-- Copyright (C) 1996 Morgan Kaufmann Publishers, Inc
-- This file is part of VESTs (Vhdl tESTs).
-- VESTs is free software; you can redistribute it and/or modify it
-- under the terms of the GNU General Public License as published by the
-- Free Software Foundation; either version 2 of the License, or (at
-- your option) any later version.
-- VESTs is distributed in the hope that it will be useful, but WITHOUT
-- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
-- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
-- for more details.
-- You should have received a copy of the GNU General Public License
-- along with VESTs; if not, write to the Free Software Foundation,
-- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
-- ---------------------------------------------------------------------
--
-- $Id: ch_15_dlxtst-v.vhd,v 1.3 2001-11-03 23:19:37 paw Exp $
-- $Revision: 1.3 $
--
-- ---------------------------------------------------------------------
library ieee;
use ieee.std_logic_1164.all;
architecture verifier of dlx_test is
use work.dlx_types.all;
component clock_gen is
port ( phi1, phi2 : out std_logic;
reset : out std_logic );
end component clock_gen;
component memory is
port ( phi1, phi2 : in std_logic;
a : in dlx_address;
d : inout dlx_word;
width : in dlx_mem_width;
write_enable : in std_logic;
burst : in std_logic := '0';
mem_enable : in std_logic;
ready : out std_logic );
end component memory;
component dlx is
port ( phi1, phi2 : in std_logic;
reset : in std_logic;
halt : out std_logic;
a : out dlx_address;
d : inout dlx_word;
width : out dlx_mem_width;
write_enable : out std_logic;
ifetch : out std_logic;
mem_enable : out std_logic;
ready : in std_logic );
end component dlx;
signal phi1, phi2, reset : std_logic;
signal a_behav : dlx_address;
signal d_behav : dlx_word;
signal halt_behav : std_logic;
signal width_behav : dlx_mem_width;
signal write_enable_behav, mem_enable_behav, ifetch_behav : std_logic;
signal a_rtl : dlx_address;
signal d_rtl : dlx_word;
signal halt_rtl : std_logic;
signal width_rtl : dlx_mem_width;
signal write_enable_rtl, mem_enable_rtl, ifetch_rtl : std_logic;
signal ready_mem : std_logic;
begin
cg : component clock_gen
port map ( phi1 => phi1, phi2 => phi2, reset => reset );
mem : component memory
port map ( phi1 => phi1, phi2 => phi2,
a => a_behav, d => d_behav,
width => width_behav, write_enable => write_enable_behav,
burst => open,
mem_enable => mem_enable_behav, ready => ready_mem );
proc_behav : component dlx
port map ( phi1 => phi1, phi2 => phi2, reset => reset, halt => halt_behav,
a => a_behav, d => d_behav,
width => width_behav, write_enable => write_enable_behav,
ifetch => ifetch_behav,
mem_enable => mem_enable_behav, ready => ready_mem );
proc_rtl : component dlx
port map ( phi1 => phi1, phi2 => phi2, reset => reset, halt => halt_rtl,
a => a_rtl, d => d_rtl,
width => width_rtl, write_enable => write_enable_rtl,
ifetch => ifetch_rtl,
mem_enable => mem_enable_rtl, ready => ready_mem );
verification_section : block is
begin
fwd_data_from_mem_to_rtl :
d_rtl <= d_behav when mem_enable_rtl = '1'
and write_enable_rtl = '0' else
disabled_dlx_word;
monitor : process
variable write_command_behav : boolean;
variable write_command_rtl : boolean;
begin
monitor_loop : loop
-- wait for a command, valid on leading edge of phi2
wait until rising_edge(phi2)
and mem_enable_behav = '1' and mem_enable_rtl = '1';
--
-- capture the command information
write_command_behav := write_enable_behav = '1';
write_command_rtl := write_enable_rtl = '1';
assert a_behav = a_rtl
report "addresses differ";
assert write_enable_behav = write_enable_rtl
report "write enable states differ";
assert ifetch_behav = ifetch_rtl
report "instruction fetch states differ";
assert width_behav = width_rtl
report "widths differ";
if write_command_behav and write_command_rtl then
assert d_behav = d_rtl
report "write data differs";
end if;
--
-- wait for the response from memory
ready_loop : loop
wait until falling_edge(phi2);
exit monitor_loop when reset = '1';
exit ready_loop when ready_mem = '1';
end loop ready_loop;
end loop monitor_loop;
--
-- get here when reset is asserted
wait until reset = '0';
--
-- process monitor now starts again from beginning
end process monitor;
end block verification_section;
end architecture verifier;