`include "VX_define.vh" module VX_cluster #( parameter CLUSTER_ID = 0 ) ( `SCOPE_IO_VX_cluster // Clock input wire clk, input wire reset, // Memory request output wire mem_req_valid, output wire mem_req_rw, output wire [`L2_MEM_BYTEEN_WIDTH-1:0] mem_req_byteen, output wire [`L2_MEM_ADDR_WIDTH-1:0] mem_req_addr, output wire [`L2_MEM_DATA_WIDTH-1:0] mem_req_data, output wire [`L2_MEM_TAG_WIDTH-1:0] mem_req_tag, input wire mem_req_ready, // Memory response input wire mem_rsp_valid, input wire [`L2_MEM_DATA_WIDTH-1:0] mem_rsp_data, input wire [`L2_MEM_TAG_WIDTH-1:0] mem_rsp_tag, output wire mem_rsp_ready, // Status output wire busy ); `STATIC_ASSERT((`L2_ENABLE == 0 || `NUM_CORES > 1), ("invalid parameter")) wire [`NUM_CORES-1:0] per_core_mem_req_valid; wire [`NUM_CORES-1:0] per_core_mem_req_rw; wire [`NUM_CORES-1:0][`DCACHE_MEM_BYTEEN_WIDTH-1:0] per_core_mem_req_byteen; wire [`NUM_CORES-1:0][`DCACHE_MEM_ADDR_WIDTH-1:0] per_core_mem_req_addr; wire [`NUM_CORES-1:0][`DCACHE_MEM_DATA_WIDTH-1:0] per_core_mem_req_data; wire [`NUM_CORES-1:0][`L1_MEM_TAG_WIDTH-1:0] per_core_mem_req_tag; wire [`NUM_CORES-1:0] per_core_mem_req_ready; wire [`NUM_CORES-1:0] per_core_mem_rsp_valid; wire [`NUM_CORES-1:0][`DCACHE_MEM_DATA_WIDTH-1:0] per_core_mem_rsp_data; wire [`NUM_CORES-1:0][`L1_MEM_TAG_WIDTH-1:0] per_core_mem_rsp_tag; wire [`NUM_CORES-1:0] per_core_mem_rsp_ready; wire [`NUM_CORES-1:0] per_core_busy; for (genvar i = 0; i < `NUM_CORES; i++) begin `RESET_RELAY (core_reset); VX_core #( .CORE_ID(i + (CLUSTER_ID * `NUM_CORES)) ) core ( `SCOPE_BIND_VX_cluster_core(i) .clk (clk), .reset (core_reset), .mem_req_valid (per_core_mem_req_valid[i]), .mem_req_rw (per_core_mem_req_rw [i]), .mem_req_byteen (per_core_mem_req_byteen[i]), .mem_req_addr (per_core_mem_req_addr [i]), .mem_req_data (per_core_mem_req_data [i]), .mem_req_tag (per_core_mem_req_tag [i]), .mem_req_ready (per_core_mem_req_ready[i]), .mem_rsp_valid (per_core_mem_rsp_valid[i]), .mem_rsp_data (per_core_mem_rsp_data [i]), .mem_rsp_tag (per_core_mem_rsp_tag [i]), .mem_rsp_ready (per_core_mem_rsp_ready[i]), .busy (per_core_busy [i]) ); end assign busy = (| per_core_busy); if (`L2_ENABLE) begin `ifdef PERF_ENABLE VX_perf_cache_if perf_l2cache_if(); `endif `RESET_RELAY (l2_reset); VX_cache #( .CACHE_ID (`L2_CACHE_ID), .CACHE_SIZE (`L2_CACHE_SIZE), .CACHE_LINE_SIZE (`L2_CACHE_LINE_SIZE), .NUM_BANKS (`L2_NUM_BANKS), .NUM_PORTS (`L2_NUM_PORTS), .WORD_SIZE (`L2_WORD_SIZE), .NUM_REQS (`L2_NUM_REQS), .CREQ_SIZE (`L2_CREQ_SIZE), .CRSQ_SIZE (`L2_CRSQ_SIZE), .MSHR_SIZE (`L2_MSHR_SIZE), .MRSQ_SIZE (`L2_MRSQ_SIZE), .MREQ_SIZE (`L2_MREQ_SIZE), .WRITE_ENABLE (1), .CORE_TAG_WIDTH (`L1_MEM_TAG_WIDTH), .CORE_TAG_ID_BITS (0), .MEM_TAG_WIDTH (`L2_MEM_TAG_WIDTH), .NC_ENABLE (1) ) l2cache ( `SCOPE_BIND_VX_cluster_l2cache .clk (clk), .reset (l2_reset), `ifdef PERF_ENABLE .perf_cache_if (perf_l2cache_if), `endif // Core request .core_req_valid (per_core_mem_req_valid), .core_req_rw (per_core_mem_req_rw), .core_req_byteen (per_core_mem_req_byteen), .core_req_addr (per_core_mem_req_addr), .core_req_data (per_core_mem_req_data), .core_req_tag (per_core_mem_req_tag), .core_req_ready (per_core_mem_req_ready), // Core response .core_rsp_valid (per_core_mem_rsp_valid), .core_rsp_data (per_core_mem_rsp_data), .core_rsp_tag (per_core_mem_rsp_tag), .core_rsp_ready (per_core_mem_rsp_ready), `UNUSED_PIN (core_rsp_tmask), // Memory request .mem_req_valid (mem_req_valid), .mem_req_rw (mem_req_rw), .mem_req_byteen (mem_req_byteen), .mem_req_addr (mem_req_addr), .mem_req_data (mem_req_data), .mem_req_tag (mem_req_tag), .mem_req_ready (mem_req_ready), // Memory response .mem_rsp_valid (mem_rsp_valid), .mem_rsp_tag (mem_rsp_tag), .mem_rsp_data (mem_rsp_data), .mem_rsp_ready (mem_rsp_ready) ); end else begin `RESET_RELAY (mem_arb_reset); VX_mem_arb #( .NUM_REQS (`NUM_CORES), .DATA_WIDTH (`DCACHE_MEM_DATA_WIDTH), .ADDR_WIDTH (`DCACHE_MEM_ADDR_WIDTH), .TAG_IN_WIDTH (`L1_MEM_TAG_WIDTH), .TYPE ("R"), .TAG_SEL_IDX (1), // Skip 0 for NC flag .BUFFERED_REQ (1), .BUFFERED_RSP (1) ) mem_arb ( .clk (clk), .reset (mem_arb_reset), // Core request .req_valid_in (per_core_mem_req_valid), .req_rw_in (per_core_mem_req_rw), .req_byteen_in (per_core_mem_req_byteen), .req_addr_in (per_core_mem_req_addr), .req_data_in (per_core_mem_req_data), .req_tag_in (per_core_mem_req_tag), .req_ready_in (per_core_mem_req_ready), // Memory request .req_valid_out (mem_req_valid), .req_rw_out (mem_req_rw), .req_byteen_out (mem_req_byteen), .req_addr_out (mem_req_addr), .req_data_out (mem_req_data), .req_tag_out (mem_req_tag), .req_ready_out (mem_req_ready), // Core response .rsp_valid_out (per_core_mem_rsp_valid), .rsp_data_out (per_core_mem_rsp_data), .rsp_tag_out (per_core_mem_rsp_tag), .rsp_ready_out (per_core_mem_rsp_ready), // Memory response .rsp_valid_in (mem_rsp_valid), .rsp_tag_in (mem_rsp_tag), .rsp_data_in (mem_rsp_data), .rsp_ready_in (mem_rsp_ready) ); end endmodule