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Add GPR hazard detection

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Check GPRs against any writers in the pipeline.

All instructions are still marked single in pipeline at
this stage.

Signed-off-by: Anton Blanchard <anton@linux.ibm.com>
jtag-port
Anton Blanchard 5 years ago committed by Anton Blanchard
parent e4c98dce36
commit bdc26b7527
5 changed files with 224 additions and 28 deletions
Show Stats Download Patch File Download Diff File

1
Makefile
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@ -14,6 +14,7 @@ all: $(all)
$(GHDL) -a $(GHDLFLAGS) $<

common.o: decode_types.o
control.o: gpr_hazard.o
sim_jtag.o: sim_jtag_socket.o
core_tb.o: common.o wishbone_types.o core.o soc.o sim_jtag.o
core.o: common.o wishbone_types.o fetch1.o fetch2.o icache.o decode1.o decode2.o register_file.o cr_file.o execute1.o execute2.o loadstore1.o loadstore2.o multiply.o writeback.o core_debug.o divider.o

142
control.vhdl
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@ -6,18 +6,30 @@ entity control is
PIPELINE_DEPTH : natural := 2
);
port (
clk : in std_ulogic;
rst : in std_ulogic;

complete_in : in std_ulogic;
valid_in : in std_ulogic;
flush_in : in std_ulogic;
sgl_pipe_in : in std_ulogic;
stop_mark_in : in std_ulogic;

valid_out : out std_ulogic;
stall_out : out std_ulogic;
stopped_out : out std_ulogic
clk : in std_ulogic;
rst : in std_ulogic;

complete_in : in std_ulogic;
valid_in : in std_ulogic;
flush_in : in std_ulogic;
sgl_pipe_in : in std_ulogic;
stop_mark_in : in std_ulogic;

gpr_write_valid_in : in std_ulogic;
gpr_write_in : in std_ulogic_vector(4 downto 0);

gpr_a_read_valid_in : in std_ulogic;
gpr_a_read_in : in std_ulogic_vector(4 downto 0);

gpr_b_read_valid_in : in std_ulogic;
gpr_b_read_in : in std_ulogic_vector(4 downto 0);

gpr_c_read_valid_in : in std_ulogic;
gpr_c_read_in : in std_ulogic_vector(4 downto 0);

valid_out : out std_ulogic;
stall_out : out std_ulogic;
stopped_out : out std_ulogic
);
end entity control;

@ -26,12 +38,61 @@ architecture rtl of control is

type reg_internal_type is record
state : state_type;
outstanding : integer range -1 to PIPELINE_DEPTH+1;
outstanding : integer range -1 to PIPELINE_DEPTH+2; -- XXX ?
end record;
constant reg_internal_init : reg_internal_type := (state => IDLE, outstanding => 0);

signal r_int, rin_int : reg_internal_type := reg_internal_init;

signal stall_a_out, stall_b_out, stall_c_out : std_ulogic;

signal gpr_write_valid : std_ulogic := '0';
begin
gpr_hazard0: entity work.gpr_hazard
generic map (
PIPELINE_DEPTH => 2
)
port map (
clk => clk,

gpr_write_valid_in => gpr_write_valid,
gpr_write_in => gpr_write_in,
gpr_read_valid_in => gpr_a_read_valid_in,
gpr_read_in => gpr_a_read_in,

stall_out => stall_a_out
);

gpr_hazard1: entity work.gpr_hazard
generic map (
PIPELINE_DEPTH => 2
)
port map (
clk => clk,

gpr_write_valid_in => gpr_write_valid,
gpr_write_in => gpr_write_in,
gpr_read_valid_in => gpr_b_read_valid_in,
gpr_read_in => gpr_b_read_in,

stall_out => stall_b_out
);

gpr_hazard2: entity work.gpr_hazard
generic map (
PIPELINE_DEPTH => 2
)
port map (
clk => clk,

gpr_write_valid_in => gpr_write_valid,
gpr_write_in => gpr_write_in,
gpr_read_valid_in => gpr_c_read_valid_in,
gpr_read_in => gpr_c_read_in,

stall_out => stall_c_out
);

control0: process(clk)
begin
if rising_edge(clk) then
@ -42,15 +103,16 @@ begin
control1 : process(all)
variable v_int : reg_internal_type;
variable valid_tmp : std_ulogic;
variable stall_tmp : std_ulogic;
begin
v_int := r_int;

-- asynchronous
valid_tmp := valid_in and not flush_in;
stall_out <= '0';
stall_tmp := '0';

if complete_in = '1' then
assert r_int.outstanding <= 1 report "Outstanding bad " & integer'image(r_int.outstanding) severity failure;
assert r_int.outstanding >= 0 and r_int.outstanding <= (PIPELINE_DEPTH+1) report "Outstanding bad " & integer'image(r_int.outstanding) severity failure;
v_int.outstanding := r_int.outstanding - 1;
end if;

@ -64,14 +126,18 @@ begin
-- through the pipeline.
case r_int.state is
when IDLE =>
if (flush_in = '0') and (valid_tmp = '1') and (sgl_pipe_in = '1') then
if v_int.outstanding /= 0 then
v_int.state := WAIT_FOR_PREV_TO_COMPLETE;
valid_tmp := '0';
stall_out <= '1';
if valid_tmp = '1' then
if (sgl_pipe_in = '1') then
if v_int.outstanding /= 0 then
v_int.state := WAIT_FOR_PREV_TO_COMPLETE;
stall_tmp := '1';
else
-- send insn out and wait on it to complete
v_int.state := WAIT_FOR_CURR_TO_COMPLETE;
end if;
else
-- send insn out and wait on it to complete
v_int.state := WAIT_FOR_CURR_TO_COMPLETE;
-- let it go out if there are no GPR hazards
stall_tmp := stall_a_out or stall_b_out or stall_c_out;
end if;
end if;

@ -80,32 +146,52 @@ begin
-- send insn out and wait on it to complete
v_int.state := WAIT_FOR_CURR_TO_COMPLETE;
else
valid_tmp := '0';
stall_out <= '1';
stall_tmp := '1';
end if;

when WAIT_FOR_CURR_TO_COMPLETE =>
if v_int.outstanding = 0 then
v_int.state := IDLE;
-- XXX Don't replicate this
if valid_tmp = '1' then
if (sgl_pipe_in = '1') then
if v_int.outstanding /= 0 then
v_int.state := WAIT_FOR_PREV_TO_COMPLETE;
stall_tmp := '1';
else
-- send insn out and wait on it to complete
v_int.state := WAIT_FOR_CURR_TO_COMPLETE;
end if;
else
-- let it go out if there are no GPR hazards
stall_tmp := stall_a_out or stall_b_out or stall_c_out;
end if;
end if;
else
valid_tmp := '0';
stall_out <= '1';
stall_tmp := '1';
end if;
end case;

-- track outstanding instructions
if stall_tmp = '1' then
valid_tmp := '0';
end if;

if valid_tmp = '1' then
v_int.outstanding := v_int.outstanding + 1;
gpr_write_valid <= gpr_write_valid_in;
else
gpr_write_valid <= '0';
end if;

if rst = '1' then
v_int.state := IDLE;
v_int.outstanding := 0;
stall_out <= '0';
stall_tmp := '0';
end if;

-- update outputs
valid_out <= valid_tmp;
stall_out <= stall_tmp;

-- update registers
rin_int <= v_int;

41
decode2.vhdl
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@ -53,8 +53,12 @@ architecture behaviour of decode2 is

function decode_input_reg_a (t : input_reg_a_t; insn_in : std_ulogic_vector(31 downto 0);
reg_data : std_ulogic_vector(63 downto 0)) return decode_input_reg_t is
variable is_reg : std_ulogic;
begin
is_reg := '0' when insn_ra(insn_in) = "00000" else '1';

if t = RA or (t = RA_OR_ZERO and insn_ra(insn_in) /= "00000") then
--return (is_reg, insn_ra(insn_in), reg_data);
return ('1', insn_ra(insn_in), reg_data);
else
return ('0', (others => '0'), (others => '0'));
@ -127,9 +131,22 @@ architecture behaviour of decode2 is
end case;
end;

-- issue control signals
signal control_valid_in : std_ulogic;
signal control_valid_out : std_ulogic;
signal control_sgl_pipe : std_logic;

signal gpr_write_valid : std_ulogic;
signal gpr_write : std_ulogic_vector(4 downto 0);

signal gpr_a_read_valid : std_ulogic;
signal gpr_a_read : std_ulogic_vector(4 downto 0);

signal gpr_b_read_valid : std_ulogic;
signal gpr_b_read : std_ulogic_vector(4 downto 0);

signal gpr_c_read_valid : std_ulogic;
signal gpr_c_read : std_ulogic_vector(4 downto 0);
begin
control_0: entity work.control
generic map (
@ -145,6 +162,18 @@ begin
sgl_pipe_in => control_sgl_pipe,
stop_mark_in => d_in.stop_mark,

gpr_write_valid_in => gpr_write_valid,
gpr_write_in => gpr_write,

gpr_a_read_valid_in => gpr_a_read_valid,
gpr_a_read_in => gpr_a_read,

gpr_b_read_valid_in => gpr_b_read_valid,
gpr_b_read_in => gpr_b_read,

gpr_c_read_valid_in => gpr_c_read_valid,
gpr_c_read_in => gpr_c_read,

valid_out => control_valid_out,
stall_out => stall_out,
stopped_out => stopped_out
@ -323,6 +352,18 @@ begin
control_valid_in <= d_in.valid;
control_sgl_pipe <= d_in.decode.sgl_pipe;

gpr_write_valid <= '1' when d_in.decode.output_reg_a /= NONE else '0';
gpr_write <= decode_output_reg(d_in.decode.output_reg_a, d_in.insn);

gpr_a_read_valid <= decoded_reg_a.reg_valid;
gpr_a_read <= decoded_reg_a.reg;

gpr_b_read_valid <= decoded_reg_b.reg_valid;
gpr_b_read <= decoded_reg_b.reg;

gpr_c_read_valid <= decoded_reg_c.reg_valid;
gpr_c_read <= decoded_reg_c.reg;

v.e.valid := '0';
v.m.valid := '0';
v.d.valid := '0';

67
gpr_hazard.vhdl
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@ -0,0 +1,67 @@
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;

entity gpr_hazard is
generic (
PIPELINE_DEPTH : natural := 2
);
port(
clk : in std_logic;

gpr_write_valid_in : in std_ulogic;
gpr_write_in : in std_ulogic_vector(4 downto 0);
gpr_read_valid_in : in std_ulogic;
gpr_read_in : in std_ulogic_vector(4 downto 0);

stall_out : out std_ulogic
);
end entity gpr_hazard;
architecture behaviour of gpr_hazard is
type pipeline_entry_type is record
valid : std_ulogic;
gpr : std_ulogic_vector(4 downto 0);
end record;
constant pipeline_entry_init : pipeline_entry_type := (valid => '0', gpr => (others => '0'));

type pipeline_t is array(0 to PIPELINE_DEPTH-1) of pipeline_entry_type;
constant pipeline_t_init : pipeline_t := (others => pipeline_entry_init);

signal r, rin : pipeline_t := pipeline_t_init;
begin
gpr_hazard0: process(clk)
begin
if rising_edge(clk) then
r <= rin;
end if;
end process;

gpr_hazard1: process(all)
variable v : pipeline_t;
begin
v := r;

stall_out <= '0';
loop_0: for i in 0 to PIPELINE_DEPTH-1 loop
if ((r(i).valid = gpr_read_valid_in) and r(i).gpr = gpr_read_in) then
stall_out <= '1';
end if;
end loop;

v(0).valid := gpr_write_valid_in;
v(0).gpr := gpr_write_in;
loop_1: for i in 0 to PIPELINE_DEPTH-2 loop
-- propagate to next slot
v(i+1) := r(i);
end loop;

-- asynchronous output
if gpr_read_valid_in = '0' then
stall_out <= '0';
end if;

-- update registers
rin <= v;

end process;
end;

1
microwatt.core
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@ -20,6 +20,7 @@ filesets:
- sim_console.vhdl
- logical.vhdl
- countzero.vhdl
- gpr_hazard.vhdl
- control.vhdl
- execute1.vhdl
- execute2.vhdl

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