@ -31,6 +31,21 @@ architecture behaviour of decode1 is
signal r, rin : Decode1ToDecode2Type;
signal r, rin : Decode1ToDecode2Type;
signal s : Decode1ToDecode2Type;
signal s : Decode1ToDecode2Type;
constant illegal_inst : decode_rom_t :=
(NONE, OP_ILLEGAL, NONE, NONE, NONE, NONE, '0', '0', '0', '0', ZERO, '0', NONE, '0', '0', '0', '0', '0', '0', NONE, '0', '0');
type reg_internal_t is record
override : std_ulogic;
override_decode: decode_rom_t;
override_unit: std_ulogic;
force_single: std_ulogic;
end record;
constant reg_internal_t_init : reg_internal_t :=
(override => '0', override_decode => illegal_inst, override_unit => '0', force_single => '0');
signal ri, ri_in : reg_internal_t;
signal si : reg_internal_t;
subtype major_opcode_t is unsigned(5 downto 0);
subtype major_opcode_t is unsigned(5 downto 0);
type major_rom_array_t is array(0 to 63) of decode_rom_t;
type major_rom_array_t is array(0 to 63) of decode_rom_t;
type minor_valid_array_t is array(0 to 1023) of std_ulogic;
type minor_valid_array_t is array(0 to 1023) of std_ulogic;
@ -41,9 +56,6 @@ architecture behaviour of decode1 is
type op_31_subop_array_t is array(0 to 1023) of decode_rom_t;
type op_31_subop_array_t is array(0 to 1023) of decode_rom_t;
type minor_rom_array_2_t is array(0 to 3) of decode_rom_t;
type minor_rom_array_2_t is array(0 to 3) of decode_rom_t;
constant illegal_inst : decode_rom_t :=
(ALU, OP_ILLEGAL, NONE, NONE, NONE, NONE, '0', '0', '0', '0', ZERO, '0', NONE, '0', '0', '0', '0', '0', '0', RC, '0', '1');
constant major_decode_rom_array : major_rom_array_t := (
constant major_decode_rom_array : major_rom_array_t := (
-- unit internal in1 in2 in3 out CR CR inv inv cry cry ldst BR sgn upd rsrv 32b sgn rc lk sgl
-- unit internal in1 in2 in3 out CR CR inv inv cry cry ldst BR sgn upd rsrv 32b sgn rc lk sgl
-- op in out A out in out len ext pipe
-- op in out A out in out len ext pipe
@ -107,25 +119,21 @@ architecture behaviour of decode1 is
-- indexed by bits 10..1 of instruction word
-- indexed by bits 10..1 of instruction word
constant decode_op_19_valid : minor_valid_array_t := (
constant decode_op_19_valid : minor_valid_array_t := (
-- addpcis, 5 upper bits are part of constant
2#0001000000# to 2#0001011111# => '1', -- addpcis, 5 upper bits are part of constant
2#0000000010# => '1', 2#0000100010# => '1', 2#0001000010# => '1', 2#0001100010# => '1', 2#0010000010# => '1', 2#0010100010# => '1', 2#0011000010# => '1', 2#0011100010# => '1',
2#0100000010# => '1', 2#0100100010# => '1', 2#0101000010# => '1', 2#0101100010# => '1', 2#0110000010# => '1', 2#0110100010# => '1', 2#0111000010# => '1', 2#0111100010# => '1',
2#1000000010# => '1', 2#1000100010# => '1', 2#1001000010# => '1', 2#1001100010# => '1', 2#1010000010# => '1', 2#1010100010# => '1', 2#1011000010# => '1', 2#1011100010# => '1',
2#1100000010# => '1', 2#1100100010# => '1', 2#1101000010# => '1', 2#1101100010# => '1', 2#1110000010# => '1', 2#1110100010# => '1', 2#1111000010# => '1', 2#1111100010# => '1',
2#1000010000# => '1', -- bcctr
2#1000010000# => '1', -- bcctr
2#0000010000# => '1', -- bclr
2#1000000000# => '1', -- bclr
2#1000110000# => '1', -- bctar
2#1000010001# => '1', -- bctar
2#0100000001# => '1', -- crand
2#0000101000# => '1', -- crand
2#0010000001# => '1', -- crandc
2#0000100100# => '1', -- crandc
2#0100100001# => '1', -- creqv
2#0000101001# => '1', -- creqv
2#0011100001# => '1', -- crnand
2#0000100111# => '1', -- crnand
2#0000100001# => '1', -- crnor
2#0000100001# => '1', -- crnor
2#0111000001# => '1', -- cror
2#0000101110# => '1', -- cror
2#0110100001# => '1', -- crorc
2#0000101101# => '1', -- crorc
2#0011000001# => '1', -- crxor
2#0000100110# => '1', -- crxor
2#0010010110# => '1', -- isync
2#1011000100# => '1', -- isync
2#0000000000# => '1', -- mcrf
2#0000000000# => '1', -- mcrf
2#0000010010# => '1', -- rfid
2#1001000000# => '1', -- rfid
others => '0'
others => '0'
);
);
@ -401,19 +409,24 @@ begin
if rst = '1' then
if rst = '1' then
r <= Decode1ToDecode2Init;
r <= Decode1ToDecode2Init;
s <= Decode1ToDecode2Init;
s <= Decode1ToDecode2Init;
ri <= reg_internal_t_init;
si <= reg_internal_t_init;
elsif flush_in = '1' then
elsif flush_in = '1' then
r.valid <= '0';
r.valid <= '0';
s.valid <= '0';
s.valid <= '0';
elsif s.valid = '1' then
elsif s.valid = '1' then
if stall_in = '0' then
if stall_in = '0' then
r <= s;
r <= s;
ri <= si;
s.valid <= '0';
s.valid <= '0';
end if;
end if;
else
else
s <= rin;
s <= rin;
si <= ri_in;
s.valid <= rin.valid and r.valid and stall_in;
s.valid <= rin.valid and r.valid and stall_in;
if r.valid = '0' or stall_in = '0' then
if r.valid = '0' or stall_in = '0' then
r <= rin;
r <= rin;
ri <= ri_in;
end if;
end if;
end if;
end if;
end if;
end if;
@ -422,6 +435,7 @@ begin
decode1_1: process(all)
decode1_1: process(all)
variable v : Decode1ToDecode2Type;
variable v : Decode1ToDecode2Type;
variable vi : reg_internal_t;
variable f : Decode1ToFetch1Type;
variable f : Decode1ToFetch1Type;
variable majorop : major_opcode_t;
variable majorop : major_opcode_t;
variable minor4op : std_ulogic_vector(10 downto 0);
variable minor4op : std_ulogic_vector(10 downto 0);
@ -432,37 +446,30 @@ begin
variable br_offset : signed(23 downto 0);
variable br_offset : signed(23 downto 0);
begin
begin
v := Decode1ToDecode2Init;
v := Decode1ToDecode2Init;
vi := reg_internal_t_init;
v.valid := f_in.valid;
v.valid := f_in.valid;
v.nia := f_in.nia;
v.nia := f_in.nia;
v.insn := f_in.insn;
v.insn := f_in.insn;
v.stop_mark := f_in.stop_mark;
v.stop_mark := f_in.stop_mark;
v.ispr1 := (others => '0');
v.ispr2 := (others => '0');
if f_in.valid = '1' then
if f_in.valid = '1' then
report "Decode insn " & to_hstring(f_in.insn) & " at " & to_hstring(f_in.nia);
report "Decode insn " & to_hstring(f_in.insn) & " at " & to_hstring(f_in.nia);
end if;
end if;
br_offset := (others => '0');
majorop := unsigned(f_in.insn(31 downto 26));
majorop := unsigned(f_in.insn(31 downto 26));
if f_in.fetch_failed = '1' then
v.decode := major_decode_rom_array(to_integer(majorop));
v.valid := '1';
-- Only send down a single OP_FETCH_FAILED
if r.decode.insn_type = OP_FETCH_FAILED then
v.valid := '0';
end if;
v.decode := fetch_fail_inst;
elsif majorop = "000100" then
case to_integer(unsigned(majorop)) is
when 4 =>
-- major opcode 4, mostly VMX/VSX stuff but also some integer ops (madd*)
-- major opcode 4, mostly VMX/VSX stuff but also some integer ops (madd*)
minor4op := f_in.insn(5 downto 0) & f_in.insn(10 downto 6);
minor4op := f_in.insn(5 downto 0) & f_in.insn(10 downto 6);
if decode_op_4_valid(to_integer(unsigned(minor4op))) = '1' then
vi.override := not decode_op_4_valid(to_integer(unsigned(minor4op)));
v.decode := decode_op_4_array(to_integer(unsigned(f_in.insn(5 downto 0))));
v.decode := decode_op_4_array(to_integer(unsigned(f_in.insn(5 downto 0))));
else
v.decode := illegal_inst;
end if;
elsif majorop = "011111" then
when 31 =>
-- major opcode 31, lots of things
-- major opcode 31, lots of things
v.decode := decode_op_31_array(to_integer(unsigned(f_in.insn(10 downto 1))));
v.decode := decode_op_31_array(to_integer(unsigned(f_in.insn(10 downto 1))));
@ -474,32 +481,35 @@ begin
-- mfspr or mtspr
-- mfspr or mtspr
-- Make slow SPRs single issue
-- Make slow SPRs single issue
if is_fast_spr(v.ispr1) = '0' then
if is_fast_spr(v.ispr1) = '0' then
v.decode.sgl_pipe := '1';
vi.force_single := '1';
-- send MMU-related SPRs to loadstore1
-- send MMU-related SPRs to loadstore1
case sprn is
case sprn is
when SPR_DAR | SPR_DSISR | SPR_PID | SPR_PRTBL =>
when SPR_DAR | SPR_DSISR | SPR_PID | SPR_PRTBL =>
v.decode.unit := LDST;
vi.override_decode.unit := LDST;
vi.override_unit := '1';
when others =>
when others =>
end case;
end case;
end if;
end if;
end if;
end if;
elsif majorop = "010000" then
when 16 =>
-- CTR may be needed as input to bc
-- CTR may be needed as input to bc
v.decode := major_decode_rom_array(to_integer(majorop));
if f_in.insn(23) = '0' then
if f_in.insn(23) = '0' then
v.ispr1 := fast_spr_num(SPR_CTR);
v.ispr1 := fast_spr_num(SPR_CTR);
end if;
end if;
-- Predict backward branches as taken, forward as untaken
v.br_pred := f_in.insn(15);
br_offset := resize(signed(f_in.insn(15 downto 2)), 24);
elsif majorop = "010011" then
when 18 =>
if decode_op_19_valid(to_integer(unsigned(f_in.insn(10 downto 1)))) = '0' then
-- Unconditional branches are always taken
report "op 19 illegal subcode";
v.br_pred := '1';
v.decode := illegal_inst;
br_offset := signed(f_in.insn(25 downto 2));
else
when 19 =>
vi.override := not decode_op_19_valid(to_integer(unsigned(f_in.insn(5 downto 1) & f_in.insn(10 downto 6))));
op_19_bits := f_in.insn(5) & f_in.insn(3) & f_in.insn(2);
op_19_bits := f_in.insn(5) & f_in.insn(3) & f_in.insn(2);
v.decode := decode_op_19_array(to_integer(unsigned(op_19_bits)));
v.decode := decode_op_19_array(to_integer(unsigned(op_19_bits)));
report "op 19 sub " & to_hstring(op_19_bits);
end if;
-- Work out ispr1/ispr2 independent of v.decode since they seem to be critical path
-- Work out ispr1/ispr2 independent of v.decode since they seem to be critical path
if f_in.insn(2) = '0' then
if f_in.insn(2) = '0' then
@ -523,36 +533,39 @@ begin
v.ispr2 := fast_spr_num(SPR_SRR0);
v.ispr2 := fast_spr_num(SPR_SRR0);
end if;
end if;
elsif majorop = "011110" then
when 30 =>
v.decode := decode_op_30_array(to_integer(unsigned(f_in.insn(4 downto 1))));
v.decode := decode_op_30_array(to_integer(unsigned(f_in.insn(4 downto 1))));
elsif majorop = "111010" then
when 48 =>
-- ori, special-case the standard NOP
if std_match(f_in.insn, "01100000000000000000000000000000") then
report "PPC_nop";
vi.override := '1';
vi.override_decode := nop_instr;
end if;
when 58 =>
v.decode := decode_op_58_array(to_integer(unsigned(f_in.insn(1 downto 0))));
v.decode := decode_op_58_array(to_integer(unsigned(f_in.insn(1 downto 0))));
elsif majorop = "111110" then
when 62 =>
v.decode := decode_op_62_array(to_integer(unsigned(f_in.insn(1 downto 0))));
v.decode := decode_op_62_array(to_integer(unsigned(f_in.insn(1 downto 0))));
elsif std_match(f_in.insn, "01100000000000000000000000000000") then
when others =>
report "PPC_nop";
end case;
v.decode := nop_instr;
else
if f_in.fetch_failed = '1' then
v.decode := major_decode_rom_array(to_integer(majorop));
v.valid := '1';
vi.override := '1';
vi.override_decode := fetch_fail_inst;
-- Only send down a single OP_FETCH_FAILED
if ri.override = '1' and ri.override_decode.insn_type = OP_FETCH_FAILED then
v.valid := '0';
end if;
end if;
end if;
-- Branch predictor
-- Branch predictor
-- Note bclr, bcctr and bctar are predicted not taken as we have no
-- Note bclr, bcctr and bctar are predicted not taken as we have no
-- count cache or link stack.
-- count cache or link stack.
br_offset := (others => '0');
if majorop = 18 then
-- Unconditional branches are always taken
v.br_pred := '1';
br_offset := signed(f_in.insn(25 downto 2));
elsif majorop = 16 then
-- Predict backward branches as taken, forward as untaken
v.br_pred := f_in.insn(15);
br_offset := resize(signed(f_in.insn(15 downto 2)), 24);
end if;
br_nia := f_in.nia(63 downto 2);
br_nia := f_in.nia(63 downto 2);
if f_in.insn(1) = '1' then
if f_in.insn(1) = '1' then
br_nia := (others => '0');
br_nia := (others => '0');
@ -563,9 +576,18 @@ begin
-- Update registers
-- Update registers
rin <= v;
rin <= v;
ri_in <= vi;
-- Update outputs
-- Update outputs
d_out <= r;
d_out <= r;
if ri.override = '1' then
d_out.decode <= ri.override_decode;
elsif ri.override_unit = '1' then
d_out.decode.unit <= ri.override_decode.unit;
end if;
if ri.force_single = '1' then
d_out.decode.sgl_pipe <= '1';
end if;
f_out <= f;
f_out <= f;
flush_out <= f.redirect;
flush_out <= f.redirect;
end process;
end process;