RAM16X2S.v
1.47 KB
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// $Header: /root/leakn64/depot/rf/hw/debug/xilinx/RAM16X2S.v,v 1.1 2003/04/01 21:47:36 berndt Exp $
/*
FUNCTION : 16x2 Static RAM with synchronous write capability
*/
`timescale 100 ps / 10 ps
module RAM16X2S (O0, O1, A0, A1, A2, A3, D0, D1, WCLK, WE);
parameter INIT_00 = 16'h0000;
parameter INIT_01 = 16'h0000;
output O0, O1;
input A0, A1, A2, A3, D0, D1, WCLK, WE;
reg mem [32:0];
reg [8:0] count;
wire [3:0] adr;
wire [1:0] d_in, o_out;
wire wclk_in, we_in;
buf b_d0 (d_in[0], D0);
buf b_d1 (d_in[1], D1);
buf b_wclk (wclk_in, WCLK);
buf b_we (we_in, WE);
buf b_a3 (adr[3], A3);
buf b_a2 (adr[2], A2);
buf b_a1 (adr[1], A1);
buf b_a0 (adr[0], A0);
buf b_o0 (O0, o_out[0]);
buf b_o1 (O1, o_out[1]);
buf b_o_out0 (o_out[0], mem[adr + 16 * 0]);
buf b_o_out1 (o_out[1], mem[adr + 16 * 1]);
initial begin
for (count = 0; count < 16; count = count + 1) begin
mem[count + 16 * 0] <= INIT_00[count];
mem[count + 16 * 1] <= INIT_01[count];
end
end
always @(posedge wclk_in) begin
if (we_in == 1'b1) begin
mem[adr + 16 * 0] <= d_in[0];
mem[adr + 16 * 1] <= d_in[1];
end
end
specify
if (WE)
(WCLK => O0) = (1, 1);
if (WE)
(WCLK => O1) = (1, 1);
(A3 => O0) = (1, 1);
(A2 => O0) = (1, 1);
(A1 => O0) = (1, 1);
(A0 => O0) = (1, 1);
(A3 => O1) = (1, 1);
(A2 => O1) = (1, 1);
(A1 => O1) = (1, 1);
(A0 => O1) = (1, 1);
endspecify
endmodule