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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.helpers.all;
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use work.insn_helpers.all;
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entity decode2 is
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port (
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clk : in std_ulogic;
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rst : in std_ulogic;
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complete_in : in std_ulogic;
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stall_out : out std_ulogic;
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flush_in: in std_ulogic;
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d_in : in Decode1ToDecode2Type;
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e_out : out Decode2ToExecute1Type;
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m_out : out Decode2ToMultiplyType;
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l_out : out Decode2ToLoadstore1Type;
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r_in : in RegisterFileToDecode2Type;
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r_out : out Decode2ToRegisterFileType;
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c_in : in CrFileToDecode2Type;
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c_out : out Decode2ToCrFileType
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);
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end entity decode2;
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architecture behaviour of decode2 is
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type state_type is (IDLE, WAIT_FOR_PREV_TO_COMPLETE, WAIT_FOR_CURR_TO_COMPLETE);
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type reg_internal_type is record
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state : state_type;
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outstanding : integer;
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end record;
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type reg_type is record
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e : Decode2ToExecute1Type;
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m : Decode2ToMultiplyType;
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l : Decode2ToLoadstore1Type;
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end record;
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signal r_int, rin_int : reg_internal_type;
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signal r, rin : reg_type;
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type decode_input_reg_t is record
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reg_valid : std_ulogic;
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reg : std_ulogic_vector(4 downto 0);
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data : std_ulogic_vector(63 downto 0);
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end record;
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function decode_input_reg_a (t : input_reg_a_t; insn_in : std_ulogic_vector(31 downto 0);
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reg_data : std_ulogic_vector(63 downto 0)) return decode_input_reg_t is
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begin
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case t is
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when RA =>
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return ('1', insn_ra(insn_in), reg_data);
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when RA_OR_ZERO =>
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return ('1', insn_ra(insn_in), ra_or_zero(reg_data, insn_ra(insn_in)));
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when RS =>
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return ('1', insn_rs(insn_in), reg_data);
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when NONE =>
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return ('0', (others => '0'), (others => '0'));
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end case;
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end;
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function decode_input_reg_b (t : input_reg_b_t; insn_in : std_ulogic_vector(31 downto 0);
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reg_data : std_ulogic_vector(63 downto 0)) return decode_input_reg_t is
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begin
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case t is
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when RB =>
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return ('1', insn_rb(insn_in), reg_data);
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when RS =>
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return ('1', insn_rs(insn_in), reg_data);
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when CONST_UI =>
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return ('0', (others => '0'), std_ulogic_vector(resize(unsigned(insn_ui(insn_in)), 64)));
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when CONST_SI =>
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return ('0', (others => '0'), std_ulogic_vector(resize(signed(insn_si(insn_in)), 64)));
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when CONST_SI_HI =>
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return ('0', (others => '0'), std_ulogic_vector(resize(signed(insn_si(insn_in)) & x"0000", 64)));
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when CONST_UI_HI =>
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return ('0', (others => '0'), std_ulogic_vector(resize(unsigned(insn_si(insn_in)) & x"0000", 64)));
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when CONST_LI =>
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return ('0', (others => '0'), std_ulogic_vector(resize(signed(insn_li(insn_in)) & "00", 64)));
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when CONST_BD =>
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return ('0', (others => '0'), std_ulogic_vector(resize(signed(insn_bd(insn_in)) & "00", 64)));
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when CONST_DS =>
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return ('0', (others => '0'), std_ulogic_vector(resize(signed(insn_ds(insn_in)) & "00", 64)));
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when NONE =>
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return ('0', (others => '0'), (others => '0'));
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end case;
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end;
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function decode_input_reg_c (t : input_reg_c_t; insn_in : std_ulogic_vector(31 downto 0);
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reg_data : std_ulogic_vector(63 downto 0)) return decode_input_reg_t is
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begin
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case t is
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when RS =>
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return ('1', insn_rs(insn_in), reg_data);
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when NONE =>
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return ('0', (others => '0'), (others => '0'));
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end case;
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end;
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function decode_output_reg (t : output_reg_a_t; insn_in : std_ulogic_vector(31 downto 0)) return std_ulogic_vector is
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begin
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case t is
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when RT =>
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return insn_rt(insn_in);
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when RA =>
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return insn_ra(insn_in);
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when NONE =>
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return "00000";
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end case;
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end;
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function decode_const_a (t : constant_a_t; insn_in : std_ulogic_vector(31 downto 0)) return std_ulogic_vector is
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begin
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case t is
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when SH =>
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return "00" & insn_sh(insn_in);
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when SH32 =>
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return "000" & insn_sh32(insn_in);
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when FXM =>
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return insn_fxm(insn_in);
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when BO =>
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return "000" & insn_bo(insn_in);
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when BF =>
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return "00000" & insn_bf(insn_in);
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when TOO =>
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return "000" & insn_to(insn_in);
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when BC =>
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return "000" & insn_bc(insn_in);
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when NONE =>
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return "00000000";
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end case;
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end;
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function decode_const_b (t : constant_b_t; insn_in : std_ulogic_vector(31 downto 0)) return std_ulogic_vector is
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begin
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case t is
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when MB =>
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return insn_mb(insn_in);
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when ME =>
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return insn_me(insn_in);
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when MB32 =>
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return "0" & insn_mb32(insn_in);
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when BI =>
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return "0" & insn_bi(insn_in);
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when L =>
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return "00000" & insn_l(insn_in);
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when NONE =>
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return "000000";
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end case;
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end;
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function decode_const_c (t : constant_c_t; insn_in : std_ulogic_vector(31 downto 0)) return std_ulogic_vector is
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begin
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case t is
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when ME32 =>
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return insn_me32(insn_in);
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when BH =>
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return "000" & insn_bh(insn_in);
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when NONE =>
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return "00000";
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end case;
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end;
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function decode_rc (t : rc_t; insn_in : std_ulogic_vector(31 downto 0)) return std_ulogic is
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begin
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case t is
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when RC =>
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return insn_rc(insn_in);
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when ONE =>
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return '1';
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when NONE =>
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return '0';
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end case;
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end;
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begin
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decode2_0: process(clk)
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begin
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if rising_edge(clk) then
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if rin.e.valid = '1' or rin.l.valid = '1' or rin.m.valid = '1' then
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report "execute " & to_hstring(rin.e.nia);
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end if;
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r <= rin;
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r_int <= rin_int;
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end if;
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end process;
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r_out.read1_reg <= insn_ra(d_in.insn) when (d_in.decode.input_reg_a = RA) else
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insn_ra(d_in.insn) when d_in.decode.input_reg_a = RA_OR_ZERO else
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insn_rs(d_in.insn) when d_in.decode.input_reg_a = RS else
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(others => '0');
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r_out.read2_reg <= insn_rb(d_in.insn) when d_in.decode.input_reg_b = RB else
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insn_rs(d_in.insn) when d_in.decode.input_reg_b = RS else
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(others => '0');
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r_out.read3_reg <= insn_rs(d_in.insn) when d_in.decode.input_reg_c = RS else
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(others => '0');
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c_out.read <= d_in.decode.input_cr;
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decode2_1: process(all)
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variable v : reg_type;
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variable v_int : reg_internal_type;
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variable mul_a : std_ulogic_vector(63 downto 0);
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variable mul_b : std_ulogic_vector(63 downto 0);
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variable decoded_reg_a : decode_input_reg_t;
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variable decoded_reg_b : decode_input_reg_t;
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variable decoded_reg_c : decode_input_reg_t;
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variable is_valid : std_ulogic;
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begin
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v := r;
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v_int := r_int;
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v.e := Decode2ToExecute1Init;
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v.l := Decode2ToLoadStore1Init;
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v.m := Decode2ToMultiplyInit;
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mul_a := (others => '0');
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mul_b := (others => '0');
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--v.e.input_cr := d_in.decode.input_cr;
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--v.m.input_cr := d_in.decode.input_cr;
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--v.e.output_cr := d_in.decode.output_cr;
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decoded_reg_a := decode_input_reg_a (d_in.decode.input_reg_a, d_in.insn, r_in.read1_data);
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decoded_reg_b := decode_input_reg_b (d_in.decode.input_reg_b, d_in.insn, r_in.read2_data);
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decoded_reg_c := decode_input_reg_c (d_in.decode.input_reg_c, d_in.insn, r_in.read3_data);
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r_out.read1_enable <= decoded_reg_a.reg_valid;
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r_out.read2_enable <= decoded_reg_b.reg_valid;
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r_out.read3_enable <= decoded_reg_c.reg_valid;
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-- execute unit
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v.e.nia := d_in.nia;
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v.e.insn_type := d_in.decode.insn_type;
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v.e.read_reg1 := decoded_reg_a.reg;
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v.e.read_data1 := decoded_reg_a.data;
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v.e.read_reg2 := decoded_reg_b.reg;
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v.e.read_data2 := decoded_reg_b.data;
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v.e.write_reg := decode_output_reg(d_in.decode.output_reg_a, d_in.insn);
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v.e.rc := decode_rc(d_in.decode.rc, d_in.insn);
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v.e.cr := c_in.read_cr_data;
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v.e.input_carry := d_in.decode.input_carry;
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v.e.output_carry := d_in.decode.output_carry;
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if d_in.decode.lr = '1' then
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v.e.lr := insn_lk(d_in.insn);
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end if;
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v.e.const1 := decode_const_a(d_in.decode.const_a, d_in.insn);
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v.e.const2 := decode_const_b(d_in.decode.const_b, d_in.insn);
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v.e.const3 := decode_const_c(d_in.decode.const_c, d_in.insn);
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-- multiply unit
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v.m.insn_type := d_in.decode.insn_type;
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mul_a := decoded_reg_a.data;
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mul_b := decoded_reg_b.data;
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v.m.write_reg := decode_output_reg(d_in.decode.output_reg_a, d_in.insn);
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v.m.rc := decode_rc(d_in.decode.rc, d_in.insn);
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if d_in.decode.mul_32bit = '1' then
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if d_in.decode.mul_signed = '1' then
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v.m.data1 := (others => mul_a(31));
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v.m.data1(31 downto 0) := mul_a(31 downto 0);
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v.m.data2 := (others => mul_b(31));
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v.m.data2(31 downto 0) := mul_b(31 downto 0);
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else
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v.m.data1 := '0' & x"00000000" & mul_a(31 downto 0);
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v.m.data2 := '0' & x"00000000" & mul_b(31 downto 0);
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end if;
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else
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if d_in.decode.mul_signed = '1' then
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v.m.data1 := mul_a(63) & mul_a;
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v.m.data2 := mul_b(63) & mul_b;
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else
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v.m.data1 := '0' & mul_a;
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v.m.data2 := '0' & mul_b;
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end if;
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end if;
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-- load/store unit
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v.l.update_reg := decoded_reg_a.reg;
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v.l.addr1 := decoded_reg_a.data;
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v.l.addr2 := decoded_reg_b.data;
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v.l.data := decoded_reg_c.data;
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v.l.write_reg := decode_output_reg(d_in.decode.output_reg_a, d_in.insn);
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if d_in.decode.insn_type = OP_LOAD then
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v.l.load := '1';
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else
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v.l.load := '0';
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end if;
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case d_in.decode.length is
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when is1B =>
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v.l.length := "0001";
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when is2B =>
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v.l.length := "0010";
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when is4B =>
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v.l.length := "0100";
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when is8B =>
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v.l.length := "1000";
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when NONE =>
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v.l.length := "0000";
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end case;
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v.l.byte_reverse := d_in.decode.byte_reverse;
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v.l.sign_extend := d_in.decode.sign_extend;
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v.l.update := d_in.decode.update;
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-- single issue
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if complete_in = '1' then
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v_int.outstanding := v_int.outstanding - 1;
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end if;
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-- state machine to handle instructions that must be single
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-- through the pipeline.
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stall_out <= '0';
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is_valid := d_in.valid;
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case v_int.state is
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when IDLE =>
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if (flush_in = '0') and (d_in.valid = '1') and (d_in.decode.sgl_pipe = '1') then
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if v_int.outstanding /= 0 then
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v_int.state := WAIT_FOR_PREV_TO_COMPLETE;
|
|
|
|
stall_out <= '1';
|
|
|
|
is_valid := '0';
|
|
|
|
else
|
|
|
|
-- send insn out and wait on it to complete
|
|
|
|
v_int.state := WAIT_FOR_CURR_TO_COMPLETE;
|
|
|
|
end if;
|
|
|
|
end if;
|
|
|
|
|
|
|
|
when WAIT_FOR_PREV_TO_COMPLETE =>
|
|
|
|
if v_int.outstanding = 0 then
|
|
|
|
-- send insn out and wait on it to complete
|
|
|
|
v_int.state := WAIT_FOR_CURR_TO_COMPLETE;
|
|
|
|
else
|
|
|
|
stall_out <= '1';
|
|
|
|
is_valid := '0';
|
|
|
|
end if;
|
|
|
|
|
|
|
|
when WAIT_FOR_CURR_TO_COMPLETE =>
|
|
|
|
if v_int.outstanding = 0 then
|
|
|
|
v_int.state := IDLE;
|
|
|
|
else
|
|
|
|
stall_out <= '1';
|
|
|
|
is_valid := '0';
|
|
|
|
end if;
|
|
|
|
end case;
|
|
|
|
|
|
|
|
v.e.valid := '0';
|
|
|
|
v.m.valid := '0';
|
|
|
|
v.l.valid := '0';
|
|
|
|
case d_in.decode.unit is
|
|
|
|
when ALU =>
|
|
|
|
v.e.valid := is_valid;
|
|
|
|
when LDST =>
|
|
|
|
v.l.valid := is_valid;
|
|
|
|
when MUL =>
|
|
|
|
v.m.valid := is_valid;
|
|
|
|
when NONE =>
|
|
|
|
v.e.valid := is_valid;
|
|
|
|
v.e.insn_type := OP_ILLEGAL;
|
|
|
|
end case;
|
|
|
|
|
|
|
|
if flush_in = '1' then
|
|
|
|
v.e.valid := '0';
|
|
|
|
v.m.valid := '0';
|
|
|
|
v.l.valid := '0';
|
|
|
|
end if;
|
|
|
|
|
|
|
|
-- track outstanding instructions
|
|
|
|
if v.e.valid = '1' or v.l.valid = '1' or v.m.valid = '1' then
|
|
|
|
v_int.outstanding := v_int.outstanding + 1;
|
|
|
|
end if;
|
|
|
|
|
|
|
|
assert r_int.outstanding <= 1 report "Outstanding bad " & integer'image(r_int.outstanding) severity failure;
|
|
|
|
|
|
|
|
if rst = '1' then
|
|
|
|
v_int.state := IDLE;
|
|
|
|
v_int.outstanding := 0;
|
|
|
|
v.e := Decode2ToExecute1Init;
|
|
|
|
v.l := Decode2ToLoadStore1Init;
|
|
|
|
v.m := Decode2ToMultiplyInit;
|
|
|
|
end if;
|
|
|
|
|
|
|
|
-- Update registers
|
|
|
|
rin <= v;
|
|
|
|
rin_int <= v_int;
|
|
|
|
|
|
|
|
-- Update outputs
|
|
|
|
e_out <= r.e;
|
|
|
|
l_out <= r.l;
|
|
|
|
m_out <= r.m;
|
|
|
|
end process;
|
|
|
|
end architecture behaviour;
|