`include "VX_cache_config.v" module VX_fill_invalidator #( // Size of cache in bytes parameter CACHE_SIZE_BYTES = 1024, // Size of line inside a bank in bytes parameter BANK_LINE_SIZE_BYTES = 16, // Number of banks {1, 2, 4, 8,...} parameter NUMBER_BANKS = 8, // Size of a word in bytes parameter WORD_SIZE_BYTES = 4, // Number of Word requests per cycle {1, 2, 4, 8, ...} parameter NUMBER_REQUESTS = 2, // Number of cycles to complete stage 1 (read from memory) parameter STAGE_1_CYCLES = 2, // Queues feeding into banks Knobs {1, 2, 4, 8, ...} // Core Request Queue Size parameter REQQ_SIZE = 8, // Miss Reserv Queue Knob parameter MRVQ_SIZE = 8, // Dram Fill Rsp Queue Size parameter DFPQ_SIZE = 2, // Snoop Req Queue parameter SNRQ_SIZE = 8, // Queues for writebacks Knobs {1, 2, 4, 8, ...} // Core Writeback Queue Size parameter CWBQ_SIZE = 8, // Dram Writeback Queue Size parameter DWBQ_SIZE = 4, // Dram Fill Req Queue Size parameter DFQQ_SIZE = 8, // Lower Level Cache Hit Queue Size parameter LLVQ_SIZE = 16, // Fill Invalidator Size {Fill invalidator must be active} parameter FILL_INVALIDAOR_SIZE = 16, // Dram knobs parameter SIMULATED_DRAM_LATENCY_CYCLES = 10 ) ( input wire clk, input wire reset, input wire possible_fill, input wire success_fill, input wire[31:0] fill_addr, output reg invalidate_fill ); if (FILL_INVALIDAOR_SIZE == 0) begin assign invalidate_fill = 0; end else begin reg[FILL_INVALIDAOR_SIZE-1:0] fills_active; reg[FILL_INVALIDAOR_SIZE-1:0][31:0] fills_address; reg[FILL_INVALIDAOR_SIZE-1:0] matched_fill; wire matched; integer fi; always @(*) begin for (fi = 0; fi < FILL_INVALIDAOR_SIZE; fi+=1) begin matched_fill[fi] = fills_active[fi] && (fills_address[fi][31:`LINE_SELECT_ADDR_START] == fill_addr[31:`LINE_SELECT_ADDR_START]); end end assign matched = (|(matched_fill)); wire [(`vx_clog2(FILL_INVALIDAOR_SIZE))-1:0] enqueue_index; wire enqueue_found; VX_generic_priority_encoder #(.N(FILL_INVALIDAOR_SIZE)) VX_sel_bank( .valids(~fills_active), .index (enqueue_index), .found (enqueue_found) ); assign invalidate_fill = possible_fill && matched; always @(posedge clk) begin if (reset) begin fills_active <= 0; fills_address <= 0; end else begin if (possible_fill && !matched && enqueue_found) begin fills_active [enqueue_index] <= 1; fills_address[enqueue_index] <= fill_addr; end else if (success_fill && matched) begin fills_active <= fills_active & (~matched_fill); end end end // reg success_found; // reg[(`vx_clog2(FILL_INVALIDAOR_SIZE))-1:0] success_index; // integer curr_fill; // always @(*) begin // invalidate_fill = 0; // success_found = 0; // success_index = 0; // for (curr_fill = 0; curr_fill < FILL_INVALIDAOR_SIZE; curr_fill=curr_fill+1) begin // if (fill_addr[31:`LINE_SELECT_ADDR_START] == fills_address[curr_fill][31:`LINE_SELECT_ADDR_START]) begin // if (possible_fill && fills_active[curr_fill]) begin // invalidate_fill = 1; // end // if (success_fill) begin // success_found = 1; // success_index = curr_fill; // end // end // end // end // wire [(`vx_clog2(FILL_INVALIDAOR_SIZE))-1:0] enqueue_index; // wire enqueue_found; // VX_generic_priority_encoder #(.N(FILL_INVALIDAOR_SIZE)) VX_sel_bank( // .valids(~fills_active), // .index (enqueue_index), // .found (enqueue_found) // ); // always @(posedge clk) begin // if (reset) begin // fills_active <= 0; // fills_address <= 0; // end else begin // if (possible_fill && !invalidate_fill) begin // fills_active[enqueue_index] <= 1; // fills_address[enqueue_index] <= fill_addr; // end // if (success_found) begin // fills_active[success_index] <= 0; // end // end // end end endmodule