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c6845a4c8d634510154686ea2af3c64e68fc9a84
kernels/hw/rtl/core/VX_gather_unit.sv
Blaise Tine c1e168fdbe Vortex 2.0 changes: 
+ Microarchitecture optimizations
+ 64-bit support
+ Xilinx FPGA support
+ LLVM-16 support
+ Refactoring and quality control fixes

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cleanup

cleanup

cache bindings and memory perf refactory

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hw unit tests fixes

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minor udpate

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2023-11-10 02:47:05 -08:00

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Systemverilog
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// Copyright © 2019-2023
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
`include "VX_define.vh"
module VX_gather_unit import VX_gpu_pkg::*; #(
parameter BLOCK_SIZE = 1,
parameter NUM_LANES = 1,
parameter OUT_REG = 0
) (
input wire clk,
input wire reset,
// inputs
VX_commit_if.slave commit_in_if [BLOCK_SIZE],
// outputs
VX_commit_if.master commit_out_if [`ISSUE_WIDTH]
);
localparam BLOCK_SIZE_W = `LOG2UP(BLOCK_SIZE);
localparam PID_BITS = `CLOG2(`NUM_THREADS / NUM_LANES);
localparam PID_WIDTH = `UP(PID_BITS);
localparam DATAW = `UUID_WIDTH + `NW_WIDTH + NUM_LANES + `XLEN + 1 + `NR_BITS + NUM_LANES * `XLEN + PID_WIDTH + 1 + 1;
localparam DATA_WIS_OFF = DATAW - (`UUID_WIDTH + `NW_WIDTH);
wire [BLOCK_SIZE-1:0] commit_in_valid;
wire [BLOCK_SIZE-1:0][DATAW-1:0] commit_in_data;
wire [BLOCK_SIZE-1:0] commit_in_ready;
wire [BLOCK_SIZE-1:0][ISSUE_IDX_W-1:0] commit_in_wsi;
for (genvar i = 0; i < BLOCK_SIZE; ++i) begin
assign commit_in_valid[i] = commit_in_if[i].valid;
assign commit_in_data[i] = commit_in_if[i].data;
assign commit_in_if[i].ready = commit_in_ready[i];
if (BLOCK_SIZE != `ISSUE_WIDTH) begin
if (BLOCK_SIZE != 1) begin
assign commit_in_wsi[i] = {commit_in_data[i][DATA_WIS_OFF+BLOCK_SIZE_W +: (ISSUE_IDX_W-BLOCK_SIZE_W)], BLOCK_SIZE_W'(i)};
end else begin
assign commit_in_wsi[i] = commit_in_data[i][DATA_WIS_OFF +: ISSUE_IDX_W];
end
end else begin
assign commit_in_wsi[i] = BLOCK_SIZE_W'(i);
end
end
reg [`ISSUE_WIDTH-1:0] commit_out_valid;
reg [`ISSUE_WIDTH-1:0][DATAW-1:0] commit_out_data;
wire [`ISSUE_WIDTH-1:0] commit_out_ready;
always @(*) begin
commit_out_valid = '0;
for (integer i = 0; i < `ISSUE_WIDTH; ++i) begin
commit_out_data[i] = 'x;
end
for (integer i = 0; i < BLOCK_SIZE; ++i) begin
commit_out_valid[commit_in_wsi[i]] = commit_in_valid[i];
commit_out_data[commit_in_wsi[i]] = commit_in_data[i];
end
end
for (genvar i = 0; i < BLOCK_SIZE; ++i) begin
assign commit_in_ready[i] = commit_out_ready[commit_in_wsi[i]];
end
for (genvar i = 0; i < `ISSUE_WIDTH; ++i) begin
VX_commit_if #(
.NUM_LANES (NUM_LANES)
) commit_tmp_if();
`RESET_RELAY(commit_out_reset, reset);
VX_elastic_buffer #(
.DATAW (DATAW),
.SIZE (`OUT_REG_TO_EB_SIZE(OUT_REG)),
.OUT_REG (`OUT_REG_TO_EB_REG(OUT_REG))
) out_buf (
.clk (clk),
.reset (commit_out_reset),
.valid_in (commit_out_valid[i]),
.ready_in (commit_out_ready[i]),
.data_in (commit_out_data[i]),
.data_out (commit_tmp_if.data),
.valid_out (commit_tmp_if.valid),
.ready_out (commit_tmp_if.ready)
);
logic [`NUM_THREADS-1:0] commit_tmask_r;
logic [`NUM_THREADS-1:0][`XLEN-1:0] commit_data_r;
if (PID_BITS != 0) begin
always @(*) begin
commit_tmask_r = '0;
commit_data_r = 'x;
for (integer j = 0; j < NUM_LANES; ++j) begin
commit_tmask_r[commit_tmp_if.data.pid * NUM_LANES + j] = commit_tmp_if.data.tmask[j];
commit_data_r[commit_tmp_if.data.pid * NUM_LANES + j] = commit_tmp_if.data.data[j];
end
end
end else begin
assign commit_tmask_r = commit_tmp_if.data.tmask;
assign commit_data_r = commit_tmp_if.data.data;
end
assign commit_out_if[i].valid = commit_tmp_if.valid;
assign commit_out_if[i].data = {
commit_tmp_if.data.uuid,
commit_tmp_if.data.wid,
commit_tmask_r,
commit_tmp_if.data.PC,
commit_tmp_if.data.wb,
commit_tmp_if.data.rd,
commit_data_r,
1'b0, // PID
commit_tmp_if.data.sop,
commit_tmp_if.data.eop
};
assign commit_tmp_if.ready = commit_out_if[i].ready;
end
endmodule
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