I have a big design that includes a test-bench, some testing circuit and the circuit under test itself. I use modelsim to simulate the design and I want to have a dump of the simulation. I was suggested to generate the dump using the command:
vcd file myvcd1.vcd vcd add -r /sim_minimips/*
it seams to work but what i would like is to generate the dump only for the circuit under test.
i tried to use the same command in specifying just the name of the file i would like to be taken in consideration:
vcd file myvcd2.vcd vcd add -r /minimips/*
but the following error was generated:
Error vsim 3561 No object matching minimips
I do not understand the error and i am not sure even if this is the correct procedure to isolate a subpart.
does anyone knows how to do or knows where could i get a decent simply tutorial about this Value Change Dump?
I attach my test bench entity:
library IEEE; use IEEE.std_logic_1164.all; library std; use std.textio.all; library work; use work.pack_mips.all; entity sim_minimips is end; architecture bench of sim_minimips is component minimips is port ( clock : in std_logic; reset : in std_logic; ram_req : out std_logic; ram_adr : out bus32; ram_r_w : out std_logic; ram_data : inout bus32; ram_ack : in std_logic; it_mat : in std_logic ); end component; component ram is generic (mem_size : natural := 256; latency : time := 10 ns); port( req : in std_logic; adr : in bus32; data_inout : inout bus32; r_w : in std_logic; ready : out std_logic ); end component; component rom is generic (mem_size : natural := 256; start : natural := 0; latency : time := 10 ns); port( adr : in bus32; donnee : out bus32; ack : out std_logic; load : in std_logic; fname : in string ); end component; signal clock : std_logic := '0'; signal reset : std_logic; signal it_mat : std_logic := '0'; -- Connexion with the code memory signal load : std_logic; signal fichier : string(1 to 7); -- Connexion with the Ram signal ram_req : std_logic; signal ram_adr : bus32; signal ram_r_w : std_logic; signal ram_data : bus32; signal ram_rdy : std_logic; begin U_minimips : minimips port map ( clock => clock, reset => reset, ram_req => ram_req, ram_adr => ram_adr, ram_r_w => ram_r_w, ram_data => ram_data, ram_ack => ram_rdy, it_mat => it_mat ); U_ram : ram port map ( req => ram_req, adr => ram_adr, data_inout => ram_data, r_w => ram_r_w, ready => ram_rdy ); U_rom : rom port map ( adr => ram_adr, donnee => ram_data, ack => ram_rdy, load => load, fname => fichier ); clock <= not clock after 20 ns; reset <= '0', '1' after 5 ns, '0' after 70 ns; ram_data <= (others => 'L'); process variable command : line; variable nomfichier : string(1 to 3); begin write (output, "Enter the filename : "); readline(input, command); read(command, nomfichier); fichier <= nomfichier & ".bin"; load <= '1'; wait; end process; -- Memory Mapping -- 0000 - 00FF ROM process (ram_adr, ram_r_w, ram_data) begin -- Emulation of an I/O controller ram_data <= (others => 'Z'); case ram_adr is when X"00001000" => -- program an interrupt after 1000ns it_mat <= '1' after 1000 ns; ram_rdy <= '1' after 5 ns; when X"00001001" => -- clear interrupt line on cpu it_mat <= '0'; ram_data <= X"FFFFFFFF"; ram_rdy <= '1' after 5 ns; when others => ram_rdy <= 'L'; end case; end process; end bench;