mirror of https://github.com/lnis-uofu/SOFA.git
204 lines
5.8 KiB
Verilog
204 lines
5.8 KiB
Verilog
//-------------------------------------------
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// Verilog Testbench for Verifying
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// Scan Chain of a FPGA
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// Description: This test is applicable to FPGAs which have a built-in scan
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// chain. It will feed a pulse to the head of the scan chain and
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// check if the pulse is outputted by the tail of the can chain
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// in a given time period
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//
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// Note: This test bench is tuned for the pre PnR netlists
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// Author: Xifan TANG
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// Organization: University of Utah
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//-------------------------------------------
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//----- Time scale -----
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`timescale 1ns / 1ps
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// Design parameter for FPGA I/O sizes
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//`define FPGA_IO_SIZE 144
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//
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// Design parameter for FPGA scan-chain sizes
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//`define FPGA_SCANCHAIN_SIZE 2304
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module scff_test_post_pnr_autocheck_top_tb;
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// ----- Local wires for global ports of FPGA fabric -----
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wire [0:0] pReset;
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wire [0:0] prog_clk;
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wire [0:0] Test_en;
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wire [0:0] clk;
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wire [0:0] Reset;
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// ----- Local wires for I/Os of FPGA fabric -----
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wire [0:`FPGA_IO_SIZE - 1] gfpga_pad_EMBEDDED_IO_HD_SOC_IN;
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wire [0:`FPGA_IO_SIZE - 1] gfpga_pad_EMBEDDED_IO_HD_SOC_OUT;
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wire [0:`FPGA_IO_SIZE - 1] gfpga_pad_EMBEDDED_IO_HD_SOC_DIR;
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reg [0:0] prog_clock_reg;
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wire [0:0] prog_clock;
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wire [0:0] op_clock;
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reg [0:0] op_clock_reg;
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reg [0:0] prog_reset;
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reg [0:0] prog_set;
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reg [0:0] greset;
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reg [0:0] gset;
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// ---- Configuration-chain head -----
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wire [0:0] ccff_head;
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// ---- Configuration-chain tail -----
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wire [0:0] ccff_tail;
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// ---- Scan-chain head -----
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reg [0:0] sc_head;
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// ---- Scan-chain tail -----
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wire [0:0] sc_tail;
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wire [0:0] IO_ISOL_N;
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// ----- Counters for error checking -----
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integer num_clock_cycles = 0;
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integer num_errors = 0;
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integer num_checked_points = 0;
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// Indicate when configuration should be finished
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reg scan_done = 0;
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initial
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begin
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scan_done = 1'b0;
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end
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// ----- Begin raw programming clock signal generation -----
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initial
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begin
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prog_clock_reg[0] = 1'b0;
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end
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// ----- End raw programming clock signal generation -----
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// ----- Begin raw operating clock signal generation -----
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initial
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begin
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op_clock_reg[0] = 1'b0;
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end
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always
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begin
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#5 op_clock_reg[0] = ~op_clock_reg[0];
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end
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// ----- End raw operating clock signal generation -----
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// ----- Actual operating clock is triggered only when scan_done is enabled -----
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assign prog_clock[0] = prog_clock_reg[0] & ~greset;
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assign op_clock[0] = op_clock_reg[0] & ~greset;
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// ----- Begin programming reset signal generation -----
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initial
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begin
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prog_reset[0] = 1'b0;
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end
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// ----- End programming reset signal generation -----
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// ----- Begin programming set signal generation -----
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initial
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begin
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prog_set[0] = 1'b0;
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end
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// ----- End programming set signal generation -----
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// ----- Begin operating reset signal generation -----
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// ----- Reset signal is disabled always -----
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initial
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begin
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greset[0] = 1'b1;
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#10 greset[0] = 1'b0;
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end
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// ----- End operating reset signal generation -----
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// ----- Begin operating set signal generation: always disabled -----
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initial
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begin
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gset[0] = 1'b0;
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end
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// ----- End operating set signal generation: always disabled -----
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// ----- Begin connecting global ports of FPGA fabric to stimuli -----
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assign clk[0] = op_clock[0];
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assign prog_clk[0] = prog_clock[0];
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assign pReset[0] = ~prog_reset[0];
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assign Reset[0] = ~greset[0];
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assign Test_en[0] = ~greset;
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assign ccff_head[0] = 1'b0;
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assign IO_ISOL_N[0] = 1'b0;
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// ----- End connecting global ports of FPGA fabric to stimuli -----
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// ----- FPGA top-level module to be capsulated -----
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fpga_core FPGA_DUT (
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.pReset(pReset[0]),
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.prog_clk(prog_clk[0]),
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.Test_en(Test_en[0]),
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.clk(clk[0]),
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.Reset(Reset[0]),
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.gfpga_pad_EMBEDDED_IO_HD_SOC_IN(gfpga_pad_EMBEDDED_IO_HD_SOC_IN[0:`FPGA_IO_SIZE - 1]),
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.gfpga_pad_EMBEDDED_IO_HD_SOC_OUT(gfpga_pad_EMBEDDED_IO_HD_SOC_OUT[0:`FPGA_IO_SIZE - 1]),
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.gfpga_pad_EMBEDDED_IO_HD_SOC_DIR(gfpga_pad_EMBEDDED_IO_HD_SOC_DIR[0:`FPGA_IO_SIZE - 1]),
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.ccff_head(ccff_head[0]),
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.ccff_tail(ccff_tail[0]),
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.sc_head(sc_head[0]),
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.sc_tail(sc_tail[0]),
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`ifdef USE_POWER_PINS
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.VDD(1'b1),
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.VSS(1'b0),
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`endif
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.IO_ISOL_N(IO_ISOL_N)
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);
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// ----- Force constant '0' to FPGA I/O as this testbench only check
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// programming phase -----
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assign gfpga_pad_EMBEDDED_IO_HD_SOC_IN[0:`FPGA_IO_SIZE - 1] = {`FPGA_IO_SIZE {1'b0}};
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assign gfpga_pad_EMBEDDED_IO_HD_SOC_OUT[0:`FPGA_IO_SIZE - 1] = {`FPGA_IO_SIZE {1'b0}};
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// Generate a pulse after operating reset is disabled (in the 2nd clock
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// cycle). Then the head of scan chain should be always zero
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always @(negedge op_clock[0]) begin
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sc_head = 1'b1;
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if (0 != num_clock_cycles) begin
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sc_head = 1'b0;
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end
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end
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// ----- Count the number of programming cycles -------
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always @(posedge op_clock[0]) begin
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num_clock_cycles = num_clock_cycles + 1;
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// Indicate when scan chain loading is suppose to end
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if (`FPGA_SCANCHAIN_SIZE + 1 == num_clock_cycles) begin
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scan_done = 1'b1;
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end
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// Check the tail of scan-chain when configuration is done
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if (1'b1 == scan_done) begin
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// The tail should spit a pulse after configuration is done
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// So it should be at logic '1' and then pulled down to logic '0'
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if (0 == num_checked_points) begin
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if (sc_tail !== 1'b1) begin
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$display("Error: sc_tail = %b", sc_tail);
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num_errors = num_errors + 1;
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end
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end
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if (1 <= num_checked_points) begin
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if (sc_tail !== 1'b0) begin
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$display("Error: sc_tail = %b", sc_tail);
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num_errors = num_errors + 1;
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end
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end
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num_checked_points = num_checked_points + 1;
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end
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if (2 < num_checked_points) begin
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$display("Simulation finish with %d errors", num_errors);
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// End simulation
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$finish;
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end
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end
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endmodule
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