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Remove emmu testbench from edma

Browse Source 
The edma dv directory contained a copy of the emmu testbench instead
of an edma testbench
This commit is contained in:
Olof Kindgren 2015-10-16 16:04:30 +02:00
parent d275406aa6
commit 0a2f7ddd5b
4 changed files with 0 additions and 230 deletions
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149
edma/dv/dv_emmu.v
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@ -1,149 +0,0 @@
//`timescale 1 ns / 100 ps
module dv_emmu
(input clk,
input reset,
input go);
parameter DW = 32; //data width of
parameter AW = 32; //data width of
parameter IW = 12; //index size of table
parameter PAW = 64; //physical address width of output
parameter MW = PAW-AW+IW; //table data width
parameter MD = 1<<IW; //memory depth
//Stimulus to drive
reg mmu_en;
//Reg interface
reg mi_en;
reg [12:0] mi_addr;
reg [31:0] mi_din;
reg [3:0] mi_we;
//emesh interface
reg emesh_access_in;
reg emesh_write_in;
reg [1:0] emesh_datamode_in;
reg [3:0] emesh_ctrlmode_in;
reg [AW-1:0] emesh_dstaddr_in;
reg [AW-1:0] emesh_srcaddr_in;
reg [DW-1:0] emesh_data_in;
//Test junk
reg [1:0] test_state;
//Pattern generator
//1.) Write some patterns through mi_interface
//2.) Write some patterns from emesh interface
always @ (negedge clk) begin
if(go)
begin
case(test_state[1:0])
2'b00://write entries
if(mi_addr[12:0]<13'h16)
begin
mi_en <= 1'b1;
mi_we[3:0] <= 4'b1111;
mi_addr[12:0] <= mi_addr[12:0] + 1'b1;
/* verilator lint_off WIDTH */
mi_din[31:0] <= mi_addr[0] ? (mi_addr[12:0]+32'hFFFFF000) : 32'hFFFFFFFF;
/* verilator lint_on WIDTH */
end
else
begin
test_state <= 2'b01;
mi_en <= 1'b0;
end
2'b01://
if(emesh_dstaddr_in[31:0]<32'h00800000)
begin
emesh_access_in <= 1'b1;
emesh_write_in <= 1'b1;
emesh_dstaddr_in[31:0] <= emesh_dstaddr_in[31:0] + 32'h00100001;
emesh_ctrlmode_in[3:0] <= 4'b1111;
emesh_datamode_in[1:0] <= 2'b11;
emesh_data_in[31:0] <= 32'h12345678;
emesh_srcaddr_in[31:0] <= 32'h55555555;
end
else
begin
test_state <= 2'b10;
emesh_access_in <= 1'b0;
end // else: !if(~done)
2'b10://init array
begin
mi_addr[5:0] <= mi_addr[5:0]-1'b1;
end
default : test_state <= test_state;
endcase // case (test_state[1:0])
end // if (go)
if (reset) begin
mi_we[3:0] <= 4'b0;
mi_en <= 1'b0;
mi_addr[12:0] <= 13'b0;
mi_din[31:0] <= 32'h55555000;
test_state[1:0] <= 2'b00;
emesh_access_in <= 1'b0;
emesh_write_in <= 1'b0;
emesh_ctrlmode_in[3:0] <= 4'b0;
emesh_datamode_in[1:0] <= 2'b0;
emesh_dstaddr_in[31:0] <= 32'b0;
emesh_srcaddr_in[31:0] <= 32'b0;
emesh_data_in[31:0] <= 32'b0;
mmu_en <= 1'b1;
end
end
wire done = (mi_addr[5:0]==6'b001101);
/*AUTOWIRE*/
// Beginning of automatic wires (for undeclared instantiated-module outputs)
wire emmu_access_out; // From emmu of emmu.v
wire [3:0] emmu_ctrlmode_out; // From emmu of emmu.v
wire [DW-1:0] emmu_data_out; // From emmu of emmu.v
wire [1:0] emmu_datamode_out; // From emmu of emmu.v
wire [63:0] emmu_dstaddr_out; // From emmu of emmu.v
wire [AW-1:0] emmu_srcaddr_out; // From emmu of emmu.v
wire emmu_write_out; // From emmu of emmu.v
wire [31:0] mi_dout; // From emmu of emmu.v
// End of automatics
/*AUTOWIRE*/
//DUT
emmu emmu(.mi_clk (clk),
/*AUTOINST*/
// Outputs
.mi_dout (mi_dout[31:0]),
.emmu_access_out (emmu_access_out),
.emmu_write_out (emmu_write_out),
.emmu_datamode_out (emmu_datamode_out[1:0]),
.emmu_ctrlmode_out (emmu_ctrlmode_out[3:0]),
.emmu_dstaddr_out (emmu_dstaddr_out[63:0]),
.emmu_srcaddr_out (emmu_srcaddr_out[AW-1:0]),
.emmu_data_out (emmu_data_out[DW-1:0]),
// Inputs
.clk (clk),
.mmu_en (mmu_en),
.mi_en (mi_en),
.mi_we (mi_we[3:0]),
.mi_addr ({3'b000,mi_addr[12:0]}),
.mi_din (mi_din[31:0]),
.emesh_access_in (emesh_access_in),
.emesh_write_in (emesh_write_in),
.emesh_datamode_in (emesh_datamode_in[1:0]),
.emesh_ctrlmode_in (emesh_ctrlmode_in[3:0]),
.emesh_dstaddr_in (emesh_dstaddr_in[AW-1:0]),
.emesh_srcaddr_in (emesh_srcaddr_in[AW-1:0]),
.emesh_data_in (emesh_data_in[DW-1:0]));
endmodule // dv_emmu
// Local Variables:
// verilog-library-directories:("." "../hdl")
// End:

39
edma/dv/dv_emmu_tb.v
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module dv_emmu_tb;
reg clk;
reg reset;
reg go;
//Clock
always
#10 clk = ~clk;
initial
begin
$display($time, " << Starting the Simulation >>");
#0
clk = 1'b0; // at time 0
reset = 1'b1; // reset is active
#100
reset = 1'b0; // at time 100 release reset
#100
go = 1'b1;
#10000
$finish;
end
//Waveform dump
initial
begin
$dumpfile("test.vcd");
$dumpvars(0, dv_emmu);
end
dv_emmu dv_emmu
(.clk (clk),
.reset (reset),
.go (go));
endmodule

34
edma/dv/emmu.cpp
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#include <verilated.h>
#include <verilated_vcd_c.h>
#include "Vdv_emmu__Syms.h"
int main(int argc, char **argv, char **env)
{
Verilated::commandArgs(argc, argv);
uint64_t t;
//VCD stuff
Verilated::traceEverOn(true);
VerilatedVcdC* tfp = new VerilatedVcdC;
//char *vcdFileName;
Vdv_emmu* top = new Vdv_emmu;
top->trace(tfp, 99);
tfp->open("test.vcd"/*vcdFileName*/);
//Init values
top->clk = 0;
top->reset = 1;
top->go = 0;
while(t<100000) {
if (t==100) top->reset = 0;
if (t==10000) top->go = 1;
top->eval();
top->clk = !top->clk;
tfp->dump((vluint64_t)t);
t++;
}
tfp->close();
}

8
edma/dv/run.sh
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#!/bin/bash
#Compiling sim
iverilog
-y ../hdl \
dv_edma.v
#Running sim
./a.out