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snooping response handling fix

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This commit is contained in:
Blaise Tine
2020-05-14 11:01:41 -04:00
parent ff140b6811
commit bcb9514799
20 changed files with 166 additions and 126 deletions
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131
hw/rtl/cache/VX_bank.v vendored
View File

@@ -1,6 +1,8 @@
`include "VX_cache_config.vh"
`include "VX_define.vh"
module VX_bank #(
parameter CACHE_ID = 0,
parameter BANK_ID = 0,
// Size of cache in bytes
parameter CACHE_SIZE = 0,
// Size of line inside a bank in bytes
@@ -57,8 +59,8 @@ module VX_bank #(
// Snooping request tag width
parameter SNP_REQ_TAG_WIDTH = 0
) (
input wire clk,
input wire reset,
input wire clk,
input wire reset,
// Core Request
input wire [NUM_REQUESTS-1:0] core_req_valids,
@@ -205,7 +207,7 @@ module VX_bank #(
wire [`LINE_ADDR_WIDTH-1:0] mrvq_addr_st0;
wire [`BASE_ADDR_BITS-1:0] mrvq_wsel_st0;
wire [`WORD_WIDTH-1:0] mrvq_writeword_st0;
wire [CORE_TAG_WIDTH-1:0] mrvq_tag_st0;
wire [`REQ_TAG_WIDTH-1:0] mrvq_tag_st0;
wire [`BYTE_EN_BITS-1:0] mrvq_mem_read_st0;
wire [`BYTE_EN_BITS-1:0] mrvq_mem_write_st0;
wire mrvq_is_snp_st0;
@@ -224,7 +226,7 @@ module VX_bank #(
wire[`BASE_ADDR_BITS-1:0] miss_add_wsel;
wire[`WORD_WIDTH-1:0] miss_add_data;
wire[`REQS_BITS-1:0] miss_add_tid;
wire[CORE_TAG_WIDTH-1:0] miss_add_tag;
wire[`REQ_TAG_WIDTH-1:0] miss_add_tag;
wire[`BYTE_EN_BITS-1:0] miss_add_mem_read;
wire[`BYTE_EN_BITS-1:0] miss_add_mem_write;
@@ -247,10 +249,6 @@ module VX_bank #(
is_fill_in_pipe = 1;
end
end
// if (is_fill_st2) begin
// is_fill_in_pipe = 1;
// end
end
assign mrvq_pop = mrvq_valid_st0 && !stall_bank_pipe;
@@ -270,24 +268,23 @@ module VX_bank #(
wire qual_going_to_write_st0;
wire qual_is_snp_st0;
wire valid_st1 [STAGE_1_CYCLES-1:0];
wire [`LINE_ADDR_WIDTH-1:0] addr_st1 [STAGE_1_CYCLES-1:0];
wire [`WORD_SELECT_ADDR_END:0] wsel_st1 [STAGE_1_CYCLES-1:0];
wire [`WORD_WIDTH-1:0] writeword_st1 [STAGE_1_CYCLES-1:0];
wire [`REQ_INST_META_WIDTH-1:0] inst_meta_st1 [STAGE_1_CYCLES-1:0];
wire [`BANK_LINE_WIDTH-1:0] writedata_st1 [STAGE_1_CYCLES-1:0];
wire [SNP_REQ_TAG_WIDTH-1:0] snrq_tag_st1 [STAGE_1_CYCLES-1:0];
wire is_snp_st1 [STAGE_1_CYCLES-1:0];
wire from_mrvq_st1 [STAGE_1_CYCLES-1:0];
wire valid_st1 [STAGE_1_CYCLES-1:0];
wire [`LINE_ADDR_WIDTH-1:0] addr_st1 [STAGE_1_CYCLES-1:0];
wire [`WORD_SELECT_ADDR_END:0] wsel_st1 [STAGE_1_CYCLES-1:0];
wire [`WORD_WIDTH-1:0] writeword_st1 [STAGE_1_CYCLES-1:0];
wire [`REQ_INST_META_WIDTH-1:0] inst_meta_st1 [STAGE_1_CYCLES-1:0];
wire [`BANK_LINE_WIDTH-1:0] writedata_st1 [STAGE_1_CYCLES-1:0];
wire is_snp_st1 [STAGE_1_CYCLES-1:0];
wire from_mrvq_st1 [STAGE_1_CYCLES-1:0];
assign qual_is_fill_st0 = dfpq_pop;
assign qual_valid_st0 = dfpq_pop || mrvq_pop || reqq_pop || snrq_pop;
assign qual_addr_st0 = dfpq_pop ? dfpq_addr_st0 :
mrvq_pop ? mrvq_addr_st0 :
assign qual_addr_st0 = dfpq_pop ? dfpq_addr_st0 :
mrvq_pop ? mrvq_addr_st0 :
reqq_pop ? reqq_req_addr_st0[31:`LINE_SELECT_ADDR_START] :
snrq_pop ? snrq_addr_st0 :
snrq_pop ? snrq_addr_st0 :
0;
assign qual_wsel_st0 = reqq_pop ? reqq_req_addr_st0[`BASE_ADDR_BITS-1:0] :
@@ -296,48 +293,48 @@ module VX_bank #(
assign qual_writedata_st0 = dfpq_pop ? dfpq_filldata_st0 : 57;
assign qual_inst_meta_st0 = mrvq_pop ? {mrvq_tag_st0 , mrvq_mem_read_st0, mrvq_mem_write_st0, mrvq_tid_st0} :
reqq_pop ? {reqq_req_tag_st0, reqq_req_mem_read_st0, reqq_req_mem_write_st0, reqq_req_tid_st0} :
assign qual_inst_meta_st0 = mrvq_pop ? {`REQ_TAG_WIDTH'(mrvq_tag_st0) , mrvq_mem_read_st0, mrvq_mem_write_st0, mrvq_tid_st0} :
reqq_pop ? {`REQ_TAG_WIDTH'(reqq_req_tag_st0), reqq_req_mem_read_st0, reqq_req_mem_write_st0, reqq_req_tid_st0} :
snrq_pop ? {`REQ_TAG_WIDTH'(snrq_tag_st0), `BYTE_EN_BITS'(0), `BYTE_EN_BITS'(0), `REQS_BITS'(0)} :
0;
assign qual_going_to_write_st0 = dfpq_pop ? 1 :
(mrvq_pop && (mrvq_mem_write_st0 != `BYTE_EN_NO)) ? 1 :
(reqq_pop && (reqq_req_mem_write_st0 != `BYTE_EN_NO)) ? 1 :
(snrq_pop) ? 1 :
0;
0;
assign qual_is_snp_st0 = mrvq_pop ? mrvq_is_snp_st0 :
snrq_pop ? 1 :
0;
0;
assign qual_writeword_st0 = mrvq_pop ? mrvq_writeword_st0 :
reqq_pop ? reqq_req_writeword_st0 :
0;
0;
assign qual_from_mrvq_st0 = mrvq_pop;
VX_generic_register #(
.N(1+ 1 + 1 + 1 + `LINE_ADDR_WIDTH + `BASE_ADDR_BITS + `WORD_WIDTH + `REQ_INST_META_WIDTH + 1 + `BANK_LINE_WIDTH + SNP_REQ_TAG_WIDTH)
.N(1 + 1 + 1 + 1 + `LINE_ADDR_WIDTH + `BASE_ADDR_BITS + `WORD_WIDTH + `REQ_INST_META_WIDTH + 1 + `BANK_LINE_WIDTH)
) s0_1_c0 (
.clk (clk),
.reset (reset),
.stall (stall_bank_pipe),
.flush (0),
.in ({qual_from_mrvq_st0, qual_is_snp_st0, snrq_tag_st0, qual_going_to_write_st0, qual_valid_st0, qual_addr_st0, qual_wsel_st0, qual_writeword_st0, qual_inst_meta_st0, qual_is_fill_st0, qual_writedata_st0}),
.out ({from_mrvq_st1[0] , is_snp_st1[0], snrq_tag_st1[0], going_to_write_st1[0], valid_st1[0], addr_st1[0], wsel_st1[0], writeword_st1[0], inst_meta_st1[0], is_fill_st1[0], writedata_st1[0]})
.in ({qual_from_mrvq_st0, qual_is_snp_st0, qual_going_to_write_st0, qual_valid_st0, qual_addr_st0, qual_wsel_st0, qual_writeword_st0, qual_inst_meta_st0, qual_is_fill_st0, qual_writedata_st0}),
.out ({from_mrvq_st1[0] , is_snp_st1[0], going_to_write_st1[0], valid_st1[0], addr_st1[0], wsel_st1[0], writeword_st1[0], inst_meta_st1[0], is_fill_st1[0], writedata_st1[0]})
);
genvar i;
for (i = 1; i < STAGE_1_CYCLES; i++) begin
VX_generic_register #(
.N(1+ 1 + 1 + 1 + `LINE_ADDR_WIDTH + `BASE_ADDR_BITS + `WORD_WIDTH + `REQ_INST_META_WIDTH + 1 + `BANK_LINE_WIDTH + SNP_REQ_TAG_WIDTH)
.N(1 + 1 + 1 + 1 + `LINE_ADDR_WIDTH + `BASE_ADDR_BITS + `WORD_WIDTH + `REQ_INST_META_WIDTH + 1 + `BANK_LINE_WIDTH)
) s0_1_cc (
.clk (clk),
.reset(reset),
.stall(stall_bank_pipe),
.flush(0),
.in ({from_mrvq_st1[i-1], is_snp_st1[i-1], snrq_tag_st1[i-1], going_to_write_st1[i-1], valid_st1[i-1], addr_st1[i-1], wsel_st1[i-1], writeword_st1[i-1], inst_meta_st1[i-1], is_fill_st1[i-1], writedata_st1[i-1]}),
.out ({from_mrvq_st1[i] , is_snp_st1[i], snrq_tag_st1[i], going_to_write_st1[i], valid_st1[i], addr_st1[i], wsel_st1[i], writeword_st1[i], inst_meta_st1[i], is_fill_st1[i], writedata_st1[i]})
.in ({from_mrvq_st1[i-1], is_snp_st1[i-1], going_to_write_st1[i-1], valid_st1[i-1], addr_st1[i-1], wsel_st1[i-1], writeword_st1[i-1], inst_meta_st1[i-1], is_fill_st1[i-1], writedata_st1[i-1]}),
.out ({from_mrvq_st1[i] , is_snp_st1[i], going_to_write_st1[i], valid_st1[i], addr_st1[i], wsel_st1[i], writeword_st1[i], inst_meta_st1[i], is_fill_st1[i], writedata_st1[i]})
);
end
@@ -347,7 +344,7 @@ module VX_bank #(
wire miss_st1e;
wire dirty_st1e;
`DEBUG_BEGIN
wire [CORE_TAG_WIDTH-1:0] tag_st1e;
wire [`REQ_TAG_WIDTH-1:0] tag_st1e;
wire [`REQS_BITS-1:0] tid_st1e;
`DEBUG_END
wire [`BYTE_EN_BITS-1:0] mem_read_st1e;
@@ -358,6 +355,7 @@ module VX_bank #(
wire mrvq_init_ready_state_st1e;
assign is_snp_st1e = is_snp_st1[STAGE_1_CYCLES-1];
assign {tag_st1e, mem_read_st1e, mem_write_st1e, tid_st1e} = inst_meta_st1[STAGE_1_CYCLES-1];
assign st2_pending_hazard_st1e = (miss_add_because_miss) && ((addr_st2 == addr_st1[STAGE_1_CYCLES-1]) && !is_fill_st2);
@@ -419,32 +417,32 @@ module VX_bank #(
wire [`REQ_INST_META_WIDTH-1:0] inst_meta_st2;
wire [`TAG_SELECT_BITS-1:0] readtag_st2;
wire fill_saw_dirty_st2;
wire [SNP_REQ_TAG_WIDTH-1:0] snrq_tag_st2;
wire is_snp_st2;
wire snp_to_mrvq_st2;
wire mrvq_init_ready_state_st2;
VX_generic_register #(
.N(1+1+ 1 + 1 + 1 + 1 + `LINE_ADDR_WIDTH + `BASE_ADDR_BITS + `WORD_WIDTH + `WORD_WIDTH + `BANK_LINE_WIDTH + `TAG_SELECT_BITS + 1 + 1 + `REQ_INST_META_WIDTH + SNP_REQ_TAG_WIDTH)
.N(1 + 1 + 1 + 1 + 1 + 1 + `LINE_ADDR_WIDTH + `BASE_ADDR_BITS + `WORD_WIDTH + `WORD_WIDTH + `BANK_LINE_WIDTH + `TAG_SELECT_BITS + 1 + 1 + `REQ_INST_META_WIDTH)
) st_1e_2 (
.clk (clk),
.reset(reset),
.stall(stall_bank_pipe),
.flush(0),
.in ({mrvq_init_ready_state_st1e, snp_to_mrvq_st1e, is_snp_st1e, snrq_tag_st1[STAGE_1_CYCLES-1], fill_saw_dirty_st1e, is_fill_st1[STAGE_1_CYCLES-1] , qual_valid_st1e_2, addr_st1[STAGE_1_CYCLES-1], wsel_st1[STAGE_1_CYCLES-1], writeword_st1[STAGE_1_CYCLES-1], readword_st1e, readdata_st1e, readtag_st1e, miss_st1e, dirty_st1e, inst_meta_st1[STAGE_1_CYCLES-1]}),
.out ({mrvq_init_ready_state_st2, snp_to_mrvq_st2 , is_snp_st2 , snrq_tag_st2, fill_saw_dirty_st2 , is_fill_st2 , valid_st2 , addr_st2 , wsel_st2, writeword_st2 , readword_st2 , readdata_st2 , readtag_st2 , miss_st2 , dirty_st2 , inst_meta_st2 })
.in ({mrvq_init_ready_state_st1e, snp_to_mrvq_st1e, is_snp_st1e, fill_saw_dirty_st1e, is_fill_st1[STAGE_1_CYCLES-1] , qual_valid_st1e_2, addr_st1[STAGE_1_CYCLES-1], wsel_st1[STAGE_1_CYCLES-1], writeword_st1[STAGE_1_CYCLES-1], readword_st1e, readdata_st1e, readtag_st1e, miss_st1e, dirty_st1e, inst_meta_st1[STAGE_1_CYCLES-1]}),
.out ({mrvq_init_ready_state_st2, snp_to_mrvq_st2 , is_snp_st2 , fill_saw_dirty_st2 , is_fill_st2 , valid_st2 , addr_st2 , wsel_st2, writeword_st2 , readword_st2 , readdata_st2 , readtag_st2 , miss_st2 , dirty_st2 , inst_meta_st2 })
);
wire dram_fill_req_stall = (valid_st2 && miss_st2 && !invalidate_fill && ~dram_fill_req_ready);
wire cwbq_full;
wire dwbq_push;
wire dwbq_pop;
wire dwbq_empty;
wire dwbq_full;
wire srpq_full;
wire invalidate_fill;
wire cwbq_full;
wire srpq_full;
wire invalidate_fill;
wire miss_add_is_snp;
// Enqueue to miss reserv if it's a valid miss
@@ -471,10 +469,12 @@ module VX_bank #(
.WORD_SIZE (WORD_SIZE),
.NUM_REQUESTS (NUM_REQUESTS),
.MRVQ_SIZE (MRVQ_SIZE),
.CORE_TAG_WIDTH (CORE_TAG_WIDTH)
.CORE_TAG_WIDTH (CORE_TAG_WIDTH),
.SNP_REQ_TAG_WIDTH (SNP_REQ_TAG_WIDTH)
) cache_miss_resrv (
.clk (clk),
.reset (reset),
// Enqueue
.miss_add (miss_add),
.miss_add_addr (miss_add_addr),
@@ -493,8 +493,6 @@ module VX_bank #(
.is_fill_st1 (is_fill_st1[STAGE_1_CYCLES-1]),
.fill_addr_st1 (addr_st1[STAGE_1_CYCLES-1]),
.pending_hazard (mrvq_pending_hazard_st1e),
// .is_fill_st1 (is_fill_st2),
// .fill_addr_st1 (addr_st2),
// Dequeue
.miss_resrv_pop (mrvq_pop),
@@ -509,8 +507,8 @@ module VX_bank #(
.miss_resrv_is_snp_st0 (mrvq_is_snp_st0)
);
wire cwbq_push_unqual = valid_st2 && !miss_st2 && !is_fill_st2 && !is_snp_st2;
// Enqueue to CWB Queue
wire cwbq_push_unqual = valid_st2 && !miss_st2 && !is_fill_st2 && !is_snp_st2;
wire cwbq_push = cwbq_push_unqual
&& !cwbq_full
&& (miss_add_mem_write == `BYTE_EN_NO)
@@ -521,7 +519,7 @@ module VX_bank #(
wire [`WORD_WIDTH-1:0] cwbq_data = readword_st2;
wire [`REQS_BITS-1:0] cwbq_tid = miss_add_tid;
wire [CORE_TAG_WIDTH-1:0] cwbq_tag = miss_add_tag;
wire [CORE_TAG_WIDTH-1:0] cwbq_tag = CORE_TAG_WIDTH'(miss_add_tag);
wire cwbq_empty;
wire cwbq_pop;
@@ -545,8 +543,8 @@ module VX_bank #(
.full (cwbq_full)
);
wire dwbq_push_unqual = ((valid_st2 && miss_st2 && dirty_st2) || fill_saw_dirty_st2);
// Enqueue to DWB Queue
wire dwbq_push_unqual = ((valid_st2 && miss_st2 && dirty_st2) || fill_saw_dirty_st2);
assign dwbq_push = dwbq_push_unqual
&& !dwbq_full
&& !((snp_rsp_push_unqual && srpq_full)
@@ -579,6 +577,8 @@ module VX_bank #(
assign dram_wb_req_valid = !dwbq_empty;
assign dwbq_pop = dram_wb_req_valid && dram_wb_req_ready;
VX_generic_queue #(
.DATAW(`LINE_ADDR_WIDTH + `BANK_LINE_WIDTH),
.SIZE(DWBQ_SIZE)
@@ -589,25 +589,30 @@ module VX_bank #(
.push (dwbq_push),
.data_in ({dwbq_req_addr, dwbq_req_data}),
.pop (dram_wb_req_ready),
.pop (dwbq_pop),
.data_out({dram_wb_req_addr, dram_wb_req_data}),
.empty (dwbq_empty),
.full (dwbq_full)
);
wire snp_rsp_push;
wire srpq_push;
wire srpq_pop;
wire srpq_empty;
wire snp_rsp_push_unqual = is_snp_st2 && valid_st2 && !snp_to_mrvq_st2;
assign snp_rsp_push = snp_rsp_push_unqual
&& !srpq_full
&& !((cwbq_push_unqual && cwbq_full)
|| (dwbq_push_unqual && dwbq_full)
|| (miss_add_unqual && mrvq_full)
|| dram_fill_req_stall);
assign snp_rsp_valid = !srpq_empty;
wire [SNP_REQ_TAG_WIDTH-1:0] snrq_tag_st2 = SNP_REQ_TAG_WIDTH'(miss_add_tag);
assign srpq_push = snp_rsp_push_unqual
&& !srpq_full
&& !((cwbq_push_unqual && cwbq_full)
|| (dwbq_push_unqual && dwbq_full)
|| (miss_add_unqual && mrvq_full)
|| dram_fill_req_stall);
assign srpq_pop = snp_rsp_valid && snp_rsp_ready;
assign snp_rsp_valid = !srpq_empty;
VX_generic_queue #(
.DATAW(SNP_REQ_TAG_WIDTH),
@@ -615,9 +620,9 @@ module VX_bank #(
) snp_rsp_queue (
.clk (clk),
.reset (reset),
.push (snp_rsp_push),
.push (srpq_push),
.data_in (snrq_tag_st2),
.pop (snp_rsp_ready),
.pop (srpq_pop),
.data_out(snp_rsp_tag),
.empty (srpq_empty),
.full (srpq_full)
@@ -629,4 +634,10 @@ module VX_bank #(
|| (miss_add_unqual && mrvq_full)
|| dram_fill_req_stall;
/*always_comb begin
if (1'($time & 1) && snp_rsp_push) begin
$display("*** %t: bank%01d:%01d snp rsp in: addr=%0h, tag=%0h", $time, CACHE_ID, BANK_ID, addr_st2, snrq_tag_st2);
end
end*/
endmodule : VX_bank

11
hw/rtl/cache/VX_cache.v vendored
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@@ -1,6 +1,7 @@
`include "VX_cache_config.vh"
module VX_cache #(
parameter CACHE_ID = 0,
// Size of cache in bytes
parameter CACHE_SIZE = 1024,
// Size of line inside a bank in bytes
@@ -305,7 +306,9 @@ module VX_cache #(
assign per_bank_snp_rsp_tag[i] = curr_bank_snp_rsp_tag;
assign curr_bank_snp_rsp_ready = per_bank_snp_rsp_ready[i];
VX_bank #(
VX_bank #(
.BANK_ID (i),
.CACHE_ID (CACHE_ID),
.CACHE_SIZE (CACHE_SIZE),
.BANK_LINE_SIZE (BANK_LINE_SIZE),
.NUM_BANKS (NUM_BANKS),
@@ -432,5 +435,11 @@ module VX_cache #(
.snp_rsp_tag (snp_rsp_tag),
.snp_rsp_ready (snp_rsp_ready)
);
/*always_comb begin
if (1'($time & 1) && snp_rsp_valid && snp_rsp_ready) begin
$display("*** %t: cache%01d snp rsp tag=%0h", $time, CACHE_ID, snp_rsp_tag);
end
end*/
endmodule

8
hw/rtl/cache/VX_cache_config.vh vendored
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@@ -3,11 +3,13 @@
`include "VX_define.vh"
// data tid tag read write base addr is_snp
`define MRVQ_METADATA_WIDTH (`WORD_WIDTH + `REQS_BITS + CORE_TAG_WIDTH + `BYTE_EN_BITS + `BYTE_EN_BITS + `BASE_ADDR_BITS + 1)
`define REQ_TAG_WIDTH `MAX(CORE_TAG_WIDTH, SNP_REQ_TAG_WIDTH)
// data tid tag read write base addr is_snp
`define MRVQ_METADATA_WIDTH (`WORD_WIDTH + `REQS_BITS + `REQ_TAG_WIDTH + `BYTE_EN_BITS + `BYTE_EN_BITS + `BASE_ADDR_BITS + 1)
// tag read write reqs
`define REQ_INST_META_WIDTH (CORE_TAG_WIDTH + `BYTE_EN_BITS + `BYTE_EN_BITS + `REQS_BITS)
`define REQ_INST_META_WIDTH (`REQ_TAG_WIDTH + `BYTE_EN_BITS + `BYTE_EN_BITS + `REQS_BITS)
`define REQS_BITS `LOG2UP(NUM_REQUESTS)

10
hw/rtl/cache/VX_cache_miss_resrv.v vendored
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@@ -11,8 +11,10 @@ module VX_cache_miss_resrv #(
parameter NUM_REQUESTS = 0,
// Miss Reserv Queue Knob
parameter MRVQ_SIZE = 0,
// caceh requests tag size
parameter CORE_TAG_WIDTH = 0
// core request tag size
parameter CORE_TAG_WIDTH = 0,
// Snooping request tag width
parameter SNP_REQ_TAG_WIDTH = 0
) (
input wire clk,
input wire reset,
@@ -23,7 +25,7 @@ module VX_cache_miss_resrv #(
input wire[`BASE_ADDR_BITS-1:0] miss_add_wsel,
input wire[`WORD_WIDTH-1:0] miss_add_data,
input wire[`REQS_BITS-1:0] miss_add_tid,
input wire[CORE_TAG_WIDTH-1:0] miss_add_tag,
input wire[`REQ_TAG_WIDTH-1:0] miss_add_tag,
input wire[`BYTE_EN_BITS-1:0] miss_add_mem_read,
input wire[`BYTE_EN_BITS-1:0] miss_add_mem_write,
input wire mrvq_init_ready_state,
@@ -44,7 +46,7 @@ module VX_cache_miss_resrv #(
output wire[`BASE_ADDR_BITS-1:0] miss_resrv_wsel_st0,
output wire[`WORD_WIDTH-1:0] miss_resrv_data_st0,
output wire[`REQS_BITS-1:0] miss_resrv_tid_st0,
output wire[CORE_TAG_WIDTH-1:0] miss_resrv_tag_st0,
output wire[`REQ_TAG_WIDTH-1:0] miss_resrv_tag_st0,
output wire[`BYTE_EN_BITS-1:0] miss_resrv_mem_read_st0,
output wire[`BYTE_EN_BITS-1:0] miss_resrv_mem_write_st0,
output wire miss_resrv_is_snp_st0

8
hw/rtl/cache/VX_fill_invalidator.v vendored
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@@ -20,7 +20,7 @@ module VX_fill_invalidator #(
);
if (FILL_INVALIDAOR_SIZE == 0) begin
assign invalidate_fill = 0;
end else begin
@@ -34,7 +34,8 @@ module VX_fill_invalidator #(
integer i;
always @(*) begin
for (i = 0; i < FILL_INVALIDAOR_SIZE; i+=1) begin
matched_fill[i] = fills_active[i] && (fills_address[i] == fill_addr);
matched_fill[i] = fills_active[i]
&& ((fills_address[i] == fill_addr) === 1); // use "case equality" to handle uninitialized entry
end
end
@@ -55,8 +56,7 @@ module VX_fill_invalidator #(
always @(posedge clk) begin
if (reset) begin
fills_active <= 0;
fills_address <= 0;
fills_active <= 0;
end else begin
if (possible_fill && !matched && enqueue_found) begin
fills_active [enqueue_index] <= 1;

12
hw/rtl/cache/VX_snp_forwarder.v vendored
View File

@@ -112,18 +112,18 @@ module VX_snp_forwarder #(
assign snp_fwdin_ready[i] = fwdin_ready && (fwdin_sel == `REQS_BITS'(i));
end
/*always_comb begin
/*9always_comb begin
if (1'($time & 1) && snp_req_valid && snp_req_ready) begin
$display("*** %t: ", $time);
$display("*** %t: snp req: addr=%0h, tag=%0h", $time, snp_req_addr, snp_req_tag);
end
if (1'($time & 1) && snp_fwdout_valid && snp_fwdout_ready) begin
$display("*** %t: ", $time);
if (1'($time & 1) && snp_fwdout_valid[0] && snp_fwdout_ready[0]) begin
$display("*** %t: snp fwd_out: addr=%0h, tag=%0h", $time, snp_fwdout_addr[0], snp_fwdout_tag[0]);
end
if (1'($time & 1) && fwdin_valid && fwdin_ready) begin
$display("*** %t: ", $time);
$display("*** %t: snp fwd_in[%01d]: tag=%0h", $time, fwdin_sel, fwdin_tag);
end
if (1'($time & 1) && snp_rsp_valid && snp_rsp_ready) begin
$display("*** %t: ", $time);
$display("*** %t: snp rsp: addr=%0h, tag=%0h", $time, snp_rsp_addr, snp_rsp_tag);
end
end*/