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tb_avm_arbit2.vhd
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library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
entity tb_avm_arbit2 is
generic (
G_M0_START : integer := 11;
G_M1_START : integer := 10;
G_REQ_PAUSE : integer := 0;
G_RESP_PAUSE : integer := 0
);
end entity tb_avm_arbit2;
architecture simulation of tb_avm_arbit2 is
constant C_DATA_SIZE : integer := 16;
constant C_ADDRESS_SIZE : integer := 6;
signal clk : std_logic;
signal rst : std_logic;
signal stop_test : std_logic := '0';
signal m0_big_avm_has_started : std_logic := '0';
signal m0_big_avm_start : std_logic;
signal m0_big_avm_wait : std_logic;
signal m0_big_avm_write : std_logic;
signal m0_big_avm_read : std_logic;
signal m0_big_avm_address : std_logic_vector(C_ADDRESS_SIZE-3-1 downto 0);
signal m0_big_avm_writedata : std_logic_vector(C_DATA_SIZE*8-1 downto 0);
signal m0_big_avm_byteenable : std_logic_vector(C_DATA_SIZE*8/8-1 downto 0);
signal m0_big_avm_burstcount : std_logic_vector(7 downto 0);
signal m0_big_avm_readdata : std_logic_vector(C_DATA_SIZE*8-1 downto 0);
signal m0_big_avm_readdatavalid : std_logic;
signal m0_big_avm_waitrequest : std_logic;
signal m0_avm_has_started : std_logic := '0';
signal m0_avm_start : std_logic;
signal m0_avm_wait : std_logic;
signal m0_avm_write : std_logic;
signal m0_avm_read : std_logic;
signal m0_avm_address : std_logic_vector(C_ADDRESS_SIZE-1 downto 0);
signal m0_avm_writedata : std_logic_vector(C_DATA_SIZE-1 downto 0);
signal m0_avm_byteenable : std_logic_vector(C_DATA_SIZE/8-1 downto 0);
signal m0_avm_burstcount : std_logic_vector(7 downto 0);
signal m0_avm_readdata : std_logic_vector(C_DATA_SIZE-1 downto 0);
signal m0_avm_readdatavalid : std_logic;
signal m0_avm_waitrequest : std_logic;
signal m1_avm_has_started : std_logic := '0';
signal m1_avm_start : std_logic;
signal m1_avm_wait : std_logic;
signal m1_avm_write : std_logic;
signal m1_avm_read : std_logic;
signal m1_avm_address : std_logic_vector(C_ADDRESS_SIZE-1 downto 0);
signal m1_avm_writedata : std_logic_vector(C_DATA_SIZE-1 downto 0);
signal m1_avm_byteenable : std_logic_vector(C_DATA_SIZE/8-1 downto 0);
signal m1_avm_burstcount : std_logic_vector(7 downto 0);
signal m1_avm_readdata : std_logic_vector(C_DATA_SIZE-1 downto 0);
signal m1_avm_readdatavalid : std_logic;
signal m1_avm_waitrequest : std_logic;
signal s_avm_write : std_logic;
signal s_avm_read : std_logic;
signal s_avm_address : std_logic_vector(C_ADDRESS_SIZE downto 0);
signal s_avm_writedata : std_logic_vector(C_DATA_SIZE-1 downto 0);
signal s_avm_byteenable : std_logic_vector(C_DATA_SIZE/8-1 downto 0);
signal s_avm_burstcount : std_logic_vector(7 downto 0);
signal s_avm_readdata : std_logic_vector(C_DATA_SIZE-1 downto 0);
signal s_avm_readdatavalid : std_logic;
signal s_avm_waitrequest : std_logic;
constant C_CLK_PERIOD : time := 10 ns;
begin
---------------------------------------------------------
-- Controller clock and reset
---------------------------------------------------------
p_clk : process
begin
clk <= '1';
wait for C_CLK_PERIOD/2;
clk <= '0';
wait for C_CLK_PERIOD/2;
if stop_test = '1' then
wait;
end if;
end process p_clk;
p_rst : process
begin
rst <= '1';
wait for 10*C_CLK_PERIOD;
wait until clk = '1';
rst <= '0';
wait;
end process p_rst;
p_m0_avm_start : process
begin
m0_avm_start <= '0';
wait until rst = '0';
for i in 0 to G_M0_START loop
wait until clk = '1';
end loop;
m0_avm_start <= '1';
wait until clk = '1';
m0_avm_start <= '0';
wait;
end process p_m0_avm_start;
p_m1_avm_start : process
begin
m1_avm_start <= '0';
wait until rst = '0';
for i in 0 to G_M1_START loop
wait until clk = '1';
end loop;
m1_avm_start <= '1';
wait until clk = '1';
m1_avm_start <= '0';
wait;
end process p_m1_avm_start;
p_has_started : process (clk)
begin
if rising_edge(clk) then
if m0_avm_start = '1' then
m0_avm_has_started <= '1';
end if;
if m1_avm_start = '1' then
m1_avm_has_started <= '1';
end if;
end if;
end process p_has_started;
p_stop_test : process
begin
wait until m0_avm_has_started = '1' and m1_avm_has_started = '1';
wait until m0_avm_wait = '0' and m1_avm_wait = '0';
wait until clk = '1';
stop_test <= '1';
wait;
end process p_stop_test;
---------------------------------------------------------
-- Instantiate Master 0
---------------------------------------------------------
i_avm_master2 : entity work.avm_master2
generic map (
G_ADDRESS_SIZE => C_ADDRESS_SIZE-3,
G_DATA_SIZE => C_DATA_SIZE*8
)
port map (
clk_i => clk,
rst_i => rst,
start_i => m0_big_avm_start,
wait_o => m0_big_avm_wait,
write_burstcount_i => X"01",
read_burstcount_i => X"01",
m_avm_write_o => m0_big_avm_write,
m_avm_read_o => m0_big_avm_read,
m_avm_address_o => m0_big_avm_address,
m_avm_writedata_o => m0_big_avm_writedata,
m_avm_byteenable_o => m0_big_avm_byteenable,
m_avm_burstcount_o => m0_big_avm_burstcount,
m_avm_readdata_i => m0_big_avm_readdata,
m_avm_readdatavalid_i => m0_big_avm_readdatavalid,
m_avm_waitrequest_i => m0_big_avm_waitrequest
); -- i_avm_master2
i_avm_decrease : entity work.avm_decrease
generic map (
G_SLAVE_ADDRESS_SIZE => C_ADDRESS_SIZE-3,
G_SLAVE_DATA_SIZE => C_DATA_SIZE*8,
G_MASTER_ADDRESS_SIZE => C_ADDRESS_SIZE,
G_MASTER_DATA_SIZE => C_DATA_SIZE
)
port map (
clk_i => clk,
rst_i => rst,
s_avm_write_i => m0_big_avm_write,
s_avm_read_i => m0_big_avm_read,
s_avm_address_i => m0_big_avm_address,
s_avm_writedata_i => m0_big_avm_writedata,
s_avm_byteenable_i => m0_big_avm_byteenable,
s_avm_burstcount_i => m0_big_avm_burstcount,
s_avm_readdata_o => m0_big_avm_readdata,
s_avm_readdatavalid_o => m0_big_avm_readdatavalid,
s_avm_waitrequest_o => m0_big_avm_waitrequest,
m_avm_write_o => m0_avm_write,
m_avm_read_o => m0_avm_read,
m_avm_address_o => m0_avm_address,
m_avm_writedata_o => m0_avm_writedata,
m_avm_byteenable_o => m0_avm_byteenable,
m_avm_burstcount_o => m0_avm_burstcount,
m_avm_readdata_i => m0_avm_readdata,
m_avm_readdatavalid_i => m0_avm_readdatavalid,
m_avm_waitrequest_i => m0_avm_waitrequest
); -- i_avm_decrease
---------------------------------------------------------
-- Instantiate Master 1
---------------------------------------------------------
i_avm_master_general1 : entity work.avm_master_general
generic map (
G_DATA_INIT => X"BABEDEADBEEFCAFE",
G_ADDRESS_SIZE => C_ADDRESS_SIZE,
G_DATA_SIZE => C_DATA_SIZE
)
port map (
clk_i => clk,
rst_i => rst,
start_i => m1_avm_start,
wait_o => m1_avm_wait,
m_avm_write_o => m1_avm_write,
m_avm_read_o => m1_avm_read,
m_avm_address_o => m1_avm_address,
m_avm_writedata_o => m1_avm_writedata,
m_avm_byteenable_o => m1_avm_byteenable,
m_avm_burstcount_o => m1_avm_burstcount,
m_avm_readdata_i => m1_avm_readdata,
m_avm_readdatavalid_i => m1_avm_readdatavalid,
m_avm_waitrequest_i => m1_avm_waitrequest
); -- i_avm_master_general1
---------------------------------------------------------
-- DUT
---------------------------------------------------------
i_avm_arbit : entity work.avm_arbit
generic map (
G_ADDRESS_SIZE => C_ADDRESS_SIZE + 1,
G_DATA_SIZE => C_DATA_SIZE
)
port map (
clk_i => clk,
rst_i => rst,
s0_avm_write_i => m0_avm_write,
s0_avm_read_i => m0_avm_read,
s0_avm_address_i => "0" & m0_avm_address,
s0_avm_writedata_i => m0_avm_writedata,
s0_avm_byteenable_i => m0_avm_byteenable,
s0_avm_burstcount_i => m0_avm_burstcount,
s0_avm_readdata_o => m0_avm_readdata,
s0_avm_readdatavalid_o => m0_avm_readdatavalid,
s0_avm_waitrequest_o => m0_avm_waitrequest,
s1_avm_write_i => m1_avm_write,
s1_avm_read_i => m1_avm_read,
s1_avm_address_i => "1" & m1_avm_address,
s1_avm_writedata_i => m1_avm_writedata,
s1_avm_byteenable_i => m1_avm_byteenable,
s1_avm_burstcount_i => m1_avm_burstcount,
s1_avm_readdata_o => m1_avm_readdata,
s1_avm_readdatavalid_o => m1_avm_readdatavalid,
s1_avm_waitrequest_o => m1_avm_waitrequest,
m_avm_write_o => s_avm_write,
m_avm_read_o => s_avm_read,
m_avm_address_o => s_avm_address,
m_avm_writedata_o => s_avm_writedata,
m_avm_byteenable_o => s_avm_byteenable,
m_avm_burstcount_o => s_avm_burstcount,
m_avm_readdata_i => s_avm_readdata,
m_avm_readdatavalid_i => s_avm_readdatavalid,
m_avm_waitrequest_i => s_avm_waitrequest
); -- i_avm_arbit
---------------------------------------------------------
-- Instantiate Slave
---------------------------------------------------------
i_avm_memory_pause : entity work.avm_memory_pause
generic map (
G_REQ_PAUSE => G_REQ_PAUSE,
G_RESP_PAUSE => G_RESP_PAUSE,
G_ADDRESS_SIZE => C_ADDRESS_SIZE + 1,
G_DATA_SIZE => C_DATA_SIZE
)
port map (
clk_i => clk,
rst_i => rst,
avm_write_i => s_avm_write,
avm_read_i => s_avm_read,
avm_address_i => s_avm_address,
avm_writedata_i => s_avm_writedata,
avm_byteenable_i => s_avm_byteenable,
avm_burstcount_i => s_avm_burstcount,
avm_readdata_o => s_avm_readdata,
avm_readdatavalid_o => s_avm_readdatavalid,
avm_waitrequest_o => s_avm_waitrequest
); -- i_avm_memory_pause
end architecture simulation;