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Wing Lic055b4c2022-11-20 18:41:11 -08001PSCI OS-initiated mode
2======================
3
4:Author: Maulik Shah & Wing Li
5:Organization: Qualcomm Innovation Center, Inc. & Google LLC
6:Contact: Maulik Shah <quic_mkshah@quicinc.com> & Wing Li <wingers@google.com>
7:Status: RFC
8
9.. contents:: Table of Contents
10
11Introduction
12------------
13
14Power state coordination
15^^^^^^^^^^^^^^^^^^^^^^^^
16
17A power domain topology is a logical hierarchy of power domains in a system that
18arises from the physical dependencies between power domains.
19
20Local power states describe power states for an individual node, and composite
21power states describe the combined power states for an individual node and its
22parent node(s).
23
24Entry into low-power states for a topology node above the core level requires
25coordinating its children nodes. For example, in a system with a power domain
26that encompasses a shared cache, and a separate power domain for each core that
27uses the shared cache, the core power domains must be powered down before the
28shared cache power domain can be powered down.
29
30PSCI supports two modes of power state coordination: platform-coordinated and
31OS-initiated.
32
33Platform-coordinated
34~~~~~~~~~~~~~~~~~~~~
35
36Platform-coordinated mode is the default mode of power state coordination, and
37is currently the only supported mode in TF-A.
38
39In platform-coordinated mode, the platform is responsible for coordinating power
40states, and chooses the deepest power state for a topology node that can be
41tolerated by its children.
42
43OS-initiated
44~~~~~~~~~~~~
45
46OS-initiated mode is optional.
47
48In OS-initiated mode, the calling OS is responsible for coordinating power
49states, and may request for a topology node to enter a low-power state when
50its last child enters the low-power state.
51
52Motivation
53----------
54
55There are two reasons why OS-initiated mode might be a more suitable option than
56platform-coordinated mode for a platform.
57
58Scalability
59^^^^^^^^^^^
60
61In platform-coordinated mode, each core independently selects their own local
62power states, and doesn't account for composite power states that are shared
63between cores.
64
65In OS-initiated mode, the OS has knowledge of the next wakeup event for each
66core, and can have more precise control over the entry, exit, and wakeup
67latencies when deciding if a composite power state (e.g. for a cluster) is
68appropriate. This is especially important for multi-cluster SMP systems and
69heterogeneous systems like big.LITTLE, where different processor types can have
70different power efficiencies.
71
72Simplicity
73^^^^^^^^^^
74
75In platform-coordinated mode, the OS doesn't have visibility when the last core
76at a power level enters a low-power state. If the OS wants to perform last man
77activity (e.g. powering off a shared resource when it is no longer needed), it
78would have to communicate with an API side channel to know when it can do so.
79This could result in a design smell where the platform is using
80platform-coordinated mode when it should be using OS-initiated mode instead.
81
82In OS-initiated mode, the OS can perform last man activity if it selects a
83composite power state when the last core enters a low-power state. This
84eliminates the need for a side channel, and uses the well documented API between
85the OS and the platform.
86
87Current vendor implementations and workarounds
88^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
89
90* STMicroelectronics
91
92 * For their ARM32 platforms, they're using OS-initiated mode implemented in
93 OP-TEE.
94 * For their future ARM64 platforms, they are interested in using OS-initiated
95 mode in TF-A.
96
97* Qualcomm
98
99 * For their mobile platforms, they're using OS-initiated mode implemented in
100 their own custom secure monitor firmware.
101 * For their Chrome OS platforms, they're using platform-coordinated mode in
102 TF-A with custom driver logic to perform last man activity.
103
104* Google
105
106 * They're using platform-coordinated mode in TF-A with custom driver logic to
107 perform last man activity.
108
109Both Qualcomm and Google would like to be able to use OS-initiated mode in TF-A
110in order to simplify custom driver logic.
111
112Requirements
113------------
114
115PSCI_FEATURES
116^^^^^^^^^^^^^
117
118PSCI_FEATURES is for checking whether or not a PSCI function is implemented and
119what its properties are.
120
121.. c:macro:: PSCI_FEATURES
122
123 :param func_id: 0x8400_000A.
124 :param psci_func_id: the function ID of a PSCI function.
125 :retval NOT_SUPPORTED: if the function is not implemented.
126 :retval feature flags associated with the function: if the function is
127 implemented.
128
129CPU_SUSPEND feature flags
130~~~~~~~~~~~~~~~~~~~~~~~~~
131
132* Reserved, bits[31:2]
133* Power state parameter format, bit[1]
134
135 * A value of 0 indicates the original format is used.
136 * A value of 1 indicates the extended format is used.
137
138* OS-initiated mode, bit[0]
139
140 * A value of 0 indicates OS-initiated mode is not supported.
141 * A value of 1 indicates OS-initiated mode is supported.
142
143See sections 5.1.14 and 5.15 of the PSCI spec (DEN0022D.b) for more details.
144
145PSCI_SET_SUSPEND_MODE
146^^^^^^^^^^^^^^^^^^^^^
147
148PSCI_SET_SUSPEND_MODE is for switching between the two different modes of power
149state coordination.
150
151.. c:macro:: PSCI_SET_SUSPEND_MODE
152
153 :param func_id: 0x8400_000F.
154 :param mode: 0 indicates platform-coordinated mode, 1 indicates OS-initiated
155 mode.
156 :retval SUCCESS: if the request is successful.
157 :retval NOT_SUPPORTED: if OS-initiated mode is not supported.
158 :retval INVALID_PARAMETERS: if the requested mode is not a valid value (0 or
159 1).
160 :retval DENIED: if the cores are not in the correct state.
161
162Switching from platform-coordinated to OS-initiated is only allowed if the
163following conditions are met:
164
165* All cores are in one of the following states:
166
167 * Running.
168 * Off, through a call to CPU_OFF or not yet booted.
169 * Suspended, through a call to CPU_DEFAULT_SUSPEND.
170
171* None of the cores has called CPU_SUSPEND since the last change of mode or
172 boot.
173
174Switching from OS-initiated to platform-coordinated is only allowed if all cores
175other than the calling core are off, either through a call to CPU_OFF or not yet
176booted.
177
178If these conditions are not met, the PSCI implementation must return DENIED.
179
180See sections 5.1.19 and 5.20 of the PSCI spec (DEN0022D.b) for more details.
181
182CPU_SUSPEND
183^^^^^^^^^^^
184
185CPU_SUSPEND is for moving a topology node into a low-power state.
186
187.. c:macro:: CPU_SUSPEND
188
189 :param func_id: 0xC400_0001.
190 :param power_state: the requested low-power state to enter.
191 :param entry_point_address: the address at which the core must resume
192 execution following wakeup from a powerdown state.
193 :param context_id: this field specifies a pointer to the saved context that
194 must be restored on a core following wakeup from a powerdown state.
195 :retval SUCCESS: if the request is successful.
196 :retval INVALID_PARAMETERS: in OS-initiated mode, this error is returned when
197 a low-power state is requested for a topology node above the core level,
198 and at least one of the node's children is in a local low-power state
199 that is incompatible with the request.
200 :retval INVALID_ADDRESS: if the entry_point_address argument is invalid.
201 :retval DENIED: only in OS-initiated mode; this error is returned when a
202 low-power state is requested for a topology node above the core level,
203 and at least one of the node's children is running, i.e. not in a
204 low-power state.
205
206In platform-coordinated mode, the PSCI implementation coordinates requests from
207all cores to determine the deepest power state to enter.
208
209In OS-initiated mode, the calling OS is making an explicit request for a
210specific power state, as opposed to expressing a vote. The PSCI implementation
211must comply with the request, unless the request is not consistent with the
212implementation's view of the system's state, in which case, the implementation
213must return INVALID_PARAMETERS or DENIED.
214
215See sections 5.1.2 and 5.4 of the PSCI spec (DEN0022D.b) for more details.
216
217Power state formats
218~~~~~~~~~~~~~~~~~~~
219
220Original format
221
222* Power Level, bits[25:24]
223
224 * The requested level in the power domain topology to enter a low-power
225 state.
226
227* State Type, bit[16]
228
229 * A value of 0 indicates a standby or retention state.
230 * A value of 1 indicates a powerdown state.
231
232* State ID, bits[15:0]
233
234 * Field to specify the requested composite power state.
235 * The state ID encodings must uniquely describe every possible composite
236 power state.
237 * In OS-initiated mode, the state ID encoding must allow expressing the
238 power level at which the calling core is the last to enter a powerdown
239 state.
240
241Extended format
242
243* State Type, bit[30]
244* State ID, bits[27:0]
245
246Races in OS-initiated mode
247~~~~~~~~~~~~~~~~~~~~~~~~~~
248
249In OS-initiated mode, there are race windows where the OS's view and
250implementation's view of the system's state differ. It is possible for the OS to
251make requests that are invalid given the implementation's view of the system's
252state. For example, the OS might request a powerdown state for a node from one
253core, while at the same time, the implementation observes that another core in
254that node is powering up.
255
256To address potential race conditions in power state requests:
257
258* The calling OS must specify in each CPU_SUSPEND request the deepest power
259 level for which it sees the calling core as the last running core (last man).
260 This is required even if the OS doesn't want the node at that power level to
261 enter a low-power state.
262* The implementation must validate that the requested power states in the
263 CPU_SUSPEND request are consistent with the system's state, and that the
264 calling core is the last core running at the requested power level, or deny
265 the request otherwise.
266
267See sections 4.2.3.2, 6.2, and 6.3 of the PSCI spec (DEN0022D.b) for more
268details.
269
270Caveats
271-------
272
273CPU_OFF
274^^^^^^^
275
276CPU_OFF is always platform-coordinated, regardless of whether the power state
277coordination mode for suspend is platform-coordinated or OS-initiated. If all
278cores in a topology node call CPU_OFF, the last core will power down the node.
279
280In OS-initiated mode, if a subset of the cores in a topology node has called
281CPU_OFF, the last running core may call CPU_SUSPEND to request a powerdown state
282at or above that node's power level.
283
284See section 5.5.2 of the PSCI spec (DEN0022D.b) for more details.
285
286Implementation
287--------------
288
289Current implementation of platform-coordinated mode
290^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
291
292Platform-coordinated is currently the only supported power state coordination
293mode in TF-A.
294
295The functions of interest in the ``psci_cpu_suspend`` call stack are as follows:
296
297* ``psci_validate_power_state``
298
299 * This function calls a platform specific ``validate_power_state`` handler,
300 which takes the ``power_state`` parameter, and updates the ``state_info``
301 object with the requested states for each power level.
302
303* ``psci_find_target_suspend_lvl``
304
305 * This function takes the ``state_info`` object containing the requested power
306 states for each power level, and returns the deepest power level that was
307 requested to enter a low power state, i.e. the target power level.
308
309* ``psci_do_state_coordination``
310
311 * This function takes the target power level and the ``state_info`` object
312 containing the requested power states for each power level, and updates the
313 ``state_info`` object with the coordinated target power state for each
314 level.
315
316* ``pwr_domain_suspend``
317
318 * This is a platform specific handler that takes the ``state_info`` object
319 containing the target power states for each power level, and transitions
320 each power level to the specified power state.
321
322Proposed implementation of OS-initiated mode
323^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
324
325To add support for OS-initiated mode, the following changes are proposed:
326
327* Add a boolean build option ``PSCI_OS_INIT_MODE`` for a platform to enable
328 optional support for PSCI OS-initiated mode. This build option defaults to 0.
329
330.. note::
331
332 If ``PSCI_OS_INIT_MODE=0``, the following changes will not be compiled into
333 the build.
334
335* Update ``psci_features`` to return 1 in bit[0] to indicate support for
336 OS-initiated mode for CPU_SUSPEND.
337* Define a ``suspend_mode`` enum: ``PLAT_COORD`` and ``OS_INIT``.
338* Define a ``psci_suspend_mode`` global variable with a default value of
339 ``PLAT_COORD``.
340* Implement a new function handler ``psci_set_suspend_mode`` for
341 PSCI_SET_SUSPEND_MODE.
342* Since ``psci_validate_power_state`` calls a platform specific
343 ``validate_power_state`` handler, the platform implementation should populate
344 the ``state_info`` object based on the state ID from the given ``power_state``
345 parameter.
346* ``psci_find_target_suspend_lvl`` remains unchanged.
347* Implement a new function ``psci_validate_state_coordination`` that ensures the
348 request satisfies the following conditions, and denies any requests
349 that don't:
350
351 * The requested power states for each power level are consistent with the
352 system's state
353 * The calling core is the last core running at the requested power level
354
355 This function differs from ``psci_do_state_coordination`` in that:
356
357 * The ``psci_req_local_pwr_states`` map is not modified if the request were to
358 be denied
359 * The ``state_info`` argument is never modified since it contains the power
360 states requested by the calling OS
361
362* Update ``psci_cpu_suspend_start`` to do the following:
363
364 * If ``PSCI_SUSPEND_MODE`` is ``PLAT_COORD``, call
365 ``psci_do_state_coordination``.
366 * If ``PSCI_SUSPEND_MODE`` is ``OS_INIT``, call
367 ``psci_validate_state_coordination``. If validation fails, propagate the
368 error up the call stack.
369
370* Update the return type of the platform specific ``pwr_domain_suspend``
371 handler from ``void`` to ``int``, to allow the platform to optionally perform
372 validations based on hardware states.
373
374.. image:: ../resources/diagrams/psci-osi-mode.png
375
376Testing
377-------
378
379The proposed patches can be found at
380https://review.trustedfirmware.org/q/topic:psci-osi.
381
382Testing on FVP and Google platforms
383^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
384
385The proposed patches add a new CPU Suspend in OSI mode test suite to TF-A Tests.
386This has been enabled and verified on the FVP_Base_RevC-2xAEMvA platform and
387Google platforms, and excluded from all other platforms via the build option
388``PLAT_TESTS_SKIP_LIST``.
389
390Testing on STM32MP15
391^^^^^^^^^^^^^^^^^^^^
392
393The proposed patches have been tested and verified on the STM32MP15 platform,
394which has a single cluster with 2 CPUs, by Gabriel Fernandez
395<gabriel.fernandez@st.com> from STMicroelectronics with this device tree
396configuration:
397
398.. code-block:: devicetree
399
400 cpus {
401 #address-cells = <1>;
402 #size-cells = <0>;
403
404 cpu0: cpu@0 {
405 device_type = "cpu";
406 compatible = "arm,cortex-a7";
407 reg = <0>;
408 enable-method = "psci";
409 power-domains = <&CPU_PD0>;
410 power-domain-names = "psci";
411 };
412 cpu1: cpu@1 {
413 device_type = "cpu";
414 compatible = "arm,cortex-a7";
415 reg = <1>;
416 enable-method = "psci";
417 power-domains = <&CPU_PD1>;
418 power-domain-names = "psci";
419 };
420
421 idle-states {
422 cpu_retention: cpu-retention {
423 compatible = "arm,idle-state";
424 arm,psci-suspend-param = <0x00000001>;
425 entry-latency-us = <130>;
426 exit-latency-us = <620>;
427 min-residency-us = <700>;
428 local-timer-stop;
429 };
430 };
431
432 domain-idle-states {
433 CLUSTER_STOP: core-power-domain {
434 compatible = "domain-idle-state";
435 arm,psci-suspend-param = <0x01000001>;
436 entry-latency-us = <230>;
437 exit-latency-us = <720>;
438 min-residency-us = <2000>;
439 local-timer-stop;
440 };
441 };
442 };
443
444 psci {
445 compatible = "arm,psci-1.0";
446 method = "smc";
447
448 CPU_PD0: power-domain-cpu0 {
449 #power-domain-cells = <0>;
450 power-domains = <&pd_core>;
451 domain-idle-states = <&cpu_retention>;
452 };
453
454 CPU_PD1: power-domain-cpu1 {
455 #power-domain-cells = <0>;
456 power-domains = <&pd_core>;
457 domain-idle-states = <&cpu_retention>;
458 };
459
460 pd_core: power-domain-cluster {
461 #power-domain-cells = <0>;
462 domain-idle-states = <&CLUSTER_STOP>;
463 };
464 };
465
466Testing on Qualcomm SC7280
467^^^^^^^^^^^^^^^^^^^^^^^^^^
468
469The proposed patches have been tested and verified on the SC7280 platform by
470Maulik Shah <quic_mkshah@quicinc.com> from Qualcomm with this device tree
471configuration:
472
473.. code-block:: devicetree
474
475 cpus {
476 #address-cells = <2>;
477 #size-cells = <0>;
478
479 CPU0: cpu@0 {
480 device_type = "cpu";
481 compatible = "arm,kryo";
482 reg = <0x0 0x0>;
483 enable-method = "psci";
484 power-domains = <&CPU_PD0>;
485 power-domain-names = "psci";
486 };
487
488 CPU1: cpu@100 {
489 device_type = "cpu";
490 compatible = "arm,kryo";
491 reg = <0x0 0x100>;
492 enable-method = "psci";
493 power-domains = <&CPU_PD1>;
494 power-domain-names = "psci";
495 };
496
497 CPU2: cpu@200 {
498 device_type = "cpu";
499 compatible = "arm,kryo";
500 reg = <0x0 0x200>;
501 enable-method = "psci";
502 power-domains = <&CPU_PD2>;
503 power-domain-names = "psci";
504 };
505
506 CPU3: cpu@300 {
507 device_type = "cpu";
508 compatible = "arm,kryo";
509 reg = <0x0 0x300>;
510 enable-method = "psci";
511 power-domains = <&CPU_PD3>;
512 power-domain-names = "psci";
513 }
514
515 CPU4: cpu@400 {
516 device_type = "cpu";
517 compatible = "arm,kryo";
518 reg = <0x0 0x400>;
519 enable-method = "psci";
520 power-domains = <&CPU_PD4>;
521 power-domain-names = "psci";
522 };
523
524 CPU5: cpu@500 {
525 device_type = "cpu";
526 compatible = "arm,kryo";
527 reg = <0x0 0x500>;
528 enable-method = "psci";
529 power-domains = <&CPU_PD5>;
530 power-domain-names = "psci";
531 };
532
533 CPU6: cpu@600 {
534 device_type = "cpu";
535 compatible = "arm,kryo";
536 reg = <0x0 0x600>;
537 enable-method = "psci";
538 power-domains = <&CPU_PD6>;
539 power-domain-names = "psci";
540 };
541
542 CPU7: cpu@700 {
543 device_type = "cpu";
544 compatible = "arm,kryo";
545 reg = <0x0 0x700>;
546 enable-method = "psci";
547 power-domains = <&CPU_PD7>;
548 power-domain-names = "psci";
549 };
550
551 idle-states {
552 entry-method = "psci";
553
554 LITTLE_CPU_SLEEP_0: cpu-sleep-0-0 {
555 compatible = "arm,idle-state";
556 idle-state-name = "little-power-down";
557 arm,psci-suspend-param = <0x40000003>;
558 entry-latency-us = <549>;
559 exit-latency-us = <901>;
560 min-residency-us = <1774>;
561 local-timer-stop;
562 };
563
564 LITTLE_CPU_SLEEP_1: cpu-sleep-0-1 {
565 compatible = "arm,idle-state";
566 idle-state-name = "little-rail-power-down";
567 arm,psci-suspend-param = <0x40000004>;
568 entry-latency-us = <702>;
569 exit-latency-us = <915>;
570 min-residency-us = <4001>;
571 local-timer-stop;
572 };
573
574 BIG_CPU_SLEEP_0: cpu-sleep-1-0 {
575 compatible = "arm,idle-state";
576 idle-state-name = "big-power-down";
577 arm,psci-suspend-param = <0x40000003>;
578 entry-latency-us = <523>;
579 exit-latency-us = <1244>;
580 min-residency-us = <2207>;
581 local-timer-stop;
582 };
583
584 BIG_CPU_SLEEP_1: cpu-sleep-1-1 {
585 compatible = "arm,idle-state";
586 idle-state-name = "big-rail-power-down";
587 arm,psci-suspend-param = <0x40000004>;
588 entry-latency-us = <526>;
589 exit-latency-us = <1854>;
590 min-residency-us = <5555>;
591 local-timer-stop;
592 };
593 };
594
595 domain-idle-states {
596 CLUSTER_SLEEP_0: cluster-sleep-0 {
597 compatible = "arm,idle-state";
598 idle-state-name = "cluster-power-down";
599 arm,psci-suspend-param = <0x40003444>;
600 entry-latency-us = <3263>;
601 exit-latency-us = <6562>;
602 min-residency-us = <9926>;
603 local-timer-stop;
604 };
605 };
606 };
607
608 psci {
609 compatible = "arm,psci-1.0";
610 method = "smc";
611
612 CPU_PD0: cpu0 {
613 #power-domain-cells = <0>;
614 power-domains = <&CLUSTER_PD>;
615 domain-idle-states = <&LITTLE_CPU_SLEEP_0 &LITTLE_CPU_SLEEP_1>;
616 };
617
618 CPU_PD1: cpu1 {
619 #power-domain-cells = <0>;
620 power-domains = <&CLUSTER_PD>;
621 domain-idle-states = <&LITTLE_CPU_SLEEP_0 &LITTLE_CPU_SLEEP_1>;
622 };
623
624 CPU_PD2: cpu2 {
625 #power-domain-cells = <0>;
626 power-domains = <&CLUSTER_PD>;
627 domain-idle-states = <&LITTLE_CPU_SLEEP_0 &LITTLE_CPU_SLEEP_1>;
628 };
629
630 CPU_PD3: cpu3 {
631 #power-domain-cells = <0>;
632 power-domains = <&CLUSTER_PD>;
633 domain-idle-states = <&LITTLE_CPU_SLEEP_0 &LITTLE_CPU_SLEEP_1>;
634 };
635
636 CPU_PD4: cpu4 {
637 #power-domain-cells = <0>;
638 power-domains = <&CLUSTER_PD>;
639 domain-idle-states = <&BIG_CPU_SLEEP_0 &BIG_CPU_SLEEP_1>;
640 };
641
642 CPU_PD5: cpu5 {
643 #power-domain-cells = <0>;
644 power-domains = <&CLUSTER_PD>;
645 domain-idle-states = <&BIG_CPU_SLEEP_0 &BIG_CPU_SLEEP_1>;
646 };
647
648 CPU_PD6: cpu6 {
649 #power-domain-cells = <0>;
650 power-domains = <&CLUSTER_PD>;
651 domain-idle-states = <&BIG_CPU_SLEEP_0 &BIG_CPU_SLEEP_1>;
652 };
653
654 CPU_PD7: cpu7 {
655 #power-domain-cells = <0>;
656 power-domains = <&CLUSTER_PD>;
657 domain-idle-states = <&BIG_CPU_SLEEP_0 &BIG_CPU_SLEEP_1>;
658 };
659
660 CLUSTER_PD: cpu-cluster0 {
661 #power-domain-cells = <0>;
662 domain-idle-states = <&CLUSTER_SLEEP_0>;
663 };
664 };
665
666Comparisons on Qualcomm SC7280
667^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
668
669CPUIdle states
670~~~~~~~~~~~~~~
671
672* 8 CPUs, 1 L3 cache
673* Platform-coordinated mode
674
675 * CPUIdle states
676
677 * State0 - WFI
678 * State1 - Core collapse
679 * State2 - Rail collapse
680 * State3 - L3 cache off and system resources voted off
681
682* OS-initiated mode
683
684 * CPUIdle states
685
686 * State0 - WFI
687 * State1 - Core collapse
688 * State2 - Rail collapse
689
690 * Cluster domain idle state
691
692 * State3 - L3 cache off and system resources voted off
693
694.. image:: ../resources/diagrams/psci-flattened-vs-hierarchical-idle-states.png
695
696Results
697~~~~~~~
698
699* The following stats have been captured with fixed CPU frequencies from the use
700 case of 10 seconds of device idle with the display turned on and Wi-Fi and
701 modem turned off.
702* Count refers to the number of times a CPU or cluster entered power collapse.
703* Residency refers to the time in seconds a CPU or cluster stayed in power
704 collapse.
705* The results are an average of 3 iterations of actual counts and residencies.
706
707.. image:: ../resources/diagrams/psci-pc-mode-vs-osi-mode.png
708
709OS-initiated mode was able to scale better than platform-coordinated mode for
710multiple CPUs. The count and residency results for state3 (i.e. a cluster domain
711idle state) in OS-initiated mode for multiple CPUs were much closer to the
712results for a single CPU than in platform-coordinated mode.
713
714--------------
715
716*Copyright (c) 2023, Arm Limited and Contributors. All rights reserved.*