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///////////////////////////////////////////////////////////////////// //// //// //// WISHBONE Connection Matrix Test Cases //// //// //// //// //// //// Author: Rudolf Usselmann //// //// rudi@asics.ws //// //// //// //// //// //// Downloaded from: http://www.opencores.org/cores/wb_dma/ //// //// //// ///////////////////////////////////////////////////////////////////// //// //// //// Copyright (C) 2000 Rudolf Usselmann //// //// rudi@asics.ws //// //// //// //// This source file may be used and distributed without //// //// restriction provided that this copyright statement is not //// //// removed from the file and that any derivative work contains //// //// the original copyright notice and the associated disclaimer.//// //// //// //// THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY //// //// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED //// //// TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS //// //// FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL THE AUTHOR //// //// OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, //// //// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES //// //// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE //// //// GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR //// //// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF //// //// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT //// //// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT //// //// OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE //// //// POSSIBILITY OF SUCH DAMAGE. //// //// //// ///////////////////////////////////////////////////////////////////// // CVS Log // // $Id: tests.v,v 1.1.1.1 2003-04-19 08:40:17 johny Exp $ // // $Date: 2003-04-19 08:40:17 $ // $Revision: 1.1.1.1 $ // $Author: johny $ // $Locker: $ // $State: Exp $ // // Change History: // $Log: not supported by cvs2svn $ // Revision 1.1.1.1 2001/10/19 11:04:27 rudi // WISHBONE CONMAX IP Core // // // // // // task show_errors; begin $display("\n"); $display(" +--------------------+"); $display(" | Total ERRORS: %0d |", error_cnt); $display(" +--------------------+"); end endtask task init_all_mem; begin s0.fill_mem(1); s1.fill_mem(1); s2.fill_mem(1); s3.fill_mem(1); s4.fill_mem(1); s5.fill_mem(1); s6.fill_mem(1); s7.fill_mem(1); m0.mem_fill; m1.mem_fill; m2.mem_fill; m3.mem_fill; m4.mem_fill; m5.mem_fill; m6.mem_fill; m7.mem_fill; end endtask task verify; input master; input slave; input count; integer master, slave, count; begin verify_sub(master,slave,count,0,0); end endtask task verify_sub; input master; input slave; input count; input mo; input so; integer master, slave, count; integer mo, so; integer o; integer n; reg [31:0] mdata, sdata; begin //$display("V2: %0d %0d %0d %0d %0d",master, slave, count, mo,so); for(n=0;n<count;n=n+1) begin case(master) 0: mdata = m0.mem[n+mo]; 1: mdata = m1.mem[n+mo]; 2: mdata = m2.mem[n+mo]; 3: mdata = m3.mem[n+mo]; 4: mdata = m4.mem[n+mo]; 5: mdata = m5.mem[n+mo]; 6: mdata = m6.mem[n+mo]; 7: mdata = m7.mem[n+mo]; default: begin $display("ERROR: Illegal Master %0d", master); $finish; end endcase o = 0; case(master) 0: o = 16'h000; 1: o = 16'h040; 2: o = 16'h080; 3: o = 16'h0c0; 4: o = 16'h100; 5: o = 16'h140; 6: o = 16'h180; 7: o = 16'h1c0; endcase case(slave) 0: sdata = s0.mem[n+o+so]; 1: sdata = s1.mem[n+o+so]; 2: sdata = s2.mem[n+o+so]; 3: sdata = s3.mem[n+o+so]; 4: sdata = s4.mem[n+o+so]; 5: sdata = s5.mem[n+o+so]; 6: sdata = s6.mem[n+o+so]; 7: sdata = s7.mem[n+o+so]; default: begin $display("ERROR: Illegal Slave %0d", slave); $finish; end endcase //$display("INFO: Master[%0d]: %h - Slave[%0d]: %h (%0t)", // master, mdata, slave, sdata, $time); if(mdata !== sdata) begin $display("ERROR: Master[%0d][%0d]: %h - Slave[%0d]: %h (%0t)", master, n, mdata, slave, sdata, $time); error_cnt = error_cnt + 1; end end end endtask task test_arb1; integer n, del; reg [31:0] data; begin $display("\n\n"); $display("*****************************************************"); $display("*** Arb. 1 Test ... ***"); $display("*****************************************************\n"); del = 4; for(del = 0;del < 5; del=del+1 ) begin $display("Delay: %0d", del); init_all_mem; m1.wb_wr1( 32'hff00_0000, 4'hf, 32'h0000_a5ff); fork begin m0.wb_rd_mult( 32'h0000_0000 + (0 << 28), 4'hf, del, 4); m0.wb_rd1( 32'hff00_0000, 4'hf, data); if(data !== 32'h0000_a5ff) begin $display("ERROR: RF read mismatch: Exp. 0, Got %h", data); error_cnt = error_cnt + 1; end m0.wb_wr_mult( 32'h0000_0010 + (0 << 28), 4'hf, del, 4); m0.wb_rd_mult( 32'h0000_0020 + (0 << 28), 4'hf, del, 4); m0.wb_wr_mult( 32'h0000_0030 + (0 << 28), 4'hf, del, 4); end begin m1.wb_wr_mult( 32'h0000_0100 + (0 << 28), 4'hf, del, 4); m1.wb_rd_mult( 32'h0000_0110 + (0 << 28), 4'hf, del, 4); m1.wb_rd1( 32'hff00_0000, 4'hf, data); if(data !== 32'h0000_a5ff) begin $display("ERROR: RF read mismatch: Exp. 0, Got %h", data); error_cnt = error_cnt + 1; end m1.wb_wr_mult( 32'h0000_0120 + (0 << 28), 4'hf, del, 4); m1.wb_rd_mult( 32'h0000_0130 + (0 << 28), 4'hf, del, 4); end begin m2.wb_rd_mult( 32'h0000_0200 + (0 << 28), 4'hf, del, 4); m2.wb_wr_mult( 32'h0000_0210 + (0 << 28), 4'hf, del, 4); m2.wb_rd_mult( 32'h0000_0220 + (0 << 28), 4'hf, del, 4); m2.wb_rd1( 32'hff00_0000, 4'hf, data); if(data !== 32'h0000_a5ff) begin $display("ERROR: RF read mismatch: Exp. 0, Got %h", data); error_cnt = error_cnt + 1; end m2.wb_wr_mult( 32'h0000_0230 + (0 << 28), 4'hf, del, 4); end begin m3.wb_wr_mult( 32'h0000_0300 + (0 << 28), 4'hf, del, 4); m3.wb_rd_mult( 32'h0000_0310 + (0 << 28), 4'hf, del, 4); m3.wb_wr_mult( 32'h0000_0320 + (0 << 28), 4'hf, del, 4); m3.wb_rd_mult( 32'h0000_0330 + (0 << 28), 4'hf, del, 4); m3.wb_rd1( 32'hff00_0000, 4'hf, data); if(data !== 32'h0000_a5ff) begin $display("ERROR: RF read mismatch: Exp. a5ff, Got %h", data); error_cnt = error_cnt + 1; end end begin m4.wb_rd_mult( 32'h0000_0400 + (1 << 28), 4'hf, del, 4); m4.wb_wr_mult( 32'h0000_0410 + (1 << 28), 4'hf, del, 4); m4.wb_rd_mult( 32'h0000_0420 + (1 << 28), 4'hf, del, 4); m4.wb_wr_mult( 32'h0000_0430 + (1 << 28), 4'hf, del, 4); end begin m5.wb_rd_mult( 32'h0000_0500 + (1 << 28), 4'hf, del, 4); m5.wb_wr_mult( 32'h0000_0510 + (1 << 28), 4'hf, del, 4); m5.wb_rd_mult( 32'h0000_0520 + (1 << 28), 4'hf, del, 4); m5.wb_wr_mult( 32'h0000_0530 + (1 << 28), 4'hf, del, 4); end begin m6.wb_wr_mult( 32'h0000_0600 + (7 << 28), 4'hf, del, 4); m6.wb_rd_mult( 32'h0000_0610 + (7 << 28), 4'hf, del, 4); m6.wb_wr_mult( 32'h0000_0620 + (7 << 28), 4'hf, del, 4); m6.wb_rd_mult( 32'h0000_0630 + (7 << 28), 4'hf, del, 4); end begin m7.wb_wr_mult( 32'h0000_0700 + (7 << 28), 4'hf, del, 4); m7.wb_rd_mult( 32'h0000_0710 + (7 << 28), 4'hf, del, 4); m7.wb_wr_mult( 32'h0000_0720 + (7 << 28), 4'hf, del, 4); m7.wb_rd_mult( 32'h0000_0730 + (7 << 28), 4'hf, del, 4); end join verify(0,0,16); verify(1,0,16); verify(2,0,16); verify(3,0,16); verify(4,1,16); verify(5,1,16); verify(6,7,16); verify(7,7,16); end show_errors; $display("*****************************************************"); $display("*** Test DONE ... ***"); $display("*****************************************************\n\n"); end endtask task test_arb2; integer m, del, siz; integer n, a, b; time t[0:7]; reg [1:0] p[0:7]; begin $display("\n\n"); $display("*****************************************************"); $display("*** Arb. 2 Test ... ***"); $display("*****************************************************\n"); siz = 4; del = 0; m=0; for(m=0;m<32;m=m+1) for(del=0;del<7;del=del+1) for(siz=1;siz<5;siz=siz+1) begin init_all_mem; $display("Mode: %0d del: %0d, siz: %0d", m, del, siz); case(m) 0: begin p[7] = 2'd3; // M 7 p[6] = 2'd1; // M 6 p[5] = 2'd2; // M 5 p[4] = 2'd3; // M 4 p[3] = 2'd0; // M 3 p[2] = 2'd1; // M 2 p[1] = 2'd0; // M 1 p[0] = 2'd2; // M 0 end 4: begin p[7] = 2'd0; // M 7 p[6] = 2'd1; // M 6 p[5] = 2'd2; // M 5 p[4] = 2'd3; // M 4 p[3] = 2'd3; // M 3 p[2] = 2'd2; // M 2 p[1] = 2'd1; // M 1 p[0] = 2'd0; // M 0 end 8: begin p[7] = 2'd3; // M 7 p[6] = 2'd2; // M 6 p[5] = 2'd1; // M 5 p[4] = 2'd0; // M 4 p[3] = 2'd0; // M 3 p[2] = 2'd1; // M 2 p[1] = 2'd2; // M 1 p[0] = 2'd3; // M 0 end 12: begin p[7] = 2'd3; // M 7 p[6] = 2'd3; // M 6 p[5] = 2'd3; // M 5 p[4] = 2'd0; // M 4 p[3] = 2'd0; // M 3 p[2] = 2'd0; // M 2 p[1] = 2'd1; // M 1 p[0] = 2'd1; // M 0 end 16: begin p[7] = 2'd0; // M 7 p[6] = 2'd0; // M 6 p[5] = 2'd0; // M 5 p[4] = 2'd0; // M 4 p[3] = 2'd1; // M 3 p[2] = 2'd1; // M 2 p[1] = 2'd3; // M 1 p[0] = 2'd3; // M 0 end 20: begin p[7] = 2'd3; // M 7 p[6] = 2'd0; // M 6 p[5] = 2'd2; // M 5 p[4] = 2'd0; // M 4 p[3] = 2'd1; // M 3 p[2] = 2'd0; // M 2 p[1] = 2'd0; // M 1 p[0] = 2'd0; // M 0 end 24: begin p[7] = 2'd0; // M 7 p[6] = 2'd0; // M 6 p[5] = 2'd1; // M 5 p[4] = 2'd0; // M 4 p[3] = 2'd0; // M 3 p[2] = 2'd2; // M 2 p[1] = 2'd0; // M 1 p[0] = 2'd3; // M 0 end 28: begin p[7] = 2'd0; // M 7 p[6] = 2'd0; // M 6 p[5] = 2'd1; // M 5 p[4] = 2'd0; // M 4 p[3] = 2'd0; // M 3 p[2] = 2'd0; // M 2 p[1] = 2'd0; // M 1 p[0] = 2'd3; // M 0 end default: begin p[7] = p[7] + 1;// M 7 p[6] = p[6] + 1;// M 6 p[5] = p[5] + 1;// M 5 p[4] = p[4] + 1;// M 4 p[3] = p[3] + 1;// M 3 p[2] = p[2] + 1;// M 2 p[1] = p[1] + 1;// M 1 p[0] = p[0] + 1;// M 0 end endcase m1.wb_wr1( 32'hff00_0000, 4'hf, {16'h0000, p[7], p[6], p[5], p[4], p[3], p[2], p[1], p[0]} ); @(posedge clk); fork begin repeat(del) @(posedge clk); m0.wb_wr_mult( 32'h0000_0000 , 4'hf, del, siz); repeat(del) @(posedge clk); m0.wb_rd_mult( 32'h0000_0000 + (siz * 4), 4'hf, del, siz); repeat(del) @(posedge clk); m0.wb_wr_mult( 32'h0000_0000 + (siz * 8), 4'hf, del, siz); repeat(del) @(posedge clk); m0.wb_rd_mult( 32'h0000_0000 + (siz * 12), 4'hf, del, siz); t[0] = $time; end begin repeat(del) @(posedge clk); m1.wb_rd_mult( 32'h0000_0100 , 4'hf, del, siz); repeat(del) @(posedge clk); m1.wb_wr_mult( 32'h0000_0100 + (siz * 4), 4'hf, del, siz); repeat(del) @(posedge clk); m1.wb_rd_mult( 32'h0000_0100 + (siz * 8), 4'hf, del, siz); repeat(del) @(posedge clk); m1.wb_wr_mult( 32'h0000_0100 + (siz * 12), 4'hf, del, siz); t[1] = $time; end begin repeat(del) @(posedge clk); m2.wb_wr_mult( 32'h0000_0200 , 4'hf, del, siz); repeat(del) @(posedge clk); m2.wb_rd_mult( 32'h0000_0200 + (siz * 4), 4'hf, del, siz); repeat(del) @(posedge clk); m2.wb_wr_mult( 32'h0000_0200 + (siz * 8), 4'hf, del, siz); repeat(del) @(posedge clk); m2.wb_rd_mult( 32'h0000_0200 + (siz * 12), 4'hf, del, siz); t[2] = $time; end begin repeat(del) @(posedge clk); m3.wb_rd_mult( 32'h0000_0300 , 4'hf, del, siz); repeat(del) @(posedge clk); m3.wb_wr_mult( 32'h0000_0300 + (siz * 4), 4'hf, del, siz); repeat(del) @(posedge clk); m3.wb_rd_mult( 32'h0000_0300 + (siz * 8), 4'hf, del, siz); repeat(del) @(posedge clk); m3.wb_wr_mult( 32'h0000_0300 + (siz * 12), 4'hf, del, siz); t[3] = $time; end begin repeat(del) @(posedge clk); m4.wb_wr_mult( 32'h0000_0400 , 4'hf, del, siz); repeat(del) @(posedge clk); m4.wb_rd_mult( 32'h0000_0400 + (siz * 4), 4'hf, del, siz); repeat(del) @(posedge clk); m4.wb_wr_mult( 32'h0000_0400 + (siz * 8), 4'hf, del, siz); repeat(del) @(posedge clk); m4.wb_rd_mult( 32'h0000_0400 + (siz * 12), 4'hf, del, siz); t[4] = $time; end begin repeat(del) @(posedge clk); m5.wb_rd_mult( 32'h0000_0500 , 4'hf, del, siz); repeat(del) @(posedge clk); m5.wb_wr_mult( 32'h0000_0500 + (siz * 4), 4'hf, del, siz); repeat(del) @(posedge clk); m5.wb_rd_mult( 32'h0000_0500 + (siz * 8), 4'hf, del, siz); repeat(del) @(posedge clk); m5.wb_wr_mult( 32'h0000_0500 + (siz * 12), 4'hf, del, siz); t[5] = $time; end begin repeat(del) @(posedge clk); m6.wb_wr_mult( 32'h0000_0600 , 4'hf, del, siz); repeat(del) @(posedge clk); m6.wb_rd_mult( 32'h0000_0600 + (siz * 4), 4'hf, del, siz); repeat(del) @(posedge clk); m6.wb_wr_mult( 32'h0000_0600 + (siz * 8), 4'hf, del, siz); repeat(del) @(posedge clk); m6.wb_rd_mult( 32'h0000_0600 + (siz * 12), 4'hf, del, siz); t[6] = $time; end begin repeat(del) @(posedge clk); m7.wb_wr_mult( 32'h0000_0700 , 4'hf, del, siz); repeat(del) @(posedge clk); m7.wb_rd_mult( 32'h0000_0700 + (siz * 4), 4'hf, del, siz); repeat(del) @(posedge clk); m7.wb_wr_mult( 32'h0000_0700 + (siz * 8), 4'hf, del, siz); repeat(del) @(posedge clk); m7.wb_rd_mult( 32'h0000_0700 + (siz * 12), 4'hf, del, siz); t[7] = $time; end join verify(0,0,siz*4); verify(1,0,siz*4); verify(2,0,siz*4); verify(3,0,siz*4); verify(4,0,siz*4); verify(5,0,siz*4); verify(6,0,siz*4); verify(7,0,siz*4); for(a=0;a<8;a=a+1) for(b=0;b<8;b=b+1) if((t[a] < t[b]) & (p[a] <= p[b]) & (p[a] != p[b]) ) begin $display("ERROR: Master %0d compleated before Master %0d", a, b); $display(" M[%0d] pri: %0d (t: %0t)", a, p[a], t[a]); $display(" M[%0d] pri: %0d (t: %0t)", b, p[b], t[b]); error_cnt = error_cnt + 1; end end show_errors; $display("*****************************************************"); $display("*** Test DONE ... ***"); $display("*****************************************************\n\n"); end endtask task test_dp1; integer n; reg [3:0] s, s1, s2, s3, s4, s5, s6, s7; begin $display("\n\n"); $display("*****************************************************"); $display("*** Datapath 1 Test ... ***"); $display("*****************************************************\n"); s = 0; for(n=0;n<8;n=n+1) begin init_all_mem; $display("Mode: %0d", n); begin m0.wb_wr_mult( 32'h0000_0000 + (s << 28), 4'hf, 0, 4); m0.wb_rd_mult( 32'h0000_0010 + (s << 28), 4'hf, 0, 4); m0.wb_wr_mult( 32'h0000_0020 + (s << 28), 4'hf, 0, 4); m0.wb_rd_mult( 32'h0000_0030 + (s << 28), 4'hf, 0, 4); end begin m1.wb_wr_mult( 32'h0000_0100 + (s << 28), 4'hf, 0, 4); m1.wb_rd_mult( 32'h0000_0110 + (s << 28), 4'hf, 0, 4); m1.wb_wr_mult( 32'h0000_0120 + (s << 28), 4'hf, 0, 4); m1.wb_rd_mult( 32'h0000_0130 + (s << 28), 4'hf, 0, 4); end begin m2.wb_wr_mult( 32'h0000_0200 + (s << 28), 4'hf, 0, 4); m2.wb_rd_mult( 32'h0000_0210 + (s << 28), 4'hf, 0, 4); m2.wb_wr_mult( 32'h0000_0220 + (s << 28), 4'hf, 0, 4); m2.wb_rd_mult( 32'h0000_0230 + (s << 28), 4'hf, 0, 4); end begin m3.wb_wr_mult( 32'h0000_0300 + (s << 28), 4'hf, 0, 4); m3.wb_rd_mult( 32'h0000_0310 + (s << 28), 4'hf, 0, 4); m3.wb_wr_mult( 32'h0000_0320 + (s << 28), 4'hf, 0, 4); m3.wb_rd_mult( 32'h0000_0330 + (s << 28), 4'hf, 0, 4); end begin m4.wb_wr_mult( 32'h0000_0400 + (s << 28), 4'hf, 0, 4); m4.wb_rd_mult( 32'h0000_0410 + (s << 28), 4'hf, 0, 4); m4.wb_wr_mult( 32'h0000_0420 + (s << 28), 4'hf, 0, 4); m4.wb_rd_mult( 32'h0000_0430 + (s << 28), 4'hf, 0, 4); end begin m5.wb_wr_mult( 32'h0000_0500 + (s << 28), 4'hf, 0, 4); m5.wb_rd_mult( 32'h0000_0510 + (s << 28), 4'hf, 0, 4); m5.wb_wr_mult( 32'h0000_0520 + (s << 28), 4'hf, 0, 4); m5.wb_rd_mult( 32'h0000_0530 + (s << 28), 4'hf, 0, 4); end begin m6.wb_wr_mult( 32'h0000_0600 + (s << 28), 4'hf, 0, 4); m6.wb_rd_mult( 32'h0000_0610 + (s << 28), 4'hf, 0, 4); m6.wb_wr_mult( 32'h0000_0620 + (s << 28), 4'hf, 0, 4); m6.wb_rd_mult( 32'h0000_0630 + (s << 28), 4'hf, 0, 4); end begin m7.wb_wr_mult( 32'h0000_0700 + (s << 28), 4'hf, 0, 4); m7.wb_rd_mult( 32'h0000_0710 + (s << 28), 4'hf, 0, 4); m7.wb_wr_mult( 32'h0000_0720 + (s << 28), 4'hf, 0, 4); m7.wb_rd_mult( 32'h0000_0730 + (s << 28), 4'hf, 0, 4); end verify(0,s,16); verify(1,s,16); verify(2,s,16); verify(3,s,16); verify(4,s,16); verify(5,s,16); verify(6,s,16); verify(7,s,16); @(posedge clk); s = s + 1; // s1 = s1 + 1; // s2 = s2 + 1; // s3 = s3 + 1; // s4 = s4 - 1; // s5 = s5 - 1; // s6 = s6 - 1; // s7 = s7 - 1; @(posedge clk); end show_errors; $display("*****************************************************"); $display("*** Test DONE ... ***"); $display("*****************************************************\n\n"); end endtask task test_dp2; integer del; integer x0, x1, x2, x3, x4, x5, x6, x7; reg [3:0] m; begin $display("\n\n"); $display("*****************************************************"); $display("*** Datapath 2 Test ... ***"); $display("*****************************************************\n"); del=0; for(del=0;del<5;del=del+1) begin init_all_mem; $display("Delay: %0d", del); // fork begin for(x0=0;x0<8;x0=x0+1) m0.wb_rd_mult( 32'h0000_0000 + ((0+x0) << 28) + (x0<<4), 4'hf, del, 4); end begin for(x1=0;x1<8;x1=x1+1) m1.wb_rd_mult( 32'h0000_0100 + ((0+x1) << 28) + (x1<<4), 4'hf, del, 4); end begin for(x2=0;x2<8;x2=x2+1) m2.wb_rd_mult( 32'h0000_0200 + ((0+x2) << 28) + (x2<<4), 4'hf, del, 4); end begin for(x3=0;x3<8;x3=x3+1) m3.wb_rd_mult( 32'h0000_0300 + ((0+x3) << 28) + (x3<<4), 4'hf, del, 4); end begin for(x4=0;x4<8;x4=x4+1) m4.wb_rd_mult( 32'h0000_0400 + ((0+x4) << 28) + (x4<<4), 4'hf, del, 4); end begin for(x5=0;x5<8;x5=x5+1) m5.wb_rd_mult( 32'h0000_0500 + ((0+x5) << 28) + (x5<<4), 4'hf, del, 4); end begin for(x6=0;x6<8;x6=x6+1) m6.wb_rd_mult( 32'h0000_0600 + ((0+x6) << 28) + (x6<<4), 4'hf, del, 4); end begin for(x7=0;x7<8;x7=x7+1) m7.wb_rd_mult( 32'h0000_0700 + ((0+x7) << 28) + (x7<<4), 4'hf, del, 4); end // join for(x1=0;x1<8;x1=x1+1) for(x0=0;x0<8;x0=x0+1) begin // m = x0+x1; verify_sub(x1,x0,4,(x0*4),(x0*4)); end end show_errors; $display("*****************************************************"); $display("*** Test DONE ... ***"); $display("*****************************************************\n\n"); end endtask task test_rf; integer n, m; reg [31:0] wdata[0:15]; reg [31:0] rdata[0:15]; reg [15:0] rtmp, wtmp; begin $display("\n\n"); $display("*****************************************************"); $display("*** Register File Test ... ***"); $display("*****************************************************\n"); for(m=0;m<5;m=m+1) begin $display("Mode: %0d", m); for(n=0;n<16;n=n+1) wdata[n] = $random; for(n=0;n<16;n=n+1) case(m) 0: m0.wb_wr1(32'hff00_0000 + (n << 2), 4'hf, wdata[n]); 1: m3.wb_wr1(32'hff00_0000 + (n << 2), 4'hf, wdata[n]); 2: m5.wb_wr1(32'hff00_0000 + (n << 2), 4'hf, wdata[n]); 3: m7.wb_wr1(32'hff00_0000 + (n << 2), 4'hf, wdata[n]); 4: m7.wb_wr1(32'hff00_0000 + (n << 2), 4'hf, wdata[n]); endcase for(n=0;n<16;n=n+1) case(m) 0: m7.wb_rd1(32'hff00_0000 + (n << 2), 4'hf, rdata[n]); 1: m3.wb_rd1(32'hff00_0000 + (n << 2), 4'hf, rdata[n]); 2: m6.wb_rd1(32'hff00_0000 + (n << 2), 4'hf, rdata[n]); 3: m0.wb_rd1(32'hff00_0000 + (n << 2), 4'hf, rdata[n]); 4: m7.wb_rd1(32'hff00_0000 + (n << 2), 4'hf, rdata[n]); endcase for(n=0;n<16;n=n+1) begin rtmp = rdata[n]; wtmp = wdata[n]; if(rtmp !== wtmp) begin $display("ERROR: RF[%0d] Mismatch. Expected: %h, Got: %h (%0t)", n, wtmp, rtmp, $time); end end end show_errors; $display("*****************************************************"); $display("*** Test DONE ... ***"); $display("*****************************************************\n\n"); end endtask
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