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204 lines
6.9 KiB
VHDL
204 lines
6.9 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.common.all;
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use work.crhelpers.all;
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entity writeback is
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port (
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clk : in std_ulogic;
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e_in : in Execute1ToWritebackType;
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l_in : in DcacheToWritebackType;
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w_out : out WritebackToRegisterFileType;
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c_out : out WritebackToCrFileType;
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complete_out : out std_ulogic
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);
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end entity writeback;
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architecture behaviour of writeback is
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subtype byte_index_t is unsigned(2 downto 0);
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type permutation_t is array(0 to 7) of byte_index_t;
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subtype byte_trim_t is std_ulogic_vector(1 downto 0);
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type trim_ctl_t is array(0 to 7) of byte_trim_t;
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type byte_sel_t is array(0 to 7) of std_ulogic;
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signal data_len : unsigned(3 downto 0);
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signal data_in : std_ulogic_vector(63 downto 0);
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signal data_permuted : std_ulogic_vector(63 downto 0);
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signal data_trimmed : std_ulogic_vector(63 downto 0);
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signal data_latched : std_ulogic_vector(63 downto 0);
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signal perm : permutation_t;
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signal use_second : byte_sel_t;
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signal byte_offset : unsigned(2 downto 0);
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signal brev_lenm1 : unsigned(2 downto 0);
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signal trim_ctl : trim_ctl_t;
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signal rc : std_ulogic;
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signal partial_write : std_ulogic;
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signal sign_extend : std_ulogic;
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signal negative : std_ulogic;
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signal second_word : std_ulogic;
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begin
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writeback_0: process(clk)
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begin
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if rising_edge(clk) then
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if partial_write = '1' then
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data_latched <= data_permuted;
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end if;
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end if;
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end process;
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writeback_1: process(all)
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variable x : std_ulogic_vector(0 downto 0);
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variable y : std_ulogic_vector(0 downto 0);
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variable z : std_ulogic_vector(0 downto 0);
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variable w : std_ulogic_vector(0 downto 0);
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variable j : integer;
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variable k : unsigned(3 downto 0);
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variable cf: std_ulogic_vector(3 downto 0);
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variable xe: xer_common_t;
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variable zero : std_ulogic;
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variable sign : std_ulogic;
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variable scf : std_ulogic_vector(3 downto 0);
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begin
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x(0) := e_in.valid;
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y(0) := l_in.valid;
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assert (to_integer(unsigned(x)) + to_integer(unsigned(y))) <= 1 severity failure;
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x(0) := e_in.write_enable;
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y(0) := l_in.write_enable;
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assert (to_integer(unsigned(x)) + to_integer(unsigned(y))) <= 1 severity failure;
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w(0) := e_in.write_cr_enable;
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x(0) := (e_in.write_enable and e_in.rc);
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assert (to_integer(unsigned(w)) + to_integer(unsigned(x))) <= 1 severity failure;
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w_out <= WritebackToRegisterFileInit;
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c_out <= WritebackToCrFileInit;
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complete_out <= '0';
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if e_in.valid = '1' or l_in.valid = '1' then
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complete_out <= '1';
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end if;
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rc <= '0';
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brev_lenm1 <= "000";
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partial_write <= '0';
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second_word <= '0';
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xe := e_in.xerc;
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data_in <= (others => '0');
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if e_in.write_enable = '1' then
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w_out.write_reg <= e_in.write_reg;
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w_out.write_enable <= '1';
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rc <= e_in.rc;
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end if;
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if e_in.write_cr_enable = '1' then
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c_out.write_cr_enable <= '1';
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c_out.write_cr_mask <= e_in.write_cr_mask;
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c_out.write_cr_data <= e_in.write_cr_data;
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end if;
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if e_in.write_xerc_enable = '1' then
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c_out.write_xerc_enable <= '1';
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c_out.write_xerc_data <= e_in.xerc;
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end if;
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sign_extend <= l_in.sign_extend;
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data_len <= unsigned(l_in.write_len);
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byte_offset <= unsigned(l_in.write_shift);
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if l_in.write_enable = '1' then
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w_out.write_reg <= gpr_to_gspr(l_in.write_reg);
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if l_in.byte_reverse = '1' then
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brev_lenm1 <= unsigned(l_in.write_len(2 downto 0)) - 1;
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end if;
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second_word <= l_in.second_word;
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if l_in.valid = '0' and (data_len + byte_offset > 8) then
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partial_write <= '1';
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end if;
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xe := l_in.xerc;
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w_out.write_enable <= not partial_write or second_word;
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end if;
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if l_in.rc = '1' then
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-- st*cx. instructions
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scf(3) := '0';
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scf(2) := '0';
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scf(1) := l_in.store_done;
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scf(0) := xe.so;
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c_out.write_cr_enable <= '1';
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c_out.write_cr_mask <= num_to_fxm(0);
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c_out.write_cr_data(31 downto 28) <= scf;
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end if;
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-- shift and byte-reverse data bytes
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for i in 0 to 7 loop
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k := ('0' & (to_unsigned(i, 3) xor brev_lenm1)) + ('0' & byte_offset);
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perm(i) <= k(2 downto 0);
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use_second(i) <= k(3);
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end loop;
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for i in 0 to 7 loop
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j := to_integer(perm(i)) * 8;
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data_permuted(i * 8 + 7 downto i * 8) <= l_in.write_data(j + 7 downto j);
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end loop;
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-- If the data can arrive split over two cycles, this will be correct
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-- provided we don't have both sign extension and byte reversal.
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negative <= (data_len(3) and data_permuted(63)) or
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(data_len(2) and data_permuted(31)) or
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(data_len(1) and data_permuted(15)) or
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(data_len(0) and data_permuted(7));
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-- trim and sign-extend
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for i in 0 to 7 loop
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if i < to_integer(data_len) then
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if second_word = '1' then
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trim_ctl(i) <= '1' & not use_second(i);
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else
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trim_ctl(i) <= not use_second(i) & '0';
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end if;
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else
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trim_ctl(i) <= '0' & (negative and sign_extend);
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end if;
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end loop;
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for i in 0 to 7 loop
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case trim_ctl(i) is
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when "11" =>
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data_trimmed(i * 8 + 7 downto i * 8) <= data_latched(i * 8 + 7 downto i * 8);
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when "10" =>
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data_trimmed(i * 8 + 7 downto i * 8) <= data_permuted(i * 8 + 7 downto i * 8);
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when "01" =>
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data_trimmed(i * 8 + 7 downto i * 8) <= x"FF";
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when others =>
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data_trimmed(i * 8 + 7 downto i * 8) <= x"00";
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end case;
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end loop;
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-- deliver to regfile
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if l_in.write_enable = '1' then
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w_out.write_data <= data_trimmed;
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else
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w_out.write_data <= e_in.write_data;
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end if;
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-- Perform CR0 update for RC forms
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-- Note that loads never have a form with an RC bit, therefore this can test e_in.write_data
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if rc = '1' then
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sign := e_in.write_data(63);
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zero := not (or e_in.write_data);
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c_out.write_cr_enable <= '1';
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c_out.write_cr_mask <= num_to_fxm(0);
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cf(3) := sign;
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cf(2) := not sign and not zero;
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cf(1) := zero;
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cf(0) := xe.so;
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c_out.write_cr_data(31 downto 28) <= cf;
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end if;
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end process;
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end;
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