1 .. SPDX-License-Identifier: GPL-2.0 2 3 ============================================== 4 Intel(R) Speed Select Technology User Guide 5 ============================================== 6 7 The Intel(R) Speed Select Technology (Intel(R) 8 collection of features that give more granular 9 With Intel(R) SST, one server can be configure 10 variety of diverse workload requirements. 11 12 Refer to the links below for an overview of th 13 14 - https://www.intel.com/content/www/us/en/arch 15 - https://builders.intel.com/docs/networkbuild 16 17 These capabilities are further enhanced in som 18 server platforms where these features can be e 19 dynamically without pre-configuring via BIOS s 20 configuration is done via mailbox commands to 21 and configure these features is by using the I 22 23 This document explains how to use the Intel Sp 24 control Intel(R) SST features. This document g 25 how these commands change the power and perfor 26 test. Using this tool as an example, customers 27 implemented in the tool in their production so 28 29 intel-speed-select configuration tool 30 ====================================== 31 32 Most Linux distribution packages may include t 33 it can be built by downloading the Linux kerne 34 downloaded, the tool can be built without buil 35 36 From the kernel tree, run the following comman 37 38 # cd tools/power/x86/intel-speed-select/ 39 # make 40 # make install 41 42 Getting Help 43 ------------ 44 45 To get help with the tool, execute the command 46 47 # intel-speed-select --help 48 49 The top-level help describes arguments and fea 50 multi-level help structure in the tool. For ex 51 52 # intel-speed-select perf-profile --help 53 54 To get help on a command, another level of hel 55 56 # intel-speed-select perf-profile info --help 57 58 Summary of platform capability 59 ------------------------------ 60 To check the current platform and driver capab 61 62 #intel-speed-select --info 63 64 For example on a test system:: 65 66 # intel-speed-select --info 67 Intel(R) Speed Select Technology 68 Executing on CPU model: X 69 Platform: API version : 1 70 Platform: Driver version : 1 71 Platform: mbox supported : 1 72 Platform: mmio supported : 1 73 Intel(R) SST-PP (feature perf-profile) is sup 74 TDP level change control is unlocked, max lev 75 Intel(R) SST-TF (feature turbo-freq) is suppo 76 Intel(R) SST-BF (feature base-freq) is not su 77 Intel(R) SST-CP (feature core-power) is suppo 78 79 Intel(R) Speed Select Technology - Performance 80 ---------------------------------------------- 81 82 This feature allows configuration of a server 83 performance requirements. This helps users dur 84 to choose a specific server configuration stat 85 Technology - Performance Profile (Intel(R) SST 86 that allows multiple optimized performance pro 87 defines a set of CPUs that need to be online a 88 guaranteed base frequency. Once the user issue 89 performance profile and meet CPU online/offlin 90 a change in the base frequency dynamically. Th 91 "perf-profile" when using the Intel Speed Sele 92 93 Number or performance levels 94 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 95 96 There can be multiple performance profiles on 97 profiles, execute the command below:: 98 99 # intel-speed-select perf-profile get-config- 100 Intel(R) Speed Select Technology 101 Executing on CPU model: X 102 package-0 103 die-0 104 cpu-0 105 get-config-levels:4 106 package-1 107 die-0 108 cpu-14 109 get-config-levels:4 110 111 On this system under test, there are 4 perform 112 base performance profile (which is performance 113 114 Lock/Unlock status 115 ~~~~~~~~~~~~~~~~~~ 116 117 Even if there are multiple performance profile 118 are locked. If they are locked, users cannot i 119 performance state. It is possible that there i 120 with your system vendor. 121 122 To check if the system is locked, execute the 123 124 # intel-speed-select perf-profile get-lock-st 125 Intel(R) Speed Select Technology 126 Executing on CPU model: X 127 package-0 128 die-0 129 cpu-0 130 get-lock-status:0 131 package-1 132 die-0 133 cpu-14 134 get-lock-status:0 135 136 In this case, lock status is 0, which means th 137 138 Properties of a performance level 139 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 140 141 To get properties of a specific performance le 142 143 # intel-speed-select perf-profile info -l 0 144 Intel(R) Speed Select Technology 145 Executing on CPU model: X 146 package-0 147 die-0 148 cpu-0 149 perf-profile-level-0 150 cpu-count:28 151 enable-cpu-mask:000003ff,f0003fff 152 enable-cpu-list:0,1,2,3,4,5,6,7,8,9,10 153 thermal-design-power-ratio:26 154 base-frequency(MHz):2600 155 speed-select-turbo-freq:disabled 156 speed-select-base-freq:disabled 157 ... 158 ... 159 160 Here -l option is used to specify a performanc 161 162 If the option -l is omitted, then this command 163 the performance levels. The above command is p 164 performance level 0. 165 166 For this performance profile, the list of CPUs 167 "enable-cpu-mask/enable-cpu-list" at the max c 168 condition is met, then base frequency of 2600 169 understand more, execute "intel-speed-select p 170 level 4:: 171 172 # intel-speed-select perf-profile info -l 4 173 Intel(R) Speed Select Technology 174 Executing on CPU model: X 175 package-0 176 die-0 177 cpu-0 178 perf-profile-level-4 179 cpu-count:28 180 enable-cpu-mask:000000fa,f0000faf 181 enable-cpu-list:0,1,2,3,5,7,8,9,10,11, 182 thermal-design-power-ratio:28 183 base-frequency(MHz):2800 184 speed-select-turbo-freq:disabled 185 speed-select-base-freq:unsupported 186 ... 187 ... 188 189 There are fewer CPUs in the "enable-cpu-mask/e 190 the user only keeps these CPUs online and the 191 frequency is increased to 2.8 GHz compared to 192 193 Get current performance level 194 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 195 196 To get the current performance level, execute: 197 198 # intel-speed-select perf-profile get-config- 199 Intel(R) Speed Select Technology 200 Executing on CPU model: X 201 package-0 202 die-0 203 cpu-0 204 get-config-current_level:0 205 206 First verify that the base_frequency displayed 207 208 # cat /sys/devices/system/cpu/cpu0/cpufreq/ba 209 2600000 210 211 This matches the base-frequency (MHz) field va 212 "perf-profile info" command for performance le 213 KHz). 214 215 To check if the average frequency is equal to 216 workload, disable turbo:: 217 218 # echo 1 > /sys/devices/system/cpu/intel_pstat 219 220 Then runs a busy workload on all CPUs, for exa 221 222 #stress -c 64 223 224 To verify the base frequency, run turbostat:: 225 226 #turbostat -c 0-13 --show Package,Core,CPU,Bz 227 228 Package Core CPU Bzy_MHz 229 - - 2600 230 0 0 0 2600 231 0 1 1 2600 232 0 2 2 2600 233 0 3 3 2600 234 0 4 4 2600 235 . . . . 236 237 238 Changing performance level 239 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 240 241 To the change the performance level to 4, exec 242 243 # intel-speed-select -d perf-profile set-conf 244 Intel(R) Speed Select Technology 245 Executing on CPU model: X 246 package-0 247 die-0 248 cpu-0 249 perf-profile 250 set_tdp_level:success 251 252 In the command above, "-o" is optional. If it 253 offline CPUs which are not present in the enab 254 level. 255 256 Now if the base_frequency is checked:: 257 258 #cat /sys/devices/system/cpu/cpu0/cpufreq/bas 259 2800000 260 261 Which shows that the base frequency now increa 262 level 0 to 2800 MHz at performance level 4. As 263 use fewer CPUs, can see a boost of 200 MHz com 264 265 Changing performance level via BMC Interface 266 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 267 268 It is possible to change SST-PP level using ou 269 remote management console, through BMC "Basebo 270 interface). This mode is supported from the Sa 271 generation. The kernel and tool change to supp 272 kernel version 5.18. To enable this feature, k 273 "CONFIG_INTEL_HFI_THERMAL" is required. The mi 274 is "v1.12" to support this feature, which is p 275 276 To support such configuration, this tool can b 277 a command line option --oob:: 278 279 # intel-speed-select --oob 280 Intel(R) Speed Select Technology 281 Executing on CPU model:143[0x8f] 282 OOB mode is enabled and will run as daemon 283 284 In this mode the tool will online/offline CPUs 285 level. 286 287 Check presence of other Intel(R) SST features 288 --------------------------------------------- 289 290 Each of the performance profiles also specifie 291 other two Intel(R) SST features (Intel(R) Spee 292 (Intel(R) SST-BF) and Intel(R) Speed Select Te 293 SST-TF)). 294 295 For example, from the output of "perf-profile 296 4: 297 298 For level 0:: 299 speed-select-turbo-freq:disabled 300 speed-select-base-freq:disabled 301 302 For level 4:: 303 speed-select-turbo-freq:disabled 304 speed-select-base-freq:unsupported 305 306 Given these results, the "speed-select-base-fr 307 changed from "disabled" to "unsupported" compa 308 309 This means that at performance level 4, the "s 310 not supported. However, at performance level 0 311 currently "disabled", meaning the user has not 312 "speed-select-turbo-freq" (Intel(R) SST-TF) is 313 levels, but currently not activated by the use 314 315 The Intel(R) SST-BF and the Intel(R) SST-TF fe 316 technology called Intel(R) Speed Select Techno 317 The platform firmware enables this feature whe 318 is supported on a platform. 319 320 Intel(R) Speed Select Technology Core Power (I 321 ---------------------------------------------- 322 323 Intel(R) Speed Select Technology Core Power (I 324 allows users to define per core priority. This 325 power among cores when there is a power constr 326 class of service (CLOS) configuration. 327 328 The user can configure up to 4 class of servic 329 configuration allows definitions of parameters 330 can be limited and power is distributed. Each 331 service and hence an associated priority. The 332 at per CPU level. 333 334 Enable CLOS based prioritization 335 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 336 337 To use CLOS based prioritization feature, firm 338 and use a priority type. There is a default pe 339 can be changed with optional command line para 340 341 To enable and check the options, execute:: 342 343 # intel-speed-select core-power enable --help 344 Intel(R) Speed Select Technology 345 Executing on CPU model: X 346 Enable core-power for a package/die 347 Clos Enable: Specify priority type wit 348 0: Proportional, 1: Ordered 349 350 There are two types of priority types: 351 352 - Ordered 353 354 Priority for ordered throttling is defined bas 355 CLOS group. Where CLOS0 gets highest priority 356 357 Priority order is: 358 CLOS0 > CLOS1 > CLOS2 > CLOS3. 359 360 - Proportional 361 362 When proportional priority is used, there is a 363 frequency_weight, which can be specified per C 364 proportional priority is to provide each core 365 distribute all remaining (excess/deficit) budg 366 weight. This proportional priority can be conf 367 command. 368 369 To enable with the platform default priority t 370 371 # intel-speed-select core-power enable 372 Intel(R) Speed Select Technology 373 Executing on CPU model: X 374 package-0 375 die-0 376 cpu-0 377 core-power 378 enable:success 379 package-1 380 die-0 381 cpu-6 382 core-power 383 enable:success 384 385 The scope of this enable is per package or die 386 multiple dies. To check if CLOS is enabled and 387 info" command can be used. For example to chec 388 on CPU 0, execute:: 389 390 # intel-speed-select -c 0 core-power info 391 Intel(R) Speed Select Technology 392 Executing on CPU model: X 393 package-0 394 die-0 395 cpu-0 396 core-power 397 support-status:supported 398 enable-status:enabled 399 clos-enable-status:enabled 400 priority-type:proportional 401 package-1 402 die-0 403 cpu-24 404 core-power 405 support-status:supported 406 enable-status:enabled 407 clos-enable-status:enabled 408 priority-type:proportional 409 410 Configuring CLOS groups 411 ~~~~~~~~~~~~~~~~~~~~~~~ 412 413 Each CLOS group has its own attributes includi 414 desired. These parameters can be configured wi 415 Defaults will be used if user skips setting a 416 mandatory. To check core-power config options, 417 418 # intel-speed-select core-power config --help 419 Intel(R) Speed Select Technology 420 Executing on CPU model: X 421 Set core-power configuration for one of the f 422 Specify targeted clos id with [--clos| 423 Specify clos Proportional Priority [-- 424 Specify clos min in MHz with [--min|-n 425 Specify clos max in MHz with [--max|-m 426 427 For example:: 428 429 # intel-speed-select core-power config -c 0 430 Intel(R) Speed Select Technology 431 Executing on CPU model: X 432 clos epp is not specified, default: 0 433 clos frequency weight is not specified, defau 434 clos min is not specified, default: 0 MHz 435 clos max is not specified, default: 25500 MHz 436 clos desired is not specified, default: 0 437 package-0 438 die-0 439 cpu-0 440 core-power 441 config:success 442 package-1 443 die-0 444 cpu-6 445 core-power 446 config:success 447 448 The user has the option to change defaults. Fo 449 "min" and set the base frequency to always get 450 451 Get the current CLOS configuration 452 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 453 454 To check the current configuration, "core-powe 455 example, to get the configuration of CLOS 0:: 456 457 # intel-speed-select core-power get-config -c 458 Intel(R) Speed Select Technology 459 Executing on CPU model: X 460 package-0 461 die-0 462 cpu-0 463 core-power 464 clos:0 465 epp:0 466 clos-proportional-priority:0 467 clos-min:0 MHz 468 clos-max:Max Turbo frequency 469 clos-desired:0 MHz 470 package-1 471 die-0 472 cpu-24 473 core-power 474 clos:0 475 epp:0 476 clos-proportional-priority:0 477 clos-min:0 MHz 478 clos-max:Max Turbo frequency 479 clos-desired:0 MHz 480 481 Associating a CPU with a CLOS group 482 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 483 484 To associate a CPU to a CLOS group "core-power 485 486 # intel-speed-select core-power assoc --help 487 Intel(R) Speed Select Technology 488 Executing on CPU model: X 489 Associate a clos id to a CPU 490 Specify targeted clos id with [--clos| 491 492 493 For example to associate CPU 10 to CLOS group 494 495 # intel-speed-select -c 10 core-power assoc - 496 Intel(R) Speed Select Technology 497 Executing on CPU model: X 498 package-0 499 die-0 500 cpu-10 501 core-power 502 assoc:success 503 504 Once a CPU is associated, its sibling CPUs are 505 Once associated, avoid changing Linux "cpufreq 506 limits. 507 508 To check the existing association for a CPU, " 509 be used. For example, to get association of CP 510 511 # intel-speed-select -c 10 core-power get-ass 512 Intel(R) Speed Select Technology 513 Executing on CPU model: X 514 package-1 515 die-0 516 cpu-10 517 get-assoc 518 clos:3 519 520 This shows that CPU 10 is part of a CLOS group 521 522 523 Disable CLOS based prioritization 524 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 525 526 To disable, execute:: 527 528 # intel-speed-select core-power disable 529 530 Some features like Intel(R) SST-TF can only be 531 is enabled. For this reason, disabling while I 532 Intel(R) SST-TF to fail. This will cause the " 533 if Intel(R) SST-TF is already enabled. In turn 534 feature must be disabled first. 535 536 Intel(R) Speed Select Technology - Base Freque 537 ---------------------------------------------- 538 539 The Intel(R) Speed Select Technology - Base Fr 540 the user control base frequency. If some criti 541 constant high guaranteed performance, then thi 542 the thread at higher base frequency on specifi 543 CPUs) at the cost of lower base frequency (low 544 This feature does not require offline of the l 545 546 The support of Intel(R) SST-BF depends on the 547 Performance Profile (Intel(R) SST-PP) performa 548 possible that only certain performance levels 549 possible that only base performance level (lev 550 SST-BF. Consequently, first select the desired 551 feature. 552 553 In the system under test here, Intel(R) SST-BF 554 performance level 0, but currently disabled. F 555 556 # intel-speed-select -c 0 perf-profile info - 557 Intel(R) Speed Select Technology 558 Executing on CPU model: X 559 package-0 560 die-0 561 cpu-0 562 perf-profile-level-0 563 ... 564 565 speed-select-base-freq:disabled 566 ... 567 568 Before enabling Intel(R) SST-BF and measuring 569 performance, execute some workload and measure 570 performance to compare against. 571 572 Here the user wants more guaranteed performanc 573 that turbo is disabled. To disable turbo, exec 574 575 #echo 1 > /sys/devices/system/cpu/intel_pstate 576 577 Based on the output of the "intel-speed-select 578 frequency of guaranteed frequency 2600 MHz. 579 580 581 Measure baseline performance for comparison 582 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 583 584 To compare, pick a multi-threaded workload whe 585 separate CPUs. "Hackbench pipe" test is a good 586 performance using Intel(R) SST-BF. 587 588 Below, the workload is measuring average sched 589 number means better performance:: 590 591 # taskset -c 3,4 perf bench -r 100 sched pipe 592 # Running 'sched/pipe' benchmark: 593 # Executed 1000000 pipe operations between tw 594 Total time: 6.102 [sec] 595 6.102445 usecs/op 596 163868 ops/sec 597 598 While running the above test, if we take turbo 599 2 of the CPUs are busy and reaching max. frequ 600 frequency as the turbo is disabled). The turbo 601 602 #turbostat -c 0-13 --show Package,Core,CPU,Bz 603 Package Core CPU Bzy_MHz 604 0 0 0 1000 605 0 1 1 1005 606 0 2 2 1000 607 0 3 3 2600 608 0 4 4 2600 609 0 5 5 1000 610 0 6 6 1000 611 0 7 7 1005 612 0 8 8 1005 613 0 9 9 1000 614 0 10 10 1000 615 0 11 11 995 616 0 12 12 1000 617 0 13 13 1000 618 619 From the above turbostat output, both CPU 3 an 620 full guaranteed frequency of 2600 MHz. 621 622 Intel(R) SST-BF Capabilities 623 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 624 625 To get capabilities of Intel(R) SST-BF for the 626 execute:: 627 628 # intel-speed-select base-freq info -l 0 629 Intel(R) Speed Select Technology 630 Executing on CPU model: X 631 package-0 632 die-0 633 cpu-0 634 speed-select-base-freq 635 high-priority-base-frequency(MHz):3000 636 high-priority-cpu-mask:00000216,000021 637 high-priority-cpu-list:5,6,8,13,33,34, 638 low-priority-base-frequency(MHz):2400 639 tjunction-temperature(C):125 640 thermal-design-power(W):205 641 642 The above capabilities show that there are som 643 offer base frequency of 3000 MHz compared to t 644 performance levels. Nevertheless, these CPUs a 645 via high-priority-cpu-list/high-priority-cpu-m 646 feature is selected, the low priorities CPUs ( 647 high-priority-cpu-list) can only offer up to 2 648 clipping of low priority CPUs is acceptable, t 649 SST-BF feature particularly for the above "sch 650 CPUs are used, they can be scheduled on high p 651 400 MHz. 652 653 Enable Intel(R) SST-BF 654 ~~~~~~~~~~~~~~~~~~~~~~ 655 656 To enable Intel(R) SST-BF feature, execute:: 657 658 # intel-speed-select base-freq enable -a 659 Intel(R) Speed Select Technology 660 Executing on CPU model: X 661 package-0 662 die-0 663 cpu-0 664 base-freq 665 enable:success 666 package-1 667 die-0 668 cpu-14 669 base-freq 670 enable:success 671 672 In this case, -a option is optional. This not 673 also adjusts the priority of cores using Intel 674 Power (Intel(R) SST-CP) features. This option 675 Intel(R) Speed Select Technology - Performance 676 maximum performance so that the hardware will 677 for each CPU. 678 679 If -a option is not used, then the following s 680 Intel(R) SST-BF: 681 682 - Discover Intel(R) SST-BF and note low and hi 683 - Note the high priority CPU list 684 - Enable CLOS using core-power feature set 685 - Configure CLOS parameters. Use CLOS.min to s 686 - Subscribe desired CPUs to CLOS groups 687 688 With this configuration, if the same workload 689 workload to high priority CPUs (CPU 5 and 6 in 690 691 #taskset -c 5,6 perf bench -r 100 sched pipe 692 # Running 'sched/pipe' benchmark: 693 # Executed 1000000 pipe operations between tw 694 Total time: 5.627 [sec] 695 5.627922 usecs/op 696 177685 ops/sec 697 698 This way, by enabling Intel(R) SST-BF, the per 699 improved (latency reduced) by 7.79%. From the 700 observed that the high priority CPUs reached 3 701 The turbostat output:: 702 703 #turbostat -c 0-13 --show Package,Core,CPU,Bz 704 Package Core CPU Bzy_MHz 705 0 0 0 2151 706 0 1 1 2166 707 0 2 2 2175 708 0 3 3 2175 709 0 4 4 2175 710 0 5 5 3000 711 0 6 6 3000 712 0 7 7 2180 713 0 8 8 2662 714 0 9 9 2176 715 0 10 10 2175 716 0 11 11 2176 717 0 12 12 2176 718 0 13 13 2661 719 720 Disable Intel(R) SST-BF 721 ~~~~~~~~~~~~~~~~~~~~~~~ 722 723 To disable the Intel(R) SST-BF feature, execut 724 725 # intel-speed-select base-freq disable -a 726 727 728 Intel(R) Speed Select Technology - Turbo Frequ 729 ---------------------------------------------- 730 731 This feature enables the ability to set differ 732 to cores based on the priority. By using this 733 configured to get higher turbo frequency by de 734 the cost of lower or no turbo frequency on the 735 736 For this reason, this feature is only useful w 737 CPUs, but the user wants some configurable opt 738 some CPUs. 739 740 The support of Intel(R) Speed Select Technolog 741 depends on the Intel(R) Speed Select Technolog 742 SST-PP) performance level configuration. It is 743 performance level supports Intel(R) SST-TF. It 744 performance level (level = 0) has the support 745 select the desired performance level to enable 746 747 In the system under test here, Intel(R) SST-TF 748 performance level 0, but currently disabled:: 749 750 # intel-speed-select -c 0 perf-profile info - 751 Intel(R) Speed Select Technology 752 package-0 753 die-0 754 cpu-0 755 perf-profile-level-0 756 ... 757 ... 758 speed-select-turbo-freq:disabled 759 ... 760 ... 761 762 763 To check if performance can be improved using 764 frequency properties with Intel(R) SST-TF enab 765 capability of this system. 766 767 Get Base turbo capability 768 ~~~~~~~~~~~~~~~~~~~~~~~~~ 769 770 To get the base turbo capability of performanc 771 772 # intel-speed-select perf-profile info -l 0 773 Intel(R) Speed Select Technology 774 Executing on CPU model: X 775 package-0 776 die-0 777 cpu-0 778 perf-profile-level-0 779 ... 780 ... 781 turbo-ratio-limits-sse 782 bucket-0 783 core-count:2 784 max-turbo-frequency(MHz):3200 785 bucket-1 786 core-count:4 787 max-turbo-frequency(MHz):3100 788 bucket-2 789 core-count:6 790 max-turbo-frequency(MHz):3100 791 bucket-3 792 core-count:8 793 max-turbo-frequency(MHz):3100 794 bucket-4 795 core-count:10 796 max-turbo-frequency(MHz):3100 797 bucket-5 798 core-count:12 799 max-turbo-frequency(MHz):3100 800 bucket-6 801 core-count:14 802 max-turbo-frequency(MHz):3100 803 bucket-7 804 core-count:16 805 max-turbo-frequency(MHz):3100 806 807 Based on the data above, when all the CPUS are 808 MHz can be achieved. If there is some busy wor 809 and on CPU 12 and 13, execute "hackbench pipe" 810 811 # taskset -c 12,13 perf bench -r 100 sched pi 812 # Running 'sched/pipe' benchmark: 813 # Executed 1000000 pipe operations between tw 814 Total time: 5.705 [sec] 815 5.705488 usecs/op 816 175269 ops/sec 817 818 The turbostat output:: 819 820 #turbostat -c 0-13 --show Package,Core,CPU,Bz 821 Package Core CPU Bzy_MHz 822 0 0 0 3000 823 0 1 1 3000 824 0 2 2 3000 825 0 3 3 3000 826 0 4 4 3000 827 0 5 5 3100 828 0 6 6 3100 829 0 7 7 3000 830 0 8 8 3100 831 0 9 9 3000 832 0 10 10 3000 833 0 11 11 3000 834 0 12 12 3100 835 0 13 13 3100 836 837 Based on turbostat output, the performance is 838 MHz. To check if the hackbench performance can 839 13, first check the capability of the Intel(R) 840 level. 841 842 Get Intel(R) SST-TF Capability 843 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 844 845 To get the capability, the "turbo-freq info" c 846 847 # intel-speed-select turbo-freq info -l 0 848 Intel(R) Speed Select Technology 849 Executing on CPU model: X 850 package-0 851 die-0 852 cpu-0 853 speed-select-turbo-freq 854 bucket-0 855 high-priority-cores-count:2 856 high-priority-max-frequency(MHz):3 857 high-priority-max-avx2-frequency(M 858 high-priority-max-avx512-frequency 859 bucket-1 860 high-priority-cores-count:4 861 high-priority-max-frequency(MHz):3 862 high-priority-max-avx2-frequency(M 863 high-priority-max-avx512-frequency 864 bucket-2 865 high-priority-cores-count:6 866 high-priority-max-frequency(MHz):3 867 high-priority-max-avx2-frequency(M 868 high-priority-max-avx512-frequency 869 speed-select-turbo-freq-clip-frequen 870 low-priority-max-frequency(MHz):26 871 low-priority-max-avx2-frequency(MH 872 low-priority-max-avx512-frequency( 873 874 Based on the output above, there is an Intel(R 875 two high priority cores. If only two high prio 876 turbo frequency on those cores can be increase 877 more than the base turbo capability for all co 878 879 In turn, for the hackbench workload, two CPUs 880 rest as low priority. One side effect is that 881 cores will be clipped to a lower frequency of 882 883 Enable Intel(R) SST-TF 884 ~~~~~~~~~~~~~~~~~~~~~~ 885 886 To enable Intel(R) SST-TF, execute:: 887 888 # intel-speed-select -c 12,13 turbo-freq enab 889 Intel(R) Speed Select Technology 890 Executing on CPU model: X 891 package-0 892 die-0 893 cpu-12 894 turbo-freq 895 enable:success 896 package-0 897 die-0 898 cpu-13 899 turbo-freq 900 enable:success 901 package--1 902 die-0 903 cpu-63 904 turbo-freq --auto 905 enable:success 906 907 In this case, the option "-a" is optional. If 908 feature and also sets the CPUs to high and low 909 Select Technology Core Power (Intel(R) SST-CP) 910 with "-c" arguments are marked as high priorit 911 912 If -a option is not used, then the following s 913 Intel(R) SST-TF: 914 915 - Discover Intel(R) SST-TF and note buckets of 916 917 - Enable CLOS using core-power feature set - C 918 919 - Subscribe desired CPUs to CLOS groups making 920 921 If the same hackbench workload is executed, sc 922 priority CPUs:: 923 924 #taskset -c 12,13 perf bench -r 100 sched pip 925 # Running 'sched/pipe' benchmark: 926 # Executed 1000000 pipe operations between tw 927 Total time: 5.510 [sec] 928 5.510165 usecs/op 929 180826 ops/sec 930 931 This improved performance by around 3.3% impro 932 turbostat output will show that the CPU 12 and 933 The turbostat output:: 934 935 #turbostat -c 0-13 --show Package,Core,CPU,Bz 936 Package Core CPU Bzy_MHz 937 ... 938 0 12 12 3200 939 0 13 13 3200
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