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antonblanchard.microwatt/control.vhdl
Benjamin Herrenschmidt e4f475e17f sprs: Store common SPRs in register file 
This stores the most common SPRs in the register file.

This includes CTR and LR and a not yet final list of others.

The register file is set to 64 entries for now. Specific types
are defined that can represent a GPR index (gpr_index_t) or
a GPR/SPR index (gspr_index_t) along with conversion functions
between the two.

On order to deal with some forms of branch updating both LR and
CTR, we introduced a delayed update of LR after a branch link.

Note: We currently stall the pipeline on such a delayed branch,
but we could avoid stalling fetch in that specific case as we
know we have a branch delay. We could also limit that to the
specific case where we need to update both CTR and LR.

This allows us to make bcreg, mtspr and mfspr pipelined. decode1
will automatically force the single issue flag on mfspr/mtspr to
a "slow" SPR.

[paulus@ozlabs.org - fix direction of decode2.stall_in]

Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org>
Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2019-12-07 15:30:40 +11:00

230 lines
7.2 KiB
VHDL
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library ieee;
use ieee.std_logic_1164.all;
library work;
use work.common.all;
entity control is
generic (
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;
stall_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 gspr_index_t;
gpr_a_read_valid_in : in std_ulogic;
gpr_a_read_in : in gspr_index_t;
gpr_b_read_valid_in : in std_ulogic;
gpr_b_read_in : in gspr_index_t;
gpr_c_read_valid_in : in std_ulogic;
gpr_c_read_in : in gpr_index_t;
cr_read_in : in std_ulogic;
cr_write_in : in std_ulogic;
valid_out : out std_ulogic;
stall_out : out std_ulogic;
stopped_out : out std_ulogic
);
end entity control;
architecture rtl of control is
type state_type is (IDLE, WAIT_FOR_PREV_TO_COMPLETE, WAIT_FOR_CURR_TO_COMPLETE);
type reg_internal_type is record
state : state_type;
outstanding : integer range -1 to PIPELINE_DEPTH+2;
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 : std_ulogic;
signal stall_b_out : std_ulogic;
signal stall_c_out : std_ulogic;
signal cr_stall_out : std_ulogic;
signal gpr_write_valid : std_ulogic := '0';
signal cr_write_valid : std_ulogic := '0';
begin
gpr_hazard0: entity work.gpr_hazard
generic map (
PIPELINE_DEPTH => PIPELINE_DEPTH
)
port map (
clk => clk,
stall_in => stall_in,
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 => PIPELINE_DEPTH
)
port map (
clk => clk,
stall_in => stall_in,
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 => PIPELINE_DEPTH
)
port map (
clk => clk,
stall_in => stall_in,
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 => "0" & gpr_c_read_in,
stall_out => stall_c_out
);
cr_hazard0: entity work.cr_hazard
generic map (
PIPELINE_DEPTH => PIPELINE_DEPTH
)
port map (
clk => clk,
stall_in => stall_in,
cr_read_in => cr_read_in,
cr_write_in => cr_write_valid,
stall_out => cr_stall_out
);
control0: process(clk)
begin
if rising_edge(clk) then
assert r_int.outstanding >= 0 and r_int.outstanding <= (PIPELINE_DEPTH+1) report "Outstanding bad " & integer'image(r_int.outstanding) severity failure;
r_int <= rin_int;
end if;
end process;
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 and not stall_in;
stall_tmp := stall_in;
if complete_in = '1' then
v_int.outstanding := r_int.outstanding - 1;
end if;
-- Handle debugger stop
stopped_out <= '0';
if stop_mark_in = '1' and v_int.outstanding = 0 then
stopped_out <= '1';
end if;
-- state machine to handle instructions that must be single
-- through the pipeline.
case r_int.state is
when IDLE =>
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 or cr_stall_out;
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_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 or cr_stall_out;
end if;
end if;
else
stall_tmp := '1';
end if;
end case;
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;
cr_write_valid <= cr_write_in;
else
gpr_write_valid <= '0';
cr_write_valid <= '0';
end if;
if rst = '1' then
v_int.state := IDLE;
v_int.outstanding := 0;
stall_tmp := '0';
end if;
-- update outputs
valid_out <= valid_tmp;
stall_out <= stall_tmp;
-- update registers
rin_int <= v_int;
end process;
end;
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