Module Definition
dashboard | hierarchy | modlist | groups | tests | asserts



Module Instance : tb.dut

Instance :
SCORELINECONDTOGGLEFSMBRANCHASSERT
93.47 100.00 83.10 99.89 100.00 84.38


Instance's subtree :
SCORELINECONDTOGGLEFSMBRANCHASSERT
97.41 97.99 95.77 93.40 100.00 98.55 98.76


Parent :
SCORELINECONDTOGGLEFSMBRANCHASSERTNAME
tb


Subtrees :
NAMESCORELINECONDTOGGLEFSMBRANCHASSERT
gen_alert_tx[0].u_prim_alert_sender 100.00 100.00
gen_alert_tx[1].u_prim_alert_sender 100.00 100.00
gen_alert_tx[2].u_prim_alert_sender 100.00 100.00
lc_ctrl_csr_assert 100.00 100.00
tlul_assert_device 100.00 100.00 100.00 100.00
u_dmi_jtag 80.46 80.46
u_lc_ctrl_fsm 97.38 99.39 89.84 100.00 97.67 100.00
u_lc_ctrl_kmac_if 99.37 99.10 100.00 100.00 97.73 100.00
u_prim_clock_mux2 85.19 100.00 55.56 100.00
u_prim_esc_receiver0 16.07 16.07
u_prim_esc_receiver1 16.07 16.07
u_prim_flop_2sync_init 100.00 100.00 100.00
u_prim_lc_sync 100.00 100.00 100.00
u_prim_mubi4_dec 0.00 0.00
u_prim_rst_n_mux2 85.19 100.00 55.56 100.00
u_reg 99.25 97.79 98.47 100.00 100.00 100.00
u_reg_tap 93.90 97.36 98.54 73.61 100.00 100.00
u_tap_tlul_host 81.19 98.00 92.86 15.09 100.00 100.00

Line Coverage for Module : lc_ctrl
Line No.TotalCoveredPercent
TOTAL133133100.00
CONT_ASSIGN21311100.00
CONT_ASSIGN26711100.00
ALWAYS3174141100.00
ALWAYS3684141100.00
ALWAYS4663333100.00
ALWAYS52533100.00
CONT_ASSIGN53811100.00
CONT_ASSIGN55411100.00
CONT_ASSIGN55611100.00
CONT_ASSIGN56711100.00
CONT_ASSIGN57311100.00
CONT_ASSIGN58211100.00
ALWAYS66855100.00
CONT_ASSIGN67711100.00
CONT_ASSIGN67811100.00

212 logic req_ready; 213 1/1 assign req_ready = dmi_req_ready & dmi_resp_ready; Tests: T1 T2 T3  214 dmi_jtag #( 215 .IdcodeValue(IdcodeValue), 216 .NumDmiWordAbits(7) 217 ) u_dmi_jtag ( 218 .clk_i, 219 .rst_ni, 220 .testmode_i ( scanmode ), 221 .test_rst_ni ( scan_rst_ni ), 222 .dmi_rst_no ( ), // unused 223 .dmi_req_o ( dmi_req ), 224 .dmi_req_valid_o ( dmi_req_valid ), 225 // unless there is room for response, stall 226 .dmi_req_ready_i ( req_ready ), 227 .dmi_resp_i ( dmi_resp ), 228 .dmi_resp_ready_o ( dmi_resp_ready ), 229 .dmi_resp_valid_i ( dmi_resp_valid ), 230 .tck_i ( tck_muxed ), 231 .tms_i ( jtag_i.tms ), 232 .trst_ni ( trst_n_muxed ), 233 .td_i ( jtag_i.tdi ), 234 .td_o ( jtag_o.tdo ), 235 .tdo_oe_o ( jtag_o.tdo_oe ) 236 ); 237 238 // DMI to TL-UL transducing 239 tlul_adapter_host #( 240 .EnableDataIntgGen(1) 241 ) u_tap_tlul_host ( 242 .clk_i, 243 .rst_ni, 244 // do not make a request unless there is room for the response 245 .req_i ( dmi_req_valid & dmi_resp_ready ), 246 .gnt_o ( dmi_req_ready ), 247 .addr_i ( top_pkg::TL_AW'({dmi_req.addr, 2'b00}) ), 248 .we_i ( dmi_req.op == dm::DTM_WRITE ), 249 .wdata_i ( dmi_req.data ), 250 .wdata_intg_i ('0 ), 251 .be_i ( {top_pkg::TL_DBW{1'b1}} ), 252 .instr_type_i ( prim_mubi_pkg::MuBi4False ), 253 .valid_o ( dmi_resp_valid ), 254 .rdata_o ( dmi_resp.data ), 255 .rdata_intg_o ( ), 256 .err_o ( ), 257 .intg_err_o ( ), 258 .tl_o ( tap_tl_h2d ), 259 .tl_i ( tap_tl_d2h ) 260 ); 261 262 // TL-UL to DMI transducing 263 assign dmi_resp.resp = '0; // unused inside dmi_jtag 264 265 // These signals are unused 266 logic unused_tap_tl_d2h; 267 1/1 assign unused_tap_tl_d2h = ^{ Tests: T1 T2 T3  268 dmi_req.addr[31:30], 269 tap_tl_d2h.d_opcode, 270 tap_tl_d2h.d_param, 271 tap_tl_d2h.d_size, 272 tap_tl_d2h.d_source, 273 tap_tl_d2h.d_sink, 274 tap_tl_d2h.d_user, 275 tap_tl_d2h.d_error 276 }; 277 278 /////////////////////////////////////// 279 // Transition Interface and HW Mutex // 280 /////////////////////////////////////// 281 282 // All registers are HWext 283 logic trans_success_d, trans_success_q; 284 logic trans_cnt_oflw_error_d, trans_cnt_oflw_error_q; 285 logic trans_invalid_error_d, trans_invalid_error_q; 286 logic token_invalid_error_d, token_invalid_error_q; 287 logic flash_rma_error_d, flash_rma_error_q; 288 logic otp_prog_error_d, fatal_prog_error_q; 289 logic state_invalid_error_d, fatal_state_error_q; 290 logic otp_part_error_q; 291 mubi8_t sw_claim_transition_if_d, sw_claim_transition_if_q; 292 mubi8_t tap_claim_transition_if_d, tap_claim_transition_if_q; 293 logic transition_cmd; 294 lc_token_t transition_token_d, transition_token_q; 295 ext_dec_lc_state_t transition_target_d, transition_target_q; 296 // No need to register these. 297 ext_dec_lc_state_t dec_lc_state; 298 dec_lc_cnt_t dec_lc_cnt; 299 dec_lc_id_state_e dec_lc_id_state; 300 301 logic lc_idle_d, lc_done_d; 302 303 // Assign hardware revision output 304 assign hw_rev_o = '{silicon_creator_id: SiliconCreatorId, 305 product_id: ProductId, 306 revision_id: RevisionId, 307 reserved: '0}; 308 309 // OTP Vendor control bits 310 logic ext_clock_switched; 311 logic use_ext_clock_d, use_ext_clock_q; 312 logic volatile_raw_unlock_d, volatile_raw_unlock_q; 313 logic [CsrOtpTestCtrlWidth-1:0] otp_vendor_test_ctrl_d, otp_vendor_test_ctrl_q; 314 logic [CsrOtpTestStatusWidth-1:0] otp_vendor_test_status; 315 316 always_comb begin : p_csr_assign_outputs 317 1/1 hw2reg = '0; Tests: T1 T2 T3  318 1/1 hw2reg.status.initialized = lc_done_d; Tests: T1 T2 T3  319 1/1 hw2reg.status.ready = lc_idle_d; Tests: T1 T2 T3  320 1/1 hw2reg.status.ext_clock_switched = ext_clock_switched; Tests: T1 T2 T3  321 1/1 hw2reg.status.transition_successful = trans_success_q; Tests: T1 T2 T3  322 1/1 hw2reg.status.transition_count_error = trans_cnt_oflw_error_q; Tests: T1 T2 T3  323 1/1 hw2reg.status.transition_error = trans_invalid_error_q; Tests: T1 T2 T3  324 1/1 hw2reg.status.token_error = token_invalid_error_q; Tests: T1 T2 T3  325 1/1 hw2reg.status.flash_rma_error = flash_rma_error_q; Tests: T1 T2 T3  326 1/1 hw2reg.status.otp_error = fatal_prog_error_q; Tests: T1 T2 T3  327 1/1 hw2reg.status.state_error = fatal_state_error_q; Tests: T1 T2 T3  328 1/1 hw2reg.status.otp_partition_error = otp_part_error_q; Tests: T1 T2 T3  329 1/1 hw2reg.status.bus_integ_error = fatal_bus_integ_error_q; Tests: T1 T2 T3  330 1/1 hw2reg.lc_state = dec_lc_state; Tests: T1 T2 T3  331 1/1 hw2reg.lc_transition_cnt = dec_lc_cnt; Tests: T1 T2 T3  332 1/1 hw2reg.lc_id_state = {DecLcIdStateNumRep{dec_lc_id_state}}; Tests: T1 T2 T3  333 1/1 hw2reg.device_id = otp_device_id_i; Tests: T1 T2 T3  334 1/1 hw2reg.manuf_state = otp_manuf_state_i; Tests: T1 T2 T3  335 1/1 hw2reg.hw_revision0.silicon_creator_id = hw_rev_o.silicon_creator_id; Tests: T1 T2 T3  336 1/1 hw2reg.hw_revision0.product_id = hw_rev_o.product_id; Tests: T1 T2 T3  337 1/1 hw2reg.hw_revision1.revision_id = hw_rev_o.revision_id; Tests: T1 T2 T3  338 1/1 hw2reg.hw_revision1.reserved = '0; Tests: T1 T2 T3  339 340 // The assignments above are identical for the TAP. 341 1/1 tap_hw2reg = hw2reg; Tests: T1 T2 T3  342 343 // Assignments gated by mutex. Again, the TAP has priority. 344 1/1 tap_hw2reg.claim_transition_if = tap_claim_transition_if_q; Tests: T1 T2 T3  345 1/1 hw2reg.claim_transition_if = sw_claim_transition_if_q; Tests: T1 T2 T3  346 1/1 if (mubi8_test_true_strict(tap_claim_transition_if_q)) begin Tests: T1 T2 T3  347 1/1 tap_hw2reg.transition_ctrl.ext_clock_en = use_ext_clock_q; Tests: T6 T7 T8  348 1/1 tap_hw2reg.transition_ctrl.volatile_raw_unlock = volatile_raw_unlock_q; Tests: T6 T7 T8  349 1/1 tap_hw2reg.transition_token = transition_token_q; Tests: T6 T7 T8  350 1/1 tap_hw2reg.transition_target = transition_target_q; Tests: T6 T7 T8  351 // SEC_CM: TRANSITION.CONFIG.REGWEN 352 1/1 tap_hw2reg.transition_regwen = lc_idle_d; Tests: T6 T7 T8  353 1/1 tap_hw2reg.otp_vendor_test_ctrl = otp_vendor_test_ctrl_q; Tests: T6 T7 T8  354 1/1 tap_hw2reg.otp_vendor_test_status = otp_vendor_test_status; Tests: T6 T7 T8  355 1/1 end else if (mubi8_test_true_strict(sw_claim_transition_if_q)) begin Tests: T1 T2 T3  356 1/1 hw2reg.transition_ctrl.ext_clock_en = use_ext_clock_q; Tests: T1 T2 T3  357 1/1 hw2reg.transition_ctrl.volatile_raw_unlock = volatile_raw_unlock_q; Tests: T1 T2 T3  358 1/1 hw2reg.transition_token = transition_token_q; Tests: T1 T2 T3  359 1/1 hw2reg.transition_target = transition_target_q; Tests: T1 T2 T3  360 // SEC_CM: TRANSITION.CONFIG.REGWEN 361 1/1 hw2reg.transition_regwen = lc_idle_d; Tests: T1 T2 T3  362 1/1 hw2reg.otp_vendor_test_ctrl = otp_vendor_test_ctrl_q; Tests: T1 T2 T3  363 1/1 hw2reg.otp_vendor_test_status = otp_vendor_test_status; Tests: T1 T2 T3  364 end MISSING_ELSE 365 end 366 367 always_comb begin : p_csr_assign_inputs 368 1/1 sw_claim_transition_if_d = sw_claim_transition_if_q; Tests: T1 T2 T3  369 1/1 tap_claim_transition_if_d = tap_claim_transition_if_q; Tests: T1 T2 T3  370 1/1 transition_token_d = transition_token_q; Tests: T1 T2 T3  371 1/1 transition_target_d = transition_target_q; Tests: T1 T2 T3  372 1/1 transition_cmd = 1'b0; Tests: T1 T2 T3  373 1/1 otp_vendor_test_ctrl_d = otp_vendor_test_ctrl_q; Tests: T1 T2 T3  374 1/1 use_ext_clock_d = use_ext_clock_q; Tests: T1 T2 T3  375 1/1 volatile_raw_unlock_d = volatile_raw_unlock_q; Tests: T1 T2 T3  376 377 // Note that the mutex claims from the TAP and SW side could arrive within the same cycle. 378 // In that case we give priority to the TAP mutex claim in order to avoid a race condition. 379 // TAP mutex claim. 380 1/1 if (mubi8_test_false_loose(sw_claim_transition_if_q) && Tests: T1 T2 T3  381 tap_reg2hw.claim_transition_if.qe) begin 382 1/1 tap_claim_transition_if_d = mubi8_t'(tap_reg2hw.claim_transition_if.q); Tests: T1 T2 T3  383 // SW mutex claim. 384 1/1 end else if (mubi8_test_false_loose(tap_claim_transition_if_q) && Tests: T1 T2 T3  385 reg2hw.claim_transition_if.qe) begin 386 1/1 sw_claim_transition_if_d = mubi8_t'(reg2hw.claim_transition_if.q); Tests: T1 T2 T3  387 end MISSING_ELSE 388 389 390 // The idle signal serves as the REGWEN in this case. 391 1/1 if (lc_idle_d) begin Tests: T1 T2 T3  392 // The TAP has priority. 393 1/1 if (mubi8_test_true_strict(tap_claim_transition_if_q)) begin Tests: T1 T2 T3  394 1/1 transition_cmd = tap_reg2hw.transition_cmd.q & Tests: T6 T7 T8  395 tap_reg2hw.transition_cmd.qe; 396 397 1/1 if (tap_reg2hw.transition_ctrl.ext_clock_en.qe) begin Tests: T6 T7 T8  398 1/1 use_ext_clock_d |= tap_reg2hw.transition_ctrl.ext_clock_en.q; Tests: T8 T9 T20  399 end MISSING_ELSE 400 401 // ---------- VOLATILE_TEST_UNLOCKED CODE SECTION START ---------- 402 // NOTE THAT THIS IS A FEATURE FOR TEST CHIPS ONLY TO MITIGATE 403 // THE RISK OF A BROKEN OTP MACRO. THIS WILL BE DISABLED VIA 404 // SecVolatileRawUnlockEn AT COMPILETIME FOR PRODUCTION DEVICES. 405 // --------------------------------------------------------------- 406 1/1 if (tap_reg2hw.transition_ctrl.volatile_raw_unlock.qe) begin Tests: T6 T7 T8  407 1/1 volatile_raw_unlock_d = tap_reg2hw.transition_ctrl.volatile_raw_unlock.q; Tests: T8 T9 T20  408 end MISSING_ELSE 409 // ----------- VOLATILE_TEST_UNLOCKED CODE SECTION END ----------- 410 411 1/1 for (int k = 0; k < LcTokenWidth/32; k++) begin Tests: T6 T7 T8  412 1/1 if (tap_reg2hw.transition_token[k].qe) begin Tests: T6 T7 T8  413 1/1 transition_token_d[k*32 +: 32] = tap_reg2hw.transition_token[k].q; Tests: T7 T8 T9  414 end MISSING_ELSE 415 end 416 417 1/1 if (tap_reg2hw.transition_target.qe) begin Tests: T6 T7 T8  418 1/1 for (int k = 0; k < DecLcStateNumRep; k++) begin Tests: T7 T8 T9  419 1/1 transition_target_d[k] = dec_lc_state_e'( Tests: T7 T8 T9  420 tap_reg2hw.transition_target.q[k*DecLcStateWidth +: DecLcStateWidth]); 421 end 422 end MISSING_ELSE 423 424 1/1 if (tap_reg2hw.otp_vendor_test_ctrl.qe) begin Tests: T6 T7 T8  425 1/1 otp_vendor_test_ctrl_d = tap_reg2hw.otp_vendor_test_ctrl.q; Tests: T7 T8 T9  426 end MISSING_ELSE 427 1/1 end else if (mubi8_test_true_strict(sw_claim_transition_if_q)) begin Tests: T1 T2 T3  428 1/1 transition_cmd = reg2hw.transition_cmd.q & Tests: T1 T2 T3  429 reg2hw.transition_cmd.qe; 430 431 1/1 if (reg2hw.transition_ctrl.ext_clock_en.qe) begin Tests: T1 T2 T3  432 1/1 use_ext_clock_d |= reg2hw.transition_ctrl.ext_clock_en.q; Tests: T1 T2 T6  433 end MISSING_ELSE 434 435 // ---------- VOLATILE_TEST_UNLOCKED CODE SECTION START ---------- 436 // NOTE THAT THIS IS A FEATURE FOR TEST CHIPS ONLY TO MITIGATE 437 // THE RISK OF A BROKEN OTP MACRO. THIS WILL BE DISABLED VIA 438 // SecVolatileRawUnlockEn AT COMPILETIME FOR PRODUCTION DEVICES. 439 // --------------------------------------------------------------- 440 1/1 if (reg2hw.transition_ctrl.volatile_raw_unlock.qe) begin Tests: T1 T2 T3  441 1/1 volatile_raw_unlock_d = reg2hw.transition_ctrl.volatile_raw_unlock.q; Tests: T1 T2 T6  442 end MISSING_ELSE 443 // ----------- VOLATILE_TEST_UNLOCKED CODE SECTION END ----------- 444 445 1/1 for (int k = 0; k < LcTokenWidth/32; k++) begin Tests: T1 T2 T3  446 1/1 if (reg2hw.transition_token[k].qe) begin Tests: T1 T2 T3  447 1/1 transition_token_d[k*32 +: 32] = reg2hw.transition_token[k].q; Tests: T1 T2 T4  448 end MISSING_ELSE 449 end 450 451 1/1 if (reg2hw.transition_target.qe) begin Tests: T1 T2 T3  452 1/1 for (int k = 0; k < DecLcStateNumRep; k++) begin Tests: T1 T2 T4  453 1/1 transition_target_d[k] = dec_lc_state_e'( Tests: T1 T2 T4  454 reg2hw.transition_target.q[k*DecLcStateWidth +: DecLcStateWidth]); 455 end 456 end MISSING_ELSE 457 458 1/1 if (reg2hw.otp_vendor_test_ctrl.qe) begin Tests: T1 T2 T3  459 1/1 otp_vendor_test_ctrl_d = reg2hw.otp_vendor_test_ctrl.q; Tests: T2 T4 T6  460 end MISSING_ELSE 461 end MISSING_ELSE 462 end MISSING_ELSE 463 end 464 465 always_ff @(posedge clk_i or negedge rst_ni) begin : p_csrs 466 1/1 if (!rst_ni) begin Tests: T1 T2 T3  467 1/1 trans_success_q <= 1'b0; Tests: T1 T2 T3  468 1/1 trans_cnt_oflw_error_q <= 1'b0; Tests: T1 T2 T3  469 1/1 trans_invalid_error_q <= 1'b0; Tests: T1 T2 T3  470 1/1 token_invalid_error_q <= 1'b0; Tests: T1 T2 T3  471 1/1 flash_rma_error_q <= 1'b0; Tests: T1 T2 T3  472 1/1 fatal_prog_error_q <= 1'b0; Tests: T1 T2 T3  473 1/1 fatal_state_error_q <= 1'b0; Tests: T1 T2 T3  474 1/1 sw_claim_transition_if_q <= MuBi8False; Tests: T1 T2 T3  475 1/1 tap_claim_transition_if_q <= MuBi8False; Tests: T1 T2 T3  476 1/1 transition_token_q <= '0; Tests: T1 T2 T3  477 1/1 transition_target_q <= {DecLcStateNumRep{DecLcStRaw}}; Tests: T1 T2 T3  478 1/1 otp_part_error_q <= 1'b0; Tests: T1 T2 T3  479 1/1 fatal_bus_integ_error_q <= 1'b0; Tests: T1 T2 T3  480 1/1 otp_vendor_test_ctrl_q <= '0; Tests: T1 T2 T3  481 1/1 use_ext_clock_q <= 1'b0; Tests: T1 T2 T3  482 end else begin 483 // ---------- VOLATILE_TEST_UNLOCKED CODE SECTION START ---------- 484 // NOTE THAT THIS IS A FEATURE FOR TEST CHIPS ONLY TO MITIGATE 485 // THE RISK OF A BROKEN OTP MACRO. THIS WILL BE DISABLED VIA 486 // SecVolatileRawUnlockEn AT COMPILETIME FOR PRODUCTION DEVICES. 487 // --------------------------------------------------------------- 488 // In case of a volatile RAW unlock, this bit has to be cleared when the volatile 489 // unlock is followed by a real transition. 490 // ----------- VOLATILE_TEST_UNLOCKED CODE SECTION END ----------- 491 1/1 if (SecVolatileRawUnlockEn && transition_cmd && !volatile_raw_unlock_q) begin Tests: T1 T2 T3  492 1/1 trans_success_q <= 1'b0; Tests: T1 T2 T4  493 end else begin 494 1/1 trans_success_q <= trans_success_d | trans_success_q; Tests: T1 T2 T3  495 end 496 // All other status and error bits are terminal and require a reset cycle. 497 1/1 trans_cnt_oflw_error_q <= trans_cnt_oflw_error_d | trans_cnt_oflw_error_q; Tests: T1 T2 T3  498 1/1 trans_invalid_error_q <= trans_invalid_error_d | trans_invalid_error_q; Tests: T1 T2 T3  499 1/1 token_invalid_error_q <= token_invalid_error_d | token_invalid_error_q; Tests: T1 T2 T3  500 1/1 flash_rma_error_q <= flash_rma_error_d | flash_rma_error_q; Tests: T1 T2 T3  501 1/1 fatal_prog_error_q <= otp_prog_error_d | fatal_prog_error_q; Tests: T1 T2 T3  502 1/1 fatal_state_error_q <= state_invalid_error_d | fatal_state_error_q; Tests: T1 T2 T3  503 1/1 otp_part_error_q <= otp_lc_data_i.error | otp_part_error_q; Tests: T1 T2 T3  504 1/1 fatal_bus_integ_error_q <= fatal_bus_integ_error_csr_d | Tests: T1 T2 T3  505 fatal_bus_integ_error_tap_d | 506 fatal_bus_integ_error_q; 507 // Other regs, gated by mutex further below. 508 1/1 sw_claim_transition_if_q <= sw_claim_transition_if_d; Tests: T1 T2 T3  509 1/1 tap_claim_transition_if_q <= tap_claim_transition_if_d; Tests: T1 T2 T3  510 1/1 transition_token_q <= transition_token_d; Tests: T1 T2 T3  511 1/1 transition_target_q <= transition_target_d; Tests: T1 T2 T3  512 1/1 otp_vendor_test_ctrl_q <= otp_vendor_test_ctrl_d; Tests: T1 T2 T3  513 1/1 use_ext_clock_q <= use_ext_clock_d; Tests: T1 T2 T3  514 end 515 end 516 517 // ---------- VOLATILE_TEST_UNLOCKED CODE SECTION START ---------- 518 // NOTE THAT THIS IS A FEATURE FOR TEST CHIPS ONLY TO MITIGATE 519 // THE RISK OF A BROKEN OTP MACRO. THIS WILL BE DISABLED VIA 520 // SecVolatileRawUnlockEn AT COMPILETIME FOR PRODUCTION DEVICES. 521 // --------------------------------------------------------------- 522 // If not enabled, this register will become a constant. 523 if (SecVolatileRawUnlockEn) begin : gen_volatile_raw_unlock_reg 524 always_ff @(posedge clk_i or negedge rst_ni) begin : p_volatile_raw_unlock_reg 525 1/1 if (!rst_ni) begin Tests: T1 T2 T3  526 1/1 volatile_raw_unlock_q <= 1'b0; Tests: T1 T2 T3  527 end else begin 528 1/1 volatile_raw_unlock_q <= volatile_raw_unlock_d; Tests: T1 T2 T3  529 end 530 end 531 end else begin : gen_volatile_raw_unlock_const 532 logic unused_volatile_raw_unlock; 533 assign unused_volatile_raw_unlock = ^volatile_raw_unlock_d; 534 assign volatile_raw_unlock_q = 1'b0; 535 end 536 // ----------- VOLATILE_TEST_UNLOCKED CODE SECTION END ----------- 537 538 1/1 assign lc_flash_rma_seed_o = transition_token_q[RmaSeedWidth-1:0]; Tests: T1 T2 T3  539 540 // Gate the vendor specific test ctrl/status bits to zero in production states. 541 // Buffer the enable signal to prevent optimization of the multibit signal. 542 lc_tx_t lc_raw_test_rma; 543 lc_tx_t [1:0] lc_raw_test_rma_buf; 544 prim_lc_sync #( 545 .NumCopies(2), 546 .AsyncOn(0) 547 ) u_prim_lc_sync ( 548 .clk_i, 549 .rst_ni, 550 .lc_en_i(lc_raw_test_rma), 551 .lc_en_o(lc_raw_test_rma_buf) 552 ); 553 554 1/1 assign lc_otp_vendor_test_o.ctrl = (lc_tx_test_true_strict(lc_raw_test_rma_buf[0])) ? Tests: T1 T2 T3  555 otp_vendor_test_ctrl_q : '0; 556 1/1 assign otp_vendor_test_status = (lc_tx_test_true_strict(lc_raw_test_rma_buf[1])) ? Tests: T1 T2 T3  557 lc_otp_vendor_test_i.status : '0; 558 559 ////////////////// 560 // Alert Sender // 561 ////////////////// 562 563 logic [NumAlerts-1:0] alerts; 564 logic [NumAlerts-1:0] alert_test; 565 logic [NumAlerts-1:0] tap_alert_test; 566 567 1/1 assign alerts = { Tests: T1 T2 T3  568 fatal_bus_integ_error_q, 569 fatal_state_error_q, 570 fatal_prog_error_q 571 }; 572 573 1/1 assign alert_test = { Tests: T1 T2 T3  574 reg2hw.alert_test.fatal_bus_integ_error.q & 575 reg2hw.alert_test.fatal_bus_integ_error.qe, 576 reg2hw.alert_test.fatal_state_error.q & 577 reg2hw.alert_test.fatal_state_error.qe, 578 reg2hw.alert_test.fatal_prog_error.q & 579 reg2hw.alert_test.fatal_prog_error.qe 580 }; 581 582 1/1 assign tap_alert_test = { Tests: T1 T2 T3  583 tap_reg2hw.alert_test.fatal_bus_integ_error.q & 584 tap_reg2hw.alert_test.fatal_bus_integ_error.qe, 585 tap_reg2hw.alert_test.fatal_state_error.q & 586 tap_reg2hw.alert_test.fatal_state_error.qe, 587 tap_reg2hw.alert_test.fatal_prog_error.q & 588 tap_reg2hw.alert_test.fatal_prog_error.qe 589 }; 590 591 for (genvar k = 0; k < NumAlerts; k++) begin : gen_alert_tx 592 prim_alert_sender #( 593 .AsyncOn(AlertAsyncOn[k]), 594 .IsFatal(1) 595 ) u_prim_alert_sender ( 596 .clk_i, 597 .rst_ni, 598 .alert_test_i ( alert_test[k] | 599 tap_alert_test[k] ), 600 .alert_req_i ( alerts[k] ), 601 .alert_ack_o ( ), 602 .alert_state_o ( ), 603 .alert_rx_i ( alert_rx_i[k] ), 604 .alert_tx_o ( alert_tx_o[k] ) 605 ); 606 end 607 608 ////////////////////////// 609 // Escalation Receivers // 610 ////////////////////////// 611 612 // SEC_CM: MAIN.FSM.GLOBAL_ESC 613 // We still have two escalation receivers here for historical reasons. 614 // The two actions "wipe secrets" and "scrap lifecycle state" have been 615 // combined in order to simplify both DV and the design, as otherwise 616 // this separation of very intertwined actions would have caused too many 617 // unnecessary corner cases. The escalation receivers are now redundant and 618 // trigger both actions at once. 619 620 // This escalation action moves the life cycle 621 // state into a temporary "SCRAP" state named "ESCALATE", 622 // and asserts the lc_escalate_en life cycle control signal. 623 logic esc_scrap_state0; 624 prim_esc_receiver #( 625 .N_ESC_SEV (alert_handler_reg_pkg::N_ESC_SEV), 626 .PING_CNT_DW (alert_handler_reg_pkg::PING_CNT_DW) 627 ) u_prim_esc_receiver0 ( 628 .clk_i, 629 .rst_ni, 630 .esc_req_o (esc_scrap_state0), 631 .esc_rx_o (esc_scrap_state0_rx_o), 632 .esc_tx_i (esc_scrap_state0_tx_i) 633 ); 634 635 // This escalation action moves the life cycle 636 // state into a temporary "SCRAP" state named "ESCALATE". 637 logic esc_scrap_state1; 638 prim_esc_receiver #( 639 .N_ESC_SEV (alert_handler_reg_pkg::N_ESC_SEV), 640 .PING_CNT_DW (alert_handler_reg_pkg::PING_CNT_DW) 641 ) u_prim_esc_receiver1 ( 642 .clk_i, 643 .rst_ni, 644 .esc_req_o (esc_scrap_state1), 645 .esc_rx_o (esc_scrap_state1_rx_o), 646 .esc_tx_i (esc_scrap_state1_tx_i) 647 ); 648 649 //////////////////////////// 650 // Synchronization of IOs // 651 //////////////////////////// 652 653 // Signals going to and coming from power manager. 654 logic lc_init; 655 prim_flop_2sync #( 656 .Width(1) 657 ) u_prim_flop_2sync_init ( 658 .clk_i, 659 .rst_ni, 660 .d_i(pwr_lc_i.lc_init), 661 .q_o(lc_init) 662 ); 663 664 logic lc_done_q; 665 logic lc_idle_q; 666 667 always_ff @(posedge clk_i or negedge rst_ni) begin : p_sync_regs 668 1/1 if (!rst_ni) begin Tests: T1 T2 T3  669 1/1 lc_done_q <= 1'b0; Tests: T1 T2 T3  670 1/1 lc_idle_q <= 1'b0; Tests: T1 T2 T3  671 end else begin 672 1/1 lc_done_q <= lc_done_d; Tests: T1 T2 T3  673 1/1 lc_idle_q <= lc_idle_d; Tests: T1 T2 T3  674 end 675 end 676 677 1/1 assign pwr_lc_o.lc_done = lc_done_q; Tests: T1 T2 T3  678 1/1 assign pwr_lc_o.lc_idle = lc_idle_q; Tests: T1 T2 T3 

Cond Coverage for Module : lc_ctrl
TotalCoveredPercent
Conditions725981.94
Logical725981.94
Non-Logical00
Event00

 LINE       213
 EXPRESSION (dmi_req_ready & dmi_resp_ready)
             ------1------   -------2------
-1--2-StatusTests
01CoveredT6,T7,T8
10CoveredT1,T2,T3
11CoveredT6,T7,T8

 LINE       241
 EXPRESSION (dmi_req_valid & dmi_resp_ready)
             ------1------   -------2------
-1--2-StatusTests
01CoveredT6,T7,T8
10Not Covered
11CoveredT6,T7,T8

 LINE       241
 EXPRESSION (dmi_req.op == DTM_WRITE)
            ------------1------------
-1-StatusTests
0CoveredT1,T2,T3
1CoveredT6,T7,T8

 LINE       394
 EXPRESSION (tap_reg2hw.transition_cmd.q & tap_reg2hw.transition_cmd.qe)
             -------------1-------------   --------------2-------------
-1--2-StatusTests
01Not Covered
10CoveredT7,T8,T9
11CoveredT7,T8,T16

 LINE       428
 EXPRESSION (reg2hw.transition_cmd.q & reg2hw.transition_cmd.qe)
             -----------1-----------   ------------2-----------
-1--2-StatusTests
01Not Covered
10CoveredT1,T2,T4
11CoveredT1,T2,T4

 LINE       491
 EXPRESSION (SecVolatileRawUnlockEn && transition_cmd && ((!volatile_raw_unlock_q)))
             -----------1----------    -------2------    -------------3------------
-1--2--3-StatusTests
-01CoveredT1,T2,T3
-10CoveredT1,T39,T40
-11CoveredT1,T2,T4

 LINE       494
 EXPRESSION (trans_success_d | trans_success_q)
             -------1-------   -------2-------
-1--2-StatusTests
00CoveredT1,T2,T3
01CoveredT1,T2,T5
10CoveredT1,T2,T5

 LINE       497
 EXPRESSION (trans_cnt_oflw_error_d | trans_cnt_oflw_error_q)
             -----------1----------   -----------2----------
-1--2-StatusTests
00CoveredT1,T2,T3
01CoveredT14,T49,T50
10CoveredT14,T49,T50

 LINE       498
 EXPRESSION (trans_invalid_error_d | trans_invalid_error_q)
             ----------1----------   ----------2----------
-1--2-StatusTests
00CoveredT1,T2,T3
01CoveredT14,T17,T49
10CoveredT6,T14,T9

 LINE       499
 EXPRESSION (token_invalid_error_d | token_invalid_error_q)
             ----------1----------   ----------2----------
-1--2-StatusTests
00CoveredT1,T2,T3
01CoveredT14,T17,T47
10CoveredT14,T17,T47

 LINE       500
 EXPRESSION (flash_rma_error_d | flash_rma_error_q)
             --------1--------   --------2--------
-1--2-StatusTests
00CoveredT1,T2,T3
01CoveredT14,T48,T49
10CoveredT14,T48,T49

 LINE       501
 EXPRESSION (otp_prog_error_d | fatal_prog_error_q)
             --------1-------   ---------2--------
-1--2-StatusTests
00CoveredT1,T2,T3
01CoveredT4,T7,T14
10CoveredT4,T7,T14

 LINE       502
 EXPRESSION (state_invalid_error_d | fatal_state_error_q)
             ----------1----------   ---------2---------
-1--2-StatusTests
00CoveredT1,T2,T3
01CoveredT5,T16,T48
10CoveredT5,T16,T48

 LINE       503
 EXPRESSION (otp_lc_data_i.error | otp_part_error_q)
             ---------1---------   --------2-------
-1--2-StatusTests
00CoveredT1,T2,T3
01CoveredT54,T95,T96
10CoveredT14,T49,T50

 LINE       504
 EXPRESSION (fatal_bus_integ_error_csr_d | fatal_bus_integ_error_tap_d | fatal_bus_integ_error_q)
             -------------1-------------   -------------2-------------   -----------3-----------
-1--2--3-StatusTests
000CoveredT1,T2,T3
001Not Covered
010CoveredT31,T69,T70
100CoveredT31,T69,T70

 LINE       573
 SUB-EXPRESSION (reg2hw.alert_test.fatal_bus_integ_error.q & reg2hw.alert_test.fatal_bus_integ_error.qe)
                 --------------------1--------------------   ---------------------2--------------------
-1--2-StatusTests
01CoveredT22,T97,T98
10CoveredT1,T2,T3
11CoveredT22,T97,T98

 LINE       573
 SUB-EXPRESSION (reg2hw.alert_test.fatal_state_error.q & reg2hw.alert_test.fatal_state_error.qe)
                 ------------------1------------------   -------------------2------------------
-1--2-StatusTests
01CoveredT22,T97,T98
10CoveredT1,T2,T3
11CoveredT22,T97,T98

 LINE       573
 SUB-EXPRESSION (reg2hw.alert_test.fatal_prog_error.q & reg2hw.alert_test.fatal_prog_error.qe)
                 ------------------1-----------------   ------------------2------------------
-1--2-StatusTests
01CoveredT22,T97,T98
10CoveredT1,T2,T4
11CoveredT22,T97,T98

 LINE       582
 SUB-EXPRESSION (tap_reg2hw.alert_test.fatal_bus_integ_error.q & tap_reg2hw.alert_test.fatal_bus_integ_error.qe)
                 ----------------------1----------------------   -----------------------2----------------------
-1--2-StatusTests
01Not Covered
10CoveredT6,T7,T8
11Not Covered

 LINE       582
 SUB-EXPRESSION (tap_reg2hw.alert_test.fatal_state_error.q & tap_reg2hw.alert_test.fatal_state_error.qe)
                 --------------------1--------------------   ---------------------2--------------------
-1--2-StatusTests
01Not Covered
10CoveredT6,T7,T8
11Not Covered

 LINE       582
 SUB-EXPRESSION (tap_reg2hw.alert_test.fatal_prog_error.q & tap_reg2hw.alert_test.fatal_prog_error.qe)
                 --------------------1-------------------   --------------------2--------------------
-1--2-StatusTests
01Not Covered
10CoveredT6,T7,T8
11Not Covered

 LINE       595
 EXPRESSION (alert_test[0] | tap_alert_test[0])
             ------1------   --------2--------
-1--2-StatusTests
00CoveredT1,T2,T3
01Not Covered
10CoveredT22,T97,T98

 LINE       595
 EXPRESSION (alert_test[1] | tap_alert_test[1])
             ------1------   --------2--------
-1--2-StatusTests
00CoveredT1,T2,T3
01Not Covered
10CoveredT22,T97,T98

 LINE       595
 EXPRESSION (alert_test[2] | tap_alert_test[2])
             ------1------   --------2--------
-1--2-StatusTests
00CoveredT1,T2,T3
01Not Covered
10CoveredT22,T97,T98

Toggle Coverage for Module : lc_ctrl
TotalCoveredPercent
Totals 105 99 94.29
Total Bits 7426 7289 98.16
Total Bits 0->1 3713 3645 98.17
Total Bits 1->0 3713 3644 98.14

Ports 105 99 94.29
Port Bits 7426 7289 98.16
Port Bits 0->1 3713 3645 98.17
Port Bits 1->0 3713 3644 98.14

Port Details
NameToggleToggle 1->0TestsToggle 0->1TestsDirection
clk_i Yes Yes T1,T2,T3 Yes T1,T2,T3 INPUT
rst_ni Yes Yes T2,T4,T5 Yes T1,T2,T3 INPUT
clk_kmac_i Yes Yes T1,T2,T3 Yes T1,T2,T3 INPUT
rst_kmac_ni Yes Yes T2,T4,T5 Yes T1,T2,T3 INPUT
tl_i.d_ready Yes Yes T1,T2,T4 Yes T1,T2,T3 INPUT
tl_i.a_user.data_intg[6:0] Yes Yes T1,T2,T3 Yes T1,T2,T4 INPUT
tl_i.a_user.cmd_intg[6:0] Yes Yes T1,T2,T3 Yes T1,T2,T4 INPUT
tl_i.a_user.instr_type[3:0] Yes Yes T1,T2,T6 Yes T1,T2,T6 INPUT
tl_i.a_user.rsvd[4:0] Unreachable Unreachable Unreachable INPUT
tl_i.a_data[31:0] Yes Yes T1,T2,T4 Yes T1,T2,T4 INPUT
tl_i.a_mask[3:0] Yes Yes T1,T2,T3 Yes T1,T2,T3 INPUT
tl_i.a_address[31:0] Yes Yes T1,T2,T4 Yes T1,T2,T4 INPUT
tl_i.a_source[7:0] Yes Yes T1,T2,T4 Yes T1,T2,T4 INPUT
tl_i.a_size[1:0] Yes Yes T1,T2,T3 Yes T1,T2,T4 INPUT
tl_i.a_param[2:0] Unreachable Unreachable Unreachable INPUT
tl_i.a_opcode[2:0] Yes Yes T1,T2,T3 Yes T1,T2,T4 INPUT
tl_i.a_valid Yes Yes T1,T2,T3 Yes T1,T2,T3 INPUT
tl_o.a_ready Yes Yes T1,T2,T3 Yes T1,T2,T3 OUTPUT
tl_o.d_error Yes Yes T99,T100,T101 Yes T99,T100,T101 OUTPUT
tl_o.d_user.data_intg[6:0] Yes Yes T1,T2,T4 Yes T1,T2,T3 OUTPUT
tl_o.d_user.rsp_intg[5:0] Yes Yes *T1,*T2,*T3 Yes T1,T2,T3 OUTPUT
tl_o.d_user.rsp_intg[6] Unreachable Unreachable Unreachable OUTPUT
tl_o.d_data[31:0] Yes Yes T1,T2,T3 Yes T1,T2,T3 OUTPUT
tl_o.d_sink Unreachable Unreachable Unreachable OUTPUT
tl_o.d_source[7:0] Yes Yes T1,T2,T4 Yes T1,T2,T3 OUTPUT
tl_o.d_size[1:0] Yes Yes T1,T2,T3 Yes T1,T2,T3 OUTPUT
tl_o.d_param[2:0] Unreachable Unreachable Unreachable OUTPUT
tl_o.d_opcode[0] Yes Yes *T1,*T2,*T4 Yes T1,T2,T3 OUTPUT
tl_o.d_opcode[2:1] Unreachable Unreachable Unreachable OUTPUT
tl_o.d_valid Yes Yes T1,T2,T3 Yes T1,T2,T3 OUTPUT
jtag_i.tdi Yes Yes T6,T7,T8 Yes T6,T7,T8 INPUT
jtag_i.trst_n Yes Yes T2,T4,T5 Yes T1,T2,T3 INPUT
jtag_i.tms Yes Yes T6,T7,T8 Yes T6,T7,T8 INPUT
jtag_i.tck Yes Yes T6,T7,T8 Yes T6,T7,T8 INPUT
jtag_o.tdo_oe Yes Yes T6,T7,T8 Yes T6,T7,T8 OUTPUT
jtag_o.tdo Yes Yes T6,T7,T8 Yes T6,T7,T8 OUTPUT
scan_rst_ni Yes Yes T9,T10,T11 Yes T11,T12,T13 INPUT
scanmode_i[3:0] No No No INPUT
alert_rx_i[0].ack_n Yes Yes T1,T2,T3 Yes T1,T2,T3 INPUT
alert_rx_i[0].ack_p Yes Yes T4,T7,T14 Yes T4,T7,T14 INPUT
alert_rx_i[0].ping_n Unreachable Unreachable Unreachable INPUT
alert_rx_i[0].ping_p Unreachable Unreachable Unreachable INPUT
alert_rx_i[1].ack_n Yes Yes T1,T2,T3 Yes T1,T2,T3 INPUT
alert_rx_i[1].ack_p Yes Yes T5,T22,T16 Yes T5,T22,T16 INPUT
alert_rx_i[1].ping_n Unreachable Unreachable Unreachable INPUT
alert_rx_i[1].ping_p Unreachable Unreachable Unreachable INPUT
alert_rx_i[2].ack_n Yes Yes T1,T2,T3 Yes T1,T2,T3 INPUT
alert_rx_i[2].ack_p Yes Yes T22,T97,T31 Yes T22,T97,T31 INPUT
alert_rx_i[2].ping_n Unreachable Unreachable Unreachable INPUT
alert_rx_i[2].ping_p Unreachable Unreachable Unreachable INPUT
alert_tx_o[0].alert_n Yes Yes T1,T2,T3 Yes T1,T2,T3 OUTPUT
alert_tx_o[0].alert_p Yes Yes T4,T7,T14 Yes T4,T7,T14 OUTPUT
alert_tx_o[1].alert_n Yes Yes T1,T2,T3 Yes T1,T2,T3 OUTPUT
alert_tx_o[1].alert_p Yes Yes T5,T22,T16 Yes T5,T22,T16 OUTPUT
alert_tx_o[2].alert_n Yes Yes T1,T2,T3 Yes T1,T2,T3 OUTPUT
alert_tx_o[2].alert_p Yes Yes T22,T97,T31 Yes T22,T97,T31 OUTPUT
esc_scrap_state0_tx_i.resp_n Yes Yes T4,T5,T7 Yes T4,T5,T7 INPUT
esc_scrap_state0_tx_i.resp_p Yes Yes T4,T5,T7 Yes T4,T5,T7 INPUT
esc_scrap_state0_rx_o.esc_n Yes Yes T4,T5,T7 Yes T4,T5,T7 OUTPUT
esc_scrap_state0_rx_o.esc_p Yes Yes T4,T5,T7 Yes T4,T5,T7 OUTPUT
esc_scrap_state1_tx_i.resp_n Yes Yes T4,T5,T14 Yes T4,T5,T14 INPUT
esc_scrap_state1_tx_i.resp_p Yes Yes T4,T5,T14 Yes T4,T5,T14 INPUT
esc_scrap_state1_rx_o.esc_n Yes Yes T4,T5,T14 Yes T4,T5,T14 OUTPUT
esc_scrap_state1_rx_o.esc_p Yes Yes T4,T5,T14 Yes T4,T5,T14 OUTPUT
pwr_lc_i.lc_init Yes Yes T1,T2,T3 Yes T1,T2,T3 INPUT
pwr_lc_o.lc_idle Yes Yes T1,T2,T4 Yes T1,T2,T3 OUTPUT
pwr_lc_o.lc_done Yes Yes T2,T4,T5 Yes T1,T2,T3 OUTPUT
strap_en_override_o No No Yes T1,T39,T40 OUTPUT
lc_otp_vendor_test_o.ctrl[31:0] Yes Yes T4,T7,T8 Yes T4,T7,T8 OUTPUT
lc_otp_vendor_test_i.status[31:0] Yes Yes T4,T7,T15 Yes T4,T7,T15 INPUT
lc_otp_program_o.count[383:0] Yes Yes T44,T31,T45 Yes T44,T31,T45 OUTPUT
lc_otp_program_o.state[319:0] Yes Yes T1,T2,T5 Yes T1,T2,T5 OUTPUT
lc_otp_program_o.req Yes Yes T1,T2,T4 Yes T1,T2,T4 OUTPUT
lc_otp_program_i.ack Yes Yes T1,T2,T4 Yes T1,T2,T4 INPUT
lc_otp_program_i.err Yes Yes T58,T60,T99 Yes T58,T60,T74 INPUT
kmac_data_i.error Yes Yes T14,T49,T50 Yes T14,T49,T50 INPUT
kmac_data_i.digest_share1[383:0] Yes Yes T2,T5,T8 Yes T2,T5,T8 INPUT
kmac_data_i.digest_share0[383:0] Yes Yes T2,T5,T8 Yes T2,T5,T8 INPUT
kmac_data_i.done Yes Yes T1,T2,T5 Yes T1,T2,T5 INPUT
kmac_data_i.ready Yes Yes T1,T2,T4 Yes T1,T2,T3 INPUT
kmac_data_o.last Yes Yes T1,T2,T5 Yes T1,T2,T5 OUTPUT
kmac_data_o.strb[7:0] Yes Yes T1,T2,T5 Yes T1,T2,T5 OUTPUT
kmac_data_o.data[63:0] Yes Yes T1,T2,T5 Yes T1,T2,T5 OUTPUT
kmac_data_o.valid Yes Yes T1,T2,T5 Yes T1,T2,T5 OUTPUT
otp_lc_data_i.rma_token[127:0] Yes Yes T2,T4,T5 Yes T2,T4,T5 INPUT
otp_lc_data_i.rma_token_valid[3:0] Yes Yes T48,T56,T57 Yes T48,T56,T57 INPUT
otp_lc_data_i.test_exit_token[127:0] Yes Yes T2,T4,T5 Yes T2,T4,T5 INPUT
otp_lc_data_i.test_unlock_token[127:0] Yes Yes T2,T4,T5 Yes T2,T4,T5 INPUT
otp_lc_data_i.test_tokens_valid[3:0] Yes Yes T48,T56,T57 Yes T48,T56,T57 INPUT
otp_lc_data_i.secrets_valid[3:0] Yes Yes T48,T56,T57 Yes T48,T56,T57 INPUT
otp_lc_data_i.count[383:0] Yes Yes T44,T45,T102 Yes T44,T45,T102 INPUT
otp_lc_data_i.state[319:0] Yes Yes T2,T5,T14 Yes T2,T5,T14 INPUT
otp_lc_data_i.error Yes Yes T14,T49,T50 Yes T14,T49,T50 INPUT
otp_lc_data_i.valid Yes Yes T16,T51,T52 Yes T16,T51,T52 INPUT
lc_dft_en_o[3:0] Yes Yes T1,T2,T4 Yes T1,T2,T4 OUTPUT
lc_nvm_debug_en_o[3:0] Yes Yes T1,T2,T4 Yes T1,T2,T4 OUTPUT
lc_hw_debug_en_o[3:0] Yes Yes T1,T2,T4 Yes T1,T2,T3 OUTPUT
lc_cpu_en_o[3:0] Yes Yes T1,T2,T4 Yes T1,T2,T3 OUTPUT
lc_creator_seed_sw_rw_en_o[3:0] Yes Yes T2,T4,T5 Yes T2,T3,T4 OUTPUT
lc_owner_seed_sw_rw_en_o[3:0] Yes Yes T2,T4,T5 Yes T2,T3,T4 OUTPUT
lc_iso_part_sw_rd_en_o[3:0] Yes Yes T2,T5,T8 Yes T2,T5,T7 OUTPUT
lc_iso_part_sw_wr_en_o[3:0] Yes Yes T1,T2,T4 Yes T1,T2,T3 OUTPUT
lc_seed_hw_rd_en_o[3:0] Yes Yes T2,T5,T14 Yes T2,T5,T14 OUTPUT
lc_keymgr_en_o[3:0] Yes Yes T2,T4,T5 Yes T2,T3,T4 OUTPUT
lc_escalate_en_o[3:0] Yes Yes T2,T4,T5 Yes T2,T4,T5 OUTPUT
lc_check_byp_en_o[3:0] Yes Yes T2,T4,T5 Yes T1,T2,T4 OUTPUT
lc_clk_byp_req_o[3:0] Yes Yes T2,T15,T76 Yes T1,T2,T9 OUTPUT
lc_clk_byp_ack_i[3:0] Yes Yes T2,T14,T15 Yes T1,T2,T14 INPUT
lc_flash_rma_seed_o[31:0] Yes Yes T2,T4,T5 Yes T2,T4,T5 OUTPUT
lc_flash_rma_req_o[3:0] Yes Yes T2,T8,T14 Yes T1,T2,T8 OUTPUT
lc_keymgr_div_o[127:0] Yes Yes T2,T4,T5 Yes T2,T3,T4 OUTPUT
otp_device_id_i[255:0] Yes Yes T7,T8,T15 Yes T7,T8,T15 INPUT
otp_manuf_state_i[255:0] Yes Yes T16,T17,T53 Yes T1,T3,T16 INPUT
hw_rev_o.reserved[23:0] No No No OUTPUT
hw_rev_o.revision_id[7:0] No No No OUTPUT
hw_rev_o.product_id[15:0] No No No OUTPUT
hw_rev_o.silicon_creator_id[15:0] No No No OUTPUT

*Tests covering at least one bit in the range

Branch Coverage for Module : lc_ctrl
Line No.TotalCoveredPercent
Branches 31 31 100.00
IF 346 3 3 100.00
IF 380 3 3 100.00
IF 391 18 18 100.00
IF 466 3 3 100.00
IF 668 2 2 100.00
IF 525 2 2 100.00


346 if (mubi8_test_true_strict(tap_claim_transition_if_q)) begin -1- 347 tap_hw2reg.transition_ctrl.ext_clock_en = use_ext_clock_q; ==> 348 tap_hw2reg.transition_ctrl.volatile_raw_unlock = volatile_raw_unlock_q; 349 tap_hw2reg.transition_token = transition_token_q; 350 tap_hw2reg.transition_target = transition_target_q; 351 // SEC_CM: TRANSITION.CONFIG.REGWEN 352 tap_hw2reg.transition_regwen = lc_idle_d; 353 tap_hw2reg.otp_vendor_test_ctrl = otp_vendor_test_ctrl_q; 354 tap_hw2reg.otp_vendor_test_status = otp_vendor_test_status; 355 end else if (mubi8_test_true_strict(sw_claim_transition_if_q)) begin -2- 356 hw2reg.transition_ctrl.ext_clock_en = use_ext_clock_q; ==> 357 hw2reg.transition_ctrl.volatile_raw_unlock = volatile_raw_unlock_q; 358 hw2reg.transition_token = transition_token_q; 359 hw2reg.transition_target = transition_target_q; 360 // SEC_CM: TRANSITION.CONFIG.REGWEN 361 hw2reg.transition_regwen = lc_idle_d; 362 hw2reg.otp_vendor_test_ctrl = otp_vendor_test_ctrl_q; 363 hw2reg.otp_vendor_test_status = otp_vendor_test_status; 364 end MISSING_ELSE ==>

Branches:
-1--2-StatusTests
1 - Covered T6,T7,T8
0 1 Covered T1,T2,T3
0 0 Covered T1,T2,T3


380 if (mubi8_test_false_loose(sw_claim_transition_if_q) && -1- 381 tap_reg2hw.claim_transition_if.qe) begin 382 tap_claim_transition_if_d = mubi8_t'(tap_reg2hw.claim_transition_if.q); ==> 383 // SW mutex claim. 384 end else if (mubi8_test_false_loose(tap_claim_transition_if_q) && -2- 385 reg2hw.claim_transition_if.qe) begin 386 sw_claim_transition_if_d = mubi8_t'(reg2hw.claim_transition_if.q); ==> 387 end MISSING_ELSE ==>

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


391 if (lc_idle_d) begin -1- 392 // The TAP has priority. 393 if (mubi8_test_true_strict(tap_claim_transition_if_q)) begin -2- 394 transition_cmd = tap_reg2hw.transition_cmd.q & 395 tap_reg2hw.transition_cmd.qe; 396 397 if (tap_reg2hw.transition_ctrl.ext_clock_en.qe) begin -3- 398 use_ext_clock_d |= tap_reg2hw.transition_ctrl.ext_clock_en.q; ==> 399 end MISSING_ELSE ==> 400 401 // ---------- VOLATILE_TEST_UNLOCKED CODE SECTION START ---------- 402 // NOTE THAT THIS IS A FEATURE FOR TEST CHIPS ONLY TO MITIGATE 403 // THE RISK OF A BROKEN OTP MACRO. THIS WILL BE DISABLED VIA 404 // SecVolatileRawUnlockEn AT COMPILETIME FOR PRODUCTION DEVICES. 405 // --------------------------------------------------------------- 406 if (tap_reg2hw.transition_ctrl.volatile_raw_unlock.qe) begin -4- 407 volatile_raw_unlock_d = tap_reg2hw.transition_ctrl.volatile_raw_unlock.q; ==> 408 end MISSING_ELSE ==> 409 // ----------- VOLATILE_TEST_UNLOCKED CODE SECTION END ----------- 410 411 for (int k = 0; k < LcTokenWidth/32; k++) begin 412 if (tap_reg2hw.transition_token[k].qe) begin 413 transition_token_d[k*32 +: 32] = tap_reg2hw.transition_token[k].q; 414 end 415 end 416 417 if (tap_reg2hw.transition_target.qe) begin -5- 418 for (int k = 0; k < DecLcStateNumRep; k++) begin ==> 419 transition_target_d[k] = dec_lc_state_e'( 420 tap_reg2hw.transition_target.q[k*DecLcStateWidth +: DecLcStateWidth]); 421 end 422 end MISSING_ELSE ==> 423 424 if (tap_reg2hw.otp_vendor_test_ctrl.qe) begin -6- 425 otp_vendor_test_ctrl_d = tap_reg2hw.otp_vendor_test_ctrl.q; ==> 426 end MISSING_ELSE ==> 427 end else if (mubi8_test_true_strict(sw_claim_transition_if_q)) begin -7- 428 transition_cmd = reg2hw.transition_cmd.q & 429 reg2hw.transition_cmd.qe; 430 431 if (reg2hw.transition_ctrl.ext_clock_en.qe) begin -8- 432 use_ext_clock_d |= reg2hw.transition_ctrl.ext_clock_en.q; ==> 433 end MISSING_ELSE ==> 434 435 // ---------- VOLATILE_TEST_UNLOCKED CODE SECTION START ---------- 436 // NOTE THAT THIS IS A FEATURE FOR TEST CHIPS ONLY TO MITIGATE 437 // THE RISK OF A BROKEN OTP MACRO. THIS WILL BE DISABLED VIA 438 // SecVolatileRawUnlockEn AT COMPILETIME FOR PRODUCTION DEVICES. 439 // --------------------------------------------------------------- 440 if (reg2hw.transition_ctrl.volatile_raw_unlock.qe) begin -9- 441 volatile_raw_unlock_d = reg2hw.transition_ctrl.volatile_raw_unlock.q; ==> 442 end MISSING_ELSE ==> 443 // ----------- VOLATILE_TEST_UNLOCKED CODE SECTION END ----------- 444 445 for (int k = 0; k < LcTokenWidth/32; k++) begin 446 if (reg2hw.transition_token[k].qe) begin 447 transition_token_d[k*32 +: 32] = reg2hw.transition_token[k].q; 448 end 449 end 450 451 if (reg2hw.transition_target.qe) begin -10- 452 for (int k = 0; k < DecLcStateNumRep; k++) begin ==> 453 transition_target_d[k] = dec_lc_state_e'( 454 reg2hw.transition_target.q[k*DecLcStateWidth +: DecLcStateWidth]); 455 end 456 end MISSING_ELSE ==> 457 458 if (reg2hw.otp_vendor_test_ctrl.qe) begin -11- 459 otp_vendor_test_ctrl_d = reg2hw.otp_vendor_test_ctrl.q; ==> 460 end MISSING_ELSE ==> 461 end MISSING_ELSE ==> 462 end MISSING_ELSE ==>

Branches:
-1--2--3--4--5--6--7--8--9--10--11-StatusTests
1 1 1 - - - - - - - - Covered T8,T9,T20
1 1 0 - - - - - - - - Covered T6,T7,T8
1 1 - 1 - - - - - - - Covered T8,T9,T20
1 1 - 0 - - - - - - - Covered T6,T7,T8
1 1 - - 1 - - - - - - Covered T7,T8,T9
1 1 - - 0 - - - - - - Covered T6,T7,T8
1 1 - - - 1 - - - - - Covered T7,T8,T9
1 1 - - - 0 - - - - - Covered T6,T7,T8
1 0 - - - - 1 1 - - - Covered T1,T2,T6
1 0 - - - - 1 0 - - - Covered T1,T2,T3
1 0 - - - - 1 - 1 - - Covered T1,T2,T6
1 0 - - - - 1 - 0 - - Covered T1,T2,T3
1 0 - - - - 1 - - 1 - Covered T1,T2,T4
1 0 - - - - 1 - - 0 - Covered T1,T2,T3
1 0 - - - - 1 - - - 1 Covered T2,T4,T6
1 0 - - - - 1 - - - 0 Covered T1,T2,T3
1 0 - - - - 0 - - - - Covered T1,T2,T3
0 - - - - - - - - - - Covered T1,T2,T3


466 if (!rst_ni) begin -1- 467 trans_success_q <= 1'b0; ==> 468 trans_cnt_oflw_error_q <= 1'b0; 469 trans_invalid_error_q <= 1'b0; 470 token_invalid_error_q <= 1'b0; 471 flash_rma_error_q <= 1'b0; 472 fatal_prog_error_q <= 1'b0; 473 fatal_state_error_q <= 1'b0; 474 sw_claim_transition_if_q <= MuBi8False; 475 tap_claim_transition_if_q <= MuBi8False; 476 transition_token_q <= '0; 477 transition_target_q <= {DecLcStateNumRep{DecLcStRaw}}; 478 otp_part_error_q <= 1'b0; 479 fatal_bus_integ_error_q <= 1'b0; 480 otp_vendor_test_ctrl_q <= '0; 481 use_ext_clock_q <= 1'b0; 482 end else begin 483 // ---------- VOLATILE_TEST_UNLOCKED CODE SECTION START ---------- 484 // NOTE THAT THIS IS A FEATURE FOR TEST CHIPS ONLY TO MITIGATE 485 // THE RISK OF A BROKEN OTP MACRO. THIS WILL BE DISABLED VIA 486 // SecVolatileRawUnlockEn AT COMPILETIME FOR PRODUCTION DEVICES. 487 // --------------------------------------------------------------- 488 // In case of a volatile RAW unlock, this bit has to be cleared when the volatile 489 // unlock is followed by a real transition. 490 // ----------- VOLATILE_TEST_UNLOCKED CODE SECTION END ----------- 491 if (SecVolatileRawUnlockEn && transition_cmd && !volatile_raw_unlock_q) begin -2- 492 trans_success_q <= 1'b0; ==> 493 end else begin 494 trans_success_q <= trans_success_d | trans_success_q; ==>

Branches:
-1--2-StatusTests
1 - Covered T1,T2,T3
0 1 Covered T1,T2,T4
0 0 Covered T1,T2,T3


668 if (!rst_ni) begin -1- 669 lc_done_q <= 1'b0; ==> 670 lc_idle_q <= 1'b0; 671 end else begin 672 lc_done_q <= lc_done_d; ==>

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


525 if (!rst_ni) begin -1- 526 volatile_raw_unlock_q <= 1'b0; ==> 527 end else begin 528 volatile_raw_unlock_q <= volatile_raw_unlock_d; ==>

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


Assert Coverage for Module : lc_ctrl
TotalAttemptedPercentSucceeded/MatchedPercent
Assertions 32 32 100.00 27 84.38
Cover properties 0 0 0
Cover sequences 0 0 0
Total 32 32 100.00 27 84.38




Assertion Details

NameAttemptsReal SuccessesFailuresIncomplete
AlertTxKnown_A 55285669 51934273 0 0
DecLcCountWidthCheck_A 814 814 0 0
DecLcIdStateWidthCheck_A 814 814 0 0
DecLcStateWidthCheck_A 814 814 0 0
FpvSecCmCtrlKmacIfFsmCheck_A 53530838 0 0 0
FpvSecCmCtrlLcCntCheck_A 49733198 0 0 0
FpvSecCmCtrlLcFsmCheck_A 53482473 0 0 0
FpvSecCmCtrlLcStateCheck_A 51393071 0 0 0
FpvSecCmRegWeOnehotCheck_A 55285669 80 0 0
FpvSecCmTapRegWeOnehotCheck_A 55285669 0 0 0
LcCheckBypassEnKnown_A 55285669 51934273 0 0
LcClkBypReqKnown_A 55285669 51934273 0 0
LcCpuEnKnown_A 55285669 51934273 0 0
LcCreatorSwRwEn_A 55285669 51934273 0 0
LcDftEnKnown_A 55285669 51934273 0 0
LcEscalateEnKnown_A 55285669 51934273 0 0
LcFlashRmaReqKnown_A 55285669 51934273 0 0
LcFlashRmaSeedKnown_A 55285669 51934273 0 0
LcHwDebugEnKnown_A 55285669 51934273 0 0
LcIsoSwRwEn_A 55285669 51934273 0 0
LcIsoSwWrEn_A 55285669 51934273 0 0
LcKeymgrDiv_A 55285669 51934273 0 0
LcKeymgrEnKnown_A 55285669 51934273 0 0
LcNvmDebugEnKnown_A 55285669 51934273 0 0
LcOtpProgramKnown_A 55285669 51934273 0 0
LcOtpTokenKnown_A 55285669 51934273 0 0
LcOwnerSwRwEn_A 55285669 51934273 0 0
LcSeedHwRdEn_A 55285669 51934273 0 0
NumTokenWordsCheck_A 814 814 0 0
OtpTestCtrlWidth_A 814 814 0 0
PwrLcKnown_A 55285669 51934273 0 0
TlOKnown 55285669 51934273 0 0


AlertTxKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

DecLcCountWidthCheck_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 814 814 0 0
T1 1 1 0 0
T2 1 1 0 0
T3 1 1 0 0
T4 1 1 0 0
T5 1 1 0 0
T6 1 1 0 0
T7 1 1 0 0
T8 1 1 0 0
T9 1 1 0 0
T14 1 1 0 0

DecLcIdStateWidthCheck_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 814 814 0 0
T1 1 1 0 0
T2 1 1 0 0
T3 1 1 0 0
T4 1 1 0 0
T5 1 1 0 0
T6 1 1 0 0
T7 1 1 0 0
T8 1 1 0 0
T9 1 1 0 0
T14 1 1 0 0

DecLcStateWidthCheck_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 814 814 0 0
T1 1 1 0 0
T2 1 1 0 0
T3 1 1 0 0
T4 1 1 0 0
T5 1 1 0 0
T6 1 1 0 0
T7 1 1 0 0
T8 1 1 0 0
T9 1 1 0 0
T14 1 1 0 0

FpvSecCmCtrlKmacIfFsmCheck_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 53530838 0 0 0

FpvSecCmCtrlLcCntCheck_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 49733198 0 0 0

FpvSecCmCtrlLcFsmCheck_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 53482473 0 0 0

FpvSecCmCtrlLcStateCheck_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 51393071 0 0 0

FpvSecCmRegWeOnehotCheck_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 80 0 0
T31 10837 10 0 0
T32 699 0 0 0
T33 8048 0 0 0
T34 7335 0 0 0
T35 41674 0 0 0
T36 26143 0 0 0
T37 88679 0 0 0
T38 41609 0 0 0
T56 33276 0 0 0
T69 0 20 0 0
T70 0 20 0 0
T71 0 10 0 0
T93 53281 0 0 0
T103 0 20 0 0

FpvSecCmTapRegWeOnehotCheck_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 0 0 0

LcCheckBypassEnKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcClkBypReqKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcCpuEnKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcCreatorSwRwEn_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcDftEnKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcEscalateEnKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcFlashRmaReqKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcFlashRmaSeedKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcHwDebugEnKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcIsoSwRwEn_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcIsoSwWrEn_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcKeymgrDiv_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcKeymgrEnKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcNvmDebugEnKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcOtpProgramKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcOtpTokenKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcOwnerSwRwEn_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcSeedHwRdEn_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

NumTokenWordsCheck_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 814 814 0 0
T1 1 1 0 0
T2 1 1 0 0
T3 1 1 0 0
T4 1 1 0 0
T5 1 1 0 0
T6 1 1 0 0
T7 1 1 0 0
T8 1 1 0 0
T9 1 1 0 0
T14 1 1 0 0

OtpTestCtrlWidth_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 814 814 0 0
T1 1 1 0 0
T2 1 1 0 0
T3 1 1 0 0
T4 1 1 0 0
T5 1 1 0 0
T6 1 1 0 0
T7 1 1 0 0
T8 1 1 0 0
T9 1 1 0 0
T14 1 1 0 0

PwrLcKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

TlOKnown
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

Line Coverage for Instance : tb.dut
Line No.TotalCoveredPercent
TOTAL133133100.00
CONT_ASSIGN21311100.00
CONT_ASSIGN26711100.00
ALWAYS3174141100.00
ALWAYS3684141100.00
ALWAYS4663333100.00
ALWAYS52533100.00
CONT_ASSIGN53811100.00
CONT_ASSIGN55411100.00
CONT_ASSIGN55611100.00
CONT_ASSIGN56711100.00
CONT_ASSIGN57311100.00
CONT_ASSIGN58211100.00
ALWAYS66855100.00
CONT_ASSIGN67711100.00
CONT_ASSIGN67811100.00

212 logic req_ready; 213 1/1 assign req_ready = dmi_req_ready & dmi_resp_ready; Tests: T1 T2 T3  214 dmi_jtag #( 215 .IdcodeValue(IdcodeValue), 216 .NumDmiWordAbits(7) 217 ) u_dmi_jtag ( 218 .clk_i, 219 .rst_ni, 220 .testmode_i ( scanmode ), 221 .test_rst_ni ( scan_rst_ni ), 222 .dmi_rst_no ( ), // unused 223 .dmi_req_o ( dmi_req ), 224 .dmi_req_valid_o ( dmi_req_valid ), 225 // unless there is room for response, stall 226 .dmi_req_ready_i ( req_ready ), 227 .dmi_resp_i ( dmi_resp ), 228 .dmi_resp_ready_o ( dmi_resp_ready ), 229 .dmi_resp_valid_i ( dmi_resp_valid ), 230 .tck_i ( tck_muxed ), 231 .tms_i ( jtag_i.tms ), 232 .trst_ni ( trst_n_muxed ), 233 .td_i ( jtag_i.tdi ), 234 .td_o ( jtag_o.tdo ), 235 .tdo_oe_o ( jtag_o.tdo_oe ) 236 ); 237 238 // DMI to TL-UL transducing 239 tlul_adapter_host #( 240 .EnableDataIntgGen(1) 241 ) u_tap_tlul_host ( 242 .clk_i, 243 .rst_ni, 244 // do not make a request unless there is room for the response 245 .req_i ( dmi_req_valid & dmi_resp_ready ), 246 .gnt_o ( dmi_req_ready ), 247 .addr_i ( top_pkg::TL_AW'({dmi_req.addr, 2'b00}) ), 248 .we_i ( dmi_req.op == dm::DTM_WRITE ), 249 .wdata_i ( dmi_req.data ), 250 .wdata_intg_i ('0 ), 251 .be_i ( {top_pkg::TL_DBW{1'b1}} ), 252 .instr_type_i ( prim_mubi_pkg::MuBi4False ), 253 .valid_o ( dmi_resp_valid ), 254 .rdata_o ( dmi_resp.data ), 255 .rdata_intg_o ( ), 256 .err_o ( ), 257 .intg_err_o ( ), 258 .tl_o ( tap_tl_h2d ), 259 .tl_i ( tap_tl_d2h ) 260 ); 261 262 // TL-UL to DMI transducing 263 assign dmi_resp.resp = '0; // unused inside dmi_jtag 264 265 // These signals are unused 266 logic unused_tap_tl_d2h; 267 1/1 assign unused_tap_tl_d2h = ^{ Tests: T1 T2 T3  268 dmi_req.addr[31:30], 269 tap_tl_d2h.d_opcode, 270 tap_tl_d2h.d_param, 271 tap_tl_d2h.d_size, 272 tap_tl_d2h.d_source, 273 tap_tl_d2h.d_sink, 274 tap_tl_d2h.d_user, 275 tap_tl_d2h.d_error 276 }; 277 278 /////////////////////////////////////// 279 // Transition Interface and HW Mutex // 280 /////////////////////////////////////// 281 282 // All registers are HWext 283 logic trans_success_d, trans_success_q; 284 logic trans_cnt_oflw_error_d, trans_cnt_oflw_error_q; 285 logic trans_invalid_error_d, trans_invalid_error_q; 286 logic token_invalid_error_d, token_invalid_error_q; 287 logic flash_rma_error_d, flash_rma_error_q; 288 logic otp_prog_error_d, fatal_prog_error_q; 289 logic state_invalid_error_d, fatal_state_error_q; 290 logic otp_part_error_q; 291 mubi8_t sw_claim_transition_if_d, sw_claim_transition_if_q; 292 mubi8_t tap_claim_transition_if_d, tap_claim_transition_if_q; 293 logic transition_cmd; 294 lc_token_t transition_token_d, transition_token_q; 295 ext_dec_lc_state_t transition_target_d, transition_target_q; 296 // No need to register these. 297 ext_dec_lc_state_t dec_lc_state; 298 dec_lc_cnt_t dec_lc_cnt; 299 dec_lc_id_state_e dec_lc_id_state; 300 301 logic lc_idle_d, lc_done_d; 302 303 // Assign hardware revision output 304 assign hw_rev_o = '{silicon_creator_id: SiliconCreatorId, 305 product_id: ProductId, 306 revision_id: RevisionId, 307 reserved: '0}; 308 309 // OTP Vendor control bits 310 logic ext_clock_switched; 311 logic use_ext_clock_d, use_ext_clock_q; 312 logic volatile_raw_unlock_d, volatile_raw_unlock_q; 313 logic [CsrOtpTestCtrlWidth-1:0] otp_vendor_test_ctrl_d, otp_vendor_test_ctrl_q; 314 logic [CsrOtpTestStatusWidth-1:0] otp_vendor_test_status; 315 316 always_comb begin : p_csr_assign_outputs 317 1/1 hw2reg = '0; Tests: T1 T2 T3  318 1/1 hw2reg.status.initialized = lc_done_d; Tests: T1 T2 T3  319 1/1 hw2reg.status.ready = lc_idle_d; Tests: T1 T2 T3  320 1/1 hw2reg.status.ext_clock_switched = ext_clock_switched; Tests: T1 T2 T3  321 1/1 hw2reg.status.transition_successful = trans_success_q; Tests: T1 T2 T3  322 1/1 hw2reg.status.transition_count_error = trans_cnt_oflw_error_q; Tests: T1 T2 T3  323 1/1 hw2reg.status.transition_error = trans_invalid_error_q; Tests: T1 T2 T3  324 1/1 hw2reg.status.token_error = token_invalid_error_q; Tests: T1 T2 T3  325 1/1 hw2reg.status.flash_rma_error = flash_rma_error_q; Tests: T1 T2 T3  326 1/1 hw2reg.status.otp_error = fatal_prog_error_q; Tests: T1 T2 T3  327 1/1 hw2reg.status.state_error = fatal_state_error_q; Tests: T1 T2 T3  328 1/1 hw2reg.status.otp_partition_error = otp_part_error_q; Tests: T1 T2 T3  329 1/1 hw2reg.status.bus_integ_error = fatal_bus_integ_error_q; Tests: T1 T2 T3  330 1/1 hw2reg.lc_state = dec_lc_state; Tests: T1 T2 T3  331 1/1 hw2reg.lc_transition_cnt = dec_lc_cnt; Tests: T1 T2 T3  332 1/1 hw2reg.lc_id_state = {DecLcIdStateNumRep{dec_lc_id_state}}; Tests: T1 T2 T3  333 1/1 hw2reg.device_id = otp_device_id_i; Tests: T1 T2 T3  334 1/1 hw2reg.manuf_state = otp_manuf_state_i; Tests: T1 T2 T3  335 1/1 hw2reg.hw_revision0.silicon_creator_id = hw_rev_o.silicon_creator_id; Tests: T1 T2 T3  336 1/1 hw2reg.hw_revision0.product_id = hw_rev_o.product_id; Tests: T1 T2 T3  337 1/1 hw2reg.hw_revision1.revision_id = hw_rev_o.revision_id; Tests: T1 T2 T3  338 1/1 hw2reg.hw_revision1.reserved = '0; Tests: T1 T2 T3  339 340 // The assignments above are identical for the TAP. 341 1/1 tap_hw2reg = hw2reg; Tests: T1 T2 T3  342 343 // Assignments gated by mutex. Again, the TAP has priority. 344 1/1 tap_hw2reg.claim_transition_if = tap_claim_transition_if_q; Tests: T1 T2 T3  345 1/1 hw2reg.claim_transition_if = sw_claim_transition_if_q; Tests: T1 T2 T3  346 1/1 if (mubi8_test_true_strict(tap_claim_transition_if_q)) begin Tests: T1 T2 T3  347 1/1 tap_hw2reg.transition_ctrl.ext_clock_en = use_ext_clock_q; Tests: T6 T7 T8  348 1/1 tap_hw2reg.transition_ctrl.volatile_raw_unlock = volatile_raw_unlock_q; Tests: T6 T7 T8  349 1/1 tap_hw2reg.transition_token = transition_token_q; Tests: T6 T7 T8  350 1/1 tap_hw2reg.transition_target = transition_target_q; Tests: T6 T7 T8  351 // SEC_CM: TRANSITION.CONFIG.REGWEN 352 1/1 tap_hw2reg.transition_regwen = lc_idle_d; Tests: T6 T7 T8  353 1/1 tap_hw2reg.otp_vendor_test_ctrl = otp_vendor_test_ctrl_q; Tests: T6 T7 T8  354 1/1 tap_hw2reg.otp_vendor_test_status = otp_vendor_test_status; Tests: T6 T7 T8  355 1/1 end else if (mubi8_test_true_strict(sw_claim_transition_if_q)) begin Tests: T1 T2 T3  356 1/1 hw2reg.transition_ctrl.ext_clock_en = use_ext_clock_q; Tests: T1 T2 T3  357 1/1 hw2reg.transition_ctrl.volatile_raw_unlock = volatile_raw_unlock_q; Tests: T1 T2 T3  358 1/1 hw2reg.transition_token = transition_token_q; Tests: T1 T2 T3  359 1/1 hw2reg.transition_target = transition_target_q; Tests: T1 T2 T3  360 // SEC_CM: TRANSITION.CONFIG.REGWEN 361 1/1 hw2reg.transition_regwen = lc_idle_d; Tests: T1 T2 T3  362 1/1 hw2reg.otp_vendor_test_ctrl = otp_vendor_test_ctrl_q; Tests: T1 T2 T3  363 1/1 hw2reg.otp_vendor_test_status = otp_vendor_test_status; Tests: T1 T2 T3  364 end MISSING_ELSE 365 end 366 367 always_comb begin : p_csr_assign_inputs 368 1/1 sw_claim_transition_if_d = sw_claim_transition_if_q; Tests: T1 T2 T3  369 1/1 tap_claim_transition_if_d = tap_claim_transition_if_q; Tests: T1 T2 T3  370 1/1 transition_token_d = transition_token_q; Tests: T1 T2 T3  371 1/1 transition_target_d = transition_target_q; Tests: T1 T2 T3  372 1/1 transition_cmd = 1'b0; Tests: T1 T2 T3  373 1/1 otp_vendor_test_ctrl_d = otp_vendor_test_ctrl_q; Tests: T1 T2 T3  374 1/1 use_ext_clock_d = use_ext_clock_q; Tests: T1 T2 T3  375 1/1 volatile_raw_unlock_d = volatile_raw_unlock_q; Tests: T1 T2 T3  376 377 // Note that the mutex claims from the TAP and SW side could arrive within the same cycle. 378 // In that case we give priority to the TAP mutex claim in order to avoid a race condition. 379 // TAP mutex claim. 380 1/1 if (mubi8_test_false_loose(sw_claim_transition_if_q) && Tests: T1 T2 T3  381 tap_reg2hw.claim_transition_if.qe) begin 382 1/1 tap_claim_transition_if_d = mubi8_t'(tap_reg2hw.claim_transition_if.q); Tests: T1 T2 T3  383 // SW mutex claim. 384 1/1 end else if (mubi8_test_false_loose(tap_claim_transition_if_q) && Tests: T1 T2 T3  385 reg2hw.claim_transition_if.qe) begin 386 1/1 sw_claim_transition_if_d = mubi8_t'(reg2hw.claim_transition_if.q); Tests: T1 T2 T3  387 end MISSING_ELSE 388 389 390 // The idle signal serves as the REGWEN in this case. 391 1/1 if (lc_idle_d) begin Tests: T1 T2 T3  392 // The TAP has priority. 393 1/1 if (mubi8_test_true_strict(tap_claim_transition_if_q)) begin Tests: T1 T2 T3  394 1/1 transition_cmd = tap_reg2hw.transition_cmd.q & Tests: T6 T7 T8  395 tap_reg2hw.transition_cmd.qe; 396 397 1/1 if (tap_reg2hw.transition_ctrl.ext_clock_en.qe) begin Tests: T6 T7 T8  398 1/1 use_ext_clock_d |= tap_reg2hw.transition_ctrl.ext_clock_en.q; Tests: T8 T9 T20  399 end MISSING_ELSE 400 401 // ---------- VOLATILE_TEST_UNLOCKED CODE SECTION START ---------- 402 // NOTE THAT THIS IS A FEATURE FOR TEST CHIPS ONLY TO MITIGATE 403 // THE RISK OF A BROKEN OTP MACRO. THIS WILL BE DISABLED VIA 404 // SecVolatileRawUnlockEn AT COMPILETIME FOR PRODUCTION DEVICES. 405 // --------------------------------------------------------------- 406 1/1 if (tap_reg2hw.transition_ctrl.volatile_raw_unlock.qe) begin Tests: T6 T7 T8  407 1/1 volatile_raw_unlock_d = tap_reg2hw.transition_ctrl.volatile_raw_unlock.q; Tests: T8 T9 T20  408 end MISSING_ELSE 409 // ----------- VOLATILE_TEST_UNLOCKED CODE SECTION END ----------- 410 411 1/1 for (int k = 0; k < LcTokenWidth/32; k++) begin Tests: T6 T7 T8  412 1/1 if (tap_reg2hw.transition_token[k].qe) begin Tests: T6 T7 T8  413 1/1 transition_token_d[k*32 +: 32] = tap_reg2hw.transition_token[k].q; Tests: T7 T8 T9  414 end MISSING_ELSE 415 end 416 417 1/1 if (tap_reg2hw.transition_target.qe) begin Tests: T6 T7 T8  418 1/1 for (int k = 0; k < DecLcStateNumRep; k++) begin Tests: T7 T8 T9  419 1/1 transition_target_d[k] = dec_lc_state_e'( Tests: T7 T8 T9  420 tap_reg2hw.transition_target.q[k*DecLcStateWidth +: DecLcStateWidth]); 421 end 422 end MISSING_ELSE 423 424 1/1 if (tap_reg2hw.otp_vendor_test_ctrl.qe) begin Tests: T6 T7 T8  425 1/1 otp_vendor_test_ctrl_d = tap_reg2hw.otp_vendor_test_ctrl.q; Tests: T7 T8 T9  426 end MISSING_ELSE 427 1/1 end else if (mubi8_test_true_strict(sw_claim_transition_if_q)) begin Tests: T1 T2 T3  428 1/1 transition_cmd = reg2hw.transition_cmd.q & Tests: T1 T2 T3  429 reg2hw.transition_cmd.qe; 430 431 1/1 if (reg2hw.transition_ctrl.ext_clock_en.qe) begin Tests: T1 T2 T3  432 1/1 use_ext_clock_d |= reg2hw.transition_ctrl.ext_clock_en.q; Tests: T1 T2 T6  433 end MISSING_ELSE 434 435 // ---------- VOLATILE_TEST_UNLOCKED CODE SECTION START ---------- 436 // NOTE THAT THIS IS A FEATURE FOR TEST CHIPS ONLY TO MITIGATE 437 // THE RISK OF A BROKEN OTP MACRO. THIS WILL BE DISABLED VIA 438 // SecVolatileRawUnlockEn AT COMPILETIME FOR PRODUCTION DEVICES. 439 // --------------------------------------------------------------- 440 1/1 if (reg2hw.transition_ctrl.volatile_raw_unlock.qe) begin Tests: T1 T2 T3  441 1/1 volatile_raw_unlock_d = reg2hw.transition_ctrl.volatile_raw_unlock.q; Tests: T1 T2 T6  442 end MISSING_ELSE 443 // ----------- VOLATILE_TEST_UNLOCKED CODE SECTION END ----------- 444 445 1/1 for (int k = 0; k < LcTokenWidth/32; k++) begin Tests: T1 T2 T3  446 1/1 if (reg2hw.transition_token[k].qe) begin Tests: T1 T2 T3  447 1/1 transition_token_d[k*32 +: 32] = reg2hw.transition_token[k].q; Tests: T1 T2 T4  448 end MISSING_ELSE 449 end 450 451 1/1 if (reg2hw.transition_target.qe) begin Tests: T1 T2 T3  452 1/1 for (int k = 0; k < DecLcStateNumRep; k++) begin Tests: T1 T2 T4  453 1/1 transition_target_d[k] = dec_lc_state_e'( Tests: T1 T2 T4  454 reg2hw.transition_target.q[k*DecLcStateWidth +: DecLcStateWidth]); 455 end 456 end MISSING_ELSE 457 458 1/1 if (reg2hw.otp_vendor_test_ctrl.qe) begin Tests: T1 T2 T3  459 1/1 otp_vendor_test_ctrl_d = reg2hw.otp_vendor_test_ctrl.q; Tests: T2 T4 T6  460 end MISSING_ELSE 461 end MISSING_ELSE 462 end MISSING_ELSE 463 end 464 465 always_ff @(posedge clk_i or negedge rst_ni) begin : p_csrs 466 1/1 if (!rst_ni) begin Tests: T1 T2 T3  467 1/1 trans_success_q <= 1'b0; Tests: T1 T2 T3  468 1/1 trans_cnt_oflw_error_q <= 1'b0; Tests: T1 T2 T3  469 1/1 trans_invalid_error_q <= 1'b0; Tests: T1 T2 T3  470 1/1 token_invalid_error_q <= 1'b0; Tests: T1 T2 T3  471 1/1 flash_rma_error_q <= 1'b0; Tests: T1 T2 T3  472 1/1 fatal_prog_error_q <= 1'b0; Tests: T1 T2 T3  473 1/1 fatal_state_error_q <= 1'b0; Tests: T1 T2 T3  474 1/1 sw_claim_transition_if_q <= MuBi8False; Tests: T1 T2 T3  475 1/1 tap_claim_transition_if_q <= MuBi8False; Tests: T1 T2 T3  476 1/1 transition_token_q <= '0; Tests: T1 T2 T3  477 1/1 transition_target_q <= {DecLcStateNumRep{DecLcStRaw}}; Tests: T1 T2 T3  478 1/1 otp_part_error_q <= 1'b0; Tests: T1 T2 T3  479 1/1 fatal_bus_integ_error_q <= 1'b0; Tests: T1 T2 T3  480 1/1 otp_vendor_test_ctrl_q <= '0; Tests: T1 T2 T3  481 1/1 use_ext_clock_q <= 1'b0; Tests: T1 T2 T3  482 end else begin 483 // ---------- VOLATILE_TEST_UNLOCKED CODE SECTION START ---------- 484 // NOTE THAT THIS IS A FEATURE FOR TEST CHIPS ONLY TO MITIGATE 485 // THE RISK OF A BROKEN OTP MACRO. THIS WILL BE DISABLED VIA 486 // SecVolatileRawUnlockEn AT COMPILETIME FOR PRODUCTION DEVICES. 487 // --------------------------------------------------------------- 488 // In case of a volatile RAW unlock, this bit has to be cleared when the volatile 489 // unlock is followed by a real transition. 490 // ----------- VOLATILE_TEST_UNLOCKED CODE SECTION END ----------- 491 1/1 if (SecVolatileRawUnlockEn && transition_cmd && !volatile_raw_unlock_q) begin Tests: T1 T2 T3  492 1/1 trans_success_q <= 1'b0; Tests: T1 T2 T4  493 end else begin 494 1/1 trans_success_q <= trans_success_d | trans_success_q; Tests: T1 T2 T3  495 end 496 // All other status and error bits are terminal and require a reset cycle. 497 1/1 trans_cnt_oflw_error_q <= trans_cnt_oflw_error_d | trans_cnt_oflw_error_q; Tests: T1 T2 T3  498 1/1 trans_invalid_error_q <= trans_invalid_error_d | trans_invalid_error_q; Tests: T1 T2 T3  499 1/1 token_invalid_error_q <= token_invalid_error_d | token_invalid_error_q; Tests: T1 T2 T3  500 1/1 flash_rma_error_q <= flash_rma_error_d | flash_rma_error_q; Tests: T1 T2 T3  501 1/1 fatal_prog_error_q <= otp_prog_error_d | fatal_prog_error_q; Tests: T1 T2 T3  502 1/1 fatal_state_error_q <= state_invalid_error_d | fatal_state_error_q; Tests: T1 T2 T3  503 1/1 otp_part_error_q <= otp_lc_data_i.error | otp_part_error_q; Tests: T1 T2 T3  504 1/1 fatal_bus_integ_error_q <= fatal_bus_integ_error_csr_d | Tests: T1 T2 T3  505 fatal_bus_integ_error_tap_d | 506 fatal_bus_integ_error_q; 507 // Other regs, gated by mutex further below. 508 1/1 sw_claim_transition_if_q <= sw_claim_transition_if_d; Tests: T1 T2 T3  509 1/1 tap_claim_transition_if_q <= tap_claim_transition_if_d; Tests: T1 T2 T3  510 1/1 transition_token_q <= transition_token_d; Tests: T1 T2 T3  511 1/1 transition_target_q <= transition_target_d; Tests: T1 T2 T3  512 1/1 otp_vendor_test_ctrl_q <= otp_vendor_test_ctrl_d; Tests: T1 T2 T3  513 1/1 use_ext_clock_q <= use_ext_clock_d; Tests: T1 T2 T3  514 end 515 end 516 517 // ---------- VOLATILE_TEST_UNLOCKED CODE SECTION START ---------- 518 // NOTE THAT THIS IS A FEATURE FOR TEST CHIPS ONLY TO MITIGATE 519 // THE RISK OF A BROKEN OTP MACRO. THIS WILL BE DISABLED VIA 520 // SecVolatileRawUnlockEn AT COMPILETIME FOR PRODUCTION DEVICES. 521 // --------------------------------------------------------------- 522 // If not enabled, this register will become a constant. 523 if (SecVolatileRawUnlockEn) begin : gen_volatile_raw_unlock_reg 524 always_ff @(posedge clk_i or negedge rst_ni) begin : p_volatile_raw_unlock_reg 525 1/1 if (!rst_ni) begin Tests: T1 T2 T3  526 1/1 volatile_raw_unlock_q <= 1'b0; Tests: T1 T2 T3  527 end else begin 528 1/1 volatile_raw_unlock_q <= volatile_raw_unlock_d; Tests: T1 T2 T3  529 end 530 end 531 end else begin : gen_volatile_raw_unlock_const 532 logic unused_volatile_raw_unlock; 533 assign unused_volatile_raw_unlock = ^volatile_raw_unlock_d; 534 assign volatile_raw_unlock_q = 1'b0; 535 end 536 // ----------- VOLATILE_TEST_UNLOCKED CODE SECTION END ----------- 537 538 1/1 assign lc_flash_rma_seed_o = transition_token_q[RmaSeedWidth-1:0]; Tests: T1 T2 T3  539 540 // Gate the vendor specific test ctrl/status bits to zero in production states. 541 // Buffer the enable signal to prevent optimization of the multibit signal. 542 lc_tx_t lc_raw_test_rma; 543 lc_tx_t [1:0] lc_raw_test_rma_buf; 544 prim_lc_sync #( 545 .NumCopies(2), 546 .AsyncOn(0) 547 ) u_prim_lc_sync ( 548 .clk_i, 549 .rst_ni, 550 .lc_en_i(lc_raw_test_rma), 551 .lc_en_o(lc_raw_test_rma_buf) 552 ); 553 554 1/1 assign lc_otp_vendor_test_o.ctrl = (lc_tx_test_true_strict(lc_raw_test_rma_buf[0])) ? Tests: T1 T2 T3  555 otp_vendor_test_ctrl_q : '0; 556 1/1 assign otp_vendor_test_status = (lc_tx_test_true_strict(lc_raw_test_rma_buf[1])) ? Tests: T1 T2 T3  557 lc_otp_vendor_test_i.status : '0; 558 559 ////////////////// 560 // Alert Sender // 561 ////////////////// 562 563 logic [NumAlerts-1:0] alerts; 564 logic [NumAlerts-1:0] alert_test; 565 logic [NumAlerts-1:0] tap_alert_test; 566 567 1/1 assign alerts = { Tests: T1 T2 T3  568 fatal_bus_integ_error_q, 569 fatal_state_error_q, 570 fatal_prog_error_q 571 }; 572 573 1/1 assign alert_test = { Tests: T1 T2 T3  574 reg2hw.alert_test.fatal_bus_integ_error.q & 575 reg2hw.alert_test.fatal_bus_integ_error.qe, 576 reg2hw.alert_test.fatal_state_error.q & 577 reg2hw.alert_test.fatal_state_error.qe, 578 reg2hw.alert_test.fatal_prog_error.q & 579 reg2hw.alert_test.fatal_prog_error.qe 580 }; 581 582 1/1 assign tap_alert_test = { Tests: T1 T2 T3  583 tap_reg2hw.alert_test.fatal_bus_integ_error.q & 584 tap_reg2hw.alert_test.fatal_bus_integ_error.qe, 585 tap_reg2hw.alert_test.fatal_state_error.q & 586 tap_reg2hw.alert_test.fatal_state_error.qe, 587 tap_reg2hw.alert_test.fatal_prog_error.q & 588 tap_reg2hw.alert_test.fatal_prog_error.qe 589 }; 590 591 for (genvar k = 0; k < NumAlerts; k++) begin : gen_alert_tx 592 prim_alert_sender #( 593 .AsyncOn(AlertAsyncOn[k]), 594 .IsFatal(1) 595 ) u_prim_alert_sender ( 596 .clk_i, 597 .rst_ni, 598 .alert_test_i ( alert_test[k] | 599 tap_alert_test[k] ), 600 .alert_req_i ( alerts[k] ), 601 .alert_ack_o ( ), 602 .alert_state_o ( ), 603 .alert_rx_i ( alert_rx_i[k] ), 604 .alert_tx_o ( alert_tx_o[k] ) 605 ); 606 end 607 608 ////////////////////////// 609 // Escalation Receivers // 610 ////////////////////////// 611 612 // SEC_CM: MAIN.FSM.GLOBAL_ESC 613 // We still have two escalation receivers here for historical reasons. 614 // The two actions "wipe secrets" and "scrap lifecycle state" have been 615 // combined in order to simplify both DV and the design, as otherwise 616 // this separation of very intertwined actions would have caused too many 617 // unnecessary corner cases. The escalation receivers are now redundant and 618 // trigger both actions at once. 619 620 // This escalation action moves the life cycle 621 // state into a temporary "SCRAP" state named "ESCALATE", 622 // and asserts the lc_escalate_en life cycle control signal. 623 logic esc_scrap_state0; 624 prim_esc_receiver #( 625 .N_ESC_SEV (alert_handler_reg_pkg::N_ESC_SEV), 626 .PING_CNT_DW (alert_handler_reg_pkg::PING_CNT_DW) 627 ) u_prim_esc_receiver0 ( 628 .clk_i, 629 .rst_ni, 630 .esc_req_o (esc_scrap_state0), 631 .esc_rx_o (esc_scrap_state0_rx_o), 632 .esc_tx_i (esc_scrap_state0_tx_i) 633 ); 634 635 // This escalation action moves the life cycle 636 // state into a temporary "SCRAP" state named "ESCALATE". 637 logic esc_scrap_state1; 638 prim_esc_receiver #( 639 .N_ESC_SEV (alert_handler_reg_pkg::N_ESC_SEV), 640 .PING_CNT_DW (alert_handler_reg_pkg::PING_CNT_DW) 641 ) u_prim_esc_receiver1 ( 642 .clk_i, 643 .rst_ni, 644 .esc_req_o (esc_scrap_state1), 645 .esc_rx_o (esc_scrap_state1_rx_o), 646 .esc_tx_i (esc_scrap_state1_tx_i) 647 ); 648 649 //////////////////////////// 650 // Synchronization of IOs // 651 //////////////////////////// 652 653 // Signals going to and coming from power manager. 654 logic lc_init; 655 prim_flop_2sync #( 656 .Width(1) 657 ) u_prim_flop_2sync_init ( 658 .clk_i, 659 .rst_ni, 660 .d_i(pwr_lc_i.lc_init), 661 .q_o(lc_init) 662 ); 663 664 logic lc_done_q; 665 logic lc_idle_q; 666 667 always_ff @(posedge clk_i or negedge rst_ni) begin : p_sync_regs 668 1/1 if (!rst_ni) begin Tests: T1 T2 T3  669 1/1 lc_done_q <= 1'b0; Tests: T1 T2 T3  670 1/1 lc_idle_q <= 1'b0; Tests: T1 T2 T3  671 end else begin 672 1/1 lc_done_q <= lc_done_d; Tests: T1 T2 T3  673 1/1 lc_idle_q <= lc_idle_d; Tests: T1 T2 T3  674 end 675 end 676 677 1/1 assign pwr_lc_o.lc_done = lc_done_q; Tests: T1 T2 T3  678 1/1 assign pwr_lc_o.lc_idle = lc_idle_q; Tests: T1 T2 T3 

Cond Coverage for Instance : tb.dut
TotalCoveredPercent
Conditions715983.10
Logical715983.10
Non-Logical00
Event00

 LINE       213
 EXPRESSION (dmi_req_ready & dmi_resp_ready)
             ------1------   -------2------
-1--2-StatusTests
01CoveredT6,T7,T8
10CoveredT1,T2,T3
11CoveredT6,T7,T8

 LINE       241
 EXPRESSION (dmi_req_valid & dmi_resp_ready)
             ------1------   -------2------
-1--2-StatusTests
01CoveredT6,T7,T8
10Not Covered
11CoveredT6,T7,T8

 LINE       241
 EXPRESSION (dmi_req.op == DTM_WRITE)
            ------------1------------
-1-StatusTests
0CoveredT1,T2,T3
1CoveredT6,T7,T8

 LINE       394
 EXPRESSION (tap_reg2hw.transition_cmd.q & tap_reg2hw.transition_cmd.qe)
             -------------1-------------   --------------2-------------
-1--2-StatusTests
01Not Covered
10CoveredT7,T8,T9
11CoveredT7,T8,T16

 LINE       428
 EXPRESSION (reg2hw.transition_cmd.q & reg2hw.transition_cmd.qe)
             -----------1-----------   ------------2-----------
-1--2-StatusTests
01Not Covered
10CoveredT1,T2,T4
11CoveredT1,T2,T4

 LINE       491
 EXPRESSION (SecVolatileRawUnlockEn && transition_cmd && ((!volatile_raw_unlock_q)))
             -----------1----------    -------2------    -------------3------------
-1--2--3-StatusTests
-01CoveredT1,T2,T3
-10CoveredT1,T39,T40
-11CoveredT1,T2,T4

 LINE       494
 EXPRESSION (trans_success_d | trans_success_q)
             -------1-------   -------2-------
-1--2-StatusTests
00CoveredT1,T2,T3
01CoveredT1,T2,T5
10CoveredT1,T2,T5

 LINE       497
 EXPRESSION (trans_cnt_oflw_error_d | trans_cnt_oflw_error_q)
             -----------1----------   -----------2----------
-1--2-StatusTests
00CoveredT1,T2,T3
01CoveredT14,T49,T50
10CoveredT14,T49,T50

 LINE       498
 EXPRESSION (trans_invalid_error_d | trans_invalid_error_q)
             ----------1----------   ----------2----------
-1--2-StatusTests
00CoveredT1,T2,T3
01CoveredT14,T17,T49
10CoveredT6,T14,T9

 LINE       499
 EXPRESSION (token_invalid_error_d | token_invalid_error_q)
             ----------1----------   ----------2----------
-1--2-StatusTests
00CoveredT1,T2,T3
01CoveredT14,T17,T47
10CoveredT14,T17,T47

 LINE       500
 EXPRESSION (flash_rma_error_d | flash_rma_error_q)
             --------1--------   --------2--------
-1--2-StatusTests
00CoveredT1,T2,T3
01CoveredT14,T48,T49
10CoveredT14,T48,T49

 LINE       501
 EXPRESSION (otp_prog_error_d | fatal_prog_error_q)
             --------1-------   ---------2--------
-1--2-StatusTests
00CoveredT1,T2,T3
01CoveredT4,T7,T14
10CoveredT4,T7,T14

 LINE       502
 EXPRESSION (state_invalid_error_d | fatal_state_error_q)
             ----------1----------   ---------2---------
-1--2-StatusTests
00CoveredT1,T2,T3
01CoveredT5,T16,T48
10CoveredT5,T16,T48

 LINE       503
 EXPRESSION (otp_lc_data_i.error | otp_part_error_q)
             ---------1---------   --------2-------
-1--2-StatusTests
00CoveredT1,T2,T3
01CoveredT54,T95,T96
10CoveredT14,T49,T50

 LINE       504
 EXPRESSION (fatal_bus_integ_error_csr_d | fatal_bus_integ_error_tap_d | fatal_bus_integ_error_q)
             -------------1-------------   -------------2-------------   -----------3-----------
-1--2--3-StatusTestsExclude Annotation
000CoveredT1,T2,T3
001Excluded VC_COV_UNR
010CoveredT31,T69,T70
100CoveredT31,T69,T70

 LINE       573
 SUB-EXPRESSION (reg2hw.alert_test.fatal_bus_integ_error.q & reg2hw.alert_test.fatal_bus_integ_error.qe)
                 --------------------1--------------------   ---------------------2--------------------
-1--2-StatusTests
01CoveredT22,T97,T98
10CoveredT1,T2,T3
11CoveredT22,T97,T98

 LINE       573
 SUB-EXPRESSION (reg2hw.alert_test.fatal_state_error.q & reg2hw.alert_test.fatal_state_error.qe)
                 ------------------1------------------   -------------------2------------------
-1--2-StatusTests
01CoveredT22,T97,T98
10CoveredT1,T2,T3
11CoveredT22,T97,T98

 LINE       573
 SUB-EXPRESSION (reg2hw.alert_test.fatal_prog_error.q & reg2hw.alert_test.fatal_prog_error.qe)
                 ------------------1-----------------   ------------------2------------------
-1--2-StatusTests
01CoveredT22,T97,T98
10CoveredT1,T2,T4
11CoveredT22,T97,T98

 LINE       582
 SUB-EXPRESSION (tap_reg2hw.alert_test.fatal_bus_integ_error.q & tap_reg2hw.alert_test.fatal_bus_integ_error.qe)
                 ----------------------1----------------------   -----------------------2----------------------
-1--2-StatusTests
01Not Covered
10CoveredT6,T7,T8
11Not Covered

 LINE       582
 SUB-EXPRESSION (tap_reg2hw.alert_test.fatal_state_error.q & tap_reg2hw.alert_test.fatal_state_error.qe)
                 --------------------1--------------------   ---------------------2--------------------
-1--2-StatusTests
01Not Covered
10CoveredT6,T7,T8
11Not Covered

 LINE       582
 SUB-EXPRESSION (tap_reg2hw.alert_test.fatal_prog_error.q & tap_reg2hw.alert_test.fatal_prog_error.qe)
                 --------------------1-------------------   --------------------2--------------------
-1--2-StatusTests
01Not Covered
10CoveredT6,T7,T8
11Not Covered

 LINE       595
 EXPRESSION (alert_test[0] | tap_alert_test[0])
             ------1------   --------2--------
-1--2-StatusTests
00CoveredT1,T2,T3
01Not Covered
10CoveredT22,T97,T98

 LINE       595
 EXPRESSION (alert_test[1] | tap_alert_test[1])
             ------1------   --------2--------
-1--2-StatusTests
00CoveredT1,T2,T3
01Not Covered
10CoveredT22,T97,T98

 LINE       595
 EXPRESSION (alert_test[2] | tap_alert_test[2])
             ------1------   --------2--------
-1--2-StatusTests
00CoveredT1,T2,T3
01Not Covered
10CoveredT22,T97,T98

Toggle Coverage for Instance : tb.dut
TotalCoveredPercent
Totals 101 100 99.01
Total Bits 7297 7289 99.89
Total Bits 0->1 3649 3645 99.89
Total Bits 1->0 3648 3644 99.89

Ports 101 100 99.01
Port Bits 7297 7289 99.89
Port Bits 0->1 3649 3645 99.89
Port Bits 1->0 3648 3644 99.89

Port Details
NameToggleToggle 1->0TestsToggle 0->1TestsDirectionExclude Annotation
clk_i Yes Yes T1,T2,T3 Yes T1,T2,T3 INPUT
rst_ni Yes Yes T2,T4,T5 Yes T1,T2,T3 INPUT
clk_kmac_i Yes Yes T1,T2,T3 Yes T1,T2,T3 INPUT
rst_kmac_ni Yes Yes T2,T4,T5 Yes T1,T2,T3 INPUT
tl_i.d_ready Yes Yes T1,T2,T4 Yes T1,T2,T3 INPUT
tl_i.a_user.data_intg[6:0] Yes Yes T1,T2,T3 Yes T1,T2,T4 INPUT
tl_i.a_user.cmd_intg[6:0] Yes Yes T1,T2,T3 Yes T1,T2,T4 INPUT
tl_i.a_user.instr_type[3:0] Yes Yes T1,T2,T6 Yes T1,T2,T6 INPUT
tl_i.a_user.rsvd[4:0] Unreachable Unreachable Unreachable INPUT
tl_i.a_data[31:0] Yes Yes T1,T2,T4 Yes T1,T2,T4 INPUT
tl_i.a_mask[3:0] Yes Yes T1,T2,T3 Yes T1,T2,T3 INPUT
tl_i.a_address[31:0] Yes Yes T1,T2,T4 Yes T1,T2,T4 INPUT
tl_i.a_source[7:0] Yes Yes T1,T2,T4 Yes T1,T2,T4 INPUT
tl_i.a_size[1:0] Yes Yes T1,T2,T3 Yes T1,T2,T4 INPUT
tl_i.a_param[2:0] Unreachable Unreachable Unreachable INPUT
tl_i.a_opcode[2:0] Yes Yes T1,T2,T3 Yes T1,T2,T4 INPUT
tl_i.a_valid Yes Yes T1,T2,T3 Yes T1,T2,T3 INPUT
tl_o.a_ready Yes Yes T1,T2,T3 Yes T1,T2,T3 OUTPUT
tl_o.d_error Yes Yes T99,T100,T101 Yes T99,T100,T101 OUTPUT
tl_o.d_user.data_intg[6:0] Yes Yes T1,T2,T4 Yes T1,T2,T3 OUTPUT
tl_o.d_user.rsp_intg[5:0] Yes Yes *T1,*T2,*T3 Yes T1,T2,T3 OUTPUT
tl_o.d_user.rsp_intg[6] Unreachable Unreachable Unreachable OUTPUT
tl_o.d_data[31:0] Yes Yes T1,T2,T3 Yes T1,T2,T3 OUTPUT
tl_o.d_sink Unreachable Unreachable Unreachable OUTPUT
tl_o.d_source[7:0] Yes Yes T1,T2,T4 Yes T1,T2,T3 OUTPUT
tl_o.d_size[1:0] Yes Yes T1,T2,T3 Yes T1,T2,T3 OUTPUT
tl_o.d_param[2:0] Unreachable Unreachable Unreachable OUTPUT
tl_o.d_opcode[0] Yes Yes *T1,*T2,*T4 Yes T1,T2,T3 OUTPUT
tl_o.d_opcode[2:1] Unreachable Unreachable Unreachable OUTPUT
tl_o.d_valid Yes Yes T1,T2,T3 Yes T1,T2,T3 OUTPUT
jtag_i.tdi Yes Yes T6,T7,T8 Yes T6,T7,T8 INPUT
jtag_i.trst_n Yes Yes T2,T4,T5 Yes T1,T2,T3 INPUT
jtag_i.tms Yes Yes T6,T7,T8 Yes T6,T7,T8 INPUT
jtag_i.tck Yes Yes T6,T7,T8 Yes T6,T7,T8 INPUT
jtag_o.tdo_oe Yes Yes T6,T7,T8 Yes T6,T7,T8 OUTPUT
jtag_o.tdo Yes Yes T6,T7,T8 Yes T6,T7,T8 OUTPUT
scan_rst_ni Yes Yes T9,T10,T11 Yes T11,T12,T13 INPUT
scanmode_i[3:0] No No No INPUT
alert_rx_i[0].ack_n Yes Yes T1,T2,T3 Yes T1,T2,T3 INPUT
alert_rx_i[0].ack_p Yes Yes T4,T7,T14 Yes T4,T7,T14 INPUT
alert_rx_i[0].ping_n Unreachable Unreachable Unreachable INPUT
alert_rx_i[0].ping_p Unreachable Unreachable Unreachable INPUT
alert_rx_i[1].ack_n Yes Yes T1,T2,T3 Yes T1,T2,T3 INPUT
alert_rx_i[1].ack_p Yes Yes T5,T22,T16 Yes T5,T22,T16 INPUT
alert_rx_i[1].ping_n Unreachable Unreachable Unreachable INPUT
alert_rx_i[1].ping_p Unreachable Unreachable Unreachable INPUT
alert_rx_i[2].ack_n Yes Yes T1,T2,T3 Yes T1,T2,T3 INPUT
alert_rx_i[2].ack_p Yes Yes T22,T97,T31 Yes T22,T97,T31 INPUT
alert_rx_i[2].ping_n Unreachable Unreachable Unreachable INPUT
alert_rx_i[2].ping_p Unreachable Unreachable Unreachable INPUT
alert_tx_o[0].alert_n Yes Yes T1,T2,T3 Yes T1,T2,T3 OUTPUT
alert_tx_o[0].alert_p Yes Yes T4,T7,T14 Yes T4,T7,T14 OUTPUT
alert_tx_o[1].alert_n Yes Yes T1,T2,T3 Yes T1,T2,T3 OUTPUT
alert_tx_o[1].alert_p Yes Yes T5,T22,T16 Yes T5,T22,T16 OUTPUT
alert_tx_o[2].alert_n Yes Yes T1,T2,T3 Yes T1,T2,T3 OUTPUT
alert_tx_o[2].alert_p Yes Yes T22,T97,T31 Yes T22,T97,T31 OUTPUT
esc_scrap_state0_tx_i.resp_n Yes Yes T4,T5,T7 Yes T4,T5,T7 INPUT
esc_scrap_state0_tx_i.resp_p Yes Yes T4,T5,T7 Yes T4,T5,T7 INPUT
esc_scrap_state0_rx_o.esc_n Yes Yes T4,T5,T7 Yes T4,T5,T7 OUTPUT
esc_scrap_state0_rx_o.esc_p Yes Yes T4,T5,T7 Yes T4,T5,T7 OUTPUT
esc_scrap_state1_tx_i.resp_n Yes Yes T4,T5,T14 Yes T4,T5,T14 INPUT
esc_scrap_state1_tx_i.resp_p Yes Yes T4,T5,T14 Yes T4,T5,T14 INPUT
esc_scrap_state1_rx_o.esc_n Yes Yes T4,T5,T14 Yes T4,T5,T14 OUTPUT
esc_scrap_state1_rx_o.esc_p Yes Yes T4,T5,T14 Yes T4,T5,T14 OUTPUT
pwr_lc_i.lc_init Yes Yes T1,T2,T3 Yes T1,T2,T3 INPUT
pwr_lc_o.lc_idle Yes Yes T1,T2,T4 Yes T1,T2,T3 OUTPUT
pwr_lc_o.lc_done Yes Yes T2,T4,T5 Yes T1,T2,T3 OUTPUT
strap_en_override_o Yes Excluded Yes T1,T39,T40 OUTPUT 1->0:VC_COV_UNR
lc_otp_vendor_test_o.ctrl[31:0] Yes Yes T4,T7,T8 Yes T4,T7,T8 OUTPUT
lc_otp_vendor_test_i.status[31:0] Yes Yes T4,T7,T15 Yes T4,T7,T15 INPUT
lc_otp_program_o.count[383:0] Yes Yes T44,T31,T45 Yes T44,T31,T45 OUTPUT
lc_otp_program_o.state[319:0] Yes Yes T1,T2,T5 Yes T1,T2,T5 OUTPUT
lc_otp_program_o.req Yes Yes T1,T2,T4 Yes T1,T2,T4 OUTPUT
lc_otp_program_i.ack Yes Yes T1,T2,T4 Yes T1,T2,T4 INPUT
lc_otp_program_i.err Yes Yes T58,T60,T99 Yes T58,T60,T74 INPUT
kmac_data_i.error Yes Yes T14,T49,T50 Yes T14,T49,T50 INPUT
kmac_data_i.digest_share1[383:0] Yes Yes T2,T5,T8 Yes T2,T5,T8 INPUT
kmac_data_i.digest_share0[383:0] Yes Yes T2,T5,T8 Yes T2,T5,T8 INPUT
kmac_data_i.done Yes Yes T1,T2,T5 Yes T1,T2,T5 INPUT
kmac_data_i.ready Yes Yes T1,T2,T4 Yes T1,T2,T3 INPUT
kmac_data_o.last Yes Yes T1,T2,T5 Yes T1,T2,T5 OUTPUT
kmac_data_o.strb[7:0] Yes Yes T1,T2,T5 Yes T1,T2,T5 OUTPUT
kmac_data_o.data[63:0] Yes Yes T1,T2,T5 Yes T1,T2,T5 OUTPUT
kmac_data_o.valid Yes Yes T1,T2,T5 Yes T1,T2,T5 OUTPUT
otp_lc_data_i.rma_token[127:0] Yes Yes T2,T4,T5 Yes T2,T4,T5 INPUT
otp_lc_data_i.rma_token_valid[3:0] Yes Yes T48,T56,T57 Yes T48,T56,T57 INPUT
otp_lc_data_i.test_exit_token[127:0] Yes Yes T2,T4,T5 Yes T2,T4,T5 INPUT
otp_lc_data_i.test_unlock_token[127:0] Yes Yes T2,T4,T5 Yes T2,T4,T5 INPUT
otp_lc_data_i.test_tokens_valid[3:0] Yes Yes T48,T56,T57 Yes T48,T56,T57 INPUT
otp_lc_data_i.secrets_valid[3:0] Yes Yes T48,T56,T57 Yes T48,T56,T57 INPUT
otp_lc_data_i.count[383:0] Yes Yes T44,T45,T102 Yes T44,T45,T102 INPUT
otp_lc_data_i.state[319:0] Yes Yes T2,T5,T14 Yes T2,T5,T14 INPUT
otp_lc_data_i.error Yes Yes T14,T49,T50 Yes T14,T49,T50 INPUT
otp_lc_data_i.valid Yes Yes T16,T51,T52 Yes T16,T51,T52 INPUT
lc_dft_en_o[3:0] Yes Yes T1,T2,T4 Yes T1,T2,T4 OUTPUT
lc_nvm_debug_en_o[3:0] Yes Yes T1,T2,T4 Yes T1,T2,T4 OUTPUT
lc_hw_debug_en_o[3:0] Yes Yes T1,T2,T4 Yes T1,T2,T3 OUTPUT
lc_cpu_en_o[3:0] Yes Yes T1,T2,T4 Yes T1,T2,T3 OUTPUT
lc_creator_seed_sw_rw_en_o[3:0] Yes Yes T2,T4,T5 Yes T2,T3,T4 OUTPUT
lc_owner_seed_sw_rw_en_o[3:0] Yes Yes T2,T4,T5 Yes T2,T3,T4 OUTPUT
lc_iso_part_sw_rd_en_o[3:0] Yes Yes T2,T5,T8 Yes T2,T5,T7 OUTPUT
lc_iso_part_sw_wr_en_o[3:0] Yes Yes T1,T2,T4 Yes T1,T2,T3 OUTPUT
lc_seed_hw_rd_en_o[3:0] Yes Yes T2,T5,T14 Yes T2,T5,T14 OUTPUT
lc_keymgr_en_o[3:0] Yes Yes T2,T4,T5 Yes T2,T3,T4 OUTPUT
lc_escalate_en_o[3:0] Yes Yes T2,T4,T5 Yes T2,T4,T5 OUTPUT
lc_check_byp_en_o[3:0] Yes Yes T2,T4,T5 Yes T1,T2,T4 OUTPUT
lc_clk_byp_req_o[3:0] Yes Yes T2,T15,T76 Yes T1,T2,T9 OUTPUT
lc_clk_byp_ack_i[3:0] Yes Yes T2,T14,T15 Yes T1,T2,T14 INPUT
lc_flash_rma_seed_o[31:0] Yes Yes T2,T4,T5 Yes T2,T4,T5 OUTPUT
lc_flash_rma_req_o[3:0] Yes Yes T2,T8,T14 Yes T1,T2,T8 OUTPUT
lc_keymgr_div_o[127:0] Yes Yes T2,T4,T5 Yes T2,T3,T4 OUTPUT
otp_device_id_i[255:0] Yes Yes T7,T8,T15 Yes T7,T8,T15 INPUT
otp_manuf_state_i[255:0] Yes Yes T16,T17,T53 Yes T1,T3,T16 INPUT
hw_rev_o.reserved[23:0] Excluded Excluded Excluded OUTPUT 0->1:VC_COV_UNR / 1->0:VC_COV_UNR
hw_rev_o.revision_id[7:0] Excluded Excluded Excluded OUTPUT 0->1:VC_COV_UNR / 1->0:VC_COV_UNR
hw_rev_o.product_id[15:0] Excluded Excluded Excluded OUTPUT 0->1:VC_COV_UNR / 1->0:VC_COV_UNR
hw_rev_o.silicon_creator_id[15:0] Excluded Excluded Excluded OUTPUT 0->1:VC_COV_UNR / 1->0:VC_COV_UNR

*Tests covering at least one bit in the range

Branch Coverage for Instance : tb.dut
Line No.TotalCoveredPercent
Branches 31 31 100.00
IF 346 3 3 100.00
IF 380 3 3 100.00
IF 391 18 18 100.00
IF 466 3 3 100.00
IF 668 2 2 100.00
IF 525 2 2 100.00


346 if (mubi8_test_true_strict(tap_claim_transition_if_q)) begin -1- 347 tap_hw2reg.transition_ctrl.ext_clock_en = use_ext_clock_q; ==> 348 tap_hw2reg.transition_ctrl.volatile_raw_unlock = volatile_raw_unlock_q; 349 tap_hw2reg.transition_token = transition_token_q; 350 tap_hw2reg.transition_target = transition_target_q; 351 // SEC_CM: TRANSITION.CONFIG.REGWEN 352 tap_hw2reg.transition_regwen = lc_idle_d; 353 tap_hw2reg.otp_vendor_test_ctrl = otp_vendor_test_ctrl_q; 354 tap_hw2reg.otp_vendor_test_status = otp_vendor_test_status; 355 end else if (mubi8_test_true_strict(sw_claim_transition_if_q)) begin -2- 356 hw2reg.transition_ctrl.ext_clock_en = use_ext_clock_q; ==> 357 hw2reg.transition_ctrl.volatile_raw_unlock = volatile_raw_unlock_q; 358 hw2reg.transition_token = transition_token_q; 359 hw2reg.transition_target = transition_target_q; 360 // SEC_CM: TRANSITION.CONFIG.REGWEN 361 hw2reg.transition_regwen = lc_idle_d; 362 hw2reg.otp_vendor_test_ctrl = otp_vendor_test_ctrl_q; 363 hw2reg.otp_vendor_test_status = otp_vendor_test_status; 364 end MISSING_ELSE ==>

Branches:
-1--2-StatusTests
1 - Covered T6,T7,T8
0 1 Covered T1,T2,T3
0 0 Covered T1,T2,T3


380 if (mubi8_test_false_loose(sw_claim_transition_if_q) && -1- 381 tap_reg2hw.claim_transition_if.qe) begin 382 tap_claim_transition_if_d = mubi8_t'(tap_reg2hw.claim_transition_if.q); ==> 383 // SW mutex claim. 384 end else if (mubi8_test_false_loose(tap_claim_transition_if_q) && -2- 385 reg2hw.claim_transition_if.qe) begin 386 sw_claim_transition_if_d = mubi8_t'(reg2hw.claim_transition_if.q); ==> 387 end MISSING_ELSE ==>

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


391 if (lc_idle_d) begin -1- 392 // The TAP has priority. 393 if (mubi8_test_true_strict(tap_claim_transition_if_q)) begin -2- 394 transition_cmd = tap_reg2hw.transition_cmd.q & 395 tap_reg2hw.transition_cmd.qe; 396 397 if (tap_reg2hw.transition_ctrl.ext_clock_en.qe) begin -3- 398 use_ext_clock_d |= tap_reg2hw.transition_ctrl.ext_clock_en.q; ==> 399 end MISSING_ELSE ==> 400 401 // ---------- VOLATILE_TEST_UNLOCKED CODE SECTION START ---------- 402 // NOTE THAT THIS IS A FEATURE FOR TEST CHIPS ONLY TO MITIGATE 403 // THE RISK OF A BROKEN OTP MACRO. THIS WILL BE DISABLED VIA 404 // SecVolatileRawUnlockEn AT COMPILETIME FOR PRODUCTION DEVICES. 405 // --------------------------------------------------------------- 406 if (tap_reg2hw.transition_ctrl.volatile_raw_unlock.qe) begin -4- 407 volatile_raw_unlock_d = tap_reg2hw.transition_ctrl.volatile_raw_unlock.q; ==> 408 end MISSING_ELSE ==> 409 // ----------- VOLATILE_TEST_UNLOCKED CODE SECTION END ----------- 410 411 for (int k = 0; k < LcTokenWidth/32; k++) begin 412 if (tap_reg2hw.transition_token[k].qe) begin 413 transition_token_d[k*32 +: 32] = tap_reg2hw.transition_token[k].q; 414 end 415 end 416 417 if (tap_reg2hw.transition_target.qe) begin -5- 418 for (int k = 0; k < DecLcStateNumRep; k++) begin ==> 419 transition_target_d[k] = dec_lc_state_e'( 420 tap_reg2hw.transition_target.q[k*DecLcStateWidth +: DecLcStateWidth]); 421 end 422 end MISSING_ELSE ==> 423 424 if (tap_reg2hw.otp_vendor_test_ctrl.qe) begin -6- 425 otp_vendor_test_ctrl_d = tap_reg2hw.otp_vendor_test_ctrl.q; ==> 426 end MISSING_ELSE ==> 427 end else if (mubi8_test_true_strict(sw_claim_transition_if_q)) begin -7- 428 transition_cmd = reg2hw.transition_cmd.q & 429 reg2hw.transition_cmd.qe; 430 431 if (reg2hw.transition_ctrl.ext_clock_en.qe) begin -8- 432 use_ext_clock_d |= reg2hw.transition_ctrl.ext_clock_en.q; ==> 433 end MISSING_ELSE ==> 434 435 // ---------- VOLATILE_TEST_UNLOCKED CODE SECTION START ---------- 436 // NOTE THAT THIS IS A FEATURE FOR TEST CHIPS ONLY TO MITIGATE 437 // THE RISK OF A BROKEN OTP MACRO. THIS WILL BE DISABLED VIA 438 // SecVolatileRawUnlockEn AT COMPILETIME FOR PRODUCTION DEVICES. 439 // --------------------------------------------------------------- 440 if (reg2hw.transition_ctrl.volatile_raw_unlock.qe) begin -9- 441 volatile_raw_unlock_d = reg2hw.transition_ctrl.volatile_raw_unlock.q; ==> 442 end MISSING_ELSE ==> 443 // ----------- VOLATILE_TEST_UNLOCKED CODE SECTION END ----------- 444 445 for (int k = 0; k < LcTokenWidth/32; k++) begin 446 if (reg2hw.transition_token[k].qe) begin 447 transition_token_d[k*32 +: 32] = reg2hw.transition_token[k].q; 448 end 449 end 450 451 if (reg2hw.transition_target.qe) begin -10- 452 for (int k = 0; k < DecLcStateNumRep; k++) begin ==> 453 transition_target_d[k] = dec_lc_state_e'( 454 reg2hw.transition_target.q[k*DecLcStateWidth +: DecLcStateWidth]); 455 end 456 end MISSING_ELSE ==> 457 458 if (reg2hw.otp_vendor_test_ctrl.qe) begin -11- 459 otp_vendor_test_ctrl_d = reg2hw.otp_vendor_test_ctrl.q; ==> 460 end MISSING_ELSE ==> 461 end MISSING_ELSE ==> 462 end MISSING_ELSE ==>

Branches:
-1--2--3--4--5--6--7--8--9--10--11-StatusTests
1 1 1 - - - - - - - - Covered T8,T9,T20
1 1 0 - - - - - - - - Covered T6,T7,T8
1 1 - 1 - - - - - - - Covered T8,T9,T20
1 1 - 0 - - - - - - - Covered T6,T7,T8
1 1 - - 1 - - - - - - Covered T7,T8,T9
1 1 - - 0 - - - - - - Covered T6,T7,T8
1 1 - - - 1 - - - - - Covered T7,T8,T9
1 1 - - - 0 - - - - - Covered T6,T7,T8
1 0 - - - - 1 1 - - - Covered T1,T2,T6
1 0 - - - - 1 0 - - - Covered T1,T2,T3
1 0 - - - - 1 - 1 - - Covered T1,T2,T6
1 0 - - - - 1 - 0 - - Covered T1,T2,T3
1 0 - - - - 1 - - 1 - Covered T1,T2,T4
1 0 - - - - 1 - - 0 - Covered T1,T2,T3
1 0 - - - - 1 - - - 1 Covered T2,T4,T6
1 0 - - - - 1 - - - 0 Covered T1,T2,T3
1 0 - - - - 0 - - - - Covered T1,T2,T3
0 - - - - - - - - - - Covered T1,T2,T3


466 if (!rst_ni) begin -1- 467 trans_success_q <= 1'b0; ==> 468 trans_cnt_oflw_error_q <= 1'b0; 469 trans_invalid_error_q <= 1'b0; 470 token_invalid_error_q <= 1'b0; 471 flash_rma_error_q <= 1'b0; 472 fatal_prog_error_q <= 1'b0; 473 fatal_state_error_q <= 1'b0; 474 sw_claim_transition_if_q <= MuBi8False; 475 tap_claim_transition_if_q <= MuBi8False; 476 transition_token_q <= '0; 477 transition_target_q <= {DecLcStateNumRep{DecLcStRaw}}; 478 otp_part_error_q <= 1'b0; 479 fatal_bus_integ_error_q <= 1'b0; 480 otp_vendor_test_ctrl_q <= '0; 481 use_ext_clock_q <= 1'b0; 482 end else begin 483 // ---------- VOLATILE_TEST_UNLOCKED CODE SECTION START ---------- 484 // NOTE THAT THIS IS A FEATURE FOR TEST CHIPS ONLY TO MITIGATE 485 // THE RISK OF A BROKEN OTP MACRO. THIS WILL BE DISABLED VIA 486 // SecVolatileRawUnlockEn AT COMPILETIME FOR PRODUCTION DEVICES. 487 // --------------------------------------------------------------- 488 // In case of a volatile RAW unlock, this bit has to be cleared when the volatile 489 // unlock is followed by a real transition. 490 // ----------- VOLATILE_TEST_UNLOCKED CODE SECTION END ----------- 491 if (SecVolatileRawUnlockEn && transition_cmd && !volatile_raw_unlock_q) begin -2- 492 trans_success_q <= 1'b0; ==> 493 end else begin 494 trans_success_q <= trans_success_d | trans_success_q; ==>

Branches:
-1--2-StatusTests
1 - Covered T1,T2,T3
0 1 Covered T1,T2,T4
0 0 Covered T1,T2,T3


668 if (!rst_ni) begin -1- 669 lc_done_q <= 1'b0; ==> 670 lc_idle_q <= 1'b0; 671 end else begin 672 lc_done_q <= lc_done_d; ==>

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


525 if (!rst_ni) begin -1- 526 volatile_raw_unlock_q <= 1'b0; ==> 527 end else begin 528 volatile_raw_unlock_q <= volatile_raw_unlock_d; ==>

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


Assert Coverage for Instance : tb.dut
TotalAttemptedPercentSucceeded/MatchedPercent
Assertions 32 32 100.00 27 84.38
Cover properties 0 0 0
Cover sequences 0 0 0
Total 32 32 100.00 27 84.38




Assertion Details

NameAttemptsReal SuccessesFailuresIncomplete
AlertTxKnown_A 55285669 51934273 0 0
DecLcCountWidthCheck_A 814 814 0 0
DecLcIdStateWidthCheck_A 814 814 0 0
DecLcStateWidthCheck_A 814 814 0 0
FpvSecCmCtrlKmacIfFsmCheck_A 53530838 0 0 0
FpvSecCmCtrlLcCntCheck_A 49733198 0 0 0
FpvSecCmCtrlLcFsmCheck_A 53482473 0 0 0
FpvSecCmCtrlLcStateCheck_A 51393071 0 0 0
FpvSecCmRegWeOnehotCheck_A 55285669 80 0 0
FpvSecCmTapRegWeOnehotCheck_A 55285669 0 0 0
LcCheckBypassEnKnown_A 55285669 51934273 0 0
LcClkBypReqKnown_A 55285669 51934273 0 0
LcCpuEnKnown_A 55285669 51934273 0 0
LcCreatorSwRwEn_A 55285669 51934273 0 0
LcDftEnKnown_A 55285669 51934273 0 0
LcEscalateEnKnown_A 55285669 51934273 0 0
LcFlashRmaReqKnown_A 55285669 51934273 0 0
LcFlashRmaSeedKnown_A 55285669 51934273 0 0
LcHwDebugEnKnown_A 55285669 51934273 0 0
LcIsoSwRwEn_A 55285669 51934273 0 0
LcIsoSwWrEn_A 55285669 51934273 0 0
LcKeymgrDiv_A 55285669 51934273 0 0
LcKeymgrEnKnown_A 55285669 51934273 0 0
LcNvmDebugEnKnown_A 55285669 51934273 0 0
LcOtpProgramKnown_A 55285669 51934273 0 0
LcOtpTokenKnown_A 55285669 51934273 0 0
LcOwnerSwRwEn_A 55285669 51934273 0 0
LcSeedHwRdEn_A 55285669 51934273 0 0
NumTokenWordsCheck_A 814 814 0 0
OtpTestCtrlWidth_A 814 814 0 0
PwrLcKnown_A 55285669 51934273 0 0
TlOKnown 55285669 51934273 0 0


AlertTxKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

DecLcCountWidthCheck_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 814 814 0 0
T1 1 1 0 0
T2 1 1 0 0
T3 1 1 0 0
T4 1 1 0 0
T5 1 1 0 0
T6 1 1 0 0
T7 1 1 0 0
T8 1 1 0 0
T9 1 1 0 0
T14 1 1 0 0

DecLcIdStateWidthCheck_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 814 814 0 0
T1 1 1 0 0
T2 1 1 0 0
T3 1 1 0 0
T4 1 1 0 0
T5 1 1 0 0
T6 1 1 0 0
T7 1 1 0 0
T8 1 1 0 0
T9 1 1 0 0
T14 1 1 0 0

DecLcStateWidthCheck_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 814 814 0 0
T1 1 1 0 0
T2 1 1 0 0
T3 1 1 0 0
T4 1 1 0 0
T5 1 1 0 0
T6 1 1 0 0
T7 1 1 0 0
T8 1 1 0 0
T9 1 1 0 0
T14 1 1 0 0

FpvSecCmCtrlKmacIfFsmCheck_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 53530838 0 0 0

FpvSecCmCtrlLcCntCheck_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 49733198 0 0 0

FpvSecCmCtrlLcFsmCheck_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 53482473 0 0 0

FpvSecCmCtrlLcStateCheck_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 51393071 0 0 0

FpvSecCmRegWeOnehotCheck_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 80 0 0
T31 10837 10 0 0
T32 699 0 0 0
T33 8048 0 0 0
T34 7335 0 0 0
T35 41674 0 0 0
T36 26143 0 0 0
T37 88679 0 0 0
T38 41609 0 0 0
T56 33276 0 0 0
T69 0 20 0 0
T70 0 20 0 0
T71 0 10 0 0
T93 53281 0 0 0
T103 0 20 0 0

FpvSecCmTapRegWeOnehotCheck_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 0 0 0

LcCheckBypassEnKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcClkBypReqKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcCpuEnKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcCreatorSwRwEn_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcDftEnKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcEscalateEnKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcFlashRmaReqKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcFlashRmaSeedKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcHwDebugEnKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcIsoSwRwEn_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcIsoSwWrEn_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcKeymgrDiv_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcKeymgrEnKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcNvmDebugEnKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcOtpProgramKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcOtpTokenKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcOwnerSwRwEn_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

LcSeedHwRdEn_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

NumTokenWordsCheck_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 814 814 0 0
T1 1 1 0 0
T2 1 1 0 0
T3 1 1 0 0
T4 1 1 0 0
T5 1 1 0 0
T6 1 1 0 0
T7 1 1 0 0
T8 1 1 0 0
T9 1 1 0 0
T14 1 1 0 0

OtpTestCtrlWidth_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 814 814 0 0
T1 1 1 0 0
T2 1 1 0 0
T3 1 1 0 0
T4 1 1 0 0
T5 1 1 0 0
T6 1 1 0 0
T7 1 1 0 0
T8 1 1 0 0
T9 1 1 0 0
T14 1 1 0 0

PwrLcKnown_A
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

TlOKnown
NameAttemptsReal SuccessesFailuresIncomplete
Total 55285669 51934273 0 0
T1 1787 1707 0 0
T2 8851 7520 0 0
T3 1059 988 0 0
T4 6965 5496 0 0
T5 6387 5205 0 0
T6 3675 3580 0 0
T7 7969 7757 0 0
T8 17206 16705 0 0
T9 24229 24157 0 0
T14 33841 27791 0 0

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