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264 lines
6.1 KiB
VHDL
264 lines
6.1 KiB
VHDL
library ieee;
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use ieee.std_logic_1164.all;
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use ieee.numeric_std.all;
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library work;
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use work.decode_types.all;
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use work.common.all;
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use work.glibc_random.all;
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use work.ppc_fx_insns.all;
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entity multiply_tb is
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end multiply_tb;
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architecture behave of multiply_tb is
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signal clk : std_ulogic;
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constant clk_period : time := 10 ns;
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constant pipeline_depth: integer := 4;
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signal m1 : Decode2ToMultiplyType;
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signal m2 : MultiplyToWritebackType;
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begin
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multiply_0: entity work.multiply
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generic map (PIPELINE_DEPTH => pipeline_depth)
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port map (clk => clk, m_in => m1, m_out => m2);
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clk_process: process
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begin
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clk <= '0';
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wait for clk_period/2;
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clk <= '1';
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wait for clk_period/2;
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end process;
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stim_process: process
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variable ra, rb, rt, behave_rt: std_ulogic_vector(63 downto 0);
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variable si: std_ulogic_vector(15 downto 0);
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begin
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wait for clk_period;
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m1.valid <= '1';
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m1.insn_type <= OP_MUL_L64;
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m1.write_reg <= "10001";
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m1.data1 <= '0' & x"0000000000001000";
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m1.data2 <= '0' & x"0000000000001111";
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m1.rc <= '0';
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wait for clk_period;
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assert m2.valid = '0';
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m1.valid <= '0';
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wait for clk_period;
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assert m2.valid = '0';
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wait for clk_period;
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assert m2.valid = '0';
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wait for clk_period;
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assert m2.valid = '1';
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assert m2.write_reg_enable = '1';
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assert m2.write_reg_nr = "10001";
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assert m2.write_reg_data = x"0000000001111000";
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assert m2.write_cr_enable = '0';
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wait for clk_period;
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assert m2.valid = '0';
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m1.valid <= '1';
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m1.rc <= '1';
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wait for clk_period;
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assert m2.valid = '0';
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m1.valid <= '0';
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wait for clk_period * (pipeline_depth-1);
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assert m2.valid = '1';
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assert m2.write_reg_enable = '1';
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assert m2.write_reg_nr = "10001";
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assert m2.write_reg_data = x"0000000001111000";
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assert m2.write_cr_enable = '1';
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assert m2.write_cr_data = x"40000000";
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-- test mulld
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mulld_loop : for i in 0 to 1000 loop
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ra := pseudorand(ra'length);
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rb := pseudorand(rb'length);
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behave_rt := ppc_mulld(ra, rb);
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m1.data1 <= '0' & ra;
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m1.data2 <= '0' & rb;
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m1.valid <= '1';
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m1.insn_type <= OP_MUL_L64;
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wait for clk_period;
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m1.valid <= '0';
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wait for clk_period * (pipeline_depth-1);
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assert m2.valid = '1';
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assert to_hstring(behave_rt) = to_hstring(m2.write_reg_data)
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report "bad mulld expected " & to_hstring(behave_rt) & " got " & to_hstring(m2.write_reg_data);
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end loop;
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-- test mulhdu
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mulhdu_loop : for i in 0 to 1000 loop
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ra := pseudorand(ra'length);
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rb := pseudorand(rb'length);
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behave_rt := ppc_mulhdu(ra, rb);
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m1.data1 <= '0' & ra;
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m1.data2 <= '0' & rb;
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m1.valid <= '1';
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m1.insn_type <= OP_MUL_H64;
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wait for clk_period;
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m1.valid <= '0';
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wait for clk_period * (pipeline_depth-1);
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assert m2.valid = '1';
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assert to_hstring(behave_rt) = to_hstring(m2.write_reg_data)
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report "bad mulhdu expected " & to_hstring(behave_rt) & " got " & to_hstring(m2.write_reg_data);
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end loop;
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-- test mulhd
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mulhd_loop : for i in 0 to 1000 loop
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ra := pseudorand(ra'length);
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rb := pseudorand(rb'length);
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behave_rt := ppc_mulhd(ra, rb);
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m1.data1 <= ra(63) & ra;
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m1.data2 <= rb(63) & rb;
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m1.valid <= '1';
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m1.insn_type <= OP_MUL_H64;
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wait for clk_period;
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m1.valid <= '0';
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wait for clk_period * (pipeline_depth-1);
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assert m2.valid = '1';
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assert to_hstring(behave_rt) = to_hstring(m2.write_reg_data)
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report "bad mulhd expected " & to_hstring(behave_rt) & " got " & to_hstring(m2.write_reg_data);
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end loop;
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-- test mullw
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mullw_loop : for i in 0 to 1000 loop
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ra := pseudorand(ra'length);
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rb := pseudorand(rb'length);
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behave_rt := ppc_mullw(ra, rb);
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m1.data1 <= (others => ra(31));
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m1.data1(31 downto 0) <= ra(31 downto 0);
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m1.data2 <= (others => rb(31));
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m1.data2(31 downto 0) <= rb(31 downto 0);
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m1.valid <= '1';
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m1.insn_type <= OP_MUL_L64;
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wait for clk_period;
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m1.valid <= '0';
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wait for clk_period * (pipeline_depth-1);
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assert m2.valid = '1';
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assert to_hstring(behave_rt) = to_hstring(m2.write_reg_data)
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report "bad mullw expected " & to_hstring(behave_rt) & " got " & to_hstring(m2.write_reg_data);
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end loop;
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-- test mulhw
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mulhw_loop : for i in 0 to 1000 loop
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ra := pseudorand(ra'length);
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rb := pseudorand(rb'length);
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behave_rt := ppc_mulhw(ra, rb);
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m1.data1 <= (others => ra(31));
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m1.data1(31 downto 0) <= ra(31 downto 0);
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m1.data2 <= (others => rb(31));
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m1.data2(31 downto 0) <= rb(31 downto 0);
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m1.valid <= '1';
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m1.insn_type <= OP_MUL_H32;
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wait for clk_period;
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m1.valid <= '0';
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wait for clk_period * (pipeline_depth-1);
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assert m2.valid = '1';
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assert to_hstring(behave_rt) = to_hstring(m2.write_reg_data)
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report "bad mulhw expected " & to_hstring(behave_rt) & " got " & to_hstring(m2.write_reg_data);
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end loop;
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-- test mulhwu
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mulhwu_loop : for i in 0 to 1000 loop
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ra := pseudorand(ra'length);
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rb := pseudorand(rb'length);
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behave_rt := ppc_mulhwu(ra, rb);
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m1.data1 <= (others => '0');
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m1.data1(31 downto 0) <= ra(31 downto 0);
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m1.data2 <= (others => '0');
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m1.data2(31 downto 0) <= rb(31 downto 0);
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m1.valid <= '1';
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m1.insn_type <= OP_MUL_H32;
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wait for clk_period;
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m1.valid <= '0';
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wait for clk_period * (pipeline_depth-1);
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assert m2.valid = '1';
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assert to_hstring(behave_rt) = to_hstring(m2.write_reg_data)
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report "bad mulhwu expected " & to_hstring(behave_rt) & " got " & to_hstring(m2.write_reg_data);
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end loop;
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-- test mulli
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mulli_loop : for i in 0 to 1000 loop
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ra := pseudorand(ra'length);
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si := pseudorand(si'length);
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behave_rt := ppc_mulli(ra, si);
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m1.data1 <= ra(63) & ra;
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m1.data2 <= (others => si(15));
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m1.data2(15 downto 0) <= si;
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m1.valid <= '1';
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m1.insn_type <= OP_MUL_L64;
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wait for clk_period;
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m1.valid <= '0';
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wait for clk_period * (pipeline_depth-1);
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assert m2.valid = '1';
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assert to_hstring(behave_rt) = to_hstring(m2.write_reg_data)
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report "bad mulli expected " & to_hstring(behave_rt) & " got " & to_hstring(m2.write_reg_data);
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end loop;
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assert false report "end of test" severity failure;
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wait;
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end process;
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end behave;
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