pad : inpad generic map (tech => padtech) port map (phy_col, ethi.rx_col); erxcr_pad : inpad generic map (tech => padtech) port map (phy_crs, ethi.rx_crs); etxd_pad : outpadv generic map (tech => padtech, width => 8) port map (phy_tx_data, etho.txd(7 downto 0)); etxen_pad : outpad generic map (tech => padtech) port map ( phy_tx_en, etho.tx_en); etxer_pad : outpad generic map (tech => padtech) port map (phy_tx_er, etho.tx_er); emdc_pad : outpad generic map (tech => padtech) port map (phy_mii_clk, etho.mdc); erst_pad : outpad generic map (tech => padtech) port map (phy_rst_n, rstn); ethi.gtx_clk <= egtx_clk; end generate; ---------------------------------------------------------------------- --- APB Bridge and various periherals ------------------------------- ---------------------------------------------------------------------- apb0 : apbctrl -- AHB/APB bridge generic map (hindex => 1, haddr => CFG_APBADDR) port map (rstn, clkm, ahbsi, ahbso(1), apbi, apbo); ua1 : if CFG_UART1_ENABLE /= 0 generate uart1 : apbuart -- UART 1 generic map (pindex => 1, paddr => 1, pirq => 2, console => dbguart, fifosize => CFG_UART1_FIFO) port map (rstn, clkm, apbi, apbo(1), u1i, u1o); u1i.ctsn <= '0'; u1i.extclk <= '0'; -- loopback u1i.rxd <= u1o.txd; --upads : if CFG_AHB_UART = 0 generate -- u1i.rxd <= rxd1; txd1 <= u1o.txd; --end generate; end generate; noua0 : if CFG_UART1_ENABLE = 0 generate apbo(1) <= apb_none; end generate; irqctrl : if CFG_IRQ3_ENABLE /= 0 generate irqctrl0 : irqmp -- interrupt controller generic map (pindex => 2, paddr => 2, ncpu => NCPU) port map (rstn, clkm, apbi, apbo(2), irqo, irqi); end generate; irq3 : if CFG_IRQ3_ENABLE = 0 generate x : for i in 0 to NCPU-1 generate irqi(i).irl <= "0000"; end generate; apbo(2) <= apb_none; end generate; gpt : if CFG_GPT_ENABLE /= 0 generate timer0 : gptimer -- timer unit generic map (pindex => 3, paddr => 3, pirq => CFG_GPT_IRQ, sepirq => CFG_GPT_SEPIRQ, sbits => CFG_GPT_SW, ntimers => CFG_GPT_NTIM, nbits => CFG_GPT_TW) port map (rstn, clkm, apbi, apbo(3), gpti, open); gpti.dhalt <= dsuo.tstop; gpti.extclk <= '0'; end generate; notim : if CFG_GPT_ENABLE = 0 generate apbo(3) <= apb_none; end generate; gpio0 : if CFG_GRGPIO_ENABLE /= 0 generate -- GPIO unit grgpio0: grgpio generic map(pindex => 5, paddr => 5, imask => CFG_GRGPIO_IMASK, nbits => CFG_GRGPIO_WIDTH) port map(rst => rstn, clk => clkm, apbi => apbi, apbo => apbo(5), gpioi => gpioi, gpioo => gpioo); pio_pads : for i in 0 to CFG_GRGPIO_WIDTH-1 generate gpioi.din(i) <= gpio(i); end generate; end generate; ----------------------------------------------------------------------- --- AHB ROM ---------------------------------------------------------- ----------------------------------------------------------------------- bpromgen : if CFG_AHBROMEN /= 0 generate brom : entity work.ahbrom generic map (hindex => 6, haddr => CFG_AHBRODDR, pipe => CFG_AHBROPIP) port map ( rstn, clkm, ahbsi, ahbso(6)); end generate; nobpromgen : if CFG_AHBROMEN = 0 generate ahbso(6) <= ahbs_none; end generate; ----------------------------------------------------------------------- --- AHB RAM ---------------------------------------------------------- ----------------------------------------------------------------------- ahbramgen : if CFG_AHBRAMEN = 1 generate ahbram0 : ahbram generic map (hindex => 7, haddr => CFG_AHBRADDR, tech => CFG_MEMTECH, kbytes => CFG_AHBRSZ, pipe => CFG_AHBRPIPE) port map (rstn, clkm, ahbsi, ahbso(7)); end generate; nram : if CFG_AHBRAMEN = 0 generate ahbso(7) <= ahbs_none; end generate; ----------------------------------------------------------------------- --- Drive unused bus elements --------------------------------------- ----------------------------------------------------------------------- nam1 : for i in (NCPU+CFG_AHB_UART+CFG_AHB_JTAG+CFG_GRETH) to NAHBMST-1 generate ahbmo(i) <= ahbm_none; end generate; -- nap0 : for i in 6 to NAPBSLV-1 generate apbo(i) <= apb_none; end generate; -- nah0 : for i in 7 to NAHBSLV-1 generate ahbso(i) <= ahbs_none; end generate; -- invert signal for input via a key dsubre <= not dsubren; ----------------------------------------------------------------------- --- Boot message ---------------------------------------------------- ----------------------------------------------------------------------- -- pragma translate_off x : report_design generic map ( msg1 => "LEON3 Altera EP3SL150 PSRAM/DDR Demonstration design", fabtech => tech_table(fabtech), memtech => tech_table(memtech), mdel => 1 ); -- pragma translate_on end;
------------------------------------------------------------------------------- -- Title : Simple Counter for SPI test -- Project : ------------------------------------------------------------------------------- -- File : simple_counter.vhd -- Author : aylons <aylons@LNLS190> -- Company : -- Created : 2014-10-23 -- Last update: 2014-10-30 -- Platform : -- Standard : VHDL'93/02 ------------------------------------------------------------------------------- -- Description: Simples counter possible ------------------------------------------------------------------------------- -- Copyright (c) 2014 ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 2014-10-23 1.0 aylons Created ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use ieee.math_real.all; library UNISIM; use UNISIM.vcomponents.all; ------------------------------------------------------------------------------- entity simple_counter is generic ( g_width : natural := 16 ); port ( clk_i : in std_logic; rst_i : in std_logic; ce_i : in std_logic; data_o : out std_logic_vector(g_width-1 downto 0) ); end entity simple_counter; ------------------------------------------------------------------------------- architecture behavioural of simple_counter is signal cur_value : unsigned(g_width-1 downto 0); begin -- architecture str count : process(clk_i) begin if rising_edge(clk_i) then if rst_i = '1' then cur_value <= (others => '0'); else if ce_i = '1' then cur_value <= cur_value+to_unsigned(1, g_width); end if; end if; end if; end process; data_o <= std_logic_vector(cur_value); end architecture behavioural; -------------------------------------------------------------------------------
-- -- Copyright (C) 2012 Chris McClelland -- -- This program 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 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 Lesser General Public License for more details. -- -- You should have received a copy of the GNU Lesser General Public License -- along with this program. If not, see <http://www.gnu.org/licenses/>. -- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use ieee.std_logic_textio.all; use std.textio.all; use work.hex_util.all; use work.mem_ctrl_pkg.all; entity mem_pipe_tb is end entity; architecture behavioural of mem_pipe_tb is -- Clocks signal sysClk : std_logic; -- main system clock signal dispClk : std_logic; -- display version of sysClk, which transitions 4ns before it -- I/O pipes signal cmdData : std_logic_vector(15 downto 0); signal cmdValid : std_logic; signal cmdReady : std_logic; signal rspData : std_logic_vector(15 downto 0); signal rspValid : std_logic; signal rspReady : std_logic; -- Memory controller interface signal mcCmd : MCCmdType; signal mcAddr : std_logic_vector(22 downto 0); signal mcDataWr : std_logic_vector(15 downto 0); signal mcDataRd : std_logic_vector(15 downto 0); signal mcRDV : std_logic; signal mcReady : std_logic; signal reset : std_logic; begin -- Instantiate the memory controller for testing uut: entity work.mem_pipe port map( clk_in => sysClk, reset_in => reset, -- I/O pipes cmdData_in => cmdData, cmdValid_in => cmdValid, cmdReady_out => cmdReady, rspData_out => rspData, rspValid_out => rspValid, rspReady_in => rspReady, -- Memory controller interface mcReady_in => mcReady, mcCmd_out => mcCmd, mcAddr_out => mcAddr, mcData_out => mcDataWr, mcData_in => mcDataRd, mcRDV_in => mcRDV ); -- Drive the clocks. In simulation, sysClk lags 4ns behind dispClk, to give a visual hold time -- for signals in GTKWave. process begin sysClk <= '0'; dispClk <= '0'; wait for 16 ns; loop dispClk <= not(dispClk); -- first dispClk transitions wait for 4 ns; sysClk <= not(sysClk); -- then sysClk transitions, 4ns later wait for 6 ns; end loop; end process; -- Deassert the synchronous reset a couple of cycles after startup. -- process begin reset <= '1'; wait until rising_edge(sysClk); wait until rising_edge(sysClk); reset <= '0'; wait; end process; -- Drive the unit under test. Read stimulus from stimulus.sim and write results to results.sim process variable inLine : line; variable outLine : line; file inFile : text open read_mode is "stimulus.sim"; file outFile : text open write_mode is "results.sim"; function from_mcCmd(cmd : MCCmdType) return string is begin case cmd is when MC_RD => return "RD "; when MC_WR => return "WR "; when MC_REF => return "REF"; when MC_NOP => return "NOP"; when others => return "ILL"; end case; end function; begin cmdData <= (others => 'X'); cmdValid <= '0'; rspReady <= '1'; mcReady <= '0'; mcDataRd <= (others => 'X'); mcRDV <= '0'; wait until falling_edge(reset); wait until rising_edge(sysClk); while ( not endfile(inFile) ) loop readline(inFile, inLine); while ( inLine.all'length = 0 or inLine.all(1) = '#' or inLine.all(1) = ht or inLine.all(1) = ' ' ) loop readline(inFile, inLine); end loop; cmdData <= to_4(inLine.all(1)) & to_4(inLine.all(2)) & to_4(inLine.all(3)) & to_4(inLine.all(4)); cmdValid <= to_1(inLine.all(6)); rspReady <= to_1(inLine.all(8)); mcReady <= to_1(inLine.all(10)); mcDataRd <= to_4(inLine.all(12)) & to_4(inLine.all(13)) & to_4(inLine.all(14)) & to_4(inLine.all(15)); mcRDV <= to_1(inLine.all(17)); wait for 10 ns; write(outLine, from_4(cmdData(15 downto 12)) & from_4(cmdData(11 downto 8)) & from_4(cmdData(7 downto 4)) & from_4(cmdData(3 downto 0))); write(outLine, ' '); write(outLine, cmdValid); write(outLine, ' '); write(outLine, cmdReady); write(outLine, ' '); write(outLine, '|'); write(outLine, ' '); write(outLine, from_4(rspData(15 downto 12)) & from_4(rspData(11 downto 8)) & from_4(rspData(7 downto 4)) & from_4(rspData(3 downto 0))); write(outLine, ' '); write(outLine, rspValid); write(outLine, ' '); write(outLine, rspReady); write(outLine, ' '); write(outLine, '|'); write(outLine, ' '); write(outLine, mcReady); write(outLine, ' '); write(outLine, from_mcCmd(mcCmd)); write(outLine, ' '); write(outLine, from_4("0" & mcAddr(22 downto 20)) & from_4(mcAddr(19 downto 16)) & from_4(mcAddr(15 downto 12)) & from_4(mcAddr(11 downto 8)) & from_4(mcAddr(7 downto 4)) & from_4(mcAddr(3 downto 0))); write(outLine, ' '); write(outLine, from_4(mcDataWr(15 downto 12)) & from_4(mcDataWr(11 downto 8)) & from_4(mcDataWr(7 downto 4)) & from_4(mcDataWr(3 downto 0))); write(outLine, ' '); write(outLine, from_4(mcDataRd(15 downto 12)) & from_4(mcDataRd(11 downto 8)) & from_4(mcDataRd(7 downto 4)) & from_4(mcDataRd(3 downto 0))); write(outLine, ' '); write(outLine, mcRDV); writeline(outFile, outLine); wait for 10 ns; end loop; cmdData <= (others => 'X'); cmdValid <= '0'; mcRDV <= '0'; mcReady <= '0'; wait; end process; end architecture;
-- Copyright (c) 2012 Brian Nezvadovitz <http://nezzen.net> -- This software is distributed under the terms of the MIT License shown below. -- -- 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. -- Testbench for the 4-to-1 multiplexer. library ieee; use ieee.std_logic_1164.all; entity mux_4x1_tb is end mux_4x1_tb; architecture TB of mux_4x1_tb is signal sel : std_logic_vector(1 downto 0); signal output, in0, in1, in2, in3 : std_logic_vector(0 downto 0); begin -- Instantiate the unit under test (UUT) UUT : entity work.mux_4x1 generic map ( WIDTH => 1 ) port map ( output => output, sel => sel, in0 => in0, in1 => in1, in2 => in2, in3 => in3 ); -- Stimulus process process begin in0(0) <= '0'; in1(0) <= '0'; in2(0) <= '0'; in3(0) <= '0'; sel <= "00"; wait for 10 ns; in0(0) <= '0'; in1(0) <= '0'; in2(0) <= '0'; in3(0) <= '0'; sel <= "01"; wait for 10 ns; in0(0) <= '0'; in1(0) <= '0'; in2(0) <= '0'; in3(0) <= '0'; sel <= "10"; wait for 10 ns; in0(0) <= '0'; in1(0) <= '0'; in2(0) <= '0'; in3(0) <= '0'; sel <= "11"; wait for 10 ns; in0(0) <= '1'; in1(0) <= '0'; in2(0) <= '0'; in3(0) <= '0'; sel <= "00"; wait for 10 ns; in0(0) <= '0'; in1(0) <= '1'; in2(0) <= '0'; in3(0) <= '0'; sel <= "01"; wait for 10 ns; in0(0) <= '0'; in1(0) <= '0'; in2(0) <= '1'; in3(0) <= '0'; sel <= "10"; wait for 10 ns; in0(0) <= '0'; in1(0) <= '0'; in2(0) <= '0'; in3(0) <= '1'; sel <= "11"; wait for 10 ns; wait; end process; end TB;
-- -- SpaceWire core with character-stream interface. -- -- This entity provides a SpaceWire core with a character-stream interface. -- The interface provides means for connection initiation, sending and -- receiving of N-Chars and TimeCodes, and error reporting. -- -- This entity instantiates spwlink, spwrecv, spwxmit and one of the -- spwrecvfront implementations. It also implements a receive FIFO and -- a transmit FIFO. -- -- The SpaceWire standard requires that each transceiver use an initial -- signalling rate of 10 Mbit/s. This implies that the system clock frequency -- must be a multiple of 10 MHz. See the manual for further details on -- bitrates and clocking. -- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use work.spwpkg.all; entity spwstream is generic ( -- System clock frequency in Hz. -- This must be set to the frequency of "clk". It is used to setup -- counters for reset timing, disconnect timeout and to transmit -- at 10 Mbit/s during the link handshake. sysfreq: integer; -- Transmit clock frequency in Hz (only if tximpl = impl_fast). -- This must be set to the frequency of "txclk". It is used to -- transmit at 10 Mbit/s during the link handshake. txclkfreq: integer:= 0; -- Selection of a receiver front-end implementation. rximpl: spw_implementation_type := impl_generic; -- Maximum number of bits received per system clock -- (must be 1 in case of impl_generic). rxchunk: integer range 1 to 4 := 1; -- Selection of a transmitter implementation. tximpl: spw_implementation_type := impl_generic; -- Size of the receive FIFO as the 2-logarithm of the number of bytes. -- Must be at least 6 (64 bytes). rxfifosize_bits: integer range 6 to 14 := 11; -- Size of the transmit FIFO as the 2-logarithm of the number of bytes. txfifosize_bits: integer range 2 to 14 := 11 ); port ( -- System clock. clk: in std_logic; -- Receiver sample clock (only for impl_fast) rxclk: in std_logic; -- Transmit clock (only for impl_fast) txclk: in std_logic; -- Synchronous reset (active-high). rst: in std_logic; -- Enables automatic link start on receipt of a NULL character. autostart: in std_logic; -- Enables link start once the Ready state is reached. -- Without autostart or linkstart, the link remains in state Ready. linkstart: in std_logic; -- Do not start link (overrides linkstart and autostart) and/or -- disconnect a running link. linkdis: in std_logic; -- Scaling factor minus 1, used to scale the transmit base clock into -- the transmission bit rate. The system clock (for impl_generic) or -- the txclk (for impl_fast) is divided by (unsigned(txdivcnt) + 1). -- Changing this signal will immediately change the transmission rate. -- During link setup, the transmission rate is always 10 Mbit/s. txdivcnt: in std_logic_vector(7 downto 0); -- High for one clock cycle to request transmission of a TimeCode. -- The request is registered inside the entity until it can be processed. tick_in: in std_logic; -- Control bits of the TimeCode to be sent. Must be valid while tick_in is high. ctrl_in: in std_logic_vector(1 downto 0); -- Counter value of the TimeCode to be sent. Must be valid while tick_in is high. time_in: in std_logic_vector(5 downto 0); -- Pulled high by the application to write an N-Char to the transmit -- queue. If "txwrite" and "txrdy" are both high on the rising edge -- of "clk", a character is added to the transmit queue. -- This signal has no effect if "txrdy" is low. txwrite: in std_logic; -- Control flag to be sent with the next N_Char. -- Must be valid while txwrite is high. txflag: in std_logic; -- Byte to be sent, or "00000000" for EOP or "00000001" for EEP. -- Must be valid while txwrite is high. txdata: in std_logic_vector(7 downto 0); -- High if the entity is ready to accept an N-Char for transmission. txrdy: out std_logic; -- High if the transmission queue is at least half full. txhalff: out std_logic; -- High for one clock cycle if a TimeCode was just received. tick_out: out std_logic; -- Control bits of the last received TimeCode. ctrl_out: out std_logic_vector(1 downto 0); -- Counter value of the last received TimeCode. time_out: out std_logic_vector(5 downto 0); -- High if "rxflag" and "rxdata" contain valid data. -- This signal is high unless the receive FIFO is empty. rxvalid: out std_logic; -- High if the receive FIFO is at least half full. rxhalff: out std_logic; -- High if the received character is EOP or EEP; low if the received -- character is a data byte. Valid if "rxvalid" is high. rxflag: out std_logic; -- Received byte, or "00000000" for EOP or "00000001" for EEP. -- Valid if "rxvalid" is high. rxdata: out std_logic_vector(7 downto 0); -- Pulled high by the application to accept a received character. -- If "rxvalid" and "rxread" are both high on the rising edge of "clk", -- a character is removed from the receive FIFO and "rxvalid", "rxflag" -- and "rxdata" are updated. -- This signal has no effect if "rxvalid" is low. rxread: in std_logic; -- High if the link state machine is currently in the Started state. started: out std_logic; -- High if the link state machine is currently in the Connecting state. connecting: out std_logic; -- High if the link state machine is currently in the Run state, indicating -- that the link is fully operational. If none of started, connecting or running -- is high, the link is in an initial state and the transmitter is not yet enabled. running: out std_logic; -- Disconnect detected in state Run. Triggers a reset and reconnect of the link. -- This indication is auto-clearing. errdisc: out std_logic; -- Parity error detected in state Run. Triggers a reset and reconnect of the link. -- This indication is auto-clearing. errpar: out std_logic; -- Invalid escape sequence detected in state Run. Triggers a reset and reconnect of -- the link. This indication is auto-clearing. erresc: out std_logic; -- Credit error detected. Triggers a reset and reconnect of the link. -- This indication is auto-clearing. errcred: out std_logic; -- Data In signal from SpaceWire bus. spw_di: in std_logic; -- Strobe In signal from SpaceWire bus. spw_si: in std_logic; -- Data Out signal to SpaceWire bus. spw_do: out std_logic; -- Strobe Out signal to SpaceWire bus. spw_so: out std_logic ); end entity spwstream; architecture spwstream_arch of spwstream is constant rsysfreq : real := real(sysfreq); constant rtxclkfreq : real := real(txclkfreq); -- Convert boolean to std_logic. type bool_to_logic_type is array(boolean) of std_ulogic; constant bool_to_logic: bool_to_logic_type := (false => '0', true => '1'); -- Reset time (6.4 us) in system clocks constant reset_time: integer := integer(rsysfreq * 6.4e-6); -- Disconnect time (850 ns) in system clocks constant disconnect_time: integer := integer(rsysfreq * 850.0e-9); -- Initial tx clock scaler (10 Mbit). type impl_to_real_type is array(spw_implementation_type) of real; constant tximpl_to_txclk_freq: impl_to_real_type := (impl_generic => rsysfreq, impl_fast => rtxclkfreq); constant effective_txclk_freq: real := tximpl_to_txclk_freq(tximpl); constant default_divcnt: std_logic_vector(7 downto 0) := std_logic_vector(to_unsigned(integer(effective_txclk_freq / 10.0e6 - 1.0), 8)); -- Registers. type regs_type is record -- packet state rxpacket: std_logic; -- '1' when receiving a packet rxeep: std_logic; -- '1' when rx EEP character pending txpacket: std_logic; -- '1' when transmitting a packet txdiscard: std_logic; -- '1' when discarding a tx packet -- FIFO pointers rxfifo_raddr: std_logic_vector(rxfifosize_bits-1 downto 0); rxfifo_waddr: std_logic_vector(rxfifosize_bits-1 downto 0); txfifo_raddr: std_logic_vector(txfifosize_bits-1 downto 0); txfifo_waddr: std_logic_vector(txfifosize_bits-1 downto 0); -- FIFO state rxfifo_rvalid: std_logic; -- '1' if s_rxfifo_rdata is valid txfifo_rvalid: std_logic; -- '1' if s_txfifo_rdata is valid rxfull: std_logic; -- '1' if RX fifo is full rxhalff: std_logic; -- '1' if RX fifo is at least half full txfull: std_logic; -- '1' if TX fifo is full txhalff: std_logic; -- '1' if TX fifo is at least half full rxroom: std_logic_vector(5 downto 0); end record; constant regs_reset: regs_type := ( rxpacket => '0', rxeep => '0', txpacket => '0', txdiscard => '0', rxfifo_raddr => (others => '0'), rxfifo_waddr => (others => '0'), txfifo_raddr => (others => '0'), txfifo_waddr => (others => '0'), rxfifo_rvalid => '0', txfifo_rvalid => '0', rxfull => '0', rxhalff => '0', txfull => '0', txhalff => '0', rxroom => (others => '0') ); signal r: regs_type := regs_reset; signal rin: regs_type; -- Interface signals to components. signal recv_rxen: std_logic; signal recvo: spw_recv_out_type; signal recv_inact: std_logic; signal recv_inbvalid: std_logic; signal recv_inbits: std_logic_vector(rxchunk-1 downto 0); signal xmiti: spw_xmit_in_type; signal xmito: spw_xmit_out_type; signal xmit_divcnt: std_logic_vector(7 downto 0); signal linki: spw_link_in_type; signal linko: spw_link_out_type; -- Memory interface signals. signal s_rxfifo_raddr: std_logic_vector(rxfifosize_bits-1 downto 0); signal s_rxfifo_rdata: std_logic_vector(8 downto 0); signal s_rxfifo_wen: std_logic; signal s_rxfifo_waddr: std_logic_vector(rxfifosize_bits-1 downto 0); signal s_rxfifo_wdata: std_logic_vector(8 downto 0); signal s_txfifo_raddr: std_logic_vector(txfifosize_bits-1 downto 0); signal s_txfifo_rdata: std_logic_vector(8 downto 0); signal s_txfifo_wen: std_logic; signal s_txfifo_waddr: std_logic_vector(txfifosize_bits-1 downto 0); signal s_txfifo_wdata: std_logic_vector(8 downto 0); begin -- Instantiate link controller. link_inst: spwlink generic map ( reset_time => reset_time ) port map ( clk => clk, rst => rst, linki => linki, linko => linko, rxen => recv_rxen, recvo => recvo, xmiti => xmiti, xmito => xmito ); -- Instantiate receiver. recv_inst: spwrecv generic map( disconnect_time => disconnect_time, rxchunk => rxchunk ) port map ( clk => clk, rxen => recv_rxen, recvo => recvo, inact => recv_inact, inbvalid => recv_inbvalid, inbits => recv_inbits ); -- Instantiate transmitter. xmit_sel0: if tximpl = impl_generic generate xmit_inst: spwxmit port map ( clk => clk, rst => rst, divcnt => xmit_divcnt, xmiti => xmiti, xmito => xmito, spw_do => spw_do, spw_so => spw_so ); end generate; xmit_sel1: if tximpl = impl_fast generate xmit_fast_inst: spwxmit_fast port map ( clk => clk, txclk => txclk, rst => rst, divcnt => xmit_divcnt, xmiti => xmiti, xmito => xmito, spw_do => spw_do, spw_so => spw_so ); end generate; -- Instantiate receiver front-end. recvfront_sel0: if rximpl = impl_generic generate recvfront_generic_inst: spwrecvfront_generic port map ( clk => clk, rxen => recv_rxen, inact => recv_inact, inbvalid => recv_inbvalid, inbits => recv_inbits, spw_di => spw_di, spw_si => spw_si ); end generate; recvfront_sel1: if rximpl = impl_fast generate recvfront_fast_inst: spwrecvfront_fast generic map ( rxchunk => rxchunk ) port map ( clk => clk, rxclk => rxclk, rxen => recv_rxen, inact => recv_inact, inbvalid => recv_inbvalid, inbits => recv_inbits, spw_di => spw_di, spw_si => spw_si ); end generate; -- Instantiate RX memory. rxmem: spwram generic map ( abits => rxfifosize_bits, dbits => 9 ) port map ( rclk => clk, wclk => clk, ren => '1', raddr => s_rxfifo_raddr, rdata => s_rxfifo_rdata, wen => s_rxfifo_wen, waddr => s_rxfifo_waddr, wdata => s_rxfifo_wdata ); -- Instantiate TX memory. txmem: spwram generic map ( abits => txfifosize_bits, dbits => 9 ) port map ( rclk => clk, wclk => clk, ren => '1', raddr => s_txfifo_raddr, rdata => s_txfifo_rdata, wen => s_txfifo_wen, waddr => s_txfifo_waddr, wdata => s_txfifo_wdata ); -- Combinatorial process process (r, linko, s_rxfifo_rdata, s_txfifo_rdata, rst, autostart, linkstart, linkdis, txdivcnt, tick_in, ctrl_in, time_in, txwrite, txflag, txdata, rxread) is variable v: regs_type; variable v_tmprxroom: unsigned(rxfifosize_bits-1 downto 0); variable v_tmptxroom: unsigned(txfifosize_bits-1 downto 0); begin v := r; v_tmprxroom := to_unsigned(0, v_tmprxroom'length); v_tmptxroom := to_unsigned(0, v_tmptxroom'length); -- Keep track of whether we are sending and/or receiving a packet. if linko.rxchar = '1' then -- got character v.rxpacket := not linko.rxflag; end if; if linko.txack = '1' then -- send character v.txpacket := not s_txfifo_rdata(8); end if; -- Update RX fifo pointers. if (rxread = '1') and (r.rxfifo_rvalid = '1') then -- read from fifo v.rxfifo_raddr := std_logic_vector(unsigned(r.rxfifo_raddr) + 1); end if; if r.rxfull = '0' then if (linko.rxchar = '1') or (r.rxeep = '1') then -- write to fifo (received char or pending EEP) v.rxfifo_waddr := std_logic_vector(unsigned(r.rxfifo_waddr) + 1); end if; v.rxeep := '0'; end if; -- Keep track of whether the RX fifo contains valid data. -- (use new value of rxfifo_raddr) v.rxfifo_rvalid := bool_to_logic(v.rxfifo_raddr /= r.rxfifo_waddr); -- Update room in RX fifo (use new value of rxfifo_waddr). v_tmprxroom := unsigned(r.rxfifo_raddr) - unsigned(v.rxfifo_waddr) - 1; v.rxfull := bool_to_logic(v_tmprxroom = 0); v.rxhalff := not v_tmprxroom(v_tmprxroom'high); if v_tmprxroom > 63 then v.rxroom := (others => '1'); else v.rxroom := std_logic_vector(v_tmprxroom(5 downto 0)); end if; -- Update TX fifo pointers. if (r.txfifo_rvalid = '1') and ((linko.txack = '1') or (r.txdiscard = '1')) then -- read from fifo v.txfifo_raddr := std_logic_vector(unsigned(r.txfifo_raddr) + 1); if s_txfifo_rdata(8) = '1' then v.txdiscard := '0'; -- got EOP/EEP, stop discarding data end if; end if; if (r.txfull = '0') and (txwrite = '1') then -- write to fifo v.txfifo_waddr := std_logic_vector(unsigned(r.txfifo_waddr) + 1); end if; -- Keep track of whether the TX fifo contains valid data. -- (use new value of txfifo_raddr) v.txfifo_rvalid := bool_to_logic(v.txfifo_raddr /= r.txfifo_waddr); -- Update room in TX fifo (use new value of txfifo_waddr). v_tmptxroom := unsigned(r.txfifo_raddr) - unsigned(v.txfifo_waddr) - 1; v.txfull := bool_to_logic(v_tmptxroom = 0); v.txhalff := not v_tmptxroom(v_tmptxroom'high); -- If the link is lost, set a flag to discard the current packet. if linko.running = '0' then v.rxeep := v.rxeep or v.rxpacket; -- use new value of rxpacket v.txdiscard := v.txdiscard or v.txpacket; -- use new value of txpacket v.rxpacket := '0'; v.txpacket := '0'; end if; -- Clear the discard flag when the link is explicitly disabled. if linkdis = '1' then v.txdiscard := '0'; end if; -- Drive control signals to RX fifo. s_rxfifo_raddr <= v.rxfifo_raddr; -- using new value of rxfifo_raddr s_rxfifo_wen <= (not r.rxfull) and (linko.rxchar or r.rxeep); s_rxfifo_waddr <= r.rxfifo_waddr; if r.rxeep = '1' then s_rxfifo_wdata <= "100000001"; else s_rxfifo_wdata <= linko.rxflag & linko.rxdata; end if; -- Drive control signals to TX fifo. s_txfifo_raddr <= v.txfifo_raddr; -- using new value of txfifo_raddr s_txfifo_wen <= (not r.txfull) and txwrite; s_txfifo_waddr <= r.txfifo_waddr; s_txfifo_wdata <= txflag & txdata; -- Drive inputs to spwlink. linki.autostart <= autostart; linki.linkstart <= linkstart; linki.linkdis <= linkdis; linki.rxroom <= r.rxroom; linki.tick_in <= tick_in; linki.ctrl_in <= ctrl_in; linki.time_in <= time_in; linki.txwrite <= r.txfifo_rvalid and not r.txdiscard; linki.txflag <= s_txfifo_rdata(8); linki.txdata <= s_txfifo_rdata(7 downto 0); -- Drive divcnt input to spwxmit. if linko.running = '1' then xmit_divcnt <= txdivcnt; else xmit_divcnt <= default_divcnt; end if; -- Drive outputs. txrdy <= not r.txfull; txhalff <= r.txhalff; tick_out <= linko.tick_out; ctrl_out <= linko.ctrl_out; time_out <= linko.time_out; rxvalid <= r.rxfifo_rvalid; rxhalff <= r.rxhalff; rxflag <= s_rxfifo_rdata(8); rxdata <= s_rxfifo_rdata(7 downto 0); started <= linko.started; connecting <= linko.connecting; running <= linko.running; errdisc <= linko.errdisc; errpar <= linko.errpar; erresc <= linko.erresc; errcred <= linko.errcred; -- Reset. if rst = '1' then v.rxpacket := '0'; v.rxeep := '0'; v.txpacket := '0'; v.txdiscard := '0'; v.rxfifo_raddr := (others => '0'); v.rxfifo_waddr := (others => '0'); v.txfifo_raddr := (others => '0'); v.txfifo_waddr := (others => '0'); v.rxfifo_rvalid := '0'; v.txfifo_rvalid := '0'; end if; -- Update registers. rin <= v; end process; -- Update registers. process (clk) is begin if rising_edge(clk) then r <= rin; end if; end process; end architecture spwstream_arch;
-- **** -- T80(b) core. In an effort to merge and maintain bug fixes .... -- -- -- Ver 300 started tidyup -- MikeJ March 2005 -- Latest version from www.fpgaarcade.com (original www.opencores.org) -- -- **** -- -- Z80 compatible microprocessor core, asynchronous top level -- -- Version : 0247 -- -- Copyright (c) 2001-2002 Daniel Wallner (jesus@opencores.org) -- -- 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. -- -- The latest version of this file can be found at: -- http://www.opencores.org/cvsweb.shtml/t80/ -- -- Limitations : -- -- File history : -- -- 0208 : First complete release -- -- 0211 : Fixed interrupt cycle -- -- 0235 : Updated for T80 interface change -- -- 0238 : Updated for T80 interface change -- -- 0240 : Updated for T80 interface change -- -- 0242 : Updated for T80 interface change -- -- 0247 : Fixed bus req/ack cycle -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.numeric_std.all; use work.T80_Pack.all; entity T80a is generic( Mode : integer := 0 -- 0 => Z80, 1 => Fast Z80, 2 => 8080, 3 => GB ); port( RESET_n : in std_logic; CLK_n : in std_logic; WAIT_n : in std_logic; INT_n : in std_logic; NMI_n : in std_logic; BUSRQ_n : in std_logic; M1_n : out std_logic; MREQ_n : out std_logic; IORQ_n : out std_logic; RD_n : out std_logic; WR_n : out std_logic; RFSH_n : out std_logic; HALT_n : out std_logic; BUSAK_n : out std_logic; A : out std_logic_vector(15 downto 0); D : inout std_logic_vector(7 downto 0) ); end T80a; architecture rtl of T80a is signal CEN : std_logic; signal Reset_s : std_logic; signal IntCycle_n : std_logic; signal IORQ : std_logic; signal NoRead : std_logic; signal Write : std_logic; signal MREQ : std_logic; signal MReq_Inhibit : std_logic; signal Req_Inhibit : std_logic; signal RD : std_logic; signal MREQ_n_i : std_logic; signal IORQ_n_i : std_logic; signal RD_n_i : std_logic; signal WR_n_i : std_logic; signal RFSH_n_i : std_logic; signal BUSAK_n_i : std_logic; signal A_i : std_logic_vector(15 downto 0); signal DO : std_logic_vector(7 downto 0); signal DI_Reg : std_logic_vector (7 downto 0); -- Input synchroniser signal Wait_s : std_logic; signal MCycle : std_logic_vector(2 downto 0); signal TState : std_logic_vector(2 downto 0); begin CEN <= '1'; BUSAK_n <= BUSAK_n_i; MREQ_n_i <= not MREQ or (Req_Inhibit and MReq_Inhibit); RD_n_i <= not RD or Req_Inhibit; MREQ_n <= MREQ_n_i when BUSAK_n_i = '1' else 'Z'; IORQ_n <= IORQ_n_i when BUSAK_n_i = '1' else 'Z'; RD_n <= RD_n_i when BUSAK_n_i = '1' else 'Z'; WR_n <= WR_n_i when BUSAK_n_i = '1' else 'Z'; RFSH_n <= RFSH_n_i when BUSAK_n_i = '1' else 'Z'; A <= A_i when BUSAK_n_i = '1' else (others => 'Z'); D <= DO when Write = '1' and BUSAK_n_i = '1' else (others => 'Z'); process (RESET_n, CLK_n) begin if RESET_n = '0' then Reset_s <= '0'; elsif CLK_n'event and CLK_n = '1' then Reset_s <= '1'; end if; end process; u0 : T80 generic map( Mode => Mode, IOWait => 1) port map( CEN => CEN, M1_n => M1_n, IORQ => IORQ, NoRead => NoRead, Write => Write, RFSH_n => RFSH_n_i, HALT_n => HALT_n, WAIT_n => Wait_s, INT_n => INT_n, NMI_n => NMI_n, RESET_n => Reset_s, BUSRQ_n => BUSRQ_n, BUSAK_n => BUSAK_n_i, CLK_n => CLK_n, A => A_i, DInst => D, DI => DI_Reg, DO => DO, MC => MCycle, TS => TState, IntCycle_n => IntCycle_n); process (CLK_n) begin if CLK_n'event and CLK_n = '0' then Wait_s <= WAIT_n; if TState = "011" and BUSAK_n_i = '1' then DI_Reg <= to_x01(D); end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then WR_n_i <= '1'; elsif CLK_n'event and CLK_n = '1' then WR_n_i <= '1'; if TState = "001" then -- To short for IO writes !!!!!!!!!!!!!!!!!!! WR_n_i <= not Write; end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then Req_Inhibit <= '0'; elsif CLK_n'event and CLK_n = '1' then if MCycle = "001" and TState = "010" then Req_Inhibit <= '1'; else Req_Inhibit <= '0'; end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then MReq_Inhibit <= '0'; elsif CLK_n'event and CLK_n = '0' then if MCycle = "001" and TState = "010" then MReq_Inhibit <= '1'; else MReq_Inhibit <= '0'; end if; end if; end process; process(Reset_s,CLK_n) begin if Reset_s = '0' then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '0'; elsif CLK_n'event and CLK_n = '0' then if MCycle = "001" then if TState = "001" then RD <= IntCycle_n; MREQ <= IntCycle_n; IORQ_n_i <= IntCycle_n; end if; if TState = "011" then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '1'; end if; if TState = "100" then MREQ <= '0'; end if; else if TState = "001" and NoRead = '0' then RD <= not Write; IORQ_n_i <= not IORQ; MREQ <= not IORQ; end if; if TState = "011" then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '0'; end if; end if; end if; end process; end;
-- **** -- T80(b) core. In an effort to merge and maintain bug fixes .... -- -- -- Ver 300 started tidyup -- MikeJ March 2005 -- Latest version from www.fpgaarcade.com (original www.opencores.org) -- -- **** -- -- Z80 compatible microprocessor core, asynchronous top level -- -- Version : 0247 -- -- Copyright (c) 2001-2002 Daniel Wallner (jesus@opencores.org) -- -- 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. -- -- The latest version of this file can be found at: -- http://www.opencores.org/cvsweb.shtml/t80/ -- -- Limitations : -- -- File history : -- -- 0208 : First complete release -- -- 0211 : Fixed interrupt cycle -- -- 0235 : Updated for T80 interface change -- -- 0238 : Updated for T80 interface change -- -- 0240 : Updated for T80 interface change -- -- 0242 : Updated for T80 interface change -- -- 0247 : Fixed bus req/ack cycle -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.numeric_std.all; use work.T80_Pack.all; entity T80a is generic( Mode : integer := 0 -- 0 => Z80, 1 => Fast Z80, 2 => 8080, 3 => GB ); port( RESET_n : in std_logic; CLK_n : in std_logic; WAIT_n : in std_logic; INT_n : in std_logic; NMI_n : in std_logic; BUSRQ_n : in std_logic; M1_n : out std_logic; MREQ_n : out std_logic; IORQ_n : out std_logic; RD_n : out std_logic; WR_n : out std_logic; RFSH_n : out std_logic; HALT_n : out std_logic; BUSAK_n : out std_logic; A : out std_logic_vector(15 downto 0); D : inout std_logic_vector(7 downto 0) ); end T80a; architecture rtl of T80a is signal CEN : std_logic; signal Reset_s : std_logic; signal IntCycle_n : std_logic; signal IORQ : std_logic; signal NoRead : std_logic; signal Write : std_logic; signal MREQ : std_logic; signal MReq_Inhibit : std_logic; signal Req_Inhibit : std_logic; signal RD : std_logic; signal MREQ_n_i : std_logic; signal IORQ_n_i : std_logic; signal RD_n_i : std_logic; signal WR_n_i : std_logic; signal RFSH_n_i : std_logic; signal BUSAK_n_i : std_logic; signal A_i : std_logic_vector(15 downto 0); signal DO : std_logic_vector(7 downto 0); signal DI_Reg : std_logic_vector (7 downto 0); -- Input synchroniser signal Wait_s : std_logic; signal MCycle : std_logic_vector(2 downto 0); signal TState : std_logic_vector(2 downto 0); begin CEN <= '1'; BUSAK_n <= BUSAK_n_i; MREQ_n_i <= not MREQ or (Req_Inhibit and MReq_Inhibit); RD_n_i <= not RD or Req_Inhibit; MREQ_n <= MREQ_n_i when BUSAK_n_i = '1' else 'Z'; IORQ_n <= IORQ_n_i when BUSAK_n_i = '1' else 'Z'; RD_n <= RD_n_i when BUSAK_n_i = '1' else 'Z'; WR_n <= WR_n_i when BUSAK_n_i = '1' else 'Z'; RFSH_n <= RFSH_n_i when BUSAK_n_i = '1' else 'Z'; A <= A_i when BUSAK_n_i = '1' else (others => 'Z'); D <= DO when Write = '1' and BUSAK_n_i = '1' else (others => 'Z'); process (RESET_n, CLK_n) begin if RESET_n = '0' then Reset_s <= '0'; elsif CLK_n'event and CLK_n = '1' then Reset_s <= '1'; end if; end process; u0 : T80 generic map( Mode => Mode, IOWait => 1) port map( CEN => CEN, M1_n => M1_n, IORQ => IORQ, NoRead => NoRead, Write => Write, RFSH_n => RFSH_n_i, HALT_n => HALT_n, WAIT_n => Wait_s, INT_n => INT_n, NMI_n => NMI_n, RESET_n => Reset_s, BUSRQ_n => BUSRQ_n, BUSAK_n => BUSAK_n_i, CLK_n => CLK_n, A => A_i, DInst => D, DI => DI_Reg, DO => DO, MC => MCycle, TS => TState, IntCycle_n => IntCycle_n); process (CLK_n) begin if CLK_n'event and CLK_n = '0' then Wait_s <= WAIT_n; if TState = "011" and BUSAK_n_i = '1' then DI_Reg <= to_x01(D); end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then WR_n_i <= '1'; elsif CLK_n'event and CLK_n = '1' then WR_n_i <= '1'; if TState = "001" then -- To short for IO writes !!!!!!!!!!!!!!!!!!! WR_n_i <= not Write; end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then Req_Inhibit <= '0'; elsif CLK_n'event and CLK_n = '1' then if MCycle = "001" and TState = "010" then Req_Inhibit <= '1'; else Req_Inhibit <= '0'; end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then MReq_Inhibit <= '0'; elsif CLK_n'event and CLK_n = '0' then if MCycle = "001" and TState = "010" then MReq_Inhibit <= '1'; else MReq_Inhibit <= '0'; end if; end if; end process; process(Reset_s,CLK_n) begin if Reset_s = '0' then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '0'; elsif CLK_n'event and CLK_n = '0' then if MCycle = "001" then if TState = "001" then RD <= IntCycle_n; MREQ <= IntCycle_n; IORQ_n_i <= IntCycle_n; end if; if TState = "011" then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '1'; end if; if TState = "100" then MREQ <= '0'; end if; else if TState = "001" and NoRead = '0' then RD <= not Write; IORQ_n_i <= not IORQ; MREQ <= not IORQ; end if; if TState = "011" then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '0'; end if; end if; end if; end process; end;
-- **** -- T80(b) core. In an effort to merge and maintain bug fixes .... -- -- -- Ver 300 started tidyup -- MikeJ March 2005 -- Latest version from www.fpgaarcade.com (original www.opencores.org) -- -- **** -- -- Z80 compatible microprocessor core, asynchronous top level -- -- Version : 0247 -- -- Copyright (c) 2001-2002 Daniel Wallner (jesus@opencores.org) -- -- 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. -- -- The latest version of this file can be found at: -- http://www.opencores.org/cvsweb.shtml/t80/ -- -- Limitations : -- -- File history : -- -- 0208 : First complete release -- -- 0211 : Fixed interrupt cycle -- -- 0235 : Updated for T80 interface change -- -- 0238 : Updated for T80 interface change -- -- 0240 : Updated for T80 interface change -- -- 0242 : Updated for T80 interface change -- -- 0247 : Fixed bus req/ack cycle -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.numeric_std.all; use work.T80_Pack.all; entity T80a is generic( Mode : integer := 0 -- 0 => Z80, 1 => Fast Z80, 2 => 8080, 3 => GB ); port( RESET_n : in std_logic; CLK_n : in std_logic; WAIT_n : in std_logic; INT_n : in std_logic; NMI_n : in std_logic; BUSRQ_n : in std_logic; M1_n : out std_logic; MREQ_n : out std_logic; IORQ_n : out std_logic; RD_n : out std_logic; WR_n : out std_logic; RFSH_n : out std_logic; HALT_n : out std_logic; BUSAK_n : out std_logic; A : out std_logic_vector(15 downto 0); D : inout std_logic_vector(7 downto 0) ); end T80a; architecture rtl of T80a is signal CEN : std_logic; signal Reset_s : std_logic; signal IntCycle_n : std_logic; signal IORQ : std_logic; signal NoRead : std_logic; signal Write : std_logic; signal MREQ : std_logic; signal MReq_Inhibit : std_logic; signal Req_Inhibit : std_logic; signal RD : std_logic; signal MREQ_n_i : std_logic; signal IORQ_n_i : std_logic; signal RD_n_i : std_logic; signal WR_n_i : std_logic; signal RFSH_n_i : std_logic; signal BUSAK_n_i : std_logic; signal A_i : std_logic_vector(15 downto 0); signal DO : std_logic_vector(7 downto 0); signal DI_Reg : std_logic_vector (7 downto 0); -- Input synchroniser signal Wait_s : std_logic; signal MCycle : std_logic_vector(2 downto 0); signal TState : std_logic_vector(2 downto 0); begin CEN <= '1'; BUSAK_n <= BUSAK_n_i; MREQ_n_i <= not MREQ or (Req_Inhibit and MReq_Inhibit); RD_n_i <= not RD or Req_Inhibit; MREQ_n <= MREQ_n_i when BUSAK_n_i = '1' else 'Z'; IORQ_n <= IORQ_n_i when BUSAK_n_i = '1' else 'Z'; RD_n <= RD_n_i when BUSAK_n_i = '1' else 'Z'; WR_n <= WR_n_i when BUSAK_n_i = '1' else 'Z'; RFSH_n <= RFSH_n_i when BUSAK_n_i = '1' else 'Z'; A <= A_i when BUSAK_n_i = '1' else (others => 'Z'); D <= DO when Write = '1' and BUSAK_n_i = '1' else (others => 'Z'); process (RESET_n, CLK_n) begin if RESET_n = '0' then Reset_s <= '0'; elsif CLK_n'event and CLK_n = '1' then Reset_s <= '1'; end if; end process; u0 : T80 generic map( Mode => Mode, IOWait => 1) port map( CEN => CEN, M1_n => M1_n, IORQ => IORQ, NoRead => NoRead, Write => Write, RFSH_n => RFSH_n_i, HALT_n => HALT_n, WAIT_n => Wait_s, INT_n => INT_n, NMI_n => NMI_n, RESET_n => Reset_s, BUSRQ_n => BUSRQ_n, BUSAK_n => BUSAK_n_i, CLK_n => CLK_n, A => A_i, DInst => D, DI => DI_Reg, DO => DO, MC => MCycle, TS => TState, IntCycle_n => IntCycle_n); process (CLK_n) begin if CLK_n'event and CLK_n = '0' then Wait_s <= WAIT_n; if TState = "011" and BUSAK_n_i = '1' then DI_Reg <= to_x01(D); end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then WR_n_i <= '1'; elsif CLK_n'event and CLK_n = '1' then WR_n_i <= '1'; if TState = "001" then -- To short for IO writes !!!!!!!!!!!!!!!!!!! WR_n_i <= not Write; end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then Req_Inhibit <= '0'; elsif CLK_n'event and CLK_n = '1' then if MCycle = "001" and TState = "010" then Req_Inhibit <= '1'; else Req_Inhibit <= '0'; end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then MReq_Inhibit <= '0'; elsif CLK_n'event and CLK_n = '0' then if MCycle = "001" and TState = "010" then MReq_Inhibit <= '1'; else MReq_Inhibit <= '0'; end if; end if; end process; process(Reset_s,CLK_n) begin if Reset_s = '0' then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '0'; elsif CLK_n'event and CLK_n = '0' then if MCycle = "001" then if TState = "001" then RD <= IntCycle_n; MREQ <= IntCycle_n; IORQ_n_i <= IntCycle_n; end if; if TState = "011" then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '1'; end if; if TState = "100" then MREQ <= '0'; end if; else if TState = "001" and NoRead = '0' then RD <= not Write; IORQ_n_i <= not IORQ; MREQ <= not IORQ; end if; if TState = "011" then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '0'; end if; end if; end if; end process; end;
-- **** -- T80(b) core. In an effort to merge and maintain bug fixes .... -- -- -- Ver 300 started tidyup -- MikeJ March 2005 -- Latest version from www.fpgaarcade.com (original www.opencores.org) -- -- **** -- -- Z80 compatible microprocessor core, asynchronous top level -- -- Version : 0247 -- -- Copyright (c) 2001-2002 Daniel Wallner (jesus@opencores.org) -- -- 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. -- -- The latest version of this file can be found at: -- http://www.opencores.org/cvsweb.shtml/t80/ -- -- Limitations : -- -- File history : -- -- 0208 : First complete release -- -- 0211 : Fixed interrupt cycle -- -- 0235 : Updated for T80 interface change -- -- 0238 : Updated for T80 interface change -- -- 0240 : Updated for T80 interface change -- -- 0242 : Updated for T80 interface change -- -- 0247 : Fixed bus req/ack cycle -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.numeric_std.all; use work.T80_Pack.all; entity T80a is generic( Mode : integer := 0 -- 0 => Z80, 1 => Fast Z80, 2 => 8080, 3 => GB ); port( RESET_n : in std_logic; CLK_n : in std_logic; WAIT_n : in std_logic; INT_n : in std_logic; NMI_n : in std_logic; BUSRQ_n : in std_logic; M1_n : out std_logic; MREQ_n : out std_logic; IORQ_n : out std_logic; RD_n : out std_logic; WR_n : out std_logic; RFSH_n : out std_logic; HALT_n : out std_logic; BUSAK_n : out std_logic; A : out std_logic_vector(15 downto 0); D : inout std_logic_vector(7 downto 0) ); end T80a; architecture rtl of T80a is signal CEN : std_logic; signal Reset_s : std_logic; signal IntCycle_n : std_logic; signal IORQ : std_logic; signal NoRead : std_logic; signal Write : std_logic; signal MREQ : std_logic; signal MReq_Inhibit : std_logic; signal Req_Inhibit : std_logic; signal RD : std_logic; signal MREQ_n_i : std_logic; signal IORQ_n_i : std_logic; signal RD_n_i : std_logic; signal WR_n_i : std_logic; signal RFSH_n_i : std_logic; signal BUSAK_n_i : std_logic; signal A_i : std_logic_vector(15 downto 0); signal DO : std_logic_vector(7 downto 0); signal DI_Reg : std_logic_vector (7 downto 0); -- Input synchroniser signal Wait_s : std_logic; signal MCycle : std_logic_vector(2 downto 0); signal TState : std_logic_vector(2 downto 0); begin CEN <= '1'; BUSAK_n <= BUSAK_n_i; MREQ_n_i <= not MREQ or (Req_Inhibit and MReq_Inhibit); RD_n_i <= not RD or Req_Inhibit; MREQ_n <= MREQ_n_i when BUSAK_n_i = '1' else 'Z'; IORQ_n <= IORQ_n_i when BUSAK_n_i = '1' else 'Z'; RD_n <= RD_n_i when BUSAK_n_i = '1' else 'Z'; WR_n <= WR_n_i when BUSAK_n_i = '1' else 'Z'; RFSH_n <= RFSH_n_i when BUSAK_n_i = '1' else 'Z'; A <= A_i when BUSAK_n_i = '1' else (others => 'Z'); D <= DO when Write = '1' and BUSAK_n_i = '1' else (others => 'Z'); process (RESET_n, CLK_n) begin if RESET_n = '0' then Reset_s <= '0'; elsif CLK_n'event and CLK_n = '1' then Reset_s <= '1'; end if; end process; u0 : T80 generic map( Mode => Mode, IOWait => 1) port map( CEN => CEN, M1_n => M1_n, IORQ => IORQ, NoRead => NoRead, Write => Write, RFSH_n => RFSH_n_i, HALT_n => HALT_n, WAIT_n => Wait_s, INT_n => INT_n, NMI_n => NMI_n, RESET_n => Reset_s, BUSRQ_n => BUSRQ_n, BUSAK_n => BUSAK_n_i, CLK_n => CLK_n, A => A_i, DInst => D, DI => DI_Reg, DO => DO, MC => MCycle, TS => TState, IntCycle_n => IntCycle_n); process (CLK_n) begin if CLK_n'event and CLK_n = '0' then Wait_s <= WAIT_n; if TState = "011" and BUSAK_n_i = '1' then DI_Reg <= to_x01(D); end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then WR_n_i <= '1'; elsif CLK_n'event and CLK_n = '1' then WR_n_i <= '1'; if TState = "001" then -- To short for IO writes !!!!!!!!!!!!!!!!!!! WR_n_i <= not Write; end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then Req_Inhibit <= '0'; elsif CLK_n'event and CLK_n = '1' then if MCycle = "001" and TState = "010" then Req_Inhibit <= '1'; else Req_Inhibit <= '0'; end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then MReq_Inhibit <= '0'; elsif CLK_n'event and CLK_n = '0' then if MCycle = "001" and TState = "010" then MReq_Inhibit <= '1'; else MReq_Inhibit <= '0'; end if; end if; end process; process(Reset_s,CLK_n) begin if Reset_s = '0' then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '0'; elsif CLK_n'event and CLK_n = '0' then if MCycle = "001" then if TState = "001" then RD <= IntCycle_n; MREQ <= IntCycle_n; IORQ_n_i <= IntCycle_n; end if; if TState = "011" then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '1'; end if; if TState = "100" then MREQ <= '0'; end if; else if TState = "001" and NoRead = '0' then RD <= not Write; IORQ_n_i <= not IORQ; MREQ <= not IORQ; end if; if TState = "011" then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '0'; end if; end if; end if; end process; end;
-- **** -- T80(b) core. In an effort to merge and maintain bug fixes .... -- -- -- Ver 300 started tidyup -- MikeJ March 2005 -- Latest version from www.fpgaarcade.com (original www.opencores.org) -- -- **** -- -- Z80 compatible microprocessor core, asynchronous top level -- -- Version : 0247 -- -- Copyright (c) 2001-2002 Daniel Wallner (jesus@opencores.org) -- -- 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. -- -- The latest version of this file can be found at: -- http://www.opencores.org/cvsweb.shtml/t80/ -- -- Limitations : -- -- File history : -- -- 0208 : First complete release -- -- 0211 : Fixed interrupt cycle -- -- 0235 : Updated for T80 interface change -- -- 0238 : Updated for T80 interface change -- -- 0240 : Updated for T80 interface change -- -- 0242 : Updated for T80 interface change -- -- 0247 : Fixed bus req/ack cycle -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.numeric_std.all; use work.T80_Pack.all; entity T80a is generic( Mode : integer := 0 -- 0 => Z80, 1 => Fast Z80, 2 => 8080, 3 => GB ); port( RESET_n : in std_logic; CLK_n : in std_logic; WAIT_n : in std_logic; INT_n : in std_logic; NMI_n : in std_logic; BUSRQ_n : in std_logic; M1_n : out std_logic; MREQ_n : out std_logic; IORQ_n : out std_logic; RD_n : out std_logic; WR_n : out std_logic; RFSH_n : out std_logic; HALT_n : out std_logic; BUSAK_n : out std_logic; A : out std_logic_vector(15 downto 0); D : inout std_logic_vector(7 downto 0) ); end T80a; architecture rtl of T80a is signal CEN : std_logic; signal Reset_s : std_logic; signal IntCycle_n : std_logic; signal IORQ : std_logic; signal NoRead : std_logic; signal Write : std_logic; signal MREQ : std_logic; signal MReq_Inhibit : std_logic; signal Req_Inhibit : std_logic; signal RD : std_logic; signal MREQ_n_i : std_logic; signal IORQ_n_i : std_logic; signal RD_n_i : std_logic; signal WR_n_i : std_logic; signal RFSH_n_i : std_logic; signal BUSAK_n_i : std_logic; signal A_i : std_logic_vector(15 downto 0); signal DO : std_logic_vector(7 downto 0); signal DI_Reg : std_logic_vector (7 downto 0); -- Input synchroniser signal Wait_s : std_logic; signal MCycle : std_logic_vector(2 downto 0); signal TState : std_logic_vector(2 downto 0); begin CEN <= '1'; BUSAK_n <= BUSAK_n_i; MREQ_n_i <= not MREQ or (Req_Inhibit and MReq_Inhibit); RD_n_i <= not RD or Req_Inhibit; MREQ_n <= MREQ_n_i when BUSAK_n_i = '1' else 'Z'; IORQ_n <= IORQ_n_i when BUSAK_n_i = '1' else 'Z'; RD_n <= RD_n_i when BUSAK_n_i = '1' else 'Z'; WR_n <= WR_n_i when BUSAK_n_i = '1' else 'Z'; RFSH_n <= RFSH_n_i when BUSAK_n_i = '1' else 'Z'; A <= A_i when BUSAK_n_i = '1' else (others => 'Z'); D <= DO when Write = '1' and BUSAK_n_i = '1' else (others => 'Z'); process (RESET_n, CLK_n) begin if RESET_n = '0' then Reset_s <= '0'; elsif CLK_n'event and CLK_n = '1' then Reset_s <= '1'; end if; end process; u0 : T80 generic map( Mode => Mode, IOWait => 1) port map( CEN => CEN, M1_n => M1_n, IORQ => IORQ, NoRead => NoRead, Write => Write, RFSH_n => RFSH_n_i, HALT_n => HALT_n, WAIT_n => Wait_s, INT_n => INT_n, NMI_n => NMI_n, RESET_n => Reset_s, BUSRQ_n => BUSRQ_n, BUSAK_n => BUSAK_n_i, CLK_n => CLK_n, A => A_i, DInst => D, DI => DI_Reg, DO => DO, MC => MCycle, TS => TState, IntCycle_n => IntCycle_n); process (CLK_n) begin if CLK_n'event and CLK_n = '0' then Wait_s <= WAIT_n; if TState = "011" and BUSAK_n_i = '1' then DI_Reg <= to_x01(D); end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then WR_n_i <= '1'; elsif CLK_n'event and CLK_n = '1' then WR_n_i <= '1'; if TState = "001" then -- To short for IO writes !!!!!!!!!!!!!!!!!!! WR_n_i <= not Write; end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then Req_Inhibit <= '0'; elsif CLK_n'event and CLK_n = '1' then if MCycle = "001" and TState = "010" then Req_Inhibit <= '1'; else Req_Inhibit <= '0'; end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then MReq_Inhibit <= '0'; elsif CLK_n'event and CLK_n = '0' then if MCycle = "001" and TState = "010" then MReq_Inhibit <= '1'; else MReq_Inhibit <= '0'; end if; end if; end process; process(Reset_s,CLK_n) begin if Reset_s = '0' then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '0'; elsif CLK_n'event and CLK_n = '0' then if MCycle = "001" then if TState = "001" then RD <= IntCycle_n; MREQ <= IntCycle_n; IORQ_n_i <= IntCycle_n; end if; if TState = "011" then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '1'; end if; if TState = "100" then MREQ <= '0'; end if; else if TState = "001" and NoRead = '0' then RD <= not Write; IORQ_n_i <= not IORQ; MREQ <= not IORQ; end if; if TState = "011" then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '0'; end if; end if; end if; end process; end;
-- **** -- T80(b) core. In an effort to merge and maintain bug fixes .... -- -- -- Ver 300 started tidyup -- MikeJ March 2005 -- Latest version from www.fpgaarcade.com (original www.opencores.org) -- -- **** -- -- Z80 compatible microprocessor core, asynchronous top level -- -- Version : 0247 -- -- Copyright (c) 2001-2002 Daniel Wallner (jesus@opencores.org) -- -- 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. -- -- The latest version of this file can be found at: -- http://www.opencores.org/cvsweb.shtml/t80/ -- -- Limitations : -- -- File history : -- -- 0208 : First complete release -- -- 0211 : Fixed interrupt cycle -- -- 0235 : Updated for T80 interface change -- -- 0238 : Updated for T80 interface change -- -- 0240 : Updated for T80 interface change -- -- 0242 : Updated for T80 interface change -- -- 0247 : Fixed bus req/ack cycle -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.numeric_std.all; use work.T80_Pack.all; entity T80a is generic( Mode : integer := 0 -- 0 => Z80, 1 => Fast Z80, 2 => 8080, 3 => GB ); port( RESET_n : in std_logic; CLK_n : in std_logic; WAIT_n : in std_logic; INT_n : in std_logic; NMI_n : in std_logic; BUSRQ_n : in std_logic; M1_n : out std_logic; MREQ_n : out std_logic; IORQ_n : out std_logic; RD_n : out std_logic; WR_n : out std_logic; RFSH_n : out std_logic; HALT_n : out std_logic; BUSAK_n : out std_logic; A : out std_logic_vector(15 downto 0); D : inout std_logic_vector(7 downto 0) ); end T80a; architecture rtl of T80a is signal CEN : std_logic; signal Reset_s : std_logic; signal IntCycle_n : std_logic; signal IORQ : std_logic; signal NoRead : std_logic; signal Write : std_logic; signal MREQ : std_logic; signal MReq_Inhibit : std_logic; signal Req_Inhibit : std_logic; signal RD : std_logic; signal MREQ_n_i : std_logic; signal IORQ_n_i : std_logic; signal RD_n_i : std_logic; signal WR_n_i : std_logic; signal RFSH_n_i : std_logic; signal BUSAK_n_i : std_logic; signal A_i : std_logic_vector(15 downto 0); signal DO : std_logic_vector(7 downto 0); signal DI_Reg : std_logic_vector (7 downto 0); -- Input synchroniser signal Wait_s : std_logic; signal MCycle : std_logic_vector(2 downto 0); signal TState : std_logic_vector(2 downto 0); begin CEN <= '1'; BUSAK_n <= BUSAK_n_i; MREQ_n_i <= not MREQ or (Req_Inhibit and MReq_Inhibit); RD_n_i <= not RD or Req_Inhibit; MREQ_n <= MREQ_n_i when BUSAK_n_i = '1' else 'Z'; IORQ_n <= IORQ_n_i when BUSAK_n_i = '1' else 'Z'; RD_n <= RD_n_i when BUSAK_n_i = '1' else 'Z'; WR_n <= WR_n_i when BUSAK_n_i = '1' else 'Z'; RFSH_n <= RFSH_n_i when BUSAK_n_i = '1' else 'Z'; A <= A_i when BUSAK_n_i = '1' else (others => 'Z'); D <= DO when Write = '1' and BUSAK_n_i = '1' else (others => 'Z'); process (RESET_n, CLK_n) begin if RESET_n = '0' then Reset_s <= '0'; elsif CLK_n'event and CLK_n = '1' then Reset_s <= '1'; end if; end process; u0 : T80 generic map( Mode => Mode, IOWait => 1) port map( CEN => CEN, M1_n => M1_n, IORQ => IORQ, NoRead => NoRead, Write => Write, RFSH_n => RFSH_n_i, HALT_n => HALT_n, WAIT_n => Wait_s, INT_n => INT_n, NMI_n => NMI_n, RESET_n => Reset_s, BUSRQ_n => BUSRQ_n, BUSAK_n => BUSAK_n_i, CLK_n => CLK_n, A => A_i, DInst => D, DI => DI_Reg, DO => DO, MC => MCycle, TS => TState, IntCycle_n => IntCycle_n); process (CLK_n) begin if CLK_n'event and CLK_n = '0' then Wait_s <= WAIT_n; if TState = "011" and BUSAK_n_i = '1' then DI_Reg <= to_x01(D); end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then WR_n_i <= '1'; elsif CLK_n'event and CLK_n = '1' then WR_n_i <= '1'; if TState = "001" then -- To short for IO writes !!!!!!!!!!!!!!!!!!! WR_n_i <= not Write; end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then Req_Inhibit <= '0'; elsif CLK_n'event and CLK_n = '1' then if MCycle = "001" and TState = "010" then Req_Inhibit <= '1'; else Req_Inhibit <= '0'; end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then MReq_Inhibit <= '0'; elsif CLK_n'event and CLK_n = '0' then if MCycle = "001" and TState = "010" then MReq_Inhibit <= '1'; else MReq_Inhibit <= '0'; end if; end if; end process; process(Reset_s,CLK_n) begin if Reset_s = '0' then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '0'; elsif CLK_n'event and CLK_n = '0' then if MCycle = "001" then if TState = "001" then RD <= IntCycle_n; MREQ <= IntCycle_n; IORQ_n_i <= IntCycle_n; end if; if TState = "011" then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '1'; end if; if TState = "100" then MREQ <= '0'; end if; else if TState = "001" and NoRead = '0' then RD <= not Write; IORQ_n_i <= not IORQ; MREQ <= not IORQ; end if; if TState = "011" then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '0'; end if; end if; end if; end process; end;
-- **** -- T80(b) core. In an effort to merge and maintain bug fixes .... -- -- -- Ver 300 started tidyup -- MikeJ March 2005 -- Latest version from www.fpgaarcade.com (original www.opencores.org) -- -- **** -- -- Z80 compatible microprocessor core, asynchronous top level -- -- Version : 0247 -- -- Copyright (c) 2001-2002 Daniel Wallner (jesus@opencores.org) -- -- 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. -- -- The latest version of this file can be found at: -- http://www.opencores.org/cvsweb.shtml/t80/ -- -- Limitations : -- -- File history : -- -- 0208 : First complete release -- -- 0211 : Fixed interrupt cycle -- -- 0235 : Updated for T80 interface change -- -- 0238 : Updated for T80 interface change -- -- 0240 : Updated for T80 interface change -- -- 0242 : Updated for T80 interface change -- -- 0247 : Fixed bus req/ack cycle -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.numeric_std.all; use work.T80_Pack.all; entity T80a is generic( Mode : integer := 0 -- 0 => Z80, 1 => Fast Z80, 2 => 8080, 3 => GB ); port( RESET_n : in std_logic; CLK_n : in std_logic; WAIT_n : in std_logic; INT_n : in std_logic; NMI_n : in std_logic; BUSRQ_n : in std_logic; M1_n : out std_logic; MREQ_n : out std_logic; IORQ_n : out std_logic; RD_n : out std_logic; WR_n : out std_logic; RFSH_n : out std_logic; HALT_n : out std_logic; BUSAK_n : out std_logic; A : out std_logic_vector(15 downto 0); D : inout std_logic_vector(7 downto 0) ); end T80a; architecture rtl of T80a is signal CEN : std_logic; signal Reset_s : std_logic; signal IntCycle_n : std_logic; signal IORQ : std_logic; signal NoRead : std_logic; signal Write : std_logic; signal MREQ : std_logic; signal MReq_Inhibit : std_logic; signal Req_Inhibit : std_logic; signal RD : std_logic; signal MREQ_n_i : std_logic; signal IORQ_n_i : std_logic; signal RD_n_i : std_logic; signal WR_n_i : std_logic; signal RFSH_n_i : std_logic; signal BUSAK_n_i : std_logic; signal A_i : std_logic_vector(15 downto 0); signal DO : std_logic_vector(7 downto 0); signal DI_Reg : std_logic_vector (7 downto 0); -- Input synchroniser signal Wait_s : std_logic; signal MCycle : std_logic_vector(2 downto 0); signal TState : std_logic_vector(2 downto 0); begin CEN <= '1'; BUSAK_n <= BUSAK_n_i; MREQ_n_i <= not MREQ or (Req_Inhibit and MReq_Inhibit); RD_n_i <= not RD or Req_Inhibit; MREQ_n <= MREQ_n_i when BUSAK_n_i = '1' else 'Z'; IORQ_n <= IORQ_n_i when BUSAK_n_i = '1' else 'Z'; RD_n <= RD_n_i when BUSAK_n_i = '1' else 'Z'; WR_n <= WR_n_i when BUSAK_n_i = '1' else 'Z'; RFSH_n <= RFSH_n_i when BUSAK_n_i = '1' else 'Z'; A <= A_i when BUSAK_n_i = '1' else (others => 'Z'); D <= DO when Write = '1' and BUSAK_n_i = '1' else (others => 'Z'); process (RESET_n, CLK_n) begin if RESET_n = '0' then Reset_s <= '0'; elsif CLK_n'event and CLK_n = '1' then Reset_s <= '1'; end if; end process; u0 : T80 generic map( Mode => Mode, IOWait => 1) port map( CEN => CEN, M1_n => M1_n, IORQ => IORQ, NoRead => NoRead, Write => Write, RFSH_n => RFSH_n_i, HALT_n => HALT_n, WAIT_n => Wait_s, INT_n => INT_n, NMI_n => NMI_n, RESET_n => Reset_s, BUSRQ_n => BUSRQ_n, BUSAK_n => BUSAK_n_i, CLK_n => CLK_n, A => A_i, DInst => D, DI => DI_Reg, DO => DO, MC => MCycle, TS => TState, IntCycle_n => IntCycle_n); process (CLK_n) begin if CLK_n'event and CLK_n = '0' then Wait_s <= WAIT_n; if TState = "011" and BUSAK_n_i = '1' then DI_Reg <= to_x01(D); end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then WR_n_i <= '1'; elsif CLK_n'event and CLK_n = '1' then WR_n_i <= '1'; if TState = "001" then -- To short for IO writes !!!!!!!!!!!!!!!!!!! WR_n_i <= not Write; end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then Req_Inhibit <= '0'; elsif CLK_n'event and CLK_n = '1' then if MCycle = "001" and TState = "010" then Req_Inhibit <= '1'; else Req_Inhibit <= '0'; end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then MReq_Inhibit <= '0'; elsif CLK_n'event and CLK_n = '0' then if MCycle = "001" and TState = "010" then MReq_Inhibit <= '1'; else MReq_Inhibit <= '0'; end if; end if; end process; process(Reset_s,CLK_n) begin if Reset_s = '0' then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '0'; elsif CLK_n'event and CLK_n = '0' then if MCycle = "001" then if TState = "001" then RD <= IntCycle_n; MREQ <= IntCycle_n; IORQ_n_i <= IntCycle_n; end if; if TState = "011" then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '1'; end if; if TState = "100" then MREQ <= '0'; end if; else if TState = "001" and NoRead = '0' then RD <= not Write; IORQ_n_i <= not IORQ; MREQ <= not IORQ; end if; if TState = "011" then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '0'; end if; end if; end if; end process; end;
-- **** -- T80(b) core. In an effort to merge and maintain bug fixes .... -- -- -- Ver 300 started tidyup -- MikeJ March 2005 -- Latest version from www.fpgaarcade.com (original www.opencores.org) -- -- **** -- -- Z80 compatible microprocessor core, asynchronous top level -- -- Version : 0247 -- -- Copyright (c) 2001-2002 Daniel Wallner (jesus@opencores.org) -- -- 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. -- -- The latest version of this file can be found at: -- http://www.opencores.org/cvsweb.shtml/t80/ -- -- Limitations : -- -- File history : -- -- 0208 : First complete release -- -- 0211 : Fixed interrupt cycle -- -- 0235 : Updated for T80 interface change -- -- 0238 : Updated for T80 interface change -- -- 0240 : Updated for T80 interface change -- -- 0242 : Updated for T80 interface change -- -- 0247 : Fixed bus req/ack cycle -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.numeric_std.all; use work.T80_Pack.all; entity T80a is generic( Mode : integer := 0 -- 0 => Z80, 1 => Fast Z80, 2 => 8080, 3 => GB ); port( RESET_n : in std_logic; CLK_n : in std_logic; WAIT_n : in std_logic; INT_n : in std_logic; NMI_n : in std_logic; BUSRQ_n : in std_logic; M1_n : out std_logic; MREQ_n : out std_logic; IORQ_n : out std_logic; RD_n : out std_logic; WR_n : out std_logic; RFSH_n : out std_logic; HALT_n : out std_logic; BUSAK_n : out std_logic; A : out std_logic_vector(15 downto 0); D : inout std_logic_vector(7 downto 0) ); end T80a; architecture rtl of T80a is signal CEN : std_logic; signal Reset_s : std_logic; signal IntCycle_n : std_logic; signal IORQ : std_logic; signal NoRead : std_logic; signal Write : std_logic; signal MREQ : std_logic; signal MReq_Inhibit : std_logic; signal Req_Inhibit : std_logic; signal RD : std_logic; signal MREQ_n_i : std_logic; signal IORQ_n_i : std_logic; signal RD_n_i : std_logic; signal WR_n_i : std_logic; signal RFSH_n_i : std_logic; signal BUSAK_n_i : std_logic; signal A_i : std_logic_vector(15 downto 0); signal DO : std_logic_vector(7 downto 0); signal DI_Reg : std_logic_vector (7 downto 0); -- Input synchroniser signal Wait_s : std_logic; signal MCycle : std_logic_vector(2 downto 0); signal TState : std_logic_vector(2 downto 0); begin CEN <= '1'; BUSAK_n <= BUSAK_n_i; MREQ_n_i <= not MREQ or (Req_Inhibit and MReq_Inhibit); RD_n_i <= not RD or Req_Inhibit; MREQ_n <= MREQ_n_i when BUSAK_n_i = '1' else 'Z'; IORQ_n <= IORQ_n_i when BUSAK_n_i = '1' else 'Z'; RD_n <= RD_n_i when BUSAK_n_i = '1' else 'Z'; WR_n <= WR_n_i when BUSAK_n_i = '1' else 'Z'; RFSH_n <= RFSH_n_i when BUSAK_n_i = '1' else 'Z'; A <= A_i when BUSAK_n_i = '1' else (others => 'Z'); D <= DO when Write = '1' and BUSAK_n_i = '1' else (others => 'Z'); process (RESET_n, CLK_n) begin if RESET_n = '0' then Reset_s <= '0'; elsif CLK_n'event and CLK_n = '1' then Reset_s <= '1'; end if; end process; u0 : T80 generic map( Mode => Mode, IOWait => 1) port map( CEN => CEN, M1_n => M1_n, IORQ => IORQ, NoRead => NoRead, Write => Write, RFSH_n => RFSH_n_i, HALT_n => HALT_n, WAIT_n => Wait_s, INT_n => INT_n, NMI_n => NMI_n, RESET_n => Reset_s, BUSRQ_n => BUSRQ_n, BUSAK_n => BUSAK_n_i, CLK_n => CLK_n, A => A_i, DInst => D, DI => DI_Reg, DO => DO, MC => MCycle, TS => TState, IntCycle_n => IntCycle_n); process (CLK_n) begin if CLK_n'event and CLK_n = '0' then Wait_s <= WAIT_n; if TState = "011" and BUSAK_n_i = '1' then DI_Reg <= to_x01(D); end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then WR_n_i <= '1'; elsif CLK_n'event and CLK_n = '1' then WR_n_i <= '1'; if TState = "001" then -- To short for IO writes !!!!!!!!!!!!!!!!!!! WR_n_i <= not Write; end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then Req_Inhibit <= '0'; elsif CLK_n'event and CLK_n = '1' then if MCycle = "001" and TState = "010" then Req_Inhibit <= '1'; else Req_Inhibit <= '0'; end if; end if; end process; process (Reset_s,CLK_n) begin if Reset_s = '0' then MReq_Inhibit <= '0'; elsif CLK_n'event and CLK_n = '0' then if MCycle = "001" and TState = "010" then MReq_Inhibit <= '1'; else MReq_Inhibit <= '0'; end if; end if; end process; process(Reset_s,CLK_n) begin if Reset_s = '0' then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '0'; elsif CLK_n'event and CLK_n = '0' then if MCycle = "001" then if TState = "001" then RD <= IntCycle_n; MREQ <= IntCycle_n; IORQ_n_i <= IntCycle_n; end if; if TState = "011" then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '1'; end if; if TState = "100" then MREQ <= '0'; end if; else if TState = "001" and NoRead = '0' then RD <= not Write; IORQ_n_i <= not IORQ; MREQ <= not IORQ; end if; if TState = "011" then RD <= '0'; IORQ_n_i <= '1'; MREQ <= '0'; end if; end if; end if; end process; end;
---------------------------------------------------------------------- ---- ---- ---- WISHBONE SPDIF IP Core ---- ---- ---- ---- This file is part of the SPDIF project ---- ---- http://www.opencores.org/cores/spdif_interface/ ---- ---- ---- ---- Description ---- ---- SPDIF receiver RxVersion register. ---- ---- ---- ---- ---- ---- To Do: ---- ---- - ---- ---- ---- ---- Author(s): ---- ---- - Geir Drange, gedra@opencores.org ---- ---- ---- ---------------------------------------------------------------------- ---- ---- ---- Copyright (C) 2004 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 ---- ---- ---- ---------------------------------------------------------------------- -- -- CVS Revision History -- -- $Log: not supported by cvs2svn $ -- Revision 1.2 2004/06/04 15:55:07 gedra -- Cleaned up lint warnings. -- -- Revision 1.1 2004/06/03 17:51:41 gedra -- Receiver version register. -- -- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity rx_ver_reg is generic (DATA_WIDTH: integer; ADDR_WIDTH: integer; CH_ST_CAPTURE: integer); port ( ver_rd: in std_logic; -- version register read ver_dout: out std_logic_vector(DATA_WIDTH - 1 downto 0)); -- read data end rx_ver_reg; architecture rtl of rx_ver_reg is signal version : std_logic_vector(DATA_WIDTH - 1 downto 0); begin ver_dout <= version when ver_rd = '1' else (others => '0'); -- version vector generation version(3 downto 0) <= "0001"; -- version 1 G32: if DATA_WIDTH = 32 generate version(4) <= '1'; version(31 downto 20) <= (others => '0'); version(19 downto 16) <= std_logic_vector(to_unsigned(CH_ST_CAPTURE, 4)); end generate G32; G16: if DATA_WIDTH = 16 generate version(4) <= '0'; end generate G16; version(11 downto 5) <= std_logic_vector(to_unsigned(ADDR_WIDTH, 7)); version(15 downto 12) <= (others => '0'); end rtl;