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microwatt/rotator_tb.vhdl

298 lines
9.1 KiB
VHDL

library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
library work;
use work.common.all;
use work.glibc_random.all;
use work.ppc_fx_insns.all;
use work.insn_helpers.all;
entity rotator_tb is
end rotator_tb;
architecture behave of rotator_tb is
constant clk_period: time := 10 ns;
signal ra, rs: std_ulogic_vector(63 downto 0);
signal shift: std_ulogic_vector(6 downto 0) := (others => '0');
signal insn: std_ulogic_vector(31 downto 0) := (others => '0');
signal is_32bit, right_shift, arith, clear_left, clear_right: std_ulogic := '0';
signal result: std_ulogic_vector(63 downto 0);
signal carry_out: std_ulogic;
signal extsw: std_ulogic;
begin
rotator_0: entity work.rotator
port map (
rs => rs,
ra => ra,
shift => shift,
insn => insn,
is_32bit => is_32bit,
right_shift => right_shift,
arith => arith,
clear_left => clear_left,
clear_right => clear_right,
sign_ext_rs => extsw,
result => result,
carry_out => carry_out
);
stim_process: process
variable behave_ra: std_ulogic_vector(63 downto 0);
variable behave_ca_ra: std_ulogic_vector(64 downto 0);
begin
-- rlwinm, rlwnm
report "test rlw[i]nm";
ra <= (others => '0');
is_32bit <= '1';
right_shift <= '0';
arith <= '0';
clear_left <= '1';
clear_right <= '1';
extsw <= '0';
rlwnm_loop : for i in 0 to 1000 loop
rs <= pseudorand(64);
shift <= pseudorand(7);
insn <= x"00000" & '0' & pseudorand(10) & '0';
wait for clk_period;
behave_ra := ppc_rlwinm(rs, shift(4 downto 0), insn_mb32(insn), insn_me32(insn));
assert behave_ra = result
report "bad rlwnm expected " & to_hstring(behave_ra) & " got " & to_hstring(result);
end loop;
-- rlwimi
report "test rlwimi";
is_32bit <= '1';
right_shift <= '0';
arith <= '0';
clear_left <= '1';
clear_right <= '1';
rlwimi_loop : for i in 0 to 1000 loop
rs <= pseudorand(64);
ra <= pseudorand(64);
shift <= "00" & pseudorand(5);
insn <= x"00000" & '0' & pseudorand(10) & '0';
wait for clk_period;
behave_ra := ppc_rlwimi(ra, rs, shift(4 downto 0), insn_mb32(insn), insn_me32(insn));
assert behave_ra = result
report "bad rlwimi expected " & to_hstring(behave_ra) & " got " & to_hstring(result);
end loop;
-- rldicl, rldcl
report "test rld[i]cl";
ra <= (others => '0');
is_32bit <= '0';
right_shift <= '0';
arith <= '0';
clear_left <= '1';
clear_right <= '0';
rldicl_loop : for i in 0 to 1000 loop
rs <= pseudorand(64);
shift <= pseudorand(7);
insn <= x"00000" & '0' & pseudorand(10) & '0';
wait for clk_period;
behave_ra := ppc_rldicl(rs, shift(5 downto 0), insn_mb(insn));
assert behave_ra = result
report "bad rldicl expected " & to_hstring(behave_ra) & " got " & to_hstring(result);
end loop;
-- rldicr, rldcr
report "test rld[i]cr";
ra <= (others => '0');
is_32bit <= '0';
right_shift <= '0';
arith <= '0';
clear_left <= '0';
clear_right <= '1';
rldicr_loop : for i in 0 to 1000 loop
rs <= pseudorand(64);
shift <= pseudorand(7);
insn <= x"00000" & '0' & pseudorand(10) & '0';
wait for clk_period;
behave_ra := ppc_rldicr(rs, shift(5 downto 0), insn_me(insn));
--report "rs = " & to_hstring(rs);
--report "ra = " & to_hstring(ra);
--report "shift = " & to_hstring(shift);
--report "insn me = " & to_hstring(insn_me(insn));
--report "result = " & to_hstring(result);
assert behave_ra = result
report "bad rldicr expected " & to_hstring(behave_ra) & " got " & to_hstring(result);
end loop;
-- rldic
report "test rldic";
ra <= (others => '0');
is_32bit <= '0';
right_shift <= '0';
arith <= '0';
clear_left <= '1';
clear_right <= '1';
rldic_loop : for i in 0 to 1000 loop
rs <= pseudorand(64);
shift <= '0' & pseudorand(6);
insn <= x"00000" & '0' & pseudorand(10) & '0';
wait for clk_period;
behave_ra := ppc_rldic(rs, shift(5 downto 0), insn_mb(insn));
assert behave_ra = result
report "bad rldic expected " & to_hstring(behave_ra) & " got " & to_hstring(result);
end loop;
-- rldimi
report "test rldimi";
is_32bit <= '0';
right_shift <= '0';
arith <= '0';
clear_left <= '1';
clear_right <= '1';
rldimi_loop : for i in 0 to 1000 loop
rs <= pseudorand(64);
ra <= pseudorand(64);
shift <= '0' & pseudorand(6);
insn <= x"00000" & '0' & pseudorand(10) & '0';
wait for clk_period;
behave_ra := ppc_rldimi(ra, rs, shift(5 downto 0), insn_mb(insn));
assert behave_ra = result
report "bad rldimi expected " & to_hstring(behave_ra) & " got " & to_hstring(result);
end loop;
-- slw
report "test slw";
ra <= (others => '0');
is_32bit <= '1';
right_shift <= '0';
arith <= '0';
clear_left <= '0';
clear_right <= '0';
slw_loop : for i in 0 to 1000 loop
rs <= pseudorand(64);
shift <= pseudorand(7);
wait for clk_period;
behave_ra := ppc_slw(rs, std_ulogic_vector(resize(unsigned(shift), 64)));
assert behave_ra = result
report "bad slw expected " & to_hstring(behave_ra) & " got " & to_hstring(result);
end loop;
-- sld
report "test sld";
ra <= (others => '0');
is_32bit <= '0';
right_shift <= '0';
arith <= '0';
clear_left <= '0';
clear_right <= '0';
sld_loop : for i in 0 to 1000 loop
rs <= pseudorand(64);
shift <= pseudorand(7);
wait for clk_period;
behave_ra := ppc_sld(rs, std_ulogic_vector(resize(unsigned(shift), 64)));
assert behave_ra = result
report "bad sld expected " & to_hstring(behave_ra) & " got " & to_hstring(result);
end loop;
-- srw
report "test srw";
ra <= (others => '0');
is_32bit <= '1';
right_shift <= '1';
arith <= '0';
clear_left <= '0';
clear_right <= '0';
srw_loop : for i in 0 to 1000 loop
rs <= pseudorand(64);
shift <= pseudorand(7);
wait for clk_period;
behave_ra := ppc_srw(rs, std_ulogic_vector(resize(unsigned(shift), 64)));
assert behave_ra = result
report "bad srw expected " & to_hstring(behave_ra) & " got " & to_hstring(result);
end loop;
-- srd
report "test srd";
ra <= (others => '0');
is_32bit <= '0';
right_shift <= '1';
arith <= '0';
clear_left <= '0';
clear_right <= '0';
srd_loop : for i in 0 to 1000 loop
rs <= pseudorand(64);
shift <= pseudorand(7);
wait for clk_period;
behave_ra := ppc_srd(rs, std_ulogic_vector(resize(unsigned(shift), 64)));
assert behave_ra = result
report "bad srd expected " & to_hstring(behave_ra) & " got " & to_hstring(result);
end loop;
-- sraw[i]
report "test sraw[i]";
ra <= (others => '0');
is_32bit <= '1';
right_shift <= '1';
arith <= '1';
clear_left <= '0';
clear_right <= '0';
sraw_loop : for i in 0 to 1000 loop
rs <= pseudorand(64);
shift <= '0' & pseudorand(6);
wait for clk_period;
behave_ca_ra := ppc_sraw(rs, std_ulogic_vector(resize(unsigned(shift), 64)));
--report "rs = " & to_hstring(rs);
--report "ra = " & to_hstring(ra);
--report "shift = " & to_hstring(shift);
--report "result = " & to_hstring(carry_out & result);
assert behave_ca_ra(63 downto 0) = result and behave_ca_ra(64) = carry_out
report "bad sraw expected " & to_hstring(behave_ca_ra) & " got " & to_hstring(carry_out & result);
end loop;
-- srad[i]
report "test srad[i]";
ra <= (others => '0');
is_32bit <= '0';
right_shift <= '1';
arith <= '1';
clear_left <= '0';
clear_right <= '0';
srad_loop : for i in 0 to 1000 loop
rs <= pseudorand(64);
shift <= pseudorand(7);
wait for clk_period;
behave_ca_ra := ppc_srad(rs, std_ulogic_vector(resize(unsigned(shift), 64)));
--report "rs = " & to_hstring(rs);
--report "ra = " & to_hstring(ra);
--report "shift = " & to_hstring(shift);
--report "result = " & to_hstring(carry_out & result);
assert behave_ca_ra(63 downto 0) = result and behave_ca_ra(64) = carry_out
report "bad srad expected " & to_hstring(behave_ca_ra) & " got " & to_hstring(carry_out & result);
end loop;
-- extswsli
report "test extswsli";
ra <= (others => '0');
is_32bit <= '0';
right_shift <= '0';
arith <= '0';
clear_left <= '0';
clear_right <= '0';
extsw <= '1';
extswsli_loop : for i in 0 to 1000 loop
rs <= pseudorand(64);
shift <= '0' & pseudorand(6);
wait for clk_period;
behave_ra := rs;
behave_ra(63 downto 32) := (others => rs(31));
behave_ra := std_ulogic_vector(shift_left(unsigned(behave_ra),
to_integer(unsigned(shift))));
--report "rs = " & to_hstring(rs);
--report "ra = " & to_hstring(ra);
--report "shift = " & to_hstring(shift);
--report "result = " & to_hstring(carry_out & result);
assert behave_ra = result
report "bad extswsli expected " & to_hstring(behave_ra) & " got " & to_hstring(result);
end loop;
assert false report "end of test" severity failure;
wait;
end process;
end behave;