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|
`timescale 1ns / 1ps
`define USRP2
//`define USRP2PLUS
`ifdef USRP2
`define INT_WIDTH 36
`define EXT_WIDTH 18
`define RAM_DEPTH 19
`define FIFO_DEPTH 8
`define DUMP_VCD_FULL
`define INT_CLK_PERIOD 5
`define EXT_CLK_PERIOD 4
`elsif USRP2PLUS
`define INT_WIDTH 36
`define EXT_WIDTH 36
`define RAM_DEPTH 18
`define FIFO_DEPTH 8
`define DUMP_VCD_FULL
`define INT_CLK_PERIOD 5
`define EXT_CLK_PERIOD 5
`endif // `ifdef USRP2
module ext_fifo_tb();
reg int_clk;
reg ext_clk;
reg rst;
wire [`EXT_WIDTH-1:0] RAM_D_pi;
wire [`EXT_WIDTH-1:0] RAM_D_po;
wire [`EXT_WIDTH-1:0] RAM_D;
wire RAM_D_poe;
wire [`RAM_DEPTH-1:0] RAM_A;
wire RAM_WEn;
wire RAM_CENn;
wire RAM_LDn;
wire RAM_OEn;
wire RAM_CE1n;
reg [`INT_WIDTH-1:0] datain;
reg src_rdy_i; // WRITE
wire dst_rdy_o; // not FULL
wire [`INT_WIDTH-1:0] dataout;
reg [`INT_WIDTH-1:0] ref_dataout;
wire src_rdy_o; // not EMPTY
reg dst_rdy_i;
integer ether_frame;
// Clocks
// Int clock is 100MHz
// Ext clock is 125MHz
initial
begin
int_clk <= 0;
ext_clk <= 0;
ref_dataout <= 1;
src_rdy_i <= 0;
dst_rdy_i <= 0;
end
always
#(`INT_CLK_PERIOD/2) int_clk <= ~int_clk;
always
#(`EXT_CLK_PERIOD/2) ext_clk <= ~ext_clk;
initial
begin
datain <= 0;
ether_frame <= 0;
rst <= 1;
repeat (5) @(negedge int_clk);
rst <= 0;
@(negedge int_clk);
while (datain < 10000)
begin
@(negedge int_clk);
datain <= datain + dst_rdy_o;
src_rdy_i <= dst_rdy_o;
// Simulate inter-frame time
if (ether_frame == 1500)
begin
ether_frame <= 0;
repeat(1600)
begin
@(negedge int_clk);
src_rdy_i <= 0;
end
end
else
ether_frame <= ether_frame + dst_rdy_o;
end
end // initial begin
initial
begin
repeat (5) @(negedge int_clk);
dst_rdy_i <= 1;
while (src_rdy_o !== 1)
@(negedge int_clk);
// Fall through fifo, first output already valid
if (dataout !== ref_dataout)
$display("Error: Expected %x, got %x @%d",ref_dataout, dataout, $time);
ref_dataout <= ref_dataout + src_rdy_o ;
// Decimate by 16 rate
while (ref_dataout < 2000)
begin
@(negedge int_clk);
ref_dataout <= ref_dataout + src_rdy_o ;
dst_rdy_i <= src_rdy_o;
if ((dataout !== ref_dataout) && src_rdy_o)
$display("Error: Expected %x, got %x @%d",ref_dataout, dataout, $time);
@(negedge int_clk);
dst_rdy_i <= 0;
repeat(14) @(negedge int_clk);
end // while (ref_dataout < 10000)
// Decimate by 8 rate
while (ref_dataout < 4000)
begin
@(negedge int_clk);
ref_dataout <= ref_dataout + src_rdy_o ;
dst_rdy_i <= src_rdy_o;
if ((dataout !== ref_dataout) && src_rdy_o)
$display("Error: Expected %x, got %x @%d",ref_dataout, dataout, $time);
@(negedge int_clk);
dst_rdy_i <= 0;
repeat(6) @(negedge int_clk);
end // while (ref_dataout < 10000)
// Decimate by 4 rate
while (ref_dataout < 6000)
begin
@(negedge int_clk);
ref_dataout <= ref_dataout + src_rdy_o ;
dst_rdy_i <= src_rdy_o;
if ((dataout !== ref_dataout) && src_rdy_o)
$display("Error: Expected %x, got %x @%d",ref_dataout, dataout, $time);
@(negedge int_clk);
dst_rdy_i <= 0;
repeat(2) @(negedge int_clk);
end // while (ref_dataout < 10000)
// Max rate
while (ref_dataout < 10000)
begin
@(negedge int_clk);
ref_dataout <= ref_dataout + src_rdy_o ;
dst_rdy_i <= src_rdy_o;
if ((dataout !== ref_dataout) && src_rdy_o)
$display("Error: Expected %x, got %x @%d",ref_dataout, dataout, $time);
end // while (ref_dataout < 10000)
@(negedge int_clk);
$finish;
end
/* -----\/----- EXCLUDED -----\/-----
initial
begin
rst <= 1;
repeat (5) @(negedge int_clk);
rst <= 0;
@(negedge int_clk);
repeat (4000)
begin
@(negedge int_clk);
datain <= datain + dst_rdy_o;
src_rdy_i <= dst_rdy_o;
// @(negedge int_clk);
// src_rdy_i <= 0;
// @(negedge int_clk);
// dst_rdy_i <= src_rdy_o;
// @(negedge int_clk);
// dst_rdy_i <= 0;
// repeat (2) @(negedge int_clk);
end // repeat (1000)
// Fall through fifo, first output already valid
if (dataout !== ref_dataout)
$display("Error: Expected %x, got %x",ref_dataout, dataout);
repeat (1000)
begin
@(negedge int_clk);
datain <= datain + dst_rdy_o ;
src_rdy_i <= dst_rdy_o;
@(negedge int_clk);
src_rdy_i <= 0;
@(negedge int_clk);
ref_dataout <= ref_dataout + src_rdy_o ;
dst_rdy_i <= src_rdy_o;
if ((dataout !== ref_dataout) && src_rdy_o)
$display("Error: Expected %x, got %x",ref_dataout, dataout);
@(negedge int_clk);
dst_rdy_i <= 0;
// repeat (2) @(negedge int_clk);
end // repeat (1000)
repeat (1000)
begin
// @(negedge int_clk);
// datain <= datain + 1;
// src_rdy_i <= 1;
// @(negedge int_clk);
// src_rdy_i <= 0;
@(negedge int_clk);
ref_dataout <= ref_dataout + src_rdy_o;
dst_rdy_i <= src_rdy_o;
if ((dataout !== ref_dataout) && src_rdy_o)
$display("Error: Expected %x, got %x",ref_dataout, dataout);
@(negedge int_clk);
dst_rdy_i <= 0;
// repeat (2) @(negedge int_clk);
end // repeat (1000)
$finish;
end // initial begin
-----/\----- EXCLUDED -----/\----- */
///////////////////////////////////////////////////////////////////////////////////
// Simulation control //
///////////////////////////////////////////////////////////////////////////////////
`ifdef DUMP_LX2_TOP
// Set up output files
initial begin
$dumpfile("ext_fifo_tb.lx2");
$dumpvars(1,ext_fifo_tb);
end
`endif
`ifdef DUMP_LX2_FULL
// Set up output files
initial begin
$dumpfile("ext_fifo_tb.lx2");
$dumpvars(0,ext_fifo_tb);
end
`endif
`ifdef DUMP_VCD_TOP
// Set up output files
initial begin
$dumpfile("ext_fifo_tb.vcd");
$dumpvars(1,ext_fifo_tb);
end
`endif
`ifdef DUMP_VCD_TOP_PLUS_NEXT
// Set up output files
initial begin
$dumpfile("ext_fifo_tb.vcd");
$dumpvars(2,ext_fifo_tb);
end
`endif
`ifdef DUMP_VCD_FULL
// Set up output files
initial begin
$dumpfile("ext_fifo_tb.vcd");
$dumpvars(0,ext_fifo_tb);
end
`endif
// Update display every 10 us
always #10000 $monitor("Time in uS ",$time/1000);
wire [`EXT_WIDTH-1:0] RAM_D_pi_ext;
wire [`EXT_WIDTH-1:0] RAM_D_po_ext;
wire [`EXT_WIDTH-1:0] RAM_D_ext;
wire RAM_D_poe_ext;
genvar i;
//
// Instantiate IO for Bidirectional bus to SRAM
//
generate
for (i=0;i<`EXT_WIDTH;i=i+1)
begin : gen_RAM_D_IO
IOBUF #(
.DRIVE(12),
.IOSTANDARD("LVCMOS25"),
.SLEW("FAST")
)
RAM_D_i (
.O(RAM_D_pi_ext[i]),
.I(RAM_D_po_ext[i]),
.IO(RAM_D[i]),
.T(RAM_D_poe_ext)
);
end // block: gen_RAM_D_IO
endgenerate
wire [`RAM_DEPTH-1:0] RAM_A_ext;
wire RAM_WEn_ext,RAM_LDn_ext,RAM_CE1n_ext,RAM_OEn_ext,RAM_CENn_ext;
assign #1 RAM_D_pi = RAM_D_pi_ext;
assign #1 RAM_D_po_ext = RAM_D_po;
assign #1 RAM_D_poe_ext = RAM_D_poe;
assign #2 RAM_WEn_ext = RAM_WEn;
assign #2 RAM_LDn_ext = RAM_LDn;
assign #2 RAM_CE1n_ext = RAM_CE1n;
assign #2 RAM_OEn_ext = RAM_OEn;
assign #2 RAM_CENn_ext = RAM_CENn;
assign #2 RAM_A_ext = RAM_A;
generate
if (`EXT_WIDTH==18) begin: ram_tb_g1
idt71v65603s150 idt71v65603s150_i1
(
.A(RAM_A_ext[17:0]),
.adv_ld_(RAM_LDn_ext), // advance (high) / load (low)
.bw1_(1'b0),
.bw2_(1'b0),
.bw3_(1'b1),
.bw4_(1'b1), // byte write enables (low)
.ce1_(RAM_CE1n_ext),
.ce2(1'b1),
.ce2_(1'b0), // chip enables
.cen_(RAM_CENn_ext), // clock enable (low)
.clk(ext_clk), // clock
.IO({RAM_D[16:9],RAM_D[7:0]}),
.IOP({RAM_D[17],RAM_D[8]}), // data bus
.lbo_(1'b0), // linear burst order (low)
.oe_(RAM_OEn_ext), // output enable (low)
.r_w_(RAM_WEn_ext)
); // read (high) / write (low)
end // block: ram_tb_g1
else if (`EXT_WIDTH==36) begin: ram_tb_g1
idt71v65603s150 idt71v65603s150_i1
(
.A(RAM_A_ext[17:0]),
.adv_ld_(RAM_LDn_ext), // advance (high) / load (low)
.bw1_(1'b0),
.bw2_(1'b0),
.bw3_(1'b0),
.bw4_(1'b0), // byte write enables (low)
.ce1_(RAM_CE1n_ext),
.ce2(1'b1),
.ce2_(1'b0), // chip enables
.cen_(RAM_CENn_ext), // clock enable (low)
.clk(ext_clk), // clock
.IO(RAM_D[31:0]),
.IOP(RAM_D[35:32]), // data bus
.lbo_(1'b0), // linear burst order (low)
.oe_(RAM_OEn_ext), // output enable (low)
.r_w_(RAM_WEn_ext)
); // read (high) / write (low)
end // block: ram_tb_g1
endgenerate
/* -----\/----- EXCLUDED -----\/-----
cy1356 cy1356_i1
( .d(RAM_D),
.clk(ext_clk),
.a(RAM_A_ext),
.bws(2'b00),
.we_b(RAM_WEn_ext),
.adv_lb(RAM_LDn_ext),
.ce1b(RAM_CE1n_ext),
.ce2(1'b1),
.ce3b(1'b0),
.oeb(RAM_OEn_ext),
.cenb(RAM_CENn_ext),
.mode(1'b0)
);
-----/\----- EXCLUDED -----/\----- */
ext_fifo
#(.INT_WIDTH(`INT_WIDTH),.EXT_WIDTH(`EXT_WIDTH),.RAM_DEPTH(`RAM_DEPTH),.FIFO_DEPTH(`FIFO_DEPTH))
ext_fifo_i1
(
.int_clk(int_clk),
.ext_clk(ext_clk),
.rst(rst),
.RAM_D_pi(RAM_D_pi),
.RAM_D_po(RAM_D_po),
.RAM_D_poe(RAM_D_poe),
.RAM_A(RAM_A),
.RAM_WEn(RAM_WEn),
.RAM_CENn(RAM_CENn),
.RAM_LDn(RAM_LDn),
.RAM_OEn(RAM_OEn),
.RAM_CE1n(RAM_CE1n),
.datain(datain),
.src_rdy_i(src_rdy_i), // WRITE
.dst_rdy_o(dst_rdy_o), // not FULL
.dataout(dataout),
.src_rdy_o(src_rdy_o), // not EMPTY
.dst_rdy_i(dst_rdy_i)
);
endmodule // ext_fifo_tb
|
