//------ Module: sram6T_blwl -----// //------ Verilog file: sram.v -----// //------ Author: Xifan TANG -----// module sram6T_blwl( //input read, //input nequalize, input din, // Data input output dout, // Data output output doutb, // Data output input bl, // Bit line control signal input wl, // Word line control signal input blb // Inverted Bit line control signal ); //----- local variable need to be registered reg a; //----- when wl is enabled, we can read in data from bl always @(bl, wl) begin //----- Cases to program internal memory bit //----- case 1: bl = 1, wl = 1, a -> 0 if ((1'b1 == bl)&&(1'b1 == wl)) begin a <= 1'b1; end //----- case 2: bl = 0, wl = 1, a -> 0 if ((1'b0 == bl)&&(1'b1 == wl)) begin a <= 1'b0; end end // dout is short-wired to din assign dout = a; //---- doutb is always opposite to dout assign doutb = ~dout; endmodule module sram6T_rram( input read, input nequalize, input din, // Data input output dout, // Data output output doutb, // Data output // !!! Port bit position should start from LSB to MSB // Follow this convention for BL/WLs in each module! input [0:2] bl, // Bit line control signal input [0:2] wl// Word line control signal ); //----- local variable need to be registered //----- Modeling two RRAMs reg r0, r1; always @(bl[0], wl[2]) begin //----- Cases to program r0 //----- case 1: bl[0] = 1, wl[2] = 1, r0 -> 0 if ((1'b1 == bl[0])&&(1'b1 == wl[2])) begin r0 <= 0; end end always @(bl[2], wl[0]) begin //----- case 2: bl[2] = 1, wl[0] = 1, r0 -> 1 if ((1'b1 == bl[2])&&(1'b1 == wl[0])) begin r0 <= 1; end end always @(bl[1], wl[2]) begin //----- Cases to program r1 //----- case 1: bl[1] = 1, wl[2] = 1, r0 -> 0 if ((1'b1 == bl[1])&&(1'b1 == wl[2])) begin r1 <= 0; end end always @( bl[2], wl[1]) begin //----- case 2: bl[2] = 1, wl[1] = 1, r0 -> 1 if ((1'b1 == bl[2])&&(1'b1 == wl[1])) begin r1 <= 1; end end // dout is r0 AND r1 assign dout = r0 | (~r1); //---- doutb is always opposite to dout assign doutb = ~dout; endmodule