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common.vhdl
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library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
library work;
use work.utils.all;
use work.decode_types.all;
package common is
-- Processor Version Number
constant PVR_MICROWATT : std_ulogic_vector(31 downto 0) := x"00630000";
-- MSR bit numbers
constant MSR_SF : integer := (63 - 0); -- Sixty-Four bit mode
constant MSR_EE : integer := (63 - 48); -- External interrupt Enable
constant MSR_PR : integer := (63 - 49); -- PRoblem state
constant MSR_FP : integer := (63 - 50); -- Floating Point available
constant MSR_FE0 : integer := (63 - 52); -- Floating Exception mode
constant MSR_SE : integer := (63 - 53); -- Single-step bit of TE field
constant MSR_BE : integer := (63 - 54); -- Branch trace bit of TE field
constant MSR_FE1 : integer := (63 - 55); -- Floating Exception mode
constant MSR_IR : integer := (63 - 58); -- Instruction Relocation
constant MSR_DR : integer := (63 - 59); -- Data Relocation
constant MSR_PMM : integer := (63 - 61); -- Performance Monitor Mark
constant MSR_RI : integer := (63 - 62); -- Recoverable Interrupt
constant MSR_LE : integer := (63 - 63); -- Little Endian
-- SPR numbers
subtype spr_num_t is integer range 0 to 1023;
function decode_spr_num(insn: std_ulogic_vector(31 downto 0)) return spr_num_t;
constant SPR_XER : spr_num_t := 1;
constant SPR_LR : spr_num_t := 8;
constant SPR_CTR : spr_num_t := 9;
constant SPR_TAR : spr_num_t := 815;
constant SPR_DSISR : spr_num_t := 18;
constant SPR_DAR : spr_num_t := 19;
constant SPR_TB : spr_num_t := 268;
constant SPR_TBU : spr_num_t := 269;
constant SPR_DEC : spr_num_t := 22;
constant SPR_SRR0 : spr_num_t := 26;
constant SPR_SRR1 : spr_num_t := 27;
constant SPR_CFAR : spr_num_t := 28;
constant SPR_HSRR0 : spr_num_t := 314;
constant SPR_HSRR1 : spr_num_t := 315;
constant SPR_SPRG0 : spr_num_t := 272;
constant SPR_SPRG1 : spr_num_t := 273;
constant SPR_SPRG2 : spr_num_t := 274;
constant SPR_SPRG3 : spr_num_t := 275;
constant SPR_SPRG3U : spr_num_t := 259;
constant SPR_HSPRG0 : spr_num_t := 304;
constant SPR_HSPRG1 : spr_num_t := 305;
constant SPR_PID : spr_num_t := 48;
constant SPR_PTCR : spr_num_t := 464;
constant SPR_PVR : spr_num_t := 287;
-- PMU registers
constant SPR_UPMC1 : spr_num_t := 771;
constant SPR_UPMC2 : spr_num_t := 772;
constant SPR_UPMC3 : spr_num_t := 773;
constant SPR_UPMC4 : spr_num_t := 774;
constant SPR_UPMC5 : spr_num_t := 775;
constant SPR_UPMC6 : spr_num_t := 776;
constant SPR_UMMCR0 : spr_num_t := 779;
constant SPR_UMMCR1 : spr_num_t := 782;
constant SPR_UMMCR2 : spr_num_t := 769;
constant SPR_UMMCRA : spr_num_t := 770;
constant SPR_USIER : spr_num_t := 768;
constant SPR_USIAR : spr_num_t := 780;
constant SPR_USDAR : spr_num_t := 781;
constant SPR_PMC1 : spr_num_t := 787;
constant SPR_PMC2 : spr_num_t := 788;
constant SPR_PMC3 : spr_num_t := 789;
constant SPR_PMC4 : spr_num_t := 790;
constant SPR_PMC5 : spr_num_t := 791;
constant SPR_PMC6 : spr_num_t := 792;
constant SPR_MMCR0 : spr_num_t := 795;
constant SPR_MMCR1 : spr_num_t := 798;
constant SPR_MMCR2 : spr_num_t := 785;
constant SPR_MMCRA : spr_num_t := 786;
constant SPR_SIER : spr_num_t := 784;
constant SPR_SIAR : spr_num_t := 796;
constant SPR_SDAR : spr_num_t := 797;
-- GPR indices in the register file (GPR only)
subtype gpr_index_t is std_ulogic_vector(4 downto 0);
-- Extended GPR index (can hold a GPR or a FPR)
subtype gspr_index_t is std_ulogic_vector(5 downto 0);
-- FPR indices
subtype fpr_index_t is std_ulogic_vector(4 downto 0);
-- FPRs are stored in the register file, using GSPR
-- numbers from 32 to 63.
--
-- Indices conversion functions
function gspr_to_gpr(i: gspr_index_t) return gpr_index_t;
function gpr_to_gspr(i: gpr_index_t) return gspr_index_t;
function fpr_to_gspr(f: fpr_index_t) return gspr_index_t;
-- The XER is split: the common bits (CA, OV, SO, OV32 and CA32) are
-- in the CR file as a kind of CR extension (with a separate write
-- control). The rest is stored in ctrl_t (effectively in execute1).
type xer_common_t is record
ca : std_ulogic;
ca32 : std_ulogic;
ov : std_ulogic;
ov32 : std_ulogic;
so : std_ulogic;
end record;
constant xerc_init : xer_common_t := (others => '0');
-- Some SPRs are stored in a pair of small RAMs in execute1
-- Even half:
subtype ramspr_index_range is natural range 0 to 7;
subtype ramspr_index is unsigned(2 downto 0);
constant RAMSPR_SRR0 : ramspr_index := to_unsigned(0,3);
constant RAMSPR_HSRR0 : ramspr_index := to_unsigned(1,3);
constant RAMSPR_SPRG0 : ramspr_index := to_unsigned(2,3);
constant RAMSPR_SPRG2 : ramspr_index := to_unsigned(3,3);
constant RAMSPR_HSPRG0 : ramspr_index := to_unsigned(4,3);
constant RAMSPR_LR : ramspr_index := to_unsigned(5,3); -- must equal RAMSPR_CTR
constant RAMSPR_TAR : ramspr_index := to_unsigned(6,3);
-- Odd half:
constant RAMSPR_SRR1 : ramspr_index := to_unsigned(0,3);
constant RAMSPR_HSRR1 : ramspr_index := to_unsigned(1,3);
constant RAMSPR_SPRG1 : ramspr_index := to_unsigned(2,3);
constant RAMSPR_SPRG3 : ramspr_index := to_unsigned(3,3);
constant RAMSPR_HSPRG1 : ramspr_index := to_unsigned(4,3);
constant RAMSPR_CTR : ramspr_index := to_unsigned(5,3); -- must equal RAMSPR_LR
type ram_spr_info is record
index : ramspr_index;
isodd : std_ulogic;
valid : std_ulogic;
end record;
constant ram_spr_info_init: ram_spr_info := (index => to_unsigned(0,3), others => '0');
subtype spr_selector is std_ulogic_vector(2 downto 0);
type spr_id is record
sel : spr_selector;
valid : std_ulogic;
ispmu : std_ulogic;
end record;
constant spr_id_init : spr_id := (sel => "000", others => '0');
constant SPRSEL_TB : spr_selector := 3x"0";
constant SPRSEL_TBU : spr_selector := 3x"1";
constant SPRSEL_DEC : spr_selector := 3x"2";
constant SPRSEL_PVR : spr_selector := 3x"3";
constant SPRSEL_LOGA : spr_selector := 3x"4";
constant SPRSEL_LOGD : spr_selector := 3x"5";
constant SPRSEL_CFAR : spr_selector := 3x"6";
constant SPRSEL_XER : spr_selector := 3x"7";
-- FPSCR bit numbers
constant FPSCR_FX : integer := 63 - 32;
constant FPSCR_FEX : integer := 63 - 33;
constant FPSCR_VX : integer := 63 - 34;
constant FPSCR_OX : integer := 63 - 35;
constant FPSCR_UX : integer := 63 - 36;
constant FPSCR_ZX : integer := 63 - 37;
constant FPSCR_XX : integer := 63 - 38;
constant FPSCR_VXSNAN : integer := 63 - 39;
constant FPSCR_VXISI : integer := 63 - 40;
constant FPSCR_VXIDI : integer := 63 - 41;
constant FPSCR_VXZDZ : integer := 63 - 42;
constant FPSCR_VXIMZ : integer := 63 - 43;
constant FPSCR_VXVC : integer := 63 - 44;
constant FPSCR_FR : integer := 63 - 45;
constant FPSCR_FI : integer := 63 - 46;
constant FPSCR_C : integer := 63 - 47;
constant FPSCR_FL : integer := 63 - 48;
constant FPSCR_FG : integer := 63 - 49;
constant FPSCR_FE : integer := 63 - 50;
constant FPSCR_FU : integer := 63 - 51;
constant FPSCR_VXSOFT : integer := 63 - 53;
constant FPSCR_VXSQRT : integer := 63 - 54;
constant FPSCR_VXCVI : integer := 63 - 55;
constant FPSCR_VE : integer := 63 - 56;
constant FPSCR_OE : integer := 63 - 57;
constant FPSCR_UE : integer := 63 - 58;
constant FPSCR_ZE : integer := 63 - 59;
constant FPSCR_XE : integer := 63 - 60;
constant FPSCR_NI : integer := 63 - 61;
constant FPSCR_RN : integer := 63 - 63;
-- Real addresses
-- REAL_ADDR_BITS is the number of real address bits that we store
constant REAL_ADDR_BITS : positive := 56;
subtype real_addr_t is std_ulogic_vector(REAL_ADDR_BITS - 1 downto 0);
function addr_to_real(addr: std_ulogic_vector(63 downto 0)) return real_addr_t;
-- Minimum page size
constant MIN_LG_PGSZ : positive := 12;
constant MIN_PAGESZ : positive := 2 ** MIN_LG_PGSZ;
-- Used for tracking instruction completion and pending register writes
constant TAG_COUNT : positive := 4;
constant TAG_NUMBER_BITS : natural := log2(TAG_COUNT);
subtype tag_number_t is integer range 0 to TAG_COUNT - 1;
subtype tag_index_t is unsigned(TAG_NUMBER_BITS - 1 downto 0);
type instr_tag_t is record
tag : tag_number_t;
valid : std_ulogic;
end record;
constant instr_tag_init : instr_tag_t := (tag => 0, valid => '0');
function tag_match(tag1 : instr_tag_t; tag2 : instr_tag_t) return boolean;
subtype intr_vector_t is integer range 0 to 16#fff#;
-- For now, fixed 16 sources, make this either a parametric
-- package of some sort or an unconstrainted array.
type ics_to_icp_t is record
-- Level interrupts only, ICS just keeps prsenting the
-- highest priority interrupt. Once handling edge, something
-- smarter involving handshake & reject support will be needed
src : std_ulogic_vector(3 downto 0);
pri : std_ulogic_vector(7 downto 0);
end record;
-- This needs to die...
type ctrl_t is record
tb: std_ulogic_vector(63 downto 0);
dec: std_ulogic_vector(63 downto 0);
msr: std_ulogic_vector(63 downto 0);
cfar: std_ulogic_vector(63 downto 0);
xer_low: std_ulogic_vector(17 downto 0);
end record;
constant ctrl_t_init : ctrl_t :=
(xer_low => 18x"0", others => (others => '0'));
type Fetch1ToIcacheType is record
req: std_ulogic;
fetch_fail : std_ulogic;
virt_mode : std_ulogic;
priv_mode : std_ulogic;
big_endian : std_ulogic;
stop_mark: std_ulogic;
predicted : std_ulogic;
pred_ntaken : std_ulogic;
nia: std_ulogic_vector(63 downto 0);
next_nia: std_ulogic_vector(63 downto 0);
rpn: std_ulogic_vector(REAL_ADDR_BITS - MIN_LG_PGSZ - 1 downto 0);
next_rpn: std_ulogic_vector(REAL_ADDR_BITS - MIN_LG_PGSZ - 1 downto 0);
end record;
type IcacheToDecode1Type is record
valid: std_ulogic;
stop_mark: std_ulogic;
fetch_failed: std_ulogic;
nia: std_ulogic_vector(63 downto 0);
insn: std_ulogic_vector(31 downto 0);
icode: insn_code;
big_endian: std_ulogic;
next_predicted: std_ulogic;
next_pred_ntaken: std_ulogic;
end record;
constant IcacheToDecode1Init : IcacheToDecode1Type :=
(nia => (others => '0'), insn => (others => '0'), icode => INSN_illegal, others => '0');
type IcacheEventType is record
icache_miss : std_ulogic;
itlb_miss_resolved : std_ulogic;
end record;
type Decode1ToDecode2Type is record
valid: std_ulogic;
stop_mark : std_ulogic;
nia: std_ulogic_vector(63 downto 0);
prefixed: std_ulogic;
prefix: std_ulogic_vector(25 downto 0);
illegal_suffix: std_ulogic;
misaligned_prefix: std_ulogic;
insn: std_ulogic_vector(31 downto 0);
decode: decode_rom_t;
br_pred: std_ulogic; -- Branch was predicted to be taken
big_endian: std_ulogic;
spr_info : spr_id;
ram_spr : ram_spr_info;
reg_a : gspr_index_t;
reg_b : gspr_index_t;
reg_c : gspr_index_t;
end record;
constant Decode1ToDecode2Init : Decode1ToDecode2Type :=
(valid => '0', stop_mark => '0', nia => (others => '0'),
prefixed => '0', prefix => (others => '0'), insn => (others => '0'),
illegal_suffix => '0', misaligned_prefix => '0',
decode => decode_rom_init, br_pred => '0', big_endian => '0',
spr_info => spr_id_init, ram_spr => ram_spr_info_init,
reg_a => (others => '0'), reg_b => (others => '0'), reg_c => (others => '0'));
type Decode1ToFetch1Type is record
redirect : std_ulogic;
redirect_nia : std_ulogic_vector(63 downto 0);
end record;
type Decode1ToRegisterFileType is record
reg_1_addr : gspr_index_t;
reg_2_addr : gspr_index_t;
reg_3_addr : gspr_index_t;
read_1_enable : std_ulogic;
read_2_enable : std_ulogic;
read_3_enable : std_ulogic;
end record;
type bypass_data_t is record
tag : instr_tag_t;
data : std_ulogic_vector(63 downto 0);
end record;
constant bypass_data_init : bypass_data_t := (tag => instr_tag_init, data => (others => '0'));
type cr_bypass_data_t is record
tag : instr_tag_t;
data : std_ulogic_vector(31 downto 0);
end record;
constant cr_bypass_data_init : cr_bypass_data_t := (tag => instr_tag_init, data => (others => '0'));
type Decode2ToExecute1Type is record
valid: std_ulogic;
unit : unit_t;
fac : facility_t;
insn_type: insn_type_t;
nia: std_ulogic_vector(63 downto 0);
instr_tag : instr_tag_t;
write_reg: gspr_index_t;
write_reg_enable: std_ulogic;
read_reg1: gspr_index_t;
read_reg2: gspr_index_t;
read_reg3: gspr_index_t;
read_data1: std_ulogic_vector(63 downto 0);
read_data2: std_ulogic_vector(63 downto 0);
read_data3: std_ulogic_vector(63 downto 0);
reg_valid1: std_ulogic;
reg_valid2: std_ulogic;
reg_valid3: std_ulogic;
cr: std_ulogic_vector(31 downto 0);
xerc: xer_common_t;
lr: std_ulogic;
br_abs: std_ulogic;
rc: std_ulogic;
oe: std_ulogic;
invert_a: std_ulogic;
invert_out: std_ulogic;
input_carry: carry_in_t;
output_carry: std_ulogic;
input_cr: std_ulogic;
output_cr: std_ulogic;
output_xer: std_ulogic;
is_32bit: std_ulogic;
is_signed: std_ulogic;
insn: std_ulogic_vector(31 downto 0);
data_len: std_ulogic_vector(3 downto 0);
byte_reverse : std_ulogic;
sign_extend : std_ulogic; -- do we need to sign extend?
update : std_ulogic; -- is this an update instruction?
reserve : std_ulogic; -- set for larx/stcx
br_pred : std_ulogic;
result_sel : std_ulogic_vector(2 downto 0); -- select source of result
sub_select : std_ulogic_vector(2 downto 0); -- sub-result selection
repeat : std_ulogic; -- set if instruction is cracked into two ops
second : std_ulogic; -- set if this is the second op
spr_select : spr_id;
spr_is_ram : std_ulogic;
ramspr_even_rdaddr : ramspr_index;
ramspr_odd_rdaddr : ramspr_index;
ramspr_rd_odd : std_ulogic;
ramspr_wraddr : ramspr_index;
ramspr_write_even : std_ulogic;
ramspr_write_odd : std_ulogic;
dbg_spr_access : std_ulogic;
dec_ctr : std_ulogic;
prefixed : std_ulogic;
illegal_suffix : std_ulogic;
misaligned_prefix : std_ulogic;
end record;
constant Decode2ToExecute1Init : Decode2ToExecute1Type :=
(valid => '0', unit => ALU, fac => NONE, insn_type => OP_ILLEGAL, instr_tag => instr_tag_init,
write_reg_enable => '0',
lr => '0', br_abs => '0', rc => '0', oe => '0', invert_a => '0',
invert_out => '0', input_carry => ZERO, output_carry => '0', input_cr => '0',
output_cr => '0', output_xer => '0',
is_32bit => '0', is_signed => '0', xerc => xerc_init, reserve => '0', br_pred => '0',
byte_reverse => '0', sign_extend => '0', update => '0', nia => (others => '0'),
read_data1 => (others => '0'), read_data2 => (others => '0'), read_data3 => (others => '0'),
reg_valid1 => '0', reg_valid2 => '0', reg_valid3 => '0',
cr => (others => '0'), insn => (others => '0'), data_len => (others => '0'),
result_sel => "000", sub_select => "000",
repeat => '0', second => '0', spr_select => spr_id_init,
spr_is_ram => '0',
ramspr_even_rdaddr => (others => '0'), ramspr_odd_rdaddr => (others => '0'), ramspr_rd_odd => '0',
ramspr_wraddr => (others => '0'), ramspr_write_even => '0', ramspr_write_odd => '0',
dbg_spr_access => '0',
dec_ctr => '0',
prefixed => '0', illegal_suffix => '0', misaligned_prefix => '0',
others => (others => '0'));
type MultiplyInputType is record
valid: std_ulogic;
data1: std_ulogic_vector(63 downto 0);
data2: std_ulogic_vector(63 downto 0);
addend: std_ulogic_vector(127 downto 0);
is_signed: std_ulogic;
subtract: std_ulogic; -- 0 => addend + data1 * data2, 1 => addend - data1 * data2
end record;
constant MultiplyInputInit : MultiplyInputType := (data1 => 64x"0", data2 => 64x"0",
addend => 128x"0", others => '0');
type MultiplyOutputType is record
valid: std_ulogic;
result: std_ulogic_vector(127 downto 0);
overflow : std_ulogic;
end record;
constant MultiplyOutputInit : MultiplyOutputType := (valid => '0', overflow => '0',
others => (others => '0'));
type Execute1ToDividerType is record
valid: std_ulogic;
flush: std_ulogic;
dividend: std_ulogic_vector(63 downto 0);
divisor: std_ulogic_vector(63 downto 0);
is_signed: std_ulogic;
is_32bit: std_ulogic;
is_extended: std_ulogic;
is_modulus: std_ulogic;
neg_result: std_ulogic;
end record;
constant Execute1ToDividerInit: Execute1ToDividerType := (
dividend => 64x"0", divisor => 64x"0", others => '0');
type PMUEventType is record
no_instr_avail : std_ulogic;
dispatch : std_ulogic;
ext_interrupt : std_ulogic;
instr_complete : std_ulogic;
fp_complete : std_ulogic;
ld_complete : std_ulogic;
st_complete : std_ulogic;
br_taken_complete : std_ulogic;
br_mispredict : std_ulogic;
ipref_discard : std_ulogic;
itlb_miss : std_ulogic;
itlb_miss_resolved : std_ulogic;
icache_miss : std_ulogic;
dc_miss_resolved : std_ulogic;
dc_load_miss : std_ulogic;
dc_ld_miss_resolved : std_ulogic;
dc_store_miss : std_ulogic;
dtlb_miss : std_ulogic;
dtlb_miss_resolved : std_ulogic;
ld_miss_nocache : std_ulogic;
ld_fill_nocache : std_ulogic;
end record;
constant PMUEventInit : PMUEventType := (others => '0');
type Execute1ToPMUType is record
mfspr : std_ulogic;
mtspr : std_ulogic;
spr_num : std_ulogic_vector(4 downto 0);
spr_val : std_ulogic_vector(63 downto 0);
tbbits : std_ulogic_vector(3 downto 0); -- event bits from timebase
pmm_msr : std_ulogic; -- PMM bit from MSR
pr_msr : std_ulogic; -- PR bit from MSR
run : std_ulogic;
nia : std_ulogic_vector(63 downto 0);
addr : std_ulogic_vector(63 downto 0);
addr_v : std_ulogic;
occur : PMUEventType;
end record;
type PMUToExecute1Type is record
spr_val : std_ulogic_vector(63 downto 0);
intr : std_ulogic;
end record;
type Decode2ToRegisterFileType is record
read1_enable : std_ulogic;
read2_enable : std_ulogic;
read3_enable : std_ulogic;
end record;
type RegisterFileToDecode2Type is record
read1_data : std_ulogic_vector(63 downto 0);
read2_data : std_ulogic_vector(63 downto 0);
read3_data : std_ulogic_vector(63 downto 0);
end record;
type Decode2ToCrFileType is record
read : std_ulogic;
end record;
type CrFileToDecode2Type is record
read_cr_data : std_ulogic_vector(31 downto 0);
read_xerc_data : xer_common_t;
end record;
type Execute1ToLoadstore1Type is record
valid : std_ulogic;
op : insn_type_t; -- what ld/st or m[tf]spr or TLB op to do
insn : std_ulogic_vector(31 downto 0);
instr_tag : instr_tag_t;
addr1 : std_ulogic_vector(63 downto 0);
addr2 : std_ulogic_vector(63 downto 0);
data : std_ulogic_vector(63 downto 0); -- data to write, unused for read
write_reg : gspr_index_t;
length : std_ulogic_vector(3 downto 0);
ci : std_ulogic; -- cache-inhibited load/store
byte_reverse : std_ulogic;
sign_extend : std_ulogic; -- do we need to sign extend?
update : std_ulogic; -- is this an update instruction?
xerc : xer_common_t;
reserve : std_ulogic; -- set for larx/stcx.
rc : std_ulogic; -- set for stcx.
virt_mode : std_ulogic; -- do translation through TLB
priv_mode : std_ulogic; -- privileged mode (MSR[PR] = 0)
mode_32bit : std_ulogic; -- trim addresses to 32 bits
is_32bit : std_ulogic;
prefixed : std_ulogic;
repeat : std_ulogic;
second : std_ulogic;
e2stall : std_ulogic;
msr : std_ulogic_vector(63 downto 0);
end record;
constant Execute1ToLoadstore1Init : Execute1ToLoadstore1Type :=
(valid => '0', op => OP_ILLEGAL, ci => '0', byte_reverse => '0',
sign_extend => '0', update => '0', xerc => xerc_init,
reserve => '0', rc => '0', virt_mode => '0', priv_mode => '0',
insn => (others => '0'),
instr_tag => instr_tag_init,
addr1 => (others => '0'), addr2 => (others => '0'), data => (others => '0'),
write_reg => (others => '0'),
length => (others => '0'),
mode_32bit => '0', is_32bit => '0', prefixed => '0',
repeat => '0', second => '0', e2stall => '0',
msr => (others => '0'));
type Loadstore1ToExecute1Type is record
busy : std_ulogic;
l2stall : std_ulogic;
end record;
type Loadstore1ToDcacheType is record
valid : std_ulogic;
hold : std_ulogic;
load : std_ulogic; -- is this a load
dcbz : std_ulogic;
nc : std_ulogic;
reserve : std_ulogic;
virt_mode : std_ulogic;
priv_mode : std_ulogic;
addr : std_ulogic_vector(63 downto 0);
data : std_ulogic_vector(63 downto 0); -- valid the cycle after .valid = 1
byte_sel : std_ulogic_vector(7 downto 0);
end record;
type DcacheToLoadstore1Type is record
valid : std_ulogic;
data : std_ulogic_vector(63 downto 0);
store_done : std_ulogic;
error : std_ulogic;
cache_paradox : std_ulogic;
end record;
type DcacheEventType is record
load_miss : std_ulogic;
store_miss : std_ulogic;
dcache_refill : std_ulogic;
dtlb_miss : std_ulogic;
dtlb_miss_resolved : std_ulogic;
end record;
type Loadstore1ToMmuType is record
valid : std_ulogic;
tlbie : std_ulogic;
slbia : std_ulogic;
mtspr : std_ulogic;
iside : std_ulogic;
load : std_ulogic;
priv : std_ulogic;
ric : std_ulogic_vector(1 downto 0);
sprnf : std_ulogic;
sprnt : std_ulogic;
addr : std_ulogic_vector(63 downto 0);
rs : std_ulogic_vector(63 downto 0);
end record;
type MmuToLoadstore1Type is record
done : std_ulogic;
err : std_ulogic;
invalid : std_ulogic;
badtree : std_ulogic;
segerr : std_ulogic;
perm_error : std_ulogic;
rc_error : std_ulogic;
sprval : std_ulogic_vector(63 downto 0);
end record;
type MmuToDcacheType is record
valid : std_ulogic;
tlbie : std_ulogic;
doall : std_ulogic;
tlbld : std_ulogic;
addr : std_ulogic_vector(63 downto 0);
pte : std_ulogic_vector(63 downto 0);
end record;
type DcacheToMmuType is record
stall : std_ulogic;
done : std_ulogic;
err : std_ulogic;
data : std_ulogic_vector(63 downto 0);
end record;
type MmuToITLBType is record
tlbld : std_ulogic;
tlbie : std_ulogic;
doall : std_ulogic;
addr : std_ulogic_vector(63 downto 0);
pte : std_ulogic_vector(63 downto 0);
end record;
type Loadstore1ToWritebackType is record
valid : std_ulogic;
instr_tag : instr_tag_t;
write_enable: std_ulogic;
write_reg : gspr_index_t;
write_data : std_ulogic_vector(63 downto 0);
xerc : xer_common_t;
rc : std_ulogic;
store_done : std_ulogic;
interrupt : std_ulogic;
intr_vec : intr_vector_t;
srr1: std_ulogic_vector(15 downto 0);
end record;
constant Loadstore1ToWritebackInit : Loadstore1ToWritebackType :=
(valid => '0', instr_tag => instr_tag_init, write_enable => '0',
write_reg => (others => '0'), write_data => (others => '0'),
xerc => xerc_init, rc => '0', store_done => '0',
interrupt => '0', intr_vec => 0,
srr1 => (others => '0'));
type Loadstore1EventType is record
load_complete : std_ulogic;
store_complete : std_ulogic;
itlb_miss : std_ulogic;
end record;
type Execute1ToWritebackType is record
valid: std_ulogic;
instr_tag : instr_tag_t;
rc : std_ulogic;
mode_32bit : std_ulogic;
write_enable : std_ulogic;
write_reg: gspr_index_t;
write_data: std_ulogic_vector(63 downto 0);
write_cr_enable : std_ulogic;
write_cr_mask : std_ulogic_vector(7 downto 0);
write_cr_data : std_ulogic_vector(31 downto 0);
write_xerc_enable : std_ulogic;
xerc : xer_common_t;
interrupt : std_ulogic;
intr_vec : intr_vector_t;
redirect: std_ulogic;
redir_mode: std_ulogic_vector(3 downto 0);
last_nia: std_ulogic_vector(63 downto 0);
br_last: std_ulogic;
br_taken: std_ulogic;
abs_br: std_ulogic;
srr1: std_ulogic_vector(15 downto 0);
msr: std_ulogic_vector(63 downto 0);
end record;
constant Execute1ToWritebackInit : Execute1ToWritebackType :=
(valid => '0', instr_tag => instr_tag_init, rc => '0', mode_32bit => '0',
write_enable => '0', write_cr_enable => '0',
write_xerc_enable => '0', xerc => xerc_init,
write_data => (others => '0'), write_cr_mask => (others => '0'),
write_cr_data => (others => '0'), write_reg => (others => '0'),
interrupt => '0', intr_vec => 0, redirect => '0', redir_mode => "0000",
last_nia => (others => '0'),
br_last => '0', br_taken => '0', abs_br => '0',
srr1 => (others => '0'), msr => (others => '0'));
type Execute1ToFPUType is record
valid : std_ulogic;
op : insn_type_t;
nia : std_ulogic_vector(63 downto 0);
itag : instr_tag_t;
insn : std_ulogic_vector(31 downto 0);
single : std_ulogic;
is_signed : std_ulogic;
fe_mode : std_ulogic_vector(1 downto 0);
fra : std_ulogic_vector(63 downto 0);
frb : std_ulogic_vector(63 downto 0);
frc : std_ulogic_vector(63 downto 0);
valid_a : std_ulogic;
valid_b : std_ulogic;
valid_c : std_ulogic;
frt : gspr_index_t;
rc : std_ulogic;
m32b : std_ulogic;
out_cr : std_ulogic;
oe : std_ulogic;
xerc : xer_common_t;
stall : std_ulogic;
end record;
constant Execute1ToFPUInit : Execute1ToFPUType := (valid => '0', op => OP_ILLEGAL, nia => (others => '0'),
itag => instr_tag_init,
insn => (others => '0'), fe_mode => "00", rc => '0',
fra => (others => '0'), frb => (others => '0'),
frc => (others => '0'), frt => (others => '0'),
valid_a => '0', valid_b => '0', valid_c => '0',
single => '0', is_signed => '0', out_cr => '0',
m32b => '0', oe => '0', xerc => xerc_init,
stall => '0');
type FPUToExecute1Type is record
busy : std_ulogic;
f2stall : std_ulogic;
exception : std_ulogic;
end record;
constant FPUToExecute1Init : FPUToExecute1Type := (others => '0');
type FPUToWritebackType is record
valid : std_ulogic;
interrupt : std_ulogic;
instr_tag : instr_tag_t;
write_enable : std_ulogic;
write_reg : gspr_index_t;
write_data : std_ulogic_vector(63 downto 0);
write_cr_enable : std_ulogic;
write_cr_mask : std_ulogic_vector(7 downto 0);
write_cr_data : std_ulogic_vector(31 downto 0);
write_xerc : std_ulogic;
xerc : xer_common_t;
intr_vec : intr_vector_t;
srr1 : std_ulogic_vector(15 downto 0);
end record;
constant FPUToWritebackInit : FPUToWritebackType :=
(valid => '0', interrupt => '0', instr_tag => instr_tag_init,
write_enable => '0', write_reg => (others => '0'),
write_cr_enable => '0', write_cr_mask => (others => '0'),
write_cr_data => (others => '0'),
write_xerc => '0', xerc => xerc_init,
intr_vec => 0, srr1 => (others => '0'),
others => (others => '0'));
type DividerToExecute1Type is record
valid: std_ulogic;
write_reg_data: std_ulogic_vector(63 downto 0);
overflow : std_ulogic;
end record;
constant DividerToExecute1Init : DividerToExecute1Type := (valid => '0', overflow => '0',
others => (others => '0'));
type WritebackToFetch1Type is record
redirect: std_ulogic;
virt_mode: std_ulogic;
priv_mode: std_ulogic;
big_endian: std_ulogic;
mode_32bit: std_ulogic;
redirect_nia: std_ulogic_vector(63 downto 0);
br_nia : std_ulogic_vector(63 downto 0);
br_last : std_ulogic;
br_taken : std_ulogic;
interrupt : std_ulogic;
intr_vec : std_ulogic_vector(11 downto 0);
end record;
constant WritebackToFetch1Init : WritebackToFetch1Type :=
(redirect => '0', virt_mode => '0', priv_mode => '0', big_endian => '0',
mode_32bit => '0', redirect_nia => (others => '0'),
br_last => '0', br_taken => '0', br_nia => (others => '0'),
interrupt => '0', intr_vec => x"000");
type WritebackToRegisterFileType is record
write_reg : gspr_index_t;
write_data : std_ulogic_vector(63 downto 0);
write_enable : std_ulogic;
end record;
constant WritebackToRegisterFileInit : WritebackToRegisterFileType :=
(write_enable => '0', write_data => (others => '0'), others => (others => '0'));
type WritebackToCrFileType is record
write_cr_enable : std_ulogic;
write_cr_mask : std_ulogic_vector(7 downto 0);
write_cr_data : std_ulogic_vector(31 downto 0);
write_xerc_enable : std_ulogic;
write_xerc_data : xer_common_t;
end record;
constant WritebackToCrFileInit : WritebackToCrFileType := (write_cr_enable => '0', write_xerc_enable => '0',
write_xerc_data => xerc_init,
write_cr_mask => (others => '0'),
write_cr_data => (others => '0'));
type WritebackToExecute1Type is record
intr : std_ulogic;
srr1 : std_ulogic_vector(15 downto 0);
end record;
type WritebackEventType is record
instr_complete : std_ulogic;
fp_complete : std_ulogic;
end record;
end common;
package body common is
function decode_spr_num(insn: std_ulogic_vector(31 downto 0)) return spr_num_t is
begin
return to_integer(unsigned(insn(15 downto 11) & insn(20 downto 16)));
end;
function gspr_to_gpr(i: gspr_index_t) return gpr_index_t is
begin
return i(4 downto 0);
end;
function gpr_to_gspr(i: gpr_index_t) return gspr_index_t is
begin
return "0" & i;
end;
function fpr_to_gspr(f: fpr_index_t) return gspr_index_t is
begin
return "1" & f;
end;
function tag_match(tag1 : instr_tag_t; tag2 : instr_tag_t) return boolean is
begin
return tag1.valid = '1' and tag2.valid = '1' and tag1.tag = tag2.tag;
end;
function addr_to_real(addr: std_ulogic_vector(63 downto 0)) return real_addr_t is
begin
return addr(real_addr_t'range);
end;
end common;