OpenFPGA/vpr7_x2p/vpr/VerilogNetlists/sram.v

98 lines
2.2 KiB
Verilog

//------ 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;
`ifdef ENABLE_SIGNAL_INITIALIZATION
initial begin
$deposit(a, $random);
end
`endif
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