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testbench.vhd
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------------------------------------------------------------------------------
-- LEON3 Demonstration design test bench
-- 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 - 2010, 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.stdlib.ALL;
LIBRARY gaisler;
USE gaisler.libdcom.ALL;
USE gaisler.sim.ALL;
USE gaisler.jtagtst.ALL;
LIBRARY techmap;
USE techmap.gencomp.ALL;
--LIBRARY micron;
--USE micron.components.ALL;
USE work.debug.ALL;
USE work.config.ALL; -- configuration
LIBRARY lpp;
USE lpp.lpp_ad_conv.ALL;
USE lpp.iir_filter.ALL;
USE lpp.FILTERcfg.ALL;
USE lpp.lpp_memory.ALL;
USE lpp.lpp_waveform_pkg.ALL;
ENTITY testbench 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;
clkperiod : INTEGER := 20; -- system clock period
romwidth : INTEGER := 32; -- rom data width (8/32)
romdepth : INTEGER := 16; -- rom address depth
sramwidth : INTEGER := 32; -- ram data width (8/16/32)
sramdepth : INTEGER := 21; -- ram address depth
srambanks : INTEGER := 2 -- number of ram banks
);
PORT (
pci_rst : INOUT STD_LOGIC; -- PCI bus
pci_clk : IN STD_ULOGIC;
pci_gnt : IN STD_ULOGIC;
pci_idsel : IN STD_ULOGIC;
pci_lock : INOUT STD_ULOGIC;
pci_ad : INOUT STD_LOGIC_VECTOR(31 DOWNTO 0);
pci_cbe : INOUT STD_LOGIC_VECTOR(3 DOWNTO 0);
pci_frame : INOUT STD_ULOGIC;
pci_irdy : INOUT STD_ULOGIC;
pci_trdy : INOUT STD_ULOGIC;
pci_devsel : INOUT STD_ULOGIC;
pci_stop : INOUT STD_ULOGIC;
pci_perr : INOUT STD_ULOGIC;
pci_par : INOUT STD_ULOGIC;
pci_req : INOUT STD_ULOGIC;
pci_serr : INOUT STD_ULOGIC;
pci_host : IN STD_ULOGIC;
pci_66 : IN STD_ULOGIC
);
END;
ARCHITECTURE behav OF testbench IS
CONSTANT promfile : STRING := "prom.srec"; -- rom contents
CONSTANT sramfile : STRING := "sram.srec"; -- ram contents
CONSTANT sdramfile : STRING := "sdram.srec"; -- sdram contents
COMPONENT leon3mp
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
);
PORT (
resetn : IN STD_ULOGIC;
clk : IN STD_ULOGIC;
pllref : IN STD_ULOGIC;
errorn : OUT STD_ULOGIC;
address : OUT STD_LOGIC_VECTOR(27 DOWNTO 0);
data : INOUT STD_LOGIC_VECTOR(31 DOWNTO 0);
dsutx : OUT STD_ULOGIC; -- DSU tx data
dsurx : IN STD_ULOGIC; -- DSU rx data
dsuen : IN STD_ULOGIC;
dsubre : IN STD_ULOGIC;
dsuact : OUT STD_ULOGIC;
txd1 : OUT STD_ULOGIC; -- UART1 tx data
rxd1 : IN STD_ULOGIC; -- UART1 rx data
txd2 : OUT STD_ULOGIC; -- UART1 tx data
rxd2 : IN STD_ULOGIC; -- UART1 rx datax
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);
gpio : INOUT STD_LOGIC_VECTOR(CFG_GRGPIO_WIDTH-1 DOWNTO 0); -- I/O port
emddis : OUT STD_LOGIC;
epwrdwn : OUT STD_LOGIC;
ereset : OUT STD_LOGIC;
esleep : OUT STD_LOGIC;
epause : OUT STD_LOGIC;
pci_rst : INOUT STD_LOGIC; -- PCI bus
pci_clk : IN STD_ULOGIC;
pci_gnt : IN STD_ULOGIC;
pci_idsel : IN STD_ULOGIC;
pci_lock : INOUT STD_ULOGIC;
pci_ad : INOUT STD_LOGIC_VECTOR(31 DOWNTO 0);
pci_cbe : INOUT STD_LOGIC_VECTOR(3 DOWNTO 0);
pci_frame : INOUT STD_ULOGIC;
pci_irdy : INOUT STD_ULOGIC;
pci_trdy : INOUT STD_ULOGIC;
pci_devsel : INOUT STD_ULOGIC;
pci_stop : INOUT STD_ULOGIC;
pci_perr : INOUT STD_ULOGIC;
pci_par : INOUT STD_ULOGIC;
pci_req : INOUT STD_ULOGIC;
pci_serr : INOUT STD_ULOGIC;
pci_host : IN STD_ULOGIC;
pci_66 : IN STD_ULOGIC;
pci_arb_req : IN STD_LOGIC_VECTOR(0 TO 3);
pci_arb_gnt : OUT STD_LOGIC_VECTOR(0 TO 3);
spw_clk : IN STD_ULOGIC;
spw_rxd : IN STD_LOGIC_VECTOR(0 TO 2);
spw_rxdn : IN STD_LOGIC_VECTOR(0 TO 2);
spw_rxs : IN STD_LOGIC_VECTOR(0 TO 2);
spw_rxsn : IN STD_LOGIC_VECTOR(0 TO 2);
spw_txd : OUT STD_LOGIC_VECTOR(0 TO 2);
spw_txdn : OUT STD_LOGIC_VECTOR(0 TO 2);
spw_txs : OUT STD_LOGIC_VECTOR(0 TO 2);
spw_txsn : OUT STD_LOGIC_VECTOR(0 TO 2);
ramclk : OUT STD_LOGIC;
nBWa : OUT STD_LOGIC;
nBWb : OUT STD_LOGIC;
nBWc : OUT STD_LOGIC;
nBWd : OUT STD_LOGIC;
nBWE : OUT STD_LOGIC;
nADSC : OUT STD_LOGIC;
nADSP : OUT STD_LOGIC;
nADV : OUT STD_LOGIC;
nGW : OUT STD_LOGIC;
nCE1 : OUT STD_LOGIC;
CE2 : OUT STD_LOGIC;
nCE3 : OUT STD_LOGIC;
nOE : OUT STD_LOGIC;
MODE : OUT STD_LOGIC;
SSRAM_CLK : OUT STD_LOGIC;
ZZ : OUT STD_LOGIC;
tck, tms, tdi : IN STD_ULOGIC;
tdo : OUT STD_ULOGIC;
-- waveform picker------
clk49_152MHz : in std_ulogic;
sdo_adc : in std_logic_vector(7 downto 0);
cnv_ch1 : out std_logic;
sck_ch1 : out std_logic;
Bias_Fails : out std_logic
);
END COMPONENT;
COMPONENT CY7C1360C
GENERIC (
addr_bits : INTEGER;
data_bits : INTEGER;
Cyp_tCO : TIME;
Cyp_tCYC : TIME;
Cyp_tCH : TIME;
Cyp_tCL : TIME;
Cyp_tCHZ : TIME;
Cyp_tCLZ : TIME;
Cyp_tOEHZ : TIME;
Cyp_tOELZ : TIME;
Cyp_tOEV : TIME;
Cyp_tAS : TIME;
Cyp_tADS : TIME;
Cyp_tADVS : TIME;
Cyp_tWES : TIME;
Cyp_tDS : TIME;
Cyp_tCES : TIME;
Cyp_tAH : TIME;
Cyp_tADH : TIME;
Cyp_tADVH : TIME;
Cyp_tWEH : TIME;
Cyp_tDH : TIME;
Cyp_tCEH : TIME);
PORT (
iZZ : IN STD_LOGIC;
iMode : IN STD_LOGIC;
iADDR : IN STD_LOGIC_VECTOR ((addr_bits -1) DOWNTO 0);
inGW : IN STD_LOGIC;
inBWE : IN STD_LOGIC;
inBWd : IN STD_LOGIC;
inBWc : IN STD_LOGIC;
inBWb : IN STD_LOGIC;
inBWa : IN STD_LOGIC;
inCE1 : IN STD_LOGIC;
iCE2 : IN STD_LOGIC;
inCE3 : IN STD_LOGIC;
inADSP : IN STD_LOGIC;
inADSC : IN STD_LOGIC;
inADV : IN STD_LOGIC;
inOE : IN STD_LOGIC;
ioDQ : INOUT STD_LOGIC_VECTOR ((data_bits-1) DOWNTO 0);
iCLK : IN STD_LOGIC);
END COMPONENT;
SIGNAL clk : STD_LOGIC := '0';
SIGNAL Rst : STD_LOGIC := '0'; -- Reset
CONSTANT ct : INTEGER := clkperiod/2;
SIGNAL address : STD_LOGIC_VECTOR(27 DOWNTO 0);
SIGNAL data : STD_LOGIC_VECTOR(31 DOWNTO 0);
SIGNAL ioData : STD_LOGIC_VECTOR(35 DOWNTO 0);
SIGNAL ramsn : STD_LOGIC_VECTOR(4 DOWNTO 0);
SIGNAL ramoen : STD_LOGIC_VECTOR(4 DOWNTO 0);
SIGNAL rwen : STD_LOGIC_VECTOR(3 DOWNTO 0);
SIGNAL rwenx : STD_LOGIC_VECTOR(3 DOWNTO 0);
SIGNAL romsn : STD_LOGIC_VECTOR(1 DOWNTO 0);
SIGNAL iosn : STD_ULOGIC;
SIGNAL oen : STD_ULOGIC;
SIGNAL read : STD_ULOGIC;
SIGNAL writen : STD_ULOGIC;
SIGNAL brdyn : STD_ULOGIC;
SIGNAL bexcn : STD_ULOGIC;
SIGNAL wdog : STD_ULOGIC;
SIGNAL dsuen, dsutx, dsurx, dsubre, dsuact : STD_ULOGIC;
SIGNAL dsurst : STD_ULOGIC;
SIGNAL test : STD_ULOGIC;
SIGNAL error : STD_LOGIC;
SIGNAL gpio : STD_LOGIC_VECTOR(CFG_GRGPIO_WIDTH-1 DOWNTO 0);
SIGNAL GND : STD_ULOGIC := '0';
SIGNAL VCC : STD_ULOGIC := '1';
SIGNAL NC : STD_ULOGIC := 'Z';
SIGNAL clk2 : STD_ULOGIC := '1';
SIGNAL sdcke : STD_LOGIC_VECTOR (1 DOWNTO 0); -- clk en
SIGNAL sdcsn : STD_LOGIC_VECTOR (1 DOWNTO 0); -- chip sel
SIGNAL sdwen : STD_ULOGIC; -- write en
SIGNAL sdrasn : STD_ULOGIC; -- row addr stb
SIGNAL sdcasn : STD_ULOGIC; -- col addr stb
SIGNAL sddqm : STD_LOGIC_VECTOR (7 DOWNTO 0); -- data i/o mask
SIGNAL sdclk : STD_ULOGIC;
SIGNAL plllock : STD_ULOGIC;
SIGNAL txd1, rxd1 : STD_ULOGIC;
SIGNAL txd2, rxd2 : STD_ULOGIC;
SIGNAL etx_clk, erx_clk, erx_dv, erx_er, erx_col, erx_crs, etx_en, etx_er : STD_LOGIC := '0';
SIGNAL erxd, etxd : STD_LOGIC_VECTOR(3 DOWNTO 0) := (OTHERS => '0');
SIGNAL erxdt, etxdt : STD_LOGIC_VECTOR(7 DOWNTO 0) := (OTHERS => '0');
SIGNAL emdc : STD_LOGIC;
SIGNAL gtx_clk : STD_ULOGIC;
SIGNAL emddis : STD_LOGIC;
SIGNAL epwrdwn : STD_LOGIC;
SIGNAL ereset : STD_LOGIC;
SIGNAL esleep : STD_LOGIC;
SIGNAL epause : STD_LOGIC;
CONSTANT lresp : BOOLEAN := false;
SIGNAL sa : STD_LOGIC_VECTOR(14 DOWNTO 0);
SIGNAL sd : STD_LOGIC_VECTOR(63 DOWNTO 0);
SIGNAL pci_arb_req, pci_arb_gnt : STD_LOGIC_VECTOR(0 TO 3);
SIGNAL spw_clk : STD_ULOGIC := '0';
SIGNAL spw_rxd : STD_LOGIC_VECTOR(0 TO 2) := "000";
SIGNAL spw_rxdn : STD_LOGIC_VECTOR(0 TO 2) := "000";
SIGNAL spw_rxs : STD_LOGIC_VECTOR(0 TO 2) := "000";
SIGNAL spw_rxsn : STD_LOGIC_VECTOR(0 TO 2) := "000";
SIGNAL spw_txd : STD_LOGIC_VECTOR(0 TO 2);
SIGNAL spw_txdn : STD_LOGIC_VECTOR(0 TO 2);
SIGNAL spw_txs : STD_LOGIC_VECTOR(0 TO 2);
SIGNAL spw_txsn : STD_LOGIC_VECTOR(0 TO 2);
SIGNAL tck, tms, tdi, tdo : STD_ULOGIC;
CONSTANT CFG_SDEN : INTEGER := CFG_SDCTRL + CFG_MCTRL_SDEN;
CONSTANT CFG_SD64 : INTEGER := CFG_SDCTRL_SD64 + CFG_MCTRL_SD64;
-----------------------------------------------------------------------------
SIGNAL ramclk : STD_LOGIC;
SIGNAL nBWa : STD_LOGIC;
SIGNAL nBWb : STD_LOGIC;
SIGNAL nBWc : STD_LOGIC;
SIGNAL nBWd : STD_LOGIC;
SIGNAL nBWE : STD_LOGIC;
SIGNAL nADSC : STD_LOGIC;
SIGNAL nADSP : STD_LOGIC;
SIGNAL nADV : STD_LOGIC;
SIGNAL nGW : STD_LOGIC;
SIGNAL nCE1 : STD_LOGIC;
SIGNAL CE2 : STD_LOGIC;
SIGNAL nCE3 : STD_LOGIC;
SIGNAL nOE : STD_LOGIC;
SIGNAL MODE : STD_LOGIC;
SIGNAL SSRAM_CLK : STD_LOGIC;
SIGNAL ZZ : STD_LOGIC;
--
COMPONENT TestModule_ADS7886
GENERIC (
freq : INTEGER;
amplitude : INTEGER;
impulsion : INTEGER);
PORT (
cnv_run : IN STD_LOGIC;
cnv : IN STD_LOGIC;
sck : IN STD_LOGIC;
sdo : OUT STD_LOGIC);
END COMPONENT;
SIGNAL clk49_152MHz : STD_LOGIC := '0';
SIGNAL sdo_adc : STD_LOGIC_VECTOR(7 DOWNTO 0);
SIGNAL cnv_ch1 : STD_LOGIC;
SIGNAL sck_ch1 : STD_LOGIC;
SIGNAL Bias_Fails : STD_LOGIC;
BEGIN
-- clock and reset
spw_clk <= NOT spw_clk AFTER 20 ns;
spw_rxd(0) <= spw_txd(0); spw_rxdn(0) <= spw_txdn(0);
spw_rxs(0) <= spw_txs(0); spw_rxsn(0) <= spw_txsn(0);
spw_rxd(1) <= spw_txd(1); spw_rxdn(1) <= spw_txdn(1);
spw_rxs(1) <= spw_txs(1); spw_rxsn(1) <= spw_txsn(1);
spw_rxd(2) <= spw_txd(0); spw_rxdn(2) <= spw_txdn(2);
spw_rxs(2) <= spw_txs(0); spw_rxsn(2) <= spw_txsn(2);
clk <= NOT clk AFTER ct * 1 ns;
clk49_152MHz <= NOT clk49_152MHz AFTER 203 * 100 ps;
rst <= dsurst;
dsuen <= '1'; dsubre <= '0'; rxd1 <= '1';
d3 : leon3mp
GENERIC MAP (fabtech,
memtech,
padtech,
clktech,
disas,
dbguart,
pclow)
PORT MAP (rst, clk, sdclk, error, address(27 DOWNTO 0), data,
dsutx, dsurx, dsuen, dsubre, dsuact, txd1, rxd1, txd2, rxd2,
ramsn, ramoen, rwen, oen, writen, read, iosn, romsn, gpio,
emddis, epwrdwn, ereset, esleep, epause,
pci_rst, pci_clk, pci_gnt, pci_idsel, pci_lock, pci_ad, pci_cbe,
pci_frame, pci_irdy, pci_trdy, pci_devsel, pci_stop, pci_perr, pci_par,
pci_req, pci_serr, pci_host, pci_66, pci_arb_req, pci_arb_gnt,
spw_clk, spw_rxd, spw_rxdn, spw_rxs,
spw_rxsn, spw_txd, spw_txdn, spw_txs, spw_txsn,
ramclk ,
nBWa ,
nBWb ,
nBWc ,
nBWd ,
nBWE ,
nADSC ,
nADSP ,
nADV ,
nGW ,
nCE1 ,
CE2 ,
nCE3 ,
nOE ,
MODE ,
SSRAM_CLK ,
ZZ ,
tck, tms, tdi, tdo,
clk49_152MHz,
sdo_adc ,
cnv_ch1 ,
sck_ch1 ,
Bias_Fails);
-- component instantiation
-----------------------------------------------------------------------------
MODULE_ADS7886 : FOR I IN 0 TO 6 GENERATE
TestModule_ADS7886_u : TestModule_ADS7886
GENERIC MAP (
freq => 24*(I+1),
amplitude => 30000/(I+1),
impulsion => 0)
PORT MAP (
cnv_run => '1',
cnv => cnv_ch1,
sck => sck_ch1,
sdo => sdo_adc(I));
END GENERATE MODULE_ADS7886;
TestModule_ADS7886_u : TestModule_ADS7886
GENERIC MAP (
freq => 0,
amplitude => 30000,
impulsion => 1)
PORT MAP (
cnv_run => '1',
cnv => cnv_ch1,
sck => sck_ch1,
sdo => sdo_adc(7));
-----------------------------------------------------------------------------
-----------------------------------------------------------------------------
prom0 : FOR i IN 0 TO (romwidth/8)-1 GENERATE
sr0 : sram GENERIC MAP (index => i, abits => romdepth, fname => promfile)
PORT MAP (address(romdepth+1 DOWNTO 2), data(31-i*8 DOWNTO 24-i*8), romsn(0),
rwen(i), oen);
END GENERATE;
-----------------------------------------------------------------------------
CY7C1360C_2 : CY7C1360C
GENERIC MAP (
addr_bits => 19,
data_bits => 36,
Cyp_tCO => 3.5 ns, -- Data Output Valid After CLK Rise
Cyp_tCYC => 6.0 ns, -- Clock cycle time
Cyp_tCH => 2.4 ns, -- Clock HIGH time
Cyp_tCL => 2.4 ns, -- Clock LOW time
Cyp_tCHZ => 3.5 ns, -- Clock to High-Z
Cyp_tCLZ => 1.25 ns, -- Clock to Low-Z
Cyp_tOEHZ => 3.5 ns, -- OE# HIGH to Output High-Z
Cyp_tOELZ => 0.0 ns, -- OE# LOW to Output Low-Z
Cyp_tOEV => 3.5 ns, -- OE# LOW to Output Valid
Cyp_tAS => 1.5 ns, -- Address Set-up Before CLK Rise
Cyp_tADS => 1.5 ns, -- ADSC#, ADSP# Set-up Before CLK Rise
Cyp_tADVS => 1.5 ns, -- ADV# Set-up Before CLK Rise
Cyp_tWES => 1.5 ns, -- BWx#, GW#, BWE# Set-up Before CLK Rise
Cyp_tDS => 1.5 ns, -- Data Input Set-up Before CLK Rise
Cyp_tCES => 1.5 ns, -- Chip Enable Set-up
Cyp_tAH => 0.5 ns, -- Address Hold After CLK Rise
Cyp_tADH => 0.5 ns, -- ADSC#, ADSP# Hold After CLK Rise
Cyp_tADVH => 0.5 ns, -- ADV# Hold After CLK Rise
Cyp_tWEH => 0.5 ns, -- BWx#, GW#, BWE# Hold After CLK Rise
Cyp_tDH => 0.5 ns, -- Data Input Hold After CLK Rise
Cyp_tCEH => 0.5 ns -- Chip Enable Hold After CLK Rise
--Cyp_tCO => 2.8 ns,
--Cyp_tCYC => 4.0 ns,
--Cyp_tCH => 1.8 ns,
--Cyp_tCL => 1.8 ns,
--Cyp_tCHZ => 2.8 ns,
--Cyp_tCLZ => 1.25 ns,
--Cyp_tOEHZ => 2.8 ns,
--Cyp_tOELZ => 0.0 ns,
--Cyp_tOEV => 2.8 ns,
--Cyp_tAS => 1.4 ns,
--Cyp_tADS => 1.4 ns,
--Cyp_tADVS => 1.4 ns,
--Cyp_tWES => 1.4 ns,
--Cyp_tDS => 1.4 ns,
--Cyp_tCES => 1.4 ns,
--Cyp_tAH => 0.4 ns,
--Cyp_tADH => 0.4 ns,
--Cyp_tADVH => 0.4 ns,
--Cyp_tWEH => 0.4 ns,
--Cyp_tDH => 0.4 ns,
--Cyp_tCEH => 0.4 ns
)
PORT MAP (
iZZ => ZZ,
iMode => MODE,
iADDR => address(20 DOWNTO 2),
inGW => nGW,
inBWE => nBWE,
inBWd => nBWd,
inBWc => nBWc,
inBWb => nBWb,
inBWa => nBWa,
inCE1 => nCE1,
iCE2 => CE2,
inCE3 => nCE3,
inADSP => nADSP,
inADSC => nADSC,
inADV => nADV,
inOE => nOE,
ioDQ => ioData, --
iCLK => SSRAM_CLK); -- ??
ioData <= "0" & data(31 DOWNTO 24) &
"0" & data(23 DOWNTO 16) &
"0" & data(15 DOWNTO 8) &
"0" & data(7 DOWNTO 0);
--sbanks : FOR k IN 0 TO srambanks-1 GENERATE
-- sram0 : FOR i IN 0 TO (sramwidth/8)-1 GENERATE
-- sr0 : sram GENERIC MAP (index => i, abits => sramdepth, fname => sramfile)
-- PORT MAP (address(sramdepth+1 DOWNTO 2), data(31-i*8 DOWNTO 24-i*8),
-- ramsn(k), rwen(i), ramoen(k));
-- END GENERATE;
--END GENERATE;
error <= 'H'; -- ERROR pull-up
iuerr : PROCESS
BEGIN
WAIT FOR 2500 ns;
IF to_x01(error) = '1' THEN WAIT ON error; END IF;
ASSERT (to_x01(error) = '1')
REPORT "*** IU in error mode, simulation halted ***"
SEVERITY failure;
END PROCESS;
data <= buskeep(data), (OTHERS => 'H') AFTER 250 ns;
sd <= buskeep(sd), (OTHERS => 'H') AFTER 250 ns;
test0 : grtestmod
PORT MAP (rst, clk, error, address(21 DOWNTO 2), data, iosn, oen, writen, brdyn);
dsucom : PROCESS
PROCEDURE dsucfg(SIGNAL dsurx : IN STD_ULOGIC; SIGNAL dsutx : OUT STD_ULOGIC) IS
VARIABLE w32 : STD_LOGIC_VECTOR(31 DOWNTO 0);
VARIABLE c8 : STD_LOGIC_VECTOR(7 DOWNTO 0);
CONSTANT txp : TIME := 160 * 1 ns;
BEGIN
dsutx <= '1';
dsurst <= '0';
WAIT FOR 500 ns;
dsurst <= '1';
WAIT;
WAIT FOR 5000 ns;
END;
BEGIN
dsucfg(dsutx, dsurx);
WAIT;
END PROCESS;
END;