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[/] [openmsp430/] [trunk/] [core/] [sim/] [rtl_sim/] [src/] [clock_module_asic.v] - Rev 202
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/*===========================================================================*/ /* Copyright (C) 2001 Authors */ /* */ /* 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 source file is free software; you can redistribute it and/or modify */ /* it under the terms of the GNU Lesser General Public License as published */ /* by the Free Software Foundation; either version 2.1 of the License, or */ /* (at your option) any later version. */ /* */ /* This source is distributed in the hope that it will be useful, but WITHOUT*/ /* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or */ /* FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public */ /* License for more details. */ /* */ /* You should have received a copy of the GNU Lesser General Public License */ /* along with this source; if not, write to the Free Software Foundation, */ /* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ /* */ /*===========================================================================*/ /* CLOCK MODULE */ /*---------------------------------------------------------------------------*/ /* Test the clock module: */ /* - Check the ACLK and SMCLK clock generation. */ /* */ /* Author(s): */ /* - Olivier Girard, olgirard@gmail.com */ /* */ /*---------------------------------------------------------------------------*/ /* $Rev: 19 $ */ /* $LastChangedBy: olivier.girard $ */ /* $LastChangedDate: 2009-08-04 23:47:15 +0200 (Tue, 04 Aug 2009) $ */ /*===========================================================================*/ `define LONG_TIMEOUT integer dco_clk_counter; always @ (negedge dco_clk) dco_clk_counter <= dco_clk_counter+1; integer lfxt_clk_counter; always @ (negedge lfxt_clk) lfxt_clk_counter <= lfxt_clk_counter+1; integer mclk_counter; always @ (posedge mclk) mclk_counter <= mclk_counter+1; integer aclk_counter; always @ (negedge aclk) aclk_counter <= aclk_counter+1; integer smclk_counter; always @ (negedge smclk) smclk_counter <= smclk_counter+1; integer dbg_clk_counter; always @ (negedge dbg_clk) dbg_clk_counter <= dbg_clk_counter+1; reg [15:0] reg_val; reg [15:0] bcsctl1_mask; reg [15:0] bcsctl2_mask; initial begin $display(" ==============================================="); $display("| START SIMULATION |"); $display(" ==============================================="); repeat(5) @(posedge mclk); stimulus_done = 0; force tb_openMSP430.dut.wdt_reset = 1'b0; `ifdef ASIC_CLOCKING // MCLK GENERATION: SELECTING DCO_CLK //-------------------------------------------------------- // ------- Divider /1 ---------- @(r15 === 16'h0001); @(posedge mclk); #1; dco_clk_counter = 0; mclk_counter = 0; repeat(735) @(posedge dco_clk); #1; if (dco_clk_counter !== 735) tb_error("====== CLOCK GENERATOR: MCLK - DCO_CLK INPUT (DIV /1) - TEST 1 ====="); if (mclk_counter !== 735) tb_error("====== CLOCK GENERATOR: MCLK - DCO_CLK INPUT (DIV /1) - TEST 2 ====="); `ifdef MCLK_DIVIDER // ------- Divider /2 ---------- @(r15 === 16'h0002); @(posedge mclk); #1; dco_clk_counter = 0; mclk_counter = 0; repeat(735) @(posedge dco_clk); #1; if (dco_clk_counter !== 735) tb_error("====== CLOCK GENERATOR: MCLK - DCO_CLK INPUT (DIV /2) - TEST 1 ====="); if (mclk_counter !== 367) tb_error("====== CLOCK GENERATOR: MCLK - DCO_CLK INPUT (DIV /2) - TEST 2 ====="); // ------- Divider /4 ---------- @(r15 === 16'h0003); @(posedge mclk); #1; dco_clk_counter = 0; mclk_counter = 0; repeat(735) @(posedge dco_clk); #1; if (dco_clk_counter !== 735) tb_error("====== CLOCK GENERATOR: MCLK - DCO_CLK INPUT (DIV /4) - TEST 1 ====="); if (mclk_counter !== 183) tb_error("====== CLOCK GENERATOR: MCLK - DCO_CLK INPUT (DIV /4) - TEST 2 ====="); // ------- Divider /8 ---------- @(r15 === 16'h0004); @(posedge mclk); #1; dco_clk_counter = 0; mclk_counter = 0; repeat(735) @(posedge dco_clk); #1; if (dco_clk_counter !== 735) tb_error("====== CLOCK GENERATOR: MCLK - DCO_CLK INPUT (DIV /8) - TEST 1 ====="); if (mclk_counter !== 91) tb_error("====== CLOCK GENERATOR: MCLK - DCO_CLK INPUT (DIV /8) - TEST 2 ====="); `else // ------- Divider /2 ---------- @(r15 === 16'h0002); @(posedge dco_clk); #1; dco_clk_counter = 0; mclk_counter = 0; repeat(735) @(posedge dco_clk); #1; if (dco_clk_counter !== 735) tb_error("====== CLOCK GENERATOR: MCLK - DCO_CLK INPUT (DIV /2) - TEST 1 ====="); if (mclk_counter !== 735) tb_error("====== CLOCK GENERATOR: MCLK - DCO_CLK INPUT (DIV /2) - TEST 2 ====="); // ------- Divider /4 ---------- @(r15 === 16'h0003); @(posedge dco_clk); #1; dco_clk_counter = 0; mclk_counter = 0; repeat(735) @(posedge dco_clk); #1; if (dco_clk_counter !== 735) tb_error("====== CLOCK GENERATOR: MCLK - DCO_CLK INPUT (DIV /4) - TEST 1 ====="); if (mclk_counter !== 735) tb_error("====== CLOCK GENERATOR: MCLK - DCO_CLK INPUT (DIV /4) - TEST 2 ====="); // ------- Divider /8 ---------- @(r15 === 16'h0004); @(posedge dco_clk); #1; dco_clk_counter = 0; mclk_counter = 0; repeat(735) @(posedge dco_clk); #1; if (dco_clk_counter !== 735) tb_error("====== CLOCK GENERATOR: MCLK - DCO_CLK INPUT (DIV /8) - TEST 1 ====="); if (mclk_counter !== 735) tb_error("====== CLOCK GENERATOR: MCLK - DCO_CLK INPUT (DIV /8) - TEST 2 ====="); `endif @(r15 === 16'h1000); // MCLK GENERATION: SELECTING LFXT_CLK //-------------------------------------------------------- // VERIFICATION DONE IN THE "CLOC_MODULE_ASIC_MCLK" PATTERN @(r15 === 16'h2000); // ACLK GENERATION //-------------------------------------------------------- // ------- Divider /1 ---------- @(r15 === 16'h2001); `ifdef LFXT_DOMAIN @(posedge lfxt_clk); `else @(posedge dco_clk); `endif #1; dco_clk_counter = 0; lfxt_clk_counter = 0; aclk_counter = 0; `ifdef LFXT_DOMAIN repeat(54) @(posedge lfxt_clk); if (lfxt_clk_counter !== 54) tb_error("====== CLOCK GENERATOR: ACLK (DIV /1) - TEST 1 ====="); if (aclk_counter !== 54) tb_error("====== CLOCK GENERATOR: ACLK (DIV /1) - TEST 2 ====="); `else repeat(54) @(posedge dco_clk); #1; if (dco_clk_counter !== 54) tb_error("====== CLOCK GENERATOR: ACLK (DIV /1) - TEST 1 ====="); if (aclk_counter !== 54) tb_error("====== CLOCK GENERATOR: ACLK (DIV /1) - TEST 2 ====="); `endif `ifdef ACLK_DIVIDER // ------- Divider /2 ---------- @(r15 === 16'h2002); `ifdef LFXT_DOMAIN @(posedge lfxt_clk); `else @(posedge dco_clk); `endif #1; dco_clk_counter = 0; lfxt_clk_counter = 0; aclk_counter = 0; `ifdef LFXT_DOMAIN repeat(54) @(posedge lfxt_clk); #1; if (lfxt_clk_counter !== 54) tb_error("====== CLOCK GENERATOR: ACLK (DIV /2) - TEST 1 ====="); if (aclk_counter !== 28) tb_error("====== CLOCK GENERATOR: ACLK (DIV /2) - TEST 2 ====="); `else repeat(54) @(posedge dco_clk); #1; if (dco_clk_counter !== 54) tb_error("====== CLOCK GENERATOR: ACLK (DIV /2) - TEST 1 ====="); if (aclk_counter !== 27) tb_error("====== CLOCK GENERATOR: ACLK (DIV /2) - TEST 2 ====="); `endif // ------- Divider /4 ---------- @(r15 === 16'h2003); `ifdef LFXT_DOMAIN @(posedge lfxt_clk); `else @(posedge dco_clk); `endif #1; dco_clk_counter = 0; lfxt_clk_counter = 0; aclk_counter = 0; `ifdef LFXT_DOMAIN repeat(54) @(posedge lfxt_clk); if (lfxt_clk_counter !== 54) tb_error("====== CLOCK GENERATOR: ACLK (DIV /4) - TEST 1 ====="); if (aclk_counter !== 14) tb_error("====== CLOCK GENERATOR: ACLK (DIV /4) - TEST 2 ====="); `else repeat(54) @(posedge dco_clk); if (dco_clk_counter !== 54) tb_error("====== CLOCK GENERATOR: ACLK (DIV /4) - TEST 1 ====="); if (aclk_counter !== 14) tb_error("====== CLOCK GENERATOR: ACLK (DIV /4) - TEST 2 ====="); `endif // ------- Divider /8 ---------- @(r15 === 16'h2004); `ifdef LFXT_DOMAIN @(posedge lfxt_clk); `else @(posedge dco_clk); `endif #1; dco_clk_counter = 0; lfxt_clk_counter = 0; aclk_counter = 0; `ifdef LFXT_DOMAIN repeat(54) @(posedge lfxt_clk); if (lfxt_clk_counter !== 54) tb_error("====== CLOCK GENERATOR: ACLK (DIV /8) - TEST 1 ====="); if (aclk_counter !== 7) tb_error("====== CLOCK GENERATOR: ACLK (DIV /8) - TEST 2 ====="); `else repeat(54) @(posedge dco_clk); if (dco_clk_counter !== 54) tb_error("====== CLOCK GENERATOR: ACLK (DIV /8) - TEST 1 ====="); if (aclk_counter !== 7) tb_error("====== CLOCK GENERATOR: ACLK (DIV /8) - TEST 2 ====="); `endif `else // ------- Divider /2 ---------- @(r15 === 16'h2002); `ifdef LFXT_DOMAIN @(posedge lfxt_clk); `else @(posedge dco_clk); `endif #1; dco_clk_counter = 0; lfxt_clk_counter = 0; aclk_counter = 0; `ifdef LFXT_DOMAIN repeat(54) @(posedge lfxt_clk); #1; if (lfxt_clk_counter !== 54) tb_error("====== CLOCK GENERATOR: ACLK (DIV /2) - TEST 1 ====="); if (aclk_counter !== 54) tb_error("====== CLOCK GENERATOR: ACLK (DIV /2) - TEST 2 ====="); `else repeat(54) @(posedge dco_clk); #1; if (dco_clk_counter !== 54) tb_error("====== CLOCK GENERATOR: ACLK (DIV /2) - TEST 1 ====="); if (aclk_counter !== 54) tb_error("====== CLOCK GENERATOR: ACLK (DIV /2) - TEST 2 ====="); `endif // ------- Divider /4 ---------- @(r15 === 16'h2003); `ifdef LFXT_DOMAIN @(posedge lfxt_clk); `else @(posedge dco_clk); `endif #1; dco_clk_counter = 0; lfxt_clk_counter = 0; aclk_counter = 0; `ifdef LFXT_DOMAIN repeat(54) @(posedge lfxt_clk); #1; if (lfxt_clk_counter !== 54) tb_error("====== CLOCK GENERATOR: ACLK (DIV /4) - TEST 1 ====="); if (aclk_counter !== 54) tb_error("====== CLOCK GENERATOR: ACLK (DIV /4) - TEST 2 ====="); `else repeat(54) @(posedge dco_clk); #1; if (dco_clk_counter !== 54) tb_error("====== CLOCK GENERATOR: ACLK (DIV /4) - TEST 1 ====="); if (aclk_counter !== 54) tb_error("====== CLOCK GENERATOR: ACLK (DIV /4) - TEST 2 ====="); `endif // ------- Divider /8 ---------- @(r15 === 16'h2004); `ifdef LFXT_DOMAIN @(posedge lfxt_clk); `else @(posedge dco_clk); `endif #1; dco_clk_counter = 0; lfxt_clk_counter = 0; aclk_counter = 0; `ifdef LFXT_DOMAIN repeat(54) @(posedge lfxt_clk); #1; if (lfxt_clk_counter !== 54) tb_error("====== CLOCK GENERATOR: ACLK (DIV /8) - TEST 1 ====="); if (aclk_counter !== 54) tb_error("====== CLOCK GENERATOR: ACLK (DIV /8) - TEST 2 ====="); `else repeat(54) @(posedge dco_clk); #1; if (dco_clk_counter !== 54) tb_error("====== CLOCK GENERATOR: ACLK (DIV /8) - TEST 1 ====="); if (aclk_counter !== 54) tb_error("====== CLOCK GENERATOR: ACLK (DIV /8) - TEST 2 ====="); `endif `endif @(r15 === 16'h3000); // SMCLK GENERATION - DCO_CLK INPUT //-------------------------------------------------------- // ------- Divider /1 ---------- @(r15 === 16'h3001); @(posedge dco_clk); #1; dco_clk_counter = 0; smclk_counter = 0; repeat(600) @(posedge dco_clk); if (dco_clk_counter !== 600) tb_error("====== CLOCK GENERATOR: SMCLK - DCO_CLK INPUT (DIV /1) - TEST 1 ====="); if (smclk_counter !== 600) tb_error("====== CLOCK GENERATOR: SMCLK - DCO_CLK INPUT (DIV /1) - TEST 2 ====="); `ifdef SMCLK_DIVIDER // ------- Divider /2 ---------- @(r15 === 16'h3002); @(posedge dco_clk); #1; dco_clk_counter = 0; smclk_counter = 0; repeat(600) @(posedge dco_clk); if (dco_clk_counter !== 600) tb_error("====== CLOCK GENERATOR: SMCLK - DCO_CLK INPUT (DIV /2) - TEST 1 ====="); if (smclk_counter !== 300) tb_error("====== CLOCK GENERATOR: SMCLK - DCO_CLK INPUT (DIV /2) - TEST 2 ====="); // ------- Divider /4 ---------- @(r15 === 16'h3003); @(posedge dco_clk); #1; dco_clk_counter = 0; smclk_counter = 0; repeat(600) @(posedge dco_clk); if (dco_clk_counter !== 600) tb_error("====== CLOCK GENERATOR: SMCLK - DCO_CLK INPUT (DIV /4) - TEST 1 ====="); if (smclk_counter !== 150) tb_error("====== CLOCK GENERATOR: SMCLK - DCO_CLK INPUT (DIV /4) - TEST 2 ====="); // ------- Divider /8 ---------- @(r15 === 16'h3004); @(posedge dco_clk); #1; dco_clk_counter = 0; smclk_counter = 0; repeat(600) @(posedge dco_clk); if (dco_clk_counter !== 600) tb_error("====== CLOCK GENERATOR: SMCLK - DCO_CLK INPUT (DIV /8) - TEST 1 ====="); if (smclk_counter !== 75) tb_error("====== CLOCK GENERATOR: SMCLK - DCO_CLK INPUT (DIV /8) - TEST 2 ====="); `else // ------- Divider /2 ---------- @(r15 === 16'h3002); @(posedge dco_clk); #1; dco_clk_counter = 0; smclk_counter = 0; repeat(600) @(posedge dco_clk); if (dco_clk_counter !== 600) tb_error("====== CLOCK GENERATOR: SMCLK - DCO_CLK INPUT (DIV /2) - TEST 1 ====="); if (smclk_counter !== 600) tb_error("====== CLOCK GENERATOR: SMCLK - DCO_CLK INPUT (DIV /2) - TEST 2 ====="); // ------- Divider /4 ---------- @(r15 === 16'h3003); @(posedge dco_clk); #1; dco_clk_counter = 0; smclk_counter = 0; repeat(600) @(posedge dco_clk); if (dco_clk_counter !== 600) tb_error("====== CLOCK GENERATOR: SMCLK - DCO_CLK INPUT (DIV /4) - TEST 1 ====="); if (smclk_counter !== 600) tb_error("====== CLOCK GENERATOR: SMCLK - DCO_CLK INPUT (DIV /4) - TEST 2 ====="); // ------- Divider /8 ---------- @(r15 === 16'h3004); @(posedge dco_clk); #1; dco_clk_counter = 0; smclk_counter = 0; repeat(600) @(posedge dco_clk); if (dco_clk_counter !== 600) tb_error("====== CLOCK GENERATOR: SMCLK - DCO_CLK INPUT (DIV /8) - TEST 1 ====="); if (smclk_counter !== 600) tb_error("====== CLOCK GENERATOR: SMCLK - DCO_CLK INPUT (DIV /8) - TEST 2 ====="); `endif @(r15 === 16'h4000); // SMCLK GENERATION - LFXT_CLK INPUT //-------------------------------------------------------- // VERIFICATION DONE IN THE "CLOC_MODULE_ASIC_SMCLK" PATTERN @(r15 === 16'h5000); // CPU ENABLE - CPU_EN INPUT / DBG ENABLE - DBG_EN INPUT //-------------------------------------------------------- @(r15 === 16'h5001); repeat(50) @(negedge dco_clk); if (dbg_freeze == 1'b1) tb_error("====== DBG_FREEZE signal is active (test 1) ====="); cpu_en = 1'b0; #(3*763*2); reg_val = r14; // Read R14 register & initialize mclk/smclk/aclk counters mclk_counter = 0; aclk_counter = 0; smclk_counter = 0; #(50*500); // Make sure that the CPU is stopped if (reg_val !== r14) tb_error("====== CPU is not stopped (test 3) ====="); if (mclk_counter !== 0) tb_error("====== MCLK is not stopped (test 4) ====="); `ifdef OSCOFF_EN if (aclk_counter !== 0) tb_error("====== ACLK is not stopped (test 5) ====="); `else `ifdef LFXT_DOMAIN `ifdef ACLK_DIVIDER if (aclk_counter !== 0) tb_error("====== ACLK is running (test 5) ====="); `else if (aclk_counter !== 17) tb_error("====== ACLK is not running (test 5) ====="); `endif `else if (aclk_counter !== 0) tb_error("====== ACLK is running (test 5) ====="); `endif `endif if (smclk_counter !== 0) tb_error("====== SMCLK is not stopped (test 6) ====="); cpu_en = 1'b1; #(50*500); // Make sure that the CPU runs again if (reg_val == r14) tb_error("====== CPU is not running (test 7) ====="); if (mclk_counter == 0) tb_error("====== MCLK is not running (test 8) ====="); if (aclk_counter == 0) tb_error("====== ACLK is not running (test 9) ====="); if (smclk_counter == 0) tb_error("====== SMCLK is not running (test 10) ====="); @(r15 === 16'h5002); `ifdef DBG_EN repeat(50) @(posedge dco_clk); if (dbg_freeze == 1'b1) tb_error("====== DBG_FREEZE signal is active (test 1) ====="); if (dbg_rst == 1'b0) tb_error("====== DBG_RST signal is not active (test 2) ====="); dbg_en = 1'b1; repeat(6) @(posedge mclk); reg_val = r14; // Read R14 register & initialize mclk/smclk/aclk/dbg_clk counters mclk_counter = 0; aclk_counter = 0; smclk_counter = 0; dbg_clk_counter = 0; if (dbg_freeze == 1'b1) tb_error("====== DBG_FREEZE signal is not active (test 3) ====="); if (dbg_rst !== 1'b0) tb_error("====== DBG_RST signal is active (test 4) ====="); repeat(500) @(posedge dco_clk); // Make sure that the DBG interface runs if (reg_val == r14) tb_error("====== CPU is stopped (test 5) ====="); if (mclk_counter == 0) tb_error("====== MCLK is stopped (test 6) ====="); if (aclk_counter == 0) tb_error("====== ACLK is stopped (test 7) ====="); if (smclk_counter == 0) tb_error("====== SMCLK is stopped (test 8) ====="); if (dbg_clk_counter == 0) tb_error("====== DBG_CLK is stopped (test 9) ====="); if (dbg_freeze == 1'b1) tb_error("====== DBG_FREEZE signal is active (test 10) ====="); if (dbg_rst !== 1'b0) tb_error("====== DBG_RST signal is active (test 11) ====="); dbg_en = 1'b0; repeat(6) @(posedge mclk); reg_val = r14; // Read R14 register & initialize mclk/smclk/aclk/dbg_clk counters mclk_counter = 0; aclk_counter = 0; smclk_counter = 0; dbg_clk_counter = 0; if (dbg_freeze == 1'b1) tb_error("====== DBG_FREEZE signal is not active (test 12) ====="); if (dbg_rst == 1'b0) tb_error("====== DBG_RST signal is not active (test 13) ====="); repeat(500) @(posedge dco_clk); // Make sure that the DBG interface is stopped if (reg_val == r14) tb_error("====== CPU is not running (test 14) ====="); if (mclk_counter == 0) tb_error("====== MCLK is not running (test 15) ====="); if (aclk_counter == 0) tb_error("====== ACLK is not running (test 16) ====="); if (smclk_counter == 0) tb_error("====== SMCLK is not running (test 17) ====="); if (dbg_clk_counter !== 0) tb_error("====== DBG_CLK is not stopped (test 18) ====="); if (dbg_freeze == 1'b1) tb_error("====== DBG_FREEZE signal is active (test 19) ====="); if (dbg_rst == 1'b0) tb_error("====== DBG_RST signal is not active (test 20) ====="); if (r15 !== 16'h5002) tb_error("====== DBG_EN did generate a PUC reset (test 21) ====="); `endif @(r15 === 16'h6000); // RD/WR ACCESS TO REGISTERS //-------------------------------------------------------- bcsctl1_mask = 16'h0000; bcsctl2_mask = 16'h0000; `ifdef ASIC_CLOCKING `ifdef ACLK_DIVIDER bcsctl1_mask = bcsctl1_mask | 16'h0030; `endif `ifdef DMA_IF_EN `ifdef CPUOFF_EN bcsctl1_mask = bcsctl1_mask | 16'h0001; `endif `ifdef OSCOFF_EN bcsctl1_mask = bcsctl1_mask | 16'h0002; `endif `ifdef SCG0_EN bcsctl1_mask = bcsctl1_mask | 16'h0004; `endif `ifdef SCG1_EN bcsctl1_mask = bcsctl1_mask | 16'h0008; `endif `endif `else bcsctl1_mask = bcsctl1_mask | 16'h0030; `endif `ifdef MCLK_MUX bcsctl2_mask = bcsctl2_mask | 16'h0080; `endif `ifdef MCLK_DIVIDER bcsctl2_mask = bcsctl2_mask | 16'h0030; `endif `ifdef ASIC_CLOCKING `ifdef SMCLK_MUX bcsctl2_mask = bcsctl2_mask | 16'h0008; `endif `ifdef SMCLK_DIVIDER bcsctl2_mask = bcsctl2_mask | 16'h0006; `endif `else bcsctl2_mask = bcsctl2_mask | 16'h0008; bcsctl2_mask = bcsctl2_mask | 16'h0006; `endif @(r15 === 16'h7000); if (r4 !== 16'h0000) tb_error("====== BCSCTL1 rd/wr access error (test 1) ====="); if (r5 !== 16'h0000) tb_error("====== BCSCTL2 rd/wr access error (test 1) ====="); if (r6 !== bcsctl1_mask) tb_error("====== BCSCTL1 rd/wr access error (test 2) ====="); if (r7 !== 16'h0000) tb_error("====== BCSCTL2 rd/wr access error (test 2) ====="); if (r8 !== 16'h0000) tb_error("====== BCSCTL1 rd/wr access error (test 3) ====="); if (r9 !== 16'h0000) tb_error("====== BCSCTL2 rd/wr access error (test 3) ====="); if (r10 !== 16'h0000) tb_error("====== BCSCTL1 rd/wr access error (test 4) ====="); if (r11 !== bcsctl2_mask) tb_error("====== BCSCTL2 rd/wr access error (test 4) ====="); if (r12 !== 16'h0000) tb_error("====== BCSCTL1 rd/wr access error (test 5) ====="); if (r13 !== 16'h0000) tb_error("====== BCSCTL2 rd/wr access error (test 5) ====="); `else tb_skip_finish("| (this test is not supported in FPGA mode) |"); `endif stimulus_done = 1; end