227 lines
8.5 KiB
Verilog
227 lines
8.5 KiB
Verilog
`include "VX_tex_define.vh"
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module VX_tex_unit #(
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parameter CORE_ID = 0
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) (
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input wire clk,
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input wire reset,
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// Texture unit <-> Memory Unit
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VX_dcache_core_req_if dcache_req_if,
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VX_dcache_core_rsp_if dcache_rsp_if,
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// Inputs
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VX_tex_req_if tex_req_if,
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VX_tex_csr_if tex_csr_if,
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// Outputs
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VX_tex_rsp_if tex_rsp_if
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);
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localparam REQ_INFO_WIDTH_A = `TEX_FORMAT_BITS + `NR_BITS + 1;
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localparam REQ_INFO_WIDTH_M = (2 * `NUM_THREADS * `FIXED_FRAC) + REQ_INFO_WIDTH_A;
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`UNUSED_PARAM (CORE_ID)
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`UNUSED_VAR (reset)
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reg [`TEX_ADDR_BITS-1:0] tex_addr [`NUM_TEX_UNITS-1: 0];
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reg [`TEX_FORMAT_BITS-1:0] tex_format [`NUM_TEX_UNITS-1: 0];
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reg [`TEX_WIDTH_BITS-1:0] tex_width [`NUM_TEX_UNITS-1: 0];
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reg [`TEX_HEIGHT_BITS-1:0] tex_height [`NUM_TEX_UNITS-1: 0];
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reg [`TEX_STRIDE_BITS-1:0] tex_stride [`NUM_TEX_UNITS-1: 0];
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reg [`TEX_WRAP_BITS-1:0] tex_wrap_u [`NUM_TEX_UNITS-1: 0];
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reg [`TEX_WRAP_BITS-1:0] tex_wrap_v [`NUM_TEX_UNITS-1: 0];
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reg [`TEX_FILTER_BITS-1:0] tex_filter [`NUM_TEX_UNITS-1: 0];
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// CSRs programming
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for (genvar i = 0; i < `NUM_TEX_UNITS; ++i) begin
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always @(posedge clk ) begin
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if (reset) begin
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tex_addr[i] <= 0;
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tex_format[i] <= 0;
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tex_width[i] <= 0;
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tex_height[i] <= 0;
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tex_stride[i] <= 0;
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tex_wrap_u[i] <= 0;
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tex_wrap_v[i] <= 0;
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tex_filter[i] <= 0;
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end begin
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if (tex_csr_if.write_enable) begin
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case (tex_csr_if.write_addr)
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`CSR_TEX_ADDR(i) : tex_addr[i] <= tex_csr_if.write_data[`TEX_ADDR_BITS-1:0];
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`CSR_TEX_FORMAT(i) : tex_format[i] <= tex_csr_if.write_data[`TEX_FORMAT_BITS-1:0];
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`CSR_TEX_WIDTH(i) : tex_width[i] <= tex_csr_if.write_data[`TEX_WIDTH_BITS-1:0];
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`CSR_TEX_HEIGHT(i) : tex_height[i] <= tex_csr_if.write_data[`TEX_HEIGHT_BITS-1:0];
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`CSR_TEX_STRIDE(i) : tex_stride[i] <= tex_csr_if.write_data[`TEX_STRIDE_BITS-1:0];
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`CSR_TEX_WRAP_U(i) : tex_wrap_u[i] <= tex_csr_if.write_data[`TEX_WRAP_BITS-1:0];
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`CSR_TEX_WRAP_V(i) : tex_wrap_v[i] <= tex_csr_if.write_data[`TEX_WRAP_BITS-1:0];
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`CSR_TEX_FILTER(i) : tex_filter[i] <= tex_csr_if.write_data[`TEX_FILTER_BITS-1:0];
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default:
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assert(tex_csr_if.write_addr >= `CSR_TEX_BEGIN(0)
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&& tex_csr_if.write_addr < `CSR_TEX_BEGIN(`CSR_TEX_STATES));
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endcase
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end
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end
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end
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end
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// address generation
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wire mem_req_valid;
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wire [`NW_BITS-1:0] mem_req_wid;
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wire [`NUM_THREADS-1:0] mem_req_tmask;
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wire [31:0] mem_req_PC;
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wire [`TEX_FILTER_BITS-1:0] mem_req_filter;
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wire [`TEX_STRIDE_BITS-1:0] mem_req_stride;
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wire [`NUM_THREADS-1:0][`FIXED_FRAC-1:0] mem_req_u;
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wire [`NUM_THREADS-1:0][`FIXED_FRAC-1:0] mem_req_v;
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wire [`NUM_THREADS-1:0][3:0][31:0] mem_req_addr;
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wire [REQ_INFO_WIDTH_A-1:0] mem_req_info;
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wire mem_req_ready;
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wire mem_rsp_valid;
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wire [`NW_BITS-1:0] mem_rsp_wid;
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wire [`NUM_THREADS-1:0] mem_rsp_tmask;
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wire [31:0] mem_rsp_PC;
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wire [`TEX_FILTER_BITS-1:0] mem_rsp_filter;
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wire [`NUM_THREADS-1:0][3:0][31:0] mem_rsp_data;
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wire [REQ_INFO_WIDTH_M-1:0] mem_rsp_info;
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wire mem_rsp_ready;
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VX_tex_addr_gen #(
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.REQ_INFO_WIDTH (REQ_INFO_WIDTH_A)
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) tex_addr_gen (
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.clk (clk),
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.reset (reset),
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.valid_in (tex_req_if.valid),
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.ready_in (tex_req_if.ready),
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.req_wid (tex_req_if.wid),
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.req_tmask (tex_req_if.tmask),
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.req_PC (tex_req_if.PC),
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.req_info ({tex_format[tex_req_if.unit], tex_req_if.rd, tex_req_if.wb}),
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.filter (tex_filter[tex_req_if.unit]),
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.wrap_u (tex_wrap_u[tex_req_if.unit]),
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.wrap_v (tex_wrap_v[tex_req_if.unit]),
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.base_addr (tex_addr[tex_req_if.unit]),
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.log_stride (tex_stride[tex_req_if.unit]),
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.log_width (tex_width[tex_req_if.unit]),
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.log_height (tex_height[tex_req_if.unit]),
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.coord_u (tex_req_if.u),
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.coord_v (tex_req_if.v),
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.lod (tex_req_if.lod),
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.mem_req_valid (mem_req_valid),
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.mem_req_wid (mem_req_wid),
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.mem_req_tmask (mem_req_tmask),
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.mem_req_PC (mem_req_PC),
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.mem_req_filter (mem_req_filter),
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.mem_req_stride (mem_req_stride),
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.mem_req_u (mem_req_u),
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.mem_req_v (mem_req_v),
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.mem_req_info (mem_req_info),
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.mem_req_addr (mem_req_addr),
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.mem_req_ready (mem_req_ready)
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);
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// retrieve texel values from memory
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VX_tex_memory #(
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.CORE_ID (CORE_ID),
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.REQ_INFO_WIDTH (REQ_INFO_WIDTH_M)
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) tex_memory (
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.clk (clk),
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.reset (reset),
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// memory interface
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.dcache_req_if (dcache_req_if),
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.dcache_rsp_if (dcache_rsp_if),
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// inputs
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.req_valid (mem_req_valid),
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.req_wid (mem_req_wid),
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.req_tmask (mem_req_tmask),
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.req_PC (mem_req_PC),
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.req_filter(mem_req_filter),
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.req_stride(mem_req_stride),
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.req_addr (mem_req_addr),
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.req_info ({mem_req_u, mem_req_v, mem_req_info}),
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.req_ready (mem_req_ready),
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// outputs
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.rsp_valid (mem_rsp_valid),
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.rsp_wid (mem_rsp_wid),
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.rsp_tmask (mem_rsp_tmask),
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.rsp_PC (mem_rsp_PC),
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.rsp_filter(mem_rsp_filter),
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.rsp_data (mem_rsp_data),
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.rsp_info (mem_rsp_info),
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.rsp_ready (mem_rsp_ready)
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);
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// apply sampler
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wire [`TEX_FORMAT_BITS-1:0] rsp_format;
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wire [`NUM_THREADS-1:0][`FIXED_FRAC-1:0] rsp_u;
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wire [`NUM_THREADS-1:0][`FIXED_FRAC-1:0] rsp_v;
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wire [`NR_BITS-1:0] rsp_rd;
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wire rsp_wb;
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assign {rsp_format, rsp_u, rsp_v, rsp_rd, rsp_wb} = mem_rsp_info;
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VX_tex_sampler #(
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.CORE_ID (CORE_ID)
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) tex_sampler (
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.clk (clk),
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.reset (reset),
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// inputs
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.req_valid (mem_rsp_valid),
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.req_wid (mem_rsp_wid),
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.req_tmask (mem_rsp_tmask),
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.req_PC (mem_rsp_PC),
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.req_texels (mem_rsp_data),
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.req_filter (mem_rsp_filter),
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.req_format (rsp_format),
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.req_u (rsp_u),
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.req_v (rsp_v),
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.req_rd (rsp_rd),
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.req_wb (rsp_wb),
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.req_ready (mem_rsp_ready),
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// outputs
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.rsp_valid (tex_rsp_if.valid),
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.rsp_wid (tex_rsp_if.wid),
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.rsp_tmask (tex_rsp_if.tmask),
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.rsp_PC (tex_rsp_if.PC),
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.rsp_rd (tex_rsp_if.rd),
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.rsp_wb (tex_rsp_if.wb),
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.rsp_data (tex_rsp_if.data),
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.rsp_ready (tex_rsp_if.ready)
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);
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`ifdef DBG_PRINT_TEX
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for (genvar i = 0; i < `NUM_TEX_UNITS; ++i) begin
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always @(posedge clk) begin
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if (tex_csr_if.write_enable
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&& (tex_csr_if.write_addr >= `CSR_TEX_BEGIN(i)
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&& tex_csr_if.write_addr < `CSR_TEX_BEGIN(i+1))) begin
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$display("%t: core%0d-tex_csr: csr_tex%d_addr, csr_data=%0h", $time, CORE_ID, i, tex_addr[i]);
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$display("%t: core%0d-tex_csr: csr_tex%d_format, csr_data=%0h", $time, CORE_ID, i, tex_format[i]);
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$display("%t: core%0d-tex_csr: csr_tex%d_width, csr_data=%0h", $time, CORE_ID, i, tex_width[i]);
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$display("%t: core%0d-tex_csr: csr_tex%d_height, csr_data=%0h", $time, CORE_ID, i, tex_height[i]);
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$display("%t: core%0d-tex_csr: csr_tex%d_stride, csr_data=%0h", $time, CORE_ID, i, tex_stride[i]);
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$display("%t: core%0d-tex_csr: csr_tex%d_wrap_u, csr_data=%0h", $time, CORE_ID, i, tex_wrap_u[i]);
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$display("%t: core%0d-tex_csr: csr_tex%d_wrap_v, csr_data=%0h", $time, CORE_ID, i, tex_wrap_v[i]);
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$display("%t: core%0d-tex_csr: csr_tex%d_filter, csr_data=%0h", $time, CORE_ID, i, tex_filter[i]);
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end
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end
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end
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`endif
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endmodule |