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microwatt/register_file.vhdl

173 lines
5.9 KiB
VHDL

library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
library work;
use work.common.all;
entity register_file is
generic (
SIM : boolean := false;
HAS_FPU : boolean := true;
-- Non-zero to enable log data collection
LOG_LENGTH : natural := 0
);
port(
clk : in std_logic;
d_in : in Decode2ToRegisterFileType;
d_out : out RegisterFileToDecode2Type;
w_in : in WritebackToRegisterFileType;
dbg_gpr_req : in std_ulogic;
dbg_gpr_ack : out std_ulogic;
dbg_gpr_addr : in gspr_index_t;
dbg_gpr_data : out std_ulogic_vector(63 downto 0);
-- debug
sim_dump : in std_ulogic;
sim_dump_done : out std_ulogic;
log_out : out std_ulogic_vector(71 downto 0)
);
end entity register_file;
architecture behaviour of register_file is
type regfile is array(0 to 127) of std_ulogic_vector(63 downto 0);
signal registers : regfile := (others => (others => '0'));
signal rd_port_b : std_ulogic_vector(63 downto 0);
signal dbg_data : std_ulogic_vector(63 downto 0);
signal dbg_ack : std_ulogic;
begin
-- synchronous writes
register_write_0: process(clk)
variable w_addr : gspr_index_t;
begin
if rising_edge(clk) then
if w_in.write_enable = '1' then
w_addr := w_in.write_reg;
if HAS_FPU and w_addr(6) = '1' then
report "Writing FPR " & to_hstring(w_addr(4 downto 0)) & " " & to_hstring(w_in.write_data);
else
w_addr(6) := '0';
if w_addr(5) = '0' then
report "Writing GPR " & to_hstring(w_addr) & " " & to_hstring(w_in.write_data);
else
report "Writing GSPR " & to_hstring(w_addr) & " " & to_hstring(w_in.write_data);
end if;
end if;
assert not(is_x(w_in.write_data)) and not(is_x(w_in.write_reg)) severity failure;
registers(to_integer(unsigned(w_addr))) <= w_in.write_data;
end if;
end if;
end process register_write_0;
-- asynchronous reads
register_read_0: process(all)
variable a_addr, b_addr, c_addr : gspr_index_t;
variable w_addr : gspr_index_t;
begin
a_addr := d_in.read1_reg;
b_addr := d_in.read2_reg;
c_addr := d_in.read3_reg;
w_addr := w_in.write_reg;
if not HAS_FPU then
-- Make it obvious that we only want 64 GSPRs for a no-FPU implementation
a_addr(6) := '0';
b_addr(6) := '0';
c_addr(6) := '0';
w_addr(6) := '0';
end if;
if d_in.read1_enable = '1' then
report "Reading GPR " & to_hstring(a_addr) & " " & to_hstring(registers(to_integer(unsigned(a_addr))));
end if;
if d_in.read2_enable = '1' then
report "Reading GPR " & to_hstring(b_addr) & " " & to_hstring(registers(to_integer(unsigned(b_addr))));
end if;
if d_in.read3_enable = '1' then
report "Reading GPR " & to_hstring(c_addr) & " " & to_hstring(registers(to_integer(unsigned(c_addr))));
end if;
d_out.read1_data <= registers(to_integer(unsigned(a_addr)));
-- B read port is multiplexed with reads from the debug circuitry
if d_in.read2_enable = '0' and dbg_gpr_req = '1' and dbg_ack = '0' then
b_addr := dbg_gpr_addr;
if not HAS_FPU then
b_addr(6) := '0';
end if;
end if;
rd_port_b <= registers(to_integer(unsigned(b_addr)));
d_out.read2_data <= rd_port_b;
d_out.read3_data <= registers(to_integer(unsigned(c_addr)));
-- Forward any written data
if w_in.write_enable = '1' then
if a_addr = w_addr then
d_out.read1_data <= w_in.write_data;
end if;
if b_addr = w_addr then
d_out.read2_data <= w_in.write_data;
end if;
if c_addr = w_addr then
d_out.read3_data <= w_in.write_data;
end if;
end if;
end process register_read_0;
-- Latch read data and ack if dbg read requested and B port not busy
dbg_register_read: process(clk)
begin
if rising_edge(clk) then
if dbg_gpr_req = '1' then
if d_in.read2_enable = '0' and dbg_ack = '0' then
dbg_data <= rd_port_b;
dbg_ack <= '1';
end if;
else
dbg_ack <= '0';
end if;
end if;
end process;
dbg_gpr_ack <= dbg_ack;
dbg_gpr_data <= dbg_data;
-- Dump registers if core terminates
sim_dump_test: if SIM generate
dump_registers: process(all)
begin
if sim_dump = '1' then
loop_0: for i in 0 to 31 loop
report "GPR" & integer'image(i) & " " & to_hstring(registers(i));
end loop loop_0;
report "LR " & to_hstring(registers(to_integer(unsigned(fast_spr_num(SPR_LR)))));
report "CTR " & to_hstring(registers(to_integer(unsigned(fast_spr_num(SPR_CTR)))));
sim_dump_done <= '1';
else
sim_dump_done <= '0';
end if;
end process;
end generate;
-- Keep GHDL synthesis happy
sim_dump_test_synth: if not SIM generate
sim_dump_done <= '0';
end generate;
rf_log: if LOG_LENGTH > 0 generate
signal log_data : std_ulogic_vector(71 downto 0);
begin
reg_log: process(clk)
begin
if rising_edge(clk) then
log_data <= w_in.write_data &
w_in.write_enable &
w_in.write_reg;
end if;
end process;
log_out <= log_data;
end generate;
end architecture behaviour;