`ifdef BSV_ASSIGNMENT_DELAY `else `define BSV_ASSIGNMENT_DELAY `endif // Single-Ported BRAM with byte enables module BRAM1BE(CLK, EN, WE, ADDR, DI, DO ); parameter PIPELINED = 0; parameter ADDR_WIDTH = 1; parameter DATA_WIDTH = 1; parameter CHUNKSIZE = 1; parameter WE_WIDTH = 1; parameter MEMSIZE = 1; input CLK; input EN; input [WE_WIDTH-1:0] WE; input [ADDR_WIDTH-1:0] ADDR; input [DATA_WIDTH-1:0] DI; output [DATA_WIDTH-1:0] DO; (* RAM_STYLE = "BLOCK" *) reg [DATA_WIDTH-1:0] RAM[0:MEMSIZE-1]; reg [DATA_WIDTH-1:0] DO_R; reg [DATA_WIDTH-1:0] DO_R2; `ifdef BSV_NO_INITIAL_BLOCKS `else // synopsys translate_off initial begin : init_block integer i; for (i = 0; i < MEMSIZE; i = i + 1) begin RAM[i] = { ((DATA_WIDTH+1)/2) { 2'b10 } }; end DO_R = { ((DATA_WIDTH+1)/2) { 2'b10 } }; DO_R2 = { ((DATA_WIDTH+1)/2) { 2'b10 } }; end // synopsys translate_on `endif // !`ifdef BSV_NO_INITIAL_BLOCKS generate genvar i; for(i = 0; i < WE_WIDTH; i = i + 1) begin: porta_we always @(posedge CLK) begin if (EN) begin if (WE[i]) begin RAM[ADDR][((i+1)*CHUNKSIZE)-1 : i*CHUNKSIZE] <= `BSV_ASSIGNMENT_DELAY DI[((i+1)*CHUNKSIZE)-1 : i*CHUNKSIZE]; DO_R[((i+1)*CHUNKSIZE)-1 : i*CHUNKSIZE] <= `BSV_ASSIGNMENT_DELAY DI[((i+1)*CHUNKSIZE)-1 : i*CHUNKSIZE]; end else begin DO_R[((i+1)*CHUNKSIZE)-1 : i*CHUNKSIZE] <= `BSV_ASSIGNMENT_DELAY RAM[ADDR][((i+1)*CHUNKSIZE)-1 : i*CHUNKSIZE]; end end end end endgenerate // Output driver always @(posedge CLK) begin DO_R2 <= `BSV_ASSIGNMENT_DELAY DO_R; end assign DO = (PIPELINED) ? DO_R2 : DO_R; endmodule // BRAM1BE