Module Definition
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Module : rv_timer_reg_top
SCORELINECONDTOGGLEFSMBRANCHASSERT
100.00 100.00 100.00 100.00 100.00

Source File(s) :
/workspaces/repo/scratch/os_regression_2024_10_08/rv_timer-sim-vcs/default/sim-vcs/../src/lowrisc_ip_rv_timer_0.1/rtl/rv_timer_reg_top.sv

Module self-instances :
NAMESCORELINECONDTOGGLEFSMBRANCHASSERT
tb.dut.u_reg 100.00 100.00 100.00 100.00 100.00



Module Instance : tb.dut.u_reg

Instance :
SCORELINECONDTOGGLEFSMBRANCHASSERT
100.00 100.00 100.00 100.00 100.00


Instance's subtree :
SCORELINECONDTOGGLEFSMBRANCHASSERT
99.78 99.24 99.64 100.00 100.00 100.00


Parent :
SCORELINECONDTOGGLEFSMBRANCHASSERTNAME
95.83 100.00 83.33 100.00 100.00 dut


Subtrees :
NAMESCORELINECONDTOGGLEFSMBRANCHASSERT
u_alert_test 100.00 100.00
u_cfg0_prescale 100.00 100.00 100.00 100.00
u_cfg0_step 100.00 100.00 100.00 100.00
u_chk 100.00 100.00 100.00 100.00
u_compare_lower0_0 100.00 100.00 100.00 100.00
u_compare_lower0_00_qe 100.00 100.00 100.00
u_compare_upper0_0 100.00 100.00 100.00 100.00
u_compare_upper0_00_qe 100.00 100.00 100.00
u_ctrl 100.00 100.00 100.00 100.00
u_intr_enable0 100.00 100.00 100.00 100.00
u_intr_state0 100.00 100.00 100.00 100.00
u_intr_test0 100.00 100.00
u_prim_reg_we_check 100.00 100.00 100.00
u_reg_if 98.97 97.14 98.75 100.00 100.00
u_rsp_intg_gen 100.00 100.00 100.00
u_timer_v_lower0 100.00 100.00 100.00 100.00
u_timer_v_upper0 100.00 100.00 100.00 100.00


Since this is the module's only instance, the coverage report is the same as for the module.
Line Coverage for Module : rv_timer_reg_top
Line No.TotalCoveredPercent
TOTAL7575100.00
ALWAYS6844100.00
CONT_ASSIGN7711100.00
CONT_ASSIGN8911100.00
CONT_ASSIGN9011100.00
CONT_ASSIGN11811100.00
CONT_ASSIGN11911100.00
CONT_ASSIGN15911100.00
CONT_ASSIGN17311100.00
CONT_ASSIGN26711100.00
CONT_ASSIGN28111100.00
CONT_ASSIGN43311100.00
CONT_ASSIGN47311100.00
ALWAYS4791111100.00
CONT_ASSIGN49211100.00
ALWAYS49611100.00
CONT_ASSIGN51011100.00
CONT_ASSIGN51211100.00
CONT_ASSIGN51311100.00
CONT_ASSIGN51511100.00
CONT_ASSIGN51611100.00
CONT_ASSIGN51811100.00
CONT_ASSIGN51911100.00
CONT_ASSIGN52111100.00
CONT_ASSIGN52211100.00
CONT_ASSIGN52411100.00
CONT_ASSIGN52511100.00
CONT_ASSIGN52711100.00
CONT_ASSIGN52911100.00
CONT_ASSIGN53011100.00
CONT_ASSIGN53211100.00
CONT_ASSIGN53311100.00
CONT_ASSIGN53511100.00
CONT_ASSIGN53611100.00
CONT_ASSIGN53811100.00
CONT_ASSIGN53911100.00
CONT_ASSIGN54111100.00
ALWAYS5451111100.00
ALWAYS5601313100.00
CONT_ASSIGN61400
CONT_ASSIGN62211100.00
CONT_ASSIGN62311100.00

67 always_ff @(posedge clk_i or negedge rst_ni) begin 68 1/1 if (!rst_ni) begin Tests: T1 T2 T3  69 1/1 err_q <= '0; Tests: T1 T2 T3  70 1/1 end else if (intg_err || reg_we_err) begin Tests: T1 T2 T3  71 1/1 err_q <= 1'b1; Tests: T2 T5 T6  72 end MISSING_ELSE 73 end 74 75 // integrity error output is permanent and should be used for alert generation 76 // register errors are transactional 77 1/1 assign intg_err_o = err_q | intg_err | reg_we_err; Tests: T1 T2 T3  78 79 // outgoing integrity generation 80 tlul_pkg::tl_d2h_t tl_o_pre; 81 tlul_rsp_intg_gen #( 82 .EnableRspIntgGen(1), 83 .EnableDataIntgGen(1) 84 ) u_rsp_intg_gen ( 85 .tl_i(tl_o_pre), 86 .tl_o(tl_o) 87 ); 88 89 1/1 assign tl_reg_h2d = tl_i; Tests: T1 T2 T3  90 1/1 assign tl_o_pre = tl_reg_d2h; Tests: T1 T2 T3  91 92 tlul_adapter_reg #( 93 .RegAw(AW), 94 .RegDw(DW), 95 .EnableDataIntgGen(0) 96 ) u_reg_if ( 97 .clk_i (clk_i), 98 .rst_ni (rst_ni), 99 100 .tl_i (tl_reg_h2d), 101 .tl_o (tl_reg_d2h), 102 103 .en_ifetch_i(prim_mubi_pkg::MuBi4False), 104 .intg_error_o(), 105 106 .we_o (reg_we), 107 .re_o (reg_re), 108 .addr_o (reg_addr), 109 .wdata_o (reg_wdata), 110 .be_o (reg_be), 111 .busy_i (reg_busy), 112 .rdata_i (reg_rdata), 113 .error_i (reg_error) 114 ); 115 116 // cdc oversampling signals 117 118 1/1 assign reg_rdata = reg_rdata_next ; Tests: T1 T2 T3  119 1/1 assign reg_error = addrmiss | wr_err | intg_err; Tests: T11 T12 T15  120 121 // Define SW related signals 122 // Format: <reg>_<field>_{wd|we|qs} 123 // or <reg>_{wd|we|qs} if field == 1 or 0 124 logic alert_test_we; 125 logic alert_test_wd; 126 logic ctrl_we; 127 logic ctrl_qs; 128 logic ctrl_wd; 129 logic intr_enable0_we; 130 logic intr_enable0_qs; 131 logic intr_enable0_wd; 132 logic intr_state0_we; 133 logic intr_state0_qs; 134 logic intr_state0_wd; 135 logic intr_test0_we; 136 logic intr_test0_wd; 137 logic cfg0_we; 138 logic [11:0] cfg0_prescale_qs; 139 logic [11:0] cfg0_prescale_wd; 140 logic [7:0] cfg0_step_qs; 141 logic [7:0] cfg0_step_wd; 142 logic timer_v_lower0_we; 143 logic [31:0] timer_v_lower0_qs; 144 logic [31:0] timer_v_lower0_wd; 145 logic timer_v_upper0_we; 146 logic [31:0] timer_v_upper0_qs; 147 logic [31:0] timer_v_upper0_wd; 148 logic compare_lower0_0_we; 149 logic [31:0] compare_lower0_0_qs; 150 logic [31:0] compare_lower0_0_wd; 151 logic compare_upper0_0_we; 152 logic [31:0] compare_upper0_0_qs; 153 logic [31:0] compare_upper0_0_wd; 154 155 // Register instances 156 // R[alert_test]: V(True) 157 logic alert_test_qe; 158 logic [0:0] alert_test_flds_we; 159 1/1 assign alert_test_qe = &alert_test_flds_we; Tests: T11 T12 T15  160 prim_subreg_ext #( 161 .DW (1) 162 ) u_alert_test ( 163 .re (1'b0), 164 .we (alert_test_we), 165 .wd (alert_test_wd), 166 .d ('0), 167 .qre (), 168 .qe (alert_test_flds_we[0]), 169 .q (reg2hw.alert_test.q), 170 .ds (), 171 .qs () 172 ); 173 1/1 assign reg2hw.alert_test.qe = alert_test_qe; Tests: T11 T12 T15  174 175 176 // Subregister 0 of Multireg ctrl 177 // R[ctrl]: V(False) 178 prim_subreg #( 179 .DW (1), 180 .SwAccess(prim_subreg_pkg::SwAccessRW), 181 .RESVAL (1'h0), 182 .Mubi (1'b0) 183 ) u_ctrl ( 184 .clk_i (clk_i), 185 .rst_ni (rst_ni), 186 187 // from register interface 188 .we (ctrl_we), 189 .wd (ctrl_wd), 190 191 // from internal hardware 192 .de (1'b0), 193 .d ('0), 194 195 // to internal hardware 196 .qe (), 197 .q (reg2hw.ctrl[0].q), 198 .ds (), 199 200 // to register interface (read) 201 .qs (ctrl_qs) 202 ); 203 204 205 // Subregister 0 of Multireg intr_enable0 206 // R[intr_enable0]: V(False) 207 prim_subreg #( 208 .DW (1), 209 .SwAccess(prim_subreg_pkg::SwAccessRW), 210 .RESVAL (1'h0), 211 .Mubi (1'b0) 212 ) u_intr_enable0 ( 213 .clk_i (clk_i), 214 .rst_ni (rst_ni), 215 216 // from register interface 217 .we (intr_enable0_we), 218 .wd (intr_enable0_wd), 219 220 // from internal hardware 221 .de (1'b0), 222 .d ('0), 223 224 // to internal hardware 225 .qe (), 226 .q (reg2hw.intr_enable0[0].q), 227 .ds (), 228 229 // to register interface (read) 230 .qs (intr_enable0_qs) 231 ); 232 233 234 // Subregister 0 of Multireg intr_state0 235 // R[intr_state0]: V(False) 236 prim_subreg #( 237 .DW (1), 238 .SwAccess(prim_subreg_pkg::SwAccessW1C), 239 .RESVAL (1'h0), 240 .Mubi (1'b0) 241 ) u_intr_state0 ( 242 .clk_i (clk_i), 243 .rst_ni (rst_ni), 244 245 // from register interface 246 .we (intr_state0_we), 247 .wd (intr_state0_wd), 248 249 // from internal hardware 250 .de (hw2reg.intr_state0[0].de), 251 .d (hw2reg.intr_state0[0].d), 252 253 // to internal hardware 254 .qe (), 255 .q (reg2hw.intr_state0[0].q), 256 .ds (), 257 258 // to register interface (read) 259 .qs (intr_state0_qs) 260 ); 261 262 263 // Subregister 0 of Multireg intr_test0 264 // R[intr_test0]: V(True) 265 logic intr_test0_qe; 266 logic [0:0] intr_test0_flds_we; 267 1/1 assign intr_test0_qe = &intr_test0_flds_we; Tests: T4 T11 T12  268 prim_subreg_ext #( 269 .DW (1) 270 ) u_intr_test0 ( 271 .re (1'b0), 272 .we (intr_test0_we), 273 .wd (intr_test0_wd), 274 .d ('0), 275 .qre (), 276 .qe (intr_test0_flds_we[0]), 277 .q (reg2hw.intr_test0[0].q), 278 .ds (), 279 .qs () 280 ); 281 1/1 assign reg2hw.intr_test0[0].qe = intr_test0_qe; Tests: T4 T11 T12  282 283 284 // R[cfg0]: V(False) 285 // F[prescale]: 11:0 286 prim_subreg #( 287 .DW (12), 288 .SwAccess(prim_subreg_pkg::SwAccessRW), 289 .RESVAL (12'h0), 290 .Mubi (1'b0) 291 ) u_cfg0_prescale ( 292 .clk_i (clk_i), 293 .rst_ni (rst_ni), 294 295 // from register interface 296 .we (cfg0_we), 297 .wd (cfg0_prescale_wd), 298 299 // from internal hardware 300 .de (1'b0), 301 .d ('0), 302 303 // to internal hardware 304 .qe (), 305 .q (reg2hw.cfg0.prescale.q), 306 .ds (), 307 308 // to register interface (read) 309 .qs (cfg0_prescale_qs) 310 ); 311 312 // F[step]: 23:16 313 prim_subreg #( 314 .DW (8), 315 .SwAccess(prim_subreg_pkg::SwAccessRW), 316 .RESVAL (8'h1), 317 .Mubi (1'b0) 318 ) u_cfg0_step ( 319 .clk_i (clk_i), 320 .rst_ni (rst_ni), 321 322 // from register interface 323 .we (cfg0_we), 324 .wd (cfg0_step_wd), 325 326 // from internal hardware 327 .de (1'b0), 328 .d ('0), 329 330 // to internal hardware 331 .qe (), 332 .q (reg2hw.cfg0.step.q), 333 .ds (), 334 335 // to register interface (read) 336 .qs (cfg0_step_qs) 337 ); 338 339 340 // R[timer_v_lower0]: V(False) 341 prim_subreg #( 342 .DW (32), 343 .SwAccess(prim_subreg_pkg::SwAccessRW), 344 .RESVAL (32'h0), 345 .Mubi (1'b0) 346 ) u_timer_v_lower0 ( 347 .clk_i (clk_i), 348 .rst_ni (rst_ni), 349 350 // from register interface 351 .we (timer_v_lower0_we), 352 .wd (timer_v_lower0_wd), 353 354 // from internal hardware 355 .de (hw2reg.timer_v_lower0.de), 356 .d (hw2reg.timer_v_lower0.d), 357 358 // to internal hardware 359 .qe (), 360 .q (reg2hw.timer_v_lower0.q), 361 .ds (), 362 363 // to register interface (read) 364 .qs (timer_v_lower0_qs) 365 ); 366 367 368 // R[timer_v_upper0]: V(False) 369 prim_subreg #( 370 .DW (32), 371 .SwAccess(prim_subreg_pkg::SwAccessRW), 372 .RESVAL (32'h0), 373 .Mubi (1'b0) 374 ) u_timer_v_upper0 ( 375 .clk_i (clk_i), 376 .rst_ni (rst_ni), 377 378 // from register interface 379 .we (timer_v_upper0_we), 380 .wd (timer_v_upper0_wd), 381 382 // from internal hardware 383 .de (hw2reg.timer_v_upper0.de), 384 .d (hw2reg.timer_v_upper0.d), 385 386 // to internal hardware 387 .qe (), 388 .q (reg2hw.timer_v_upper0.q), 389 .ds (), 390 391 // to register interface (read) 392 .qs (timer_v_upper0_qs) 393 ); 394 395 396 // R[compare_lower0_0]: V(False) 397 logic compare_lower0_0_qe; 398 logic [0:0] compare_lower0_0_flds_we; 399 prim_flop #( 400 .Width(1), 401 .ResetValue(0) 402 ) u_compare_lower0_00_qe ( 403 .clk_i(clk_i), 404 .rst_ni(rst_ni), 405 .d_i(&compare_lower0_0_flds_we), 406 .q_o(compare_lower0_0_qe) 407 ); 408 prim_subreg #( 409 .DW (32), 410 .SwAccess(prim_subreg_pkg::SwAccessRW), 411 .RESVAL (32'hffffffff), 412 .Mubi (1'b0) 413 ) u_compare_lower0_0 ( 414 .clk_i (clk_i), 415 .rst_ni (rst_ni), 416 417 // from register interface 418 .we (compare_lower0_0_we), 419 .wd (compare_lower0_0_wd), 420 421 // from internal hardware 422 .de (1'b0), 423 .d ('0), 424 425 // to internal hardware 426 .qe (compare_lower0_0_flds_we[0]), 427 .q (reg2hw.compare_lower0_0.q), 428 .ds (), 429 430 // to register interface (read) 431 .qs (compare_lower0_0_qs) 432 ); 433 1/1 assign reg2hw.compare_lower0_0.qe = compare_lower0_0_qe; Tests: T1 T2 T3  434 435 436 // R[compare_upper0_0]: V(False) 437 logic compare_upper0_0_qe; 438 logic [0:0] compare_upper0_0_flds_we; 439 prim_flop #( 440 .Width(1), 441 .ResetValue(0) 442 ) u_compare_upper0_00_qe ( 443 .clk_i(clk_i), 444 .rst_ni(rst_ni), 445 .d_i(&compare_upper0_0_flds_we), 446 .q_o(compare_upper0_0_qe) 447 ); 448 prim_subreg #( 449 .DW (32), 450 .SwAccess(prim_subreg_pkg::SwAccessRW), 451 .RESVAL (32'hffffffff), 452 .Mubi (1'b0) 453 ) u_compare_upper0_0 ( 454 .clk_i (clk_i), 455 .rst_ni (rst_ni), 456 457 // from register interface 458 .we (compare_upper0_0_we), 459 .wd (compare_upper0_0_wd), 460 461 // from internal hardware 462 .de (1'b0), 463 .d ('0), 464 465 // to internal hardware 466 .qe (compare_upper0_0_flds_we[0]), 467 .q (reg2hw.compare_upper0_0.q), 468 .ds (), 469 470 // to register interface (read) 471 .qs (compare_upper0_0_qs) 472 ); 473 1/1 assign reg2hw.compare_upper0_0.qe = compare_upper0_0_qe; Tests: T1 T2 T3  474 475 476 477 logic [9:0] addr_hit; 478 always_comb begin 479 1/1 addr_hit = '0; Tests: T1 T2 T3  480 1/1 addr_hit[0] = (reg_addr == RV_TIMER_ALERT_TEST_OFFSET); Tests: T1 T2 T3  481 1/1 addr_hit[1] = (reg_addr == RV_TIMER_CTRL_OFFSET); Tests: T1 T2 T3  482 1/1 addr_hit[2] = (reg_addr == RV_TIMER_INTR_ENABLE0_OFFSET); Tests: T1 T2 T3  483 1/1 addr_hit[3] = (reg_addr == RV_TIMER_INTR_STATE0_OFFSET); Tests: T1 T2 T3  484 1/1 addr_hit[4] = (reg_addr == RV_TIMER_INTR_TEST0_OFFSET); Tests: T1 T2 T3  485 1/1 addr_hit[5] = (reg_addr == RV_TIMER_CFG0_OFFSET); Tests: T1 T2 T3  486 1/1 addr_hit[6] = (reg_addr == RV_TIMER_TIMER_V_LOWER0_OFFSET); Tests: T1 T2 T3  487 1/1 addr_hit[7] = (reg_addr == RV_TIMER_TIMER_V_UPPER0_OFFSET); Tests: T1 T2 T3  488 1/1 addr_hit[8] = (reg_addr == RV_TIMER_COMPARE_LOWER0_0_OFFSET); Tests: T1 T2 T3  489 1/1 addr_hit[9] = (reg_addr == RV_TIMER_COMPARE_UPPER0_0_OFFSET); Tests: T1 T2 T3  490 end 491 492 1/1 assign addrmiss = (reg_re || reg_we) ? ~|addr_hit : 1'b0 ; Tests: T1 T2 T3  493 494 // Check sub-word write is permitted 495 always_comb begin 496 1/1 wr_err = (reg_we & Tests: T1 T2 T3  497 ((addr_hit[0] & (|(RV_TIMER_PERMIT[0] & ~reg_be))) | 498 (addr_hit[1] & (|(RV_TIMER_PERMIT[1] & ~reg_be))) | 499 (addr_hit[2] & (|(RV_TIMER_PERMIT[2] & ~reg_be))) | 500 (addr_hit[3] & (|(RV_TIMER_PERMIT[3] & ~reg_be))) | 501 (addr_hit[4] & (|(RV_TIMER_PERMIT[4] & ~reg_be))) | 502 (addr_hit[5] & (|(RV_TIMER_PERMIT[5] & ~reg_be))) | 503 (addr_hit[6] & (|(RV_TIMER_PERMIT[6] & ~reg_be))) | 504 (addr_hit[7] & (|(RV_TIMER_PERMIT[7] & ~reg_be))) | 505 (addr_hit[8] & (|(RV_TIMER_PERMIT[8] & ~reg_be))) | 506 (addr_hit[9] & (|(RV_TIMER_PERMIT[9] & ~reg_be))))); 507 end 508 509 // Generate write-enables 510 1/1 assign alert_test_we = addr_hit[0] & reg_we & !reg_error; Tests: T1 T2 T3  511 512 1/1 assign alert_test_wd = reg_wdata[0]; Tests: T1 T2 T3  513 1/1 assign ctrl_we = addr_hit[1] & reg_we & !reg_error; Tests: T1 T2 T3  514 515 1/1 assign ctrl_wd = reg_wdata[0]; Tests: T1 T2 T3  516 1/1 assign intr_enable0_we = addr_hit[2] & reg_we & !reg_error; Tests: T1 T2 T3  517 518 1/1 assign intr_enable0_wd = reg_wdata[0]; Tests: T1 T2 T3  519 1/1 assign intr_state0_we = addr_hit[3] & reg_we & !reg_error; Tests: T1 T2 T3  520 521 1/1 assign intr_state0_wd = reg_wdata[0]; Tests: T1 T2 T3  522 1/1 assign intr_test0_we = addr_hit[4] & reg_we & !reg_error; Tests: T1 T2 T3  523 524 1/1 assign intr_test0_wd = reg_wdata[0]; Tests: T1 T2 T3  525 1/1 assign cfg0_we = addr_hit[5] & reg_we & !reg_error; Tests: T1 T2 T3  526 527 1/1 assign cfg0_prescale_wd = reg_wdata[11:0]; Tests: T1 T2 T3  528 529 1/1 assign cfg0_step_wd = reg_wdata[23:16]; Tests: T1 T2 T3  530 1/1 assign timer_v_lower0_we = addr_hit[6] & reg_we & !reg_error; Tests: T1 T2 T3  531 532 1/1 assign timer_v_lower0_wd = reg_wdata[31:0]; Tests: T1 T2 T3  533 1/1 assign timer_v_upper0_we = addr_hit[7] & reg_we & !reg_error; Tests: T1 T2 T3  534 535 1/1 assign timer_v_upper0_wd = reg_wdata[31:0]; Tests: T1 T2 T3  536 1/1 assign compare_lower0_0_we = addr_hit[8] & reg_we & !reg_error; Tests: T1 T2 T3  537 538 1/1 assign compare_lower0_0_wd = reg_wdata[31:0]; Tests: T1 T2 T3  539 1/1 assign compare_upper0_0_we = addr_hit[9] & reg_we & !reg_error; Tests: T1 T2 T3  540 541 1/1 assign compare_upper0_0_wd = reg_wdata[31:0]; Tests: T1 T2 T3  542 543 // Assign write-enables to checker logic vector. 544 always_comb begin 545 1/1 reg_we_check = '0; Tests: T1 T3 T4  546 1/1 reg_we_check[0] = alert_test_we; Tests: T1 T3 T4  547 1/1 reg_we_check[1] = ctrl_we; Tests: T1 T3 T4  548 1/1 reg_we_check[2] = intr_enable0_we; Tests: T1 T3 T4  549 1/1 reg_we_check[3] = intr_state0_we; Tests: T1 T3 T4  550 1/1 reg_we_check[4] = intr_test0_we; Tests: T1 T3 T4  551 1/1 reg_we_check[5] = cfg0_we; Tests: T1 T3 T4  552 1/1 reg_we_check[6] = timer_v_lower0_we; Tests: T1 T3 T4  553 1/1 reg_we_check[7] = timer_v_upper0_we; Tests: T1 T3 T4  554 1/1 reg_we_check[8] = compare_lower0_0_we; Tests: T1 T3 T4  555 1/1 reg_we_check[9] = compare_upper0_0_we; Tests: T1 T3 T4  556 end 557 558 // Read data return 559 always_comb begin 560 1/1 reg_rdata_next = '0; Tests: T1 T2 T3  561 1/1 unique case (1'b1) Tests: T1 T2 T3  562 addr_hit[0]: begin 563 1/1 reg_rdata_next[0] = '0; Tests: T1 T2 T3  564 end 565 566 addr_hit[1]: begin 567 1/1 reg_rdata_next[0] = ctrl_qs; Tests: T1 T2 T3  568 end 569 570 addr_hit[2]: begin 571 1/1 reg_rdata_next[0] = intr_enable0_qs; Tests: T1 T2 T3  572 end 573 574 addr_hit[3]: begin 575 1/1 reg_rdata_next[0] = intr_state0_qs; Tests: T1 T2 T3  576 end 577 578 addr_hit[4]: begin 579 1/1 reg_rdata_next[0] = '0; Tests: T1 T2 T3  580 end 581 582 addr_hit[5]: begin 583 1/1 reg_rdata_next[11:0] = cfg0_prescale_qs; Tests: T1 T2 T3  584 1/1 reg_rdata_next[23:16] = cfg0_step_qs; Tests: T1 T2 T3  585 end 586 587 addr_hit[6]: begin 588 1/1 reg_rdata_next[31:0] = timer_v_lower0_qs; Tests: T1 T2 T3  589 end 590 591 addr_hit[7]: begin 592 1/1 reg_rdata_next[31:0] = timer_v_upper0_qs; Tests: T1 T2 T3  593 end 594 595 addr_hit[8]: begin 596 1/1 reg_rdata_next[31:0] = compare_lower0_0_qs; Tests: T1 T2 T3  597 end 598 599 addr_hit[9]: begin 600 1/1 reg_rdata_next[31:0] = compare_upper0_0_qs; Tests: T1 T2 T3  601 end 602 603 default: begin 604 reg_rdata_next = '1; 605 end 606 endcase 607 end 608 609 // shadow busy 610 logic shadow_busy; 611 assign shadow_busy = 1'b0; 612 613 // register busy 614 unreachable assign reg_busy = shadow_busy; 615 616 // Unused signal tieoff 617 618 // wdata / byte enable are not always fully used 619 // add a blanket unused statement to handle lint waivers 620 logic unused_wdata; 621 logic unused_be; 622 1/1 assign unused_wdata = ^reg_wdata; Tests: T1 T2 T3  623 1/1 assign unused_be = ^reg_be; Tests: T1 T2 T3 

Cond Coverage for Module : rv_timer_reg_top
TotalCoveredPercent
Conditions123123100.00
Logical123123100.00
Non-Logical00
Event00

 LINE       58
 EXPRESSION (reg_we && ((!addrmiss)))
             ---1--    ------2------
-1--2-StatusTests
01CoveredT1,T2,T3
10CoveredT11,T12,T15
11CoveredT1,T3,T4

 LINE       70
 EXPRESSION (intg_err || reg_we_err)
             ----1---    -----2----
-1--2-StatusTests
00CoveredT1,T2,T3
01CoveredT2,T5,T6
10CoveredT16,T17,T18

 LINE       77
 EXPRESSION (err_q | intg_err | reg_we_err)
             --1--   ----2---   -----3----
-1--2--3-StatusTests
000CoveredT1,T2,T3
001CoveredT2,T5,T6
010CoveredT16,T17,T18
100CoveredT2,T5,T6

 LINE       119
 EXPRESSION (addrmiss | wr_err | intg_err)
             ----1---   ---2--   ----3---
-1--2--3-StatusTests
000CoveredT1,T2,T3
001CoveredT16,T17,T18
010CoveredT11,T12,T15
100CoveredT11,T12,T15

 LINE       480
 EXPRESSION (reg_addr == rv_timer_reg_pkg::RV_TIMER_ALERT_TEST_OFFSET)
            -----------------------------1----------------------------
-1-StatusTests
0CoveredT1,T2,T3
1CoveredT1,T19,T11

 LINE       481
 EXPRESSION (reg_addr == rv_timer_reg_pkg::RV_TIMER_CTRL_OFFSET)
            --------------------------1-------------------------
-1-StatusTests
0CoveredT1,T2,T3
1CoveredT1,T3,T7

 LINE       482
 EXPRESSION (reg_addr == rv_timer_reg_pkg::RV_TIMER_INTR_ENABLE0_OFFSET)
            ------------------------------1-----------------------------
-1-StatusTests
0CoveredT1,T2,T3
1CoveredT1,T3,T4

 LINE       483
 EXPRESSION (reg_addr == rv_timer_reg_pkg::RV_TIMER_INTR_STATE0_OFFSET)
            -----------------------------1-----------------------------
-1-StatusTests
0CoveredT1,T2,T3
1CoveredT1,T2,T3

 LINE       484
 EXPRESSION (reg_addr == rv_timer_reg_pkg::RV_TIMER_INTR_TEST0_OFFSET)
            -----------------------------1----------------------------
-1-StatusTests
0CoveredT1,T2,T3
1CoveredT1,T4,T8

 LINE       485
 EXPRESSION (reg_addr == rv_timer_reg_pkg::RV_TIMER_CFG0_OFFSET)
            --------------------------1-------------------------
-1-StatusTests
0CoveredT1,T2,T3
1CoveredT1,T3,T7

 LINE       486
 EXPRESSION (reg_addr == rv_timer_reg_pkg::RV_TIMER_TIMER_V_LOWER0_OFFSET)
            -------------------------------1------------------------------
-1-StatusTests
0CoveredT1,T2,T3
1CoveredT1,T3,T7

 LINE       487
 EXPRESSION (reg_addr == rv_timer_reg_pkg::RV_TIMER_TIMER_V_UPPER0_OFFSET)
            -------------------------------1------------------------------
-1-StatusTests
0CoveredT1,T2,T3
1CoveredT1,T3,T7

 LINE       488
 EXPRESSION (reg_addr == rv_timer_reg_pkg::RV_TIMER_COMPARE_LOWER0_0_OFFSET)
            --------------------------------1-------------------------------
-1-StatusTests
0CoveredT1,T2,T3
1CoveredT1,T3,T7

 LINE       489
 EXPRESSION (reg_addr == rv_timer_reg_pkg::RV_TIMER_COMPARE_UPPER0_0_OFFSET)
            --------------------------------1-------------------------------
-1-StatusTests
0CoveredT1,T2,T3
1CoveredT1,T3,T7

 LINE       492
 EXPRESSION ((reg_re || reg_we) ? ((~|addr_hit)) : 1'b0)
             ---------1--------
-1-StatusTests
0CoveredT1,T2,T3
1CoveredT1,T2,T3

 LINE       492
 SUB-EXPRESSION (reg_re || reg_we)
                 ---1--    ---2--
-1--2-StatusTests
00CoveredT1,T2,T3
01CoveredT1,T3,T4
10CoveredT1,T2,T3

 LINE       496
 EXPRESSION 
 Number  Term
      1  reg_we & 
      2  ((addr_hit[0] & ((|(4'b1 & (~reg_be))))) | (addr_hit[1] & ((|(4'b1 & (~reg_be))))) | (addr_hit[2] & ((|(4'b1 & (~reg_be))))) | (addr_hit[3] & ((|(4'b1 & (~reg_be))))) | (addr_hit[4] & ((|(4'b1 & (~reg_be))))) | (addr_hit[5] & ((|(4'b0111 & (~reg_be))))) | (addr_hit[6] & ((|(4'b1111 & (~reg_be))))) | (addr_hit[7] & ((|(4'b1111 & (~reg_be))))) | (addr_hit[8] & ((|(4'b1111 & (~reg_be))))) | (addr_hit[9] & ((|(4'b1111 & (~reg_be)))))))
-1--2-StatusTests
01CoveredT1,T3,T4
10CoveredT1,T3,T4
11CoveredT11,T12,T15

 LINE       496
 SUB-EXPRESSION 
 Number  Term
      1  (addr_hit[0] & ((|(4'b1 & (~reg_be))))) | 
      2  (addr_hit[1] & ((|(4'b1 & (~reg_be))))) | 
      3  (addr_hit[2] & ((|(4'b1 & (~reg_be))))) | 
      4  (addr_hit[3] & ((|(4'b1 & (~reg_be))))) | 
      5  (addr_hit[4] & ((|(4'b1 & (~reg_be))))) | 
      6  (addr_hit[5] & ((|(4'b0111 & (~reg_be))))) | 
      7  (addr_hit[6] & ((|(4'b1111 & (~reg_be))))) | 
      8  (addr_hit[7] & ((|(4'b1111 & (~reg_be))))) | 
      9  (addr_hit[8] & ((|(4'b1111 & (~reg_be))))) | 
     10  (addr_hit[9] & ((|(4'b1111 & (~reg_be))))))
-1--2--3--4--5--6--7--8--9--10-StatusTests
0000000000CoveredT1,T2,T3
0000000001CoveredT1,T14,T19
0000000010CoveredT1,T19,T11
0000000100CoveredT1,T19,T20
0000001000CoveredT1,T19,T21
0000010000CoveredT1,T19,T11
0000100000CoveredT1,T4,T8
0001000000CoveredT1,T3,T4
0010000000CoveredT1,T4,T19
0100000000CoveredT1,T19,T11
1000000000CoveredT1,T19,T11

 LINE       496
 SUB-EXPRESSION (addr_hit[0] & ((|(4'b1 & (~reg_be)))))
                 -----1-----   -----------2-----------
-1--2-StatusTests
01CoveredT1,T3,T4
10CoveredT1,T19,T11
11CoveredT1,T19,T11

 LINE       496
 SUB-EXPRESSION (addr_hit[1] & ((|(4'b1 & (~reg_be)))))
                 -----1-----   -----------2-----------
-1--2-StatusTests
01CoveredT1,T3,T4
10CoveredT1,T3,T7
11CoveredT1,T19,T11

 LINE       496
 SUB-EXPRESSION (addr_hit[2] & ((|(4'b1 & (~reg_be)))))
                 -----1-----   -----------2-----------
-1--2-StatusTests
01CoveredT1,T3,T4
10CoveredT1,T3,T4
11CoveredT1,T4,T19

 LINE       496
 SUB-EXPRESSION (addr_hit[3] & ((|(4'b1 & (~reg_be)))))
                 -----1-----   -----------2-----------
-1--2-StatusTests
01CoveredT1,T4,T8
10CoveredT1,T2,T3
11CoveredT1,T3,T4

 LINE       496
 SUB-EXPRESSION (addr_hit[4] & ((|(4'b1 & (~reg_be)))))
                 -----1-----   -----------2-----------
-1--2-StatusTests
01CoveredT1,T3,T4
10CoveredT1,T4,T19
11CoveredT1,T4,T8

 LINE       496
 SUB-EXPRESSION (addr_hit[5] & ((|(4'b0111 & (~reg_be)))))
                 -----1-----   -------------2------------
-1--2-StatusTests
01CoveredT1,T3,T4
10CoveredT1,T3,T7
11CoveredT1,T19,T11

 LINE       496
 SUB-EXPRESSION (addr_hit[6] & ((|(4'b1111 & (~reg_be)))))
                 -----1-----   -------------2------------
-1--2-StatusTests
01CoveredT1,T3,T4
10CoveredT1,T3,T7
11CoveredT1,T19,T21

 LINE       496
 SUB-EXPRESSION (addr_hit[7] & ((|(4'b1111 & (~reg_be)))))
                 -----1-----   -------------2------------
-1--2-StatusTests
01CoveredT1,T3,T4
10CoveredT1,T3,T7
11CoveredT1,T19,T20

 LINE       496
 SUB-EXPRESSION (addr_hit[8] & ((|(4'b1111 & (~reg_be)))))
                 -----1-----   -------------2------------
-1--2-StatusTests
01CoveredT1,T3,T4
10CoveredT1,T3,T7
11CoveredT1,T19,T11

 LINE       496
 SUB-EXPRESSION (addr_hit[9] & ((|(4'b1111 & (~reg_be)))))
                 -----1-----   -------------2------------
-1--2-StatusTests
01CoveredT1,T3,T4
10CoveredT1,T3,T7
11CoveredT1,T14,T19

 LINE       510
 EXPRESSION (addr_hit[0] & reg_we & ((!reg_error)))
             -----1-----   ---2--   -------3------
-1--2--3-StatusTests
011CoveredT1,T3,T4
101CoveredT1,T19,T11
110CoveredT11,T12,T15
111CoveredT16,T22,T23

 LINE       513
 EXPRESSION (addr_hit[1] & reg_we & ((!reg_error)))
             -----1-----   ---2--   -------3------
-1--2--3-StatusTests
011CoveredT1,T3,T4
101CoveredT1,T3,T7
110CoveredT11,T12,T15
111CoveredT1,T3,T7

 LINE       516
 EXPRESSION (addr_hit[2] & reg_we & ((!reg_error)))
             -----1-----   ---2--   -------3------
-1--2--3-StatusTests
011CoveredT1,T3,T4
101CoveredT1,T3,T4
110CoveredT11,T12,T15
111CoveredT1,T3,T4

 LINE       519
 EXPRESSION (addr_hit[3] & reg_we & ((!reg_error)))
             -----1-----   ---2--   -------3------
-1--2--3-StatusTests
011CoveredT1,T3,T4
101CoveredT1,T2,T3
110CoveredT11,T12,T15
111CoveredT3,T4,T9

 LINE       522
 EXPRESSION (addr_hit[4] & reg_we & ((!reg_error)))
             -----1-----   ---2--   -------3------
-1--2--3-StatusTests
011CoveredT1,T3,T4
101CoveredT1,T4,T8
110CoveredT11,T12,T15
111CoveredT4,T11,T12

 LINE       525
 EXPRESSION (addr_hit[5] & reg_we & ((!reg_error)))
             -----1-----   ---2--   -------3------
-1--2--3-StatusTests
011CoveredT1,T3,T4
101CoveredT1,T3,T7
110CoveredT11,T12,T15
111CoveredT1,T3,T7

 LINE       530
 EXPRESSION (addr_hit[6] & reg_we & ((!reg_error)))
             -----1-----   ---2--   -------3------
-1--2--3-StatusTests
011CoveredT1,T3,T4
101CoveredT1,T3,T7
110CoveredT11,T12,T15
111CoveredT1,T3,T7

 LINE       533
 EXPRESSION (addr_hit[7] & reg_we & ((!reg_error)))
             -----1-----   ---2--   -------3------
-1--2--3-StatusTests
011CoveredT1,T3,T4
101CoveredT1,T3,T7
110CoveredT11,T12,T15
111CoveredT1,T3,T7

 LINE       536
 EXPRESSION (addr_hit[8] & reg_we & ((!reg_error)))
             -----1-----   ---2--   -------3------
-1--2--3-StatusTests
011CoveredT1,T3,T4
101CoveredT1,T3,T7
110CoveredT11,T12,T15
111CoveredT1,T3,T7

 LINE       539
 EXPRESSION (addr_hit[9] & reg_we & ((!reg_error)))
             -----1-----   ---2--   -------3------
-1--2--3-StatusTests
011CoveredT1,T3,T4
101CoveredT1,T3,T7
110CoveredT11,T12,T15
111CoveredT1,T3,T7

Branch Coverage for Module : rv_timer_reg_top
Line No.TotalCoveredPercent
Branches 16 16 100.00
TERNARY 492 2 2 100.00
IF 68 3 3 100.00
CASE 561 11 11 100.00


492 assign addrmiss = (reg_re || reg_we) ? ~|addr_hit : 1'b0 ; -1- ==> ==>

Branches:
-1-StatusTests
1 Covered T1,T2,T3
0 Covered T1,T2,T3


68 if (!rst_ni) begin -1- 69 err_q <= '0; ==> 70 end else if (intg_err || reg_we_err) begin -2- 71 err_q <= 1'b1; ==> 72 end MISSING_ELSE ==>

Branches:
-1--2-StatusTests
1 - Covered T1,T2,T3
0 1 Covered T2,T5,T6
0 0 Covered T1,T2,T3


561 unique case (1'b1) -1- 562 addr_hit[0]: begin 563 reg_rdata_next[0] = '0; ==> 564 end 565 566 addr_hit[1]: begin 567 reg_rdata_next[0] = ctrl_qs; ==> 568 end 569 570 addr_hit[2]: begin 571 reg_rdata_next[0] = intr_enable0_qs; ==> 572 end 573 574 addr_hit[3]: begin 575 reg_rdata_next[0] = intr_state0_qs; ==> 576 end 577 578 addr_hit[4]: begin 579 reg_rdata_next[0] = '0; ==> 580 end 581 582 addr_hit[5]: begin 583 reg_rdata_next[11:0] = cfg0_prescale_qs; ==> 584 reg_rdata_next[23:16] = cfg0_step_qs; 585 end 586 587 addr_hit[6]: begin 588 reg_rdata_next[31:0] = timer_v_lower0_qs; ==> 589 end 590 591 addr_hit[7]: begin 592 reg_rdata_next[31:0] = timer_v_upper0_qs; ==> 593 end 594 595 addr_hit[8]: begin 596 reg_rdata_next[31:0] = compare_lower0_0_qs; ==> 597 end 598 599 addr_hit[9]: begin 600 reg_rdata_next[31:0] = compare_upper0_0_qs; ==> 601 end 602 603 default: begin 604 reg_rdata_next = '1; ==>

Branches:
-1-StatusTests
addr_hit[0] Covered T1,T2,T3
addr_hit[1] Covered T1,T2,T3
addr_hit[2] Covered T1,T2,T3
addr_hit[3] Covered T1,T2,T3
addr_hit[4] Covered T1,T2,T3
addr_hit[5] Covered T1,T2,T3
addr_hit[6] Covered T1,T2,T3
addr_hit[7] Covered T1,T2,T3
addr_hit[8] Covered T1,T2,T3
addr_hit[9] Covered T1,T2,T3
default Covered T1,T2,T3


Assert Coverage for Module : rv_timer_reg_top
TotalAttemptedPercentSucceeded/MatchedPercent
Assertions 4 4 100.00 4 100.00
Cover properties 0 0 0
Cover sequences 0 0 0
Total 4 4 100.00 4 100.00




Assertion Details

NameAttemptsReal SuccessesFailuresIncomplete
en2addrHit 2147483647 143776817 0 0
reAfterRv 2147483647 143776811 0 0
rePulse 2147483647 143737571 0 0
wePulse 2147483647 39240 0 0


en2addrHit
NameAttemptsReal SuccessesFailuresIncomplete
Total 2147483647 143776817 0 0
T1 386078 3213 0 0
T2 7807 1 0 0
T3 10606 1317 0 0
T4 2813 153 0 0
T5 4140 1 0 0
T6 7524 1 0 0
T7 216015 336 0 0
T8 4673 1 0 0
T9 17441 56 0 0
T10 787999 20594 0 0

reAfterRv
NameAttemptsReal SuccessesFailuresIncomplete
Total 2147483647 143776811 0 0
T1 386078 3213 0 0
T2 7807 1 0 0
T3 10606 1317 0 0
T4 2813 153 0 0
T5 4140 1 0 0
T6 7524 1 0 0
T7 216015 336 0 0
T8 4673 1 0 0
T9 17441 56 0 0
T10 787999 20594 0 0

rePulse
NameAttemptsReal SuccessesFailuresIncomplete
Total 2147483647 143737571 0 0
T1 386078 3193 0 0
T2 7807 1 0 0
T3 10606 1289 0 0
T4 2813 77 0 0
T5 4140 1 0 0
T6 7524 1 0 0
T7 216015 325 0 0
T8 4673 1 0 0
T9 17441 24 0 0
T10 787999 20554 0 0

wePulse
NameAttemptsReal SuccessesFailuresIncomplete
Total 2147483647 39240 0 0
T1 386078 20 0 0
T2 7807 0 0 0
T3 10606 28 0 0
T4 2813 76 0 0
T5 4140 0 0 0
T6 7524 0 0 0
T7 216015 11 0 0
T8 4673 0 0 0
T9 17441 32 0 0
T10 787999 40 0 0
T19 0 10 0 0
T20 0 6 0 0
T21 0 13 0 0
T24 0 59 0 0

0% 10% 20% 30% 40% 50% 60% 70% 80% 90% 100%