KGRKJGETMRETU895U-589TY5MIGM5JGB5SDFESFREWTGR54TY
Server : Apache/2.4.58 (Win64) OpenSSL/3.1.3 PHP/8.2.12
System : Windows NT SERVER-PC 10.0 build 26200 (Windows 11) AMD64
User : ServerPC ( 0)
PHP Version : 8.2.12
Disable Function : NONE
Directory :  C:/Windows/System32/

Upload File :
current_dir [ Writeable ] document_root [ Writeable ]

 

Current File : C:/Windows/System32/microsoft-windows-kernel-processor-power-events.dll
MZ����@���	�!�L�!This program cannot be run in DOS mode.

$�X=��9S��9S��9S������9S���Q��9S�Rich�9S�PEd�گ��" &��


b�` ���%T.rdata@@.rsrc�� � @@گ�
lllگ�$��گ�����T.rdataT.rdata$voltmdl�.rdata$zzzdbg .rsrc$01!��.rsrc$02 ����z���5^�K��=#�hXT�گ��(���@�X�p�����	�	�	����%r�!�
WEVT_TEMPLATEMUI|4VS_VERSION_INFO��
��e
��e?�StringFileInfo�040904B0LCompanyNameMicrosoft Corporation�:FileDescriptionMicrosoft-Windows-Kernel-Processor-Power-Events Resourcesn'FileVersion10.0.26100.4484 (WinBuild.160101.0800)�4InternalNamemicrosoft-windows-kernel-processor-power-events.dll�.LegalCopyright� Microsoft Corporation. All rights reserved.�4OriginalFilenamemicrosoft-windows-kernel-processor-power-events.dllj%ProductNameMicrosoft� Windows� Operating SystemDProductVersion10.0.26100.4484DVarFileInfo$Translation	�CRIMp���gQ��N��o)H�`'8�A�0��D�q�ɕ�	�$�WEVT���	�<d
�GTHI�I���CHAN��������SystemlMicrosoft-Windows-Kernel-Processor-Power/DiagnosticMAPS(�d��d�VMAP<������VMAP<����	�
�VMAP$<��VMAPdL

���������	�VMAPTx��������VMAP,�� �!�VMAP,"�#�$�<EsuToMilliJoulesMethodType,MapHeteroCpuPolicy$MapHeteroCpuQoS0MapHeteroRunningType0MapIdleImplementation@MapPerformanceImplementation(MapPowerConditionTTBL�C�TEMP���C�Q�S��X������^D�	EventDataA��=�oData%K�Name	Processor
ProcessorTEMP�ʍ��9*�Ul��E;�J���D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
 0GroupNumberTEMP���-SiW]E	)�T�b���ZD�	EventDataA��9�oData!K�NameLpIndex
�LpIndexTEMP�	$	q���ֳV��?a6#���D�	EventDataA��=�oData%K�Name	Processor
A��G�oData/K�NameIdleStateCount
A��G�oData/K�NamePerfStateCount
A��O�oData7K�NameThrottleStateCount
A��KZ�ComplexData%K�Name	IdleState
�A��KZ�ComplexData%K�Name	PerfState
��	�	
8
d
|
�
�
�
Processor$IdleStateCount$PerfStateCount,ThrottleStateCountIdleStatePerfStateTypeFrequency PercentOfMaxTEMP8
<
�T�&7Q˙�@��z��*D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��G�oData/K�NameIdleStateCount
A��G�oData/K�NamePerfStateCount
A��O�oData7K�NameThrottleStateCount
A��KZ�ComplexData%K�Name	IdleState
�A��KZ�ComplexData%K�Name	PerfState
�(Lp�����GroupNumber$IdleStateCount$PerfStateCount,ThrottleStateCountIdleStatePerfStateTypeFrequency PercentOfMaxTEMP�	8�o�T�/}^��q�����D�	EventDataA��9�oData!K�NameLpIndex
A��G�oData/K�NameIdleStateCount
A��G�oData/K�NamePerfStateCount
A��O�oData7K�NameThrottleStateCount
A��KZ�ComplexData%K�Name	IdleState
�A��KZ�ComplexData%K�Name	PerfState
��$Ht����LpIndex$IdleStateCount$PerfStateCount,ThrottleStateCountIdleStatePerfStateTypeFrequency PercentOfMaxTEMPt		4W�e]"R(F1���5���D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��G�oData/K�NameIdleStateCount
A��O�oData7K�NameIdleImplementation
A��K�oData3K�NameNominalFrequency
A��]�oDataEK�NameMaximumPerformancePercent
A��]�oDataEK�NameMinimumPerformancePercent
A��W�oData?K�NameMinimumThrottlePercent
A��]�oDataEK�NamePerformanceImplementation
���0\���d(GroupNumber$IdleStateCount,IdleImplementation(NominalFrequency8MaximumPerformancePercent8MinimumPerformancePercent4MinimumThrottlePercent8PerformanceImplementationTEMPpg_yp��OX;���mIO���D�	EventDataA��9�oData!K�NameLpIndex
A��G�oData/K�NameIdleStateCount
A��O�oData7K�NameIdleImplementation
A��K�oData3K�NameNominalFrequency
A��]�oDataEK�NameMaximumPerformancePercent
A��]�oDataEK�NameMinimumPerformancePercent
A��W�oData?K�NameMinimumThrottlePercent
A��]�oDataEK�NamePerformanceImplementation
$�Ht��d@LpIndex$IdleStateCount,IdleImplementation(NominalFrequency8MaximumPerformancePercent8MinimumPerformancePercent4MinimumThrottlePercent8PerformanceImplementationTEMPH��W��[P�����s~��DD�	EventDataA��=�oData%K�Name	Processor
A��S�oData;K�NameCapDurationInSeconds
A��?�oData'K�Name
PpcChanges
A��?�oData'K�Name
TpcChanges
@X��Processor0CapDurationInSecondsPpcChangesTpcChangesTEMP�!�O��.�WP�)�]R����D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��S�oData;K�NameCapDurationInSeconds
A��?�oData'K�Name
PpcChanges
A��?�oData'K�Name
TpcChanges
A��?�oData'K�Name
PccChanges
,"<"P"�"�"�"GroupNumber0CapDurationInSecondsPpcChangesTpcChangesPccChangesTEMP��$����	}uU��~�D����D�	EventDataA��9�oData!K�NameLpIndex
A��S�oData;K�NameCapDurationInSeconds
A��?�oData'K�Name
PpcChanges
A��?�oData'K�Name
TpcChanges
A��?�oData'K�Name
PccChanges
�$%8%T%p%LpIndex0CapDurationInSecondsPpcChangesTpcChangesPccChangesTEMPH�&�V��n~�P�ŷv�gӂ��"D�	EventDataA��5�oDataK�NameState
A��5�oDataK�NameSpeed
A��?�oData'K�Name
GroupCount
A��CZ�ComplexDataK�NameGroup
�\'l'|'�'�'�'StateSpeedGroupCountGroupNumberAffinityTEMP�t)�E��U<ZE4G�(�s��jD�	EventDataA��5�oDataK�NameState
A��5�oDataK�NameSpeed
A��?�oData'K�Name
GroupCount
A��CZ�ComplexDataK�NameGroup
�A��A�oData)K�NamePerformance
** *<*L*h*|*StateSpeedGroupCountGroupPerformanceNumberAffinityTEMP8
-S�ǧՊp_������f���HD�	EventDataA��5�oDataK�NameState
A��5�oDataK�NameSpeed
A��?�oData'K�Name
GroupCount
A��CZ�ComplexDataK�NameGroup
�A��A�oData)K�NamePerformance
A��?�oData'K�Name
MinPercent
A��?�oData'K�Name
MaxPercent
A��K�oData3K�NameTolerancePercent
�-�-�-.$.@.\.x.�.�.StateSpeedGroupCountGroupPerformanceMinPercentMaxPercent(TolerancePercentNumberAffinityTEMP�	�1�h��Ŀ�Z�h���������D�	EventDataA��5�oDataK�NameState
A��5�oDataK�NameSpeed
A��?�oData'K�Name
GroupCount
A��CZ�ComplexDataK�NameGroup
�A��A�oData)K�NamePerformance
A��?�oData'K�Name
MinPercent
A��?�oData'K�Name
MaxPercent
A��K�oData3K�NameTolerancePercent
A��?�oData'K�Name
Autonomous

l2|2�2	�2�2�2�23

43P3d3StateSpeedGroupCountGroupPerformanceMinPercentMaxPercent(TolerancePercentAutonomousNumberAffinityTEMP��4]m��e��U�W�}������D�	EventDataA��5�oDataK�NameState
A��5�oDataK�NameSpeed
A��5�oDataK�NameGroup
A��7�oDataK�NameNumber
55,5<5StateSpeedGroupNumberTEMPL�6�F�d]֎�Ӏ�;���TD�	EventDataA��5�oDataK�NameState
A��5�oDataK�NameSpeed
A��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��A�oData)K�NamePerformance
<7L7\7l7�7StateSpeedGroupNumberPerformanceTEMP�x9���]'=
[c5>��r�����D�	EventDataA��5�oDataK�NameState
A��5�oDataK�NameSpeed
A��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��A�oData)K�NamePerformance
A��K�oData3K�NameTolerancePercent
�9:: :4:P:StateSpeedGroupNumberPerformance(TolerancePercentTEMP(

H>
�h�<N^�׋�:'�8���D�	EventDataA��5�oDataK�NameState
A��5�oDataK�NameSpeed
A��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��A�oData)K�NamePerformance
A��K�oData3K�NameTolerancePercent
A��?�oData'K�Name
MinPercent
A��?�oData'K�Name
MaxPercent
A��?�oData'K�Name
EppPercent
A��G�oData/K�NameActivityWindow
	A��?�oData'K�Name
Autonomous

A��=�oData%K�Name	Initiated

A��E�oData-K�Name
VirtualLittle

L?\?l?|?�?�?�?�?@(@

L@

h@

�@StateSpeedGroupNumberPerformance(TolerancePercentMinPercentMaxPercentEppPercent$ActivityWindowAutonomousInitiated VirtualLittleTEMP

hD�
$XQaU�[�]X����D�	EventDataA��5�oDataK�NameState
A��5�oDataK�NameSpeed
A��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��A�oData)K�NamePerformance
A��K�oData3K�NameTolerancePercent
A��?�oData'K�Name
MinPercent
A��?�oData'K�Name
MaxPercent
A��?�oData'K�Name
EppPercent
A��G�oData/K�NameActivityWindow
	A��?�oData'K�Name
Autonomous

A��=�oData%K�Name	Initiated

A��;�oData#K�NameQosClass
lE|E�E�E�E�E�EF,FHF

lF

�F�FStateSpeedGroupNumberPerformance(TolerancePercentMinPercentMaxPercentEppPercent$ActivityWindowAutonomousInitiatedQosClassTEMPL0K�T@�io�TInɌ\�Q9��DD�	EventDataA��5�oDataK�NameState
A��5�oDataK�NameSpeed
A��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��A�oData)K�NamePerformance
A��K�oData3K�NameTolerancePercent
A��?�oData'K�Name
MinPercent
A��?�oData'K�Name
MaxPercent
A��?�oData'K�Name
EppPercent
A��G�oData/K�NameActivityWindow
	A��?�oData'K�Name
Autonomous

A��=�oData%K�Name	Initiated

A��;�oData#K�NameQosClass
A��K�oData3K�NameResourcePriority


A��Y�oDataAK�NameResourcePriorityPercent
\LlL|L�L�L�L�LMM8M

\M

xM�M
�M�MStateSpeedGroupNumberPerformance(TolerancePercentMinPercentMaxPercentEppPercent$ActivityWindowAutonomousInitiatedQosClass(ResourcePriority4ResourcePriorityPercentTEMP��Q�,��>dQ�o��!����XD�	EventDataA��5�oDataK�NameState
A��5�oDataK�NameSpeed
A��9�oData!K�NameLpIndex
A��A�oData)K�NamePerformance
A��K�oData3K�NameTolerancePercent
A��?�oData'K�Name
MinPercent
A��?�oData'K�Name
MaxPercent
A��?�oData'K�Name
EppPercent
A��G�oData/K�NameActivityWindow
A��?�oData'K�Name
Autonomous
	
A��=�oData%K�Name	Initiated

A��;�oData#K�NameQosClass
�R�R�R�R�R�RS0SLS

pS

�S�SStateSpeedLpIndexPerformance(TolerancePercentMinPercentMaxPercentEppPercent$ActivityWindowAutonomousInitiatedQosClassTEMP��W/�²��lQ�1�,�z��
D�	EventDataA��5�oDataK�NameState
A��5�oDataK�NameSpeed
A��9�oData!K�NameLpIndex
A��A�oData)K�NamePerformance
A��K�oData3K�NameTolerancePercent
A��?�oData'K�Name
MinPercent
A��?�oData'K�Name
MaxPercent
A��?�oData'K�Name
EppPercent
A��G�oData/K�NameActivityWindow
A��?�oData'K�Name
Autonomous
	
A��=�oData%K�Name	Initiated

A��;�oData#K�NameQosClass
A��K�oData3K�NameResourcePriority

A��Y�oDataAK�NameResourcePriorityPercent

Y$Y4YHYdY�Y�Y�Y�Y

Z

 Z8Z
PZxZStateSpeedLpIndexPerformance(TolerancePercentMinPercentMaxPercentEppPercent$ActivityWindowAutonomousInitiatedQosClass(ResourcePriority4ResourcePriorityPercentTEMP�D[��/�v��Z��ʎ`��dD�	EventDataA��C�oData+K�NamePpmCheckTime



X[ PpmCheckTimeTEMP��\��6��?R{���������D�	EventDataA��C�oData+K�NamePpmCheckTime

A��M�oData5K�NameAdjustedCheckTime

A��?�oData'K�Name
StartPhase


�\

]0] PpmCheckTime(AdjustedCheckTimeStartPhaseTEMP��^wY��U�Q��Pd0���D�	EventDataA��C�oData+K�NamePpmCheckTime

A��M�oData5K�NameAdjustedCheckTime

A��?�oData'K�Name
PipelineId


�^

�^_ PpmCheckTime(AdjustedCheckTimePipelineIdTEMP��_t�P�o�[�}G��7���nD�	EventDataA��M�oData5K�NameAdjustedCheckTime



�_(AdjustedCheckTimeTEMP��a��Q_�[n�=y��;���D�	EventDataA��C�oData+K�NamePpmCheckTime

A��;�oData#K�NameIdleTime

A��;�oData#K�NameBusyTime

A��=�oData%K�Name	Frequency
A��5�oDataK�NameGroup
A��7�oDataK�NameNumber


Tb

tb

�b�b�b�b PpmCheckTimeIdleTimeBusyTimeFrequencyGroupNumberTEMP

f<̂��dZ���,	�O���D�	EventDataA��C�oData+K�NamePpmCheckTime

A��;�oData#K�NameIdleTime

A��;�oData#K�NameBusyTime

A��=�oData%K�Name	Frequency
A��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��S�oData;K�NameDeliveredPerformance
A��9�oData!K�NameUtility
A��O�oData7K�NameAffinitizedUtility
A��S�oData;K�NameFrequencySensitivity
	

�f

�f

gg4gDgXg�g�g�g PpmCheckTimeIdleTimeBusyTimeFrequencyGroupNumber0DeliveredPerformanceUtility,AffinitizedUtility0FrequencySensitivityTEMP�kMQ�1�`%\��rw�/�c���D�	EventDataA��C�oData+K�NamePpmCheckTime

A��;�oData#K�NameIdleTime

A��;�oData#K�NameBusyTime

A��=�oData%K�Name	Frequency
A��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��S�oData;K�NameDeliveredPerformance
A��9�oData!K�NameUtility
A��O�oData7K�NameAffinitizedUtility
A��S�oData;K�NameFrequencySensitivity
	A��K�oData3K�NameBufferingPercent
A��=�oData%K�Name	StallTime



�l

�l

�l�lmm0m`mtm�m�m

�m PpmCheckTimeIdleTimeBusyTimeFrequencyGroupNumber0DeliveredPerformanceUtility,AffinitizedUtility0FrequencySensitivity(BufferingPercentStallTimeTEMP�

r2b�z�"�Vؠ�����0���D�	EventDataA��C�oData+K�NamePpmCheckTime

A��;�oData#K�NameIdleTime

A��;�oData#K�NameBusyTime

A��=�oData%K�Name	Frequency
A��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��S�oData;K�NameDeliveredPerformance
A��9�oData!K�NameUtility
A��O�oData7K�NameAffinitizedUtility
A��S�oData;K�NameFrequencySensitivity
	A��K�oData3K�NameBufferingPercent
A��=�oData%K�Name	StallTime

A��K�oData3K�NameImportantPercent


 s

@s

Xsps�s�s�s�s�stLt

tt�t PpmCheckTimeIdleTimeBusyTimeFrequencyGroupNumber0DeliveredPerformanceUtility,AffinitizedUtility0FrequencySensitivity(BufferingPercentStallTime(ImportantPercentTEMP$yi�L��jZ�;R:8*qw��"D�	EventDataA��C�oData+K�NamePpmCheckTime

A��;�oData#K�NameIdleTime

A��;�oData#K�NameBusyTime

A��=�oData%K�Name	Frequency
A��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��S�oData;K�NameDeliveredPerformance
A��9�oData!K�NameUtility
A��O�oData7K�NameAffinitizedUtility
A��S�oData;K�NameFrequencySensitivity
	A��K�oData3K�NameBufferingPercent
A��=�oData%K�Name	StallTime

A��K�oData3K�NameImportantPercent
A��C�oData+K�NameIdealPercent



$z

Dz

\ztz�z�z�z�z�z {P{

x{�{�{ PpmCheckTimeIdleTimeBusyTimeFrequencyGroupNumber0DeliveredPerformanceUtility,AffinitizedUtility0FrequencySensitivity(BufferingPercentStallTime(ImportantPercent IdealPercentTEMP�X�^Ď��qX�|ᚧ��%��LD�	EventDataA��C�oData+K�NamePpmCheckTime

A��;�oData#K�NameIdleTime

A��;�oData#K�NameBusyTime

A��=�oData%K�Name	Frequency
A��9�oData!K�NameLpIndex
A��S�oData;K�NameDeliveredPerformance
A��9�oData!K�NameUtility
A��O�oData7K�NameAffinitizedUtility
A��S�oData;K�NameFrequencySensitivity
A��K�oData3K�NameBufferingPercent
	A��=�oData%K�Name	StallTime



4�

T�

l��������� �P�

x� PpmCheckTimeIdleTimeBusyTimeFrequencyLpIndex0DeliveredPerformanceUtility,AffinitizedUtility0FrequencySensitivity(BufferingPercentStallTimeTEMPHd���;�*�T�T.�����D�	EventDataA��C�oData+K�NamePpmCheckTime

A��;�oData#K�NameIdleTime

A��;�oData#K�NameBusyTime

A��=�oData%K�Name	Frequency
A��9�oData!K�NameLpIndex
A��S�oData;K�NameDeliveredPerformance
A��9�oData!K�NameUtility
A��O�oData7K�NameAffinitizedUtility
A��S�oData;K�NameFrequencySensitivity
A��K�oData3K�NameBufferingPercent
	A��=�oData%K�Name	StallTime

A��K�oData3K�NameImportantPercent


T�

t�

������І��@�p�

���� PpmCheckTimeIdleTimeBusyTimeFrequencyLpIndex0DeliveredPerformanceUtility,AffinitizedUtility0FrequencySensitivity(BufferingPercentStallTime(ImportantPercentTEMP�

�4��ɔ:_��2��{���D�	EventDataA��C�oData+K�NamePpmCheckTime

A��;�oData#K�NameIdleTime

A��;�oData#K�NameBusyTime

A��=�oData%K�Name	Frequency
A��9�oData!K�NameLpIndex
A��S�oData;K�NameDeliveredPerformance
A��9�oData!K�NameUtility
A��O�oData7K�NameAffinitizedUtility
A��S�oData;K�NameFrequencySensitivity
A��K�oData3K�NameBufferingPercent
	A��=�oData%K�Name	StallTime

A��K�oData3K�NameImportantPercent
A��C�oData+K�NameIdealPercent


��

�

0�H�`�t�������

<�T�|� PpmCheckTimeIdleTimeBusyTimeFrequencyLpIndex0DeliveredPerformanceUtility,AffinitizedUtility0FrequencySensitivity(BufferingPercentStallTime(ImportantPercent IdealPercentTEMP�ܐ�m�o�T���((���D�	EventDataA��C�oData+K�NamePpmCheckTime

A��C�oData+K�NameIdleTimeInMs
A��C�oData+K�NameBusyTimeInMs
A��O�oData7K�NameExcessBusyTimeInMs
A��=�oData%K�Name	Frequency
A��5�oDataK�NameGroup
A��7�oDataK�NameNumber


h�����ȑ��� PpmCheckTime IdleTimeInMs BusyTimeInMs,ExcessBusyTimeInMsFrequencyGroupNumberTEMP88��D�5s�P��C���yV���D�	EventDataA��C�oData+K�NamePpmCheckTime

A��C�oData+K�NameIdleTimeInMs
A��C�oData+K�NameBusyTimeInMs
A��O�oData7K�NameExcessBusyTimeInMs
A��=�oData%K�Name	Frequency
A��9�oData!K�NameLpIndex


����<�T� PpmCheckTime IdleTimeInMs BusyTimeInMs,ExcessBusyTimeInMsFrequencyLpIndexTEMP�|�����xS���:	��z���D�	EventDataA��C�oData+K�NamePpmCheckTime

A��5�oDataK�NameGroup
A��7�oDataK�NameNumber


��ؖ� PpmCheckTimeGroupNumberTEMPT�D�t��[s�����+:��$D�	EventDataA��C�oData+K�NamePpmCheckTime

A��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��?�oData'K�Name
SoftParked



��ĘԘ

� PpmCheckTimeGroupNumberSoftParkedTEMPl		̛3KL��dT�[5��m���D�	EventDataA��5�oDataK�NameGroup
A��?�oData'K�Name
Processors
A��9�oData!K�NameOldPark
A��9�oData!K�NameNewPark
A��I�oData1K�NameOverUtilizedSet
A��E�oData-K�Name
IsolatedCores
A��E�oData-K�Name
IdealUnparked
A��A�oData)K�NameUnparkCount
A��?�oData'K�Name
ParkReason
��������Ԝ���8�T�GroupProcessorsOldParkNewPark$OverUtilizedSet IsolatedCores IdealUnparkedUnparkCountParkReasonTEMPTܟ�A�M�'\v�z���s��8D�	EventDataA��?�oData'K�Name
StateCount
A��K�oData3K�NameTotalTransitions
A��?�oData'K�Name
ResetCount
A��1�oDataK�NamePad
A��=�oData%K�Name	StartTime

A��CZ�ComplexDataK�NameState
�A��5�oDataK�NameGroup
A��7�oDataK�NameNumber
�8�`�|�
��������
ԡ��8�d�|���
��StateCount(TotalTransitionsResetCountPadStartTimeStateGroupNumberTotalTime$IdleTransitions(FailedTransitions,InvalidBucketIndexMinTimeUsMaxTimeUsPad$IdleTimeBucketsTEMP	���[����X��!�0P����D�	EventDataA��?�oData'K�Name
StateCount
A��K�oData3K�NameTotalTransitions
A��?�oData'K�Name
ResetCount
A��?�oData'K�Name
AbortCount
A��=�oData%K�Name	StartTime

A��CZ�ComplexDataK�NameState
�A��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��;�oData#K�NameIdleTime

Ԧ��4�
P�	h�x���
��
��̧��D�\�t�
��StateCount(TotalTransitionsResetCountAbortCountStartTimeStateGroupNumberIdleTimeTotalTime$IdleTransitions(FailedTransitions,InvalidBucketIndexMinTimeUsMaxTimeUs0CancelledTransitions$IdleTimeBucketsTEMP	8��b��_��\�p'{�Ќ��<D�	EventDataA��?�oData'K�Name
StateCount
A��K�oData3K�NameTotalTransitions
A��?�oData'K�Name
ResetCount
A��?�oData'K�Name
AbortCount
A��=�oData%K�Name	StartTime

A��CZ�ComplexDataK�NameState
�A��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��;�oData#K�NameIdleTime

A��G�oData/K�NameSelectionCount
	A��_Z�ComplexData9K�NameSelectionAccounting
�|�����ܮ
��� �0�
D�\�
	��
��į��<�T�l�
��

��

�

�

$�

8�

X�

p�

��

��

��StateCount(TotalTransitionsResetCountAbortCountStartTimeStateGroupNumberIdleTime$SelectionCount,SelectionAccountingTotalTime$IdleTransitions(FailedTransitions,InvalidBucketIndexMinTimeUsMaxTimeUs0CancelledTransitions$IdleTimeBuckets PlatformOnly$LegacyOverride InterruptibleLatency IdleDurationNoCState(CStateCheckFailedPreVetoVetoSelectedTEMP���t�,�Y��F�/�E���D�	EventDataA��I�oData1K�NameFeaturesPresent
A��K�oData3K�NameFeaturesAccessed
A��M�oData5K�NameFeaturesValidated
A��5�oDataK�NameGroup
A��7�oDataK�NameNumber
���D�l�|�$FeaturesPresent(FeaturesAccessed(FeaturesValidatedGroupNumberTEMP\��t��IXR�������PD�	EventDataA��I�oData1K�NameFeaturesPresent
A��K�oData3K�NameFeaturesAccessed
A��M�oData5K�NameFeaturesValidated
A��9�oData!K�NameLpIndex
d�����ض$FeaturesPresent(FeaturesAccessed(FeaturesValidatedLpIndexTEMP��1�k�v;M\Ƕ�/�vK���D�	EventDataA��;�oData#K�NameDomainId
A��A�oData)K�NameMemberCount
A��M�oData5K�NameMembersEnumerated
T�l���DomainIdMemberCount(MembersEnumeratedTEMPh8��/
��cT����`���RD�	EventDataA��C�oData+K�NameMajorVersion
A��C�oData+K�NameMinorVersion
A��G�oData/K�NameMinPerfPercent
A��O�oData7K�NameMinThrottlePercent
����Ⱥ� MajorVersion MinorVersion$MinPerfPercent,MinThrottlePercentTEMPl���^}@D�V���&)a����D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��1�oDataK�NameCap
T�d�x�GroupNumberCapTEMPL�p󨫊a\o����y���D�	EventDataA��9�oData!K�NameLpIndex
A��1�oDataK�NameCap
t���LpIndexCapTEMP\�ʍ��9*�Ul��E;�J���D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
����GroupNumberTEMP�8��-SiW]E	)�T�b���ZD�	EventDataA��9�oData!K�NameLpIndex
L�LpIndexTEMP����X���X�^z!���&D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��?�oData'K�Name
StateCount
A��EZ�ComplexDataK�NameStates
�H�X�l��������GroupNumberStateCountStatesFrequency(PercentFrequencyTypeTEMP,��/�ñV��	�ٴ����D�	EventDataA��9�oData!K�NameLpIndex
A��?�oData'K�Name
StateCount
A��EZ�ComplexDataK�NameStates
������������LpIndexStateCountStatesFrequency(PercentFrequencyTypeTEMPlt�'���)U�p�&��"��&D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��E�oData-K�Name
PBlockAddress
A��C�oData+K�NamePBlockLength
A��A�oData)K�NameProcessorId
A��7�oDataK�NameApicId
A��1�oDataK�NamePpc
A��MZ�ComplexData'K�Name
PctControl
A��KZ�ComplexData%K�Name	PctStatus
A��?�oData'K�Name
StateCount
	A��KZ�ComplexData%K�Name	PssStates
����������8�L�X�t���	���������

0�D�h�����

���������

$�

8�

L�

h�GroupNumber PBlockAddress PBlockLengthProcessorIdApicIdPpcPctControlPctStatusStateCountPssStates$AddressSpaceIdBitWidthBitOffsetAccessSizeAddress$AddressSpaceIdBitWidthBitOffsetAccessSizeAddress CoreFrequencyPowerLatencyBmLatencyControlStatusControlMaskStatusMaskTEMP
���J-�G�U�/������D�	EventDataA��9�oData!K�NameLpIndex
A��E�oData-K�Name
PBlockAddress
A��C�oData+K�NamePBlockLength
A��A�oData)K�NameProcessorId
A��7�oDataK�NameApicId
A��1�oDataK�NamePpc
A��MZ�ComplexData'K�Name
PctControl
A��KZ�ComplexData%K�Name	PctStatus
A��?�oData'K�Name
StateCount
A��KZ�ComplexData%K�Name	PssStates
	������(�D�X�
d������������ �

<�P�t�����

��������

0�

D�

X�

t�LpIndex PBlockAddress PBlockLengthProcessorIdApicIdPpcPctControlPctStatusStateCountPssStates$AddressSpaceIdBitWidthBitOffsetAccessSizeAddress$AddressSpaceIdBitWidthBitOffsetAccessSizeAddress CoreFrequencyPowerLatencyBmLatencyControlStatusControlMaskStatusMaskTEMP��E�vj��PjJtL�js���D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��E�oData-K�Name
FadtC2Latency
A��E�oData-K�Name
FadtC3Latency
A��O�oData7K�NameCStateVersionInUse
A��?�oData'K�Name
StateCount
A��KZ�ComplexData%K�Name	CstStates
���0�P�p����������$�

@�T�l�|�GroupNumber FadtC2Latency FadtC3Latency,CStateVersionInUseStateCountCstStates$AddressSpaceIdBitWidthBitOffsetAccessSizeAddressStateTypePowerLatencyTEMP����1c��TX�����[���D�	EventDataA��9�oData!K�NameLpIndex
A��E�oData-K�Name
FadtC2Latency
A��E�oData-K�Name
FadtC3Latency
A��O�oData7K�NameCStateVersionInUse
A��?�oData'K�Name
StateCount
A��KZ�ComplexData%K�Name	CstStates
��������<�X�p�������

������LpIndex FadtC2Latency FadtC3Latency,CStateVersionInUseStateCountCstStates$AddressSpaceIdBitWidthBitOffsetAccessSizeAddressStateTypePowerLatencyTEMP�
`�BÙ)*~Pa��!�>���D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��E�oData-K�Name
FadtDutyWidth
A��G�oData/K�NameFadtDutyOffset
A��1�oDataK�NameTpc
A��O�oData7K�NameTStateVersionInUse
A��MZ�ComplexData'K�Name
PtcControl
A��KZ�ComplexData%K�Name	PtcStatus
A��?�oData'K�Name
StateCount
A��KZ�ComplexData%K�Name	TssStates
	�T�d�x�������
���(�D�\�������

������4�

P�d���������GroupNumber FadtDutyWidth$FadtDutyOffsetTpc,TStateVersionInUsePtcControlPtcStatusStateCountTssStates$AddressSpaceIdBitWidthBitOffsetAccessSizeAddress$AddressSpaceIdBitWidthBitOffsetAccessSizeAddressPercentagePowerLatencyControlStatusTEMP<	���"7u,#PP�<xjn����D�	EventDataA��9�oData!K�NameLpIndex
A��E�oData-K�Name
FadtDutyWidth
A��G�oData/K�NameFadtDutyOffset
A��1�oDataK�NameTpc
A��O�oData7K�NameTStateVersionInUse
A��MZ�ComplexData'K�Name
PtcControl
A��KZ�ComplexData%K�Name	PtcStatus
A��?�oData'K�Name
StateCount
A��KZ�ComplexData%K�Name	TssStates
����������	0�L�d�����������

��@�X�p�

������������LpIndex FadtDutyWidth$FadtDutyOffsetTpc,TStateVersionInUsePtcControlPtcStatusStateCountTssStates$AddressSpaceIdBitWidthBitOffsetAccessSizeAddress$AddressSpaceIdBitWidthBitOffsetAccessSizeAddressPercentagePowerLatencyControlStatusTEMPl���^}@D�V���&)a����D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��1�oDataK�NameCap
D�T�h�GroupNumberCapTEMP<�p󨫊a\o����y���D�	EventDataA��9�oData!K�NameLpIndex
A��1�oDataK�NameCap
d�x�LpIndexCapTEMPP�����VV/RXI*��� ���D�	EventDataA��1�oDataK�NameCap
A��=�oData%K�Name	IsApplied

x�

��CapIsAppliedTEMPh�����VV/RXI*��� ���D�	EventDataA��1�oDataK�NameCap
A��=�oData%K�Name	IsApplied

��

��CapIsAppliedTEMP�D�q�J6�6�\�=�^����\D�	EventDataA��;�oData#K�NameHintType
X�HintTypeTEMP�4�����)^�|�z�V����D�	EventDataA��5�oDataK�NameGroup
A��;�oData#K�NameAffinity
A��I�oData1K�NameConcurrentCores
A��E�oData-K�Name
HistogramSize
A��S�oData;K�NameConcurrencyHistogram
���������

�GroupAffinity$ConcurrentCores HistogramSize0ConcurrencyHistogramTEMPLH�F4�rx^@S'��+�Z����D�	EventDataA��5�oDataK�NameGroup
A��;�oData#K�NameAffinity
A��I�oData1K�NameConcurrentCores
A��E�oData-K�Name
HistogramSize
A��S�oData;K�NameConcurrencyHistogram
�A��I�oData1K�NameDistributeCores
�����

,�\�GroupAffinity$ConcurrentCores HistogramSize0ConcurrencyHistogram$DistributeCoresTEMP��������S㝆],`M��BD�	EventDataA��5�oDataK�NameGroup
A��;�oData#K�NameAffinity
A��I�oData1K�NameConcurrentCores
A��E�oData-K�Name
HistogramSize
A��S�oData;K�NameConcurrencyHistogram
�A��I�oData1K�NameDistributeCores
A��]�oDataEK�NameConcurrencyHistogramDelta
��������

� �

D�GroupAffinity$ConcurrentCores HistogramSize0ConcurrencyHistogram$DistributeCores8ConcurrencyHistogramDeltaTEMP$|�m�d�Q��
��W����D�	EventDataA��5�oDataK�NameGroup
A��;�oData#K�NameAffinity
A��5�oDataK�NameClass
A��I�oData1K�NameDistributeCores
A��E�oData-K�Name
HistogramSize
A��S�oData;K�NameConcurrencyHistogram
����,�P�

p�GroupAffinityClass$DistributeCores HistogramSize0ConcurrencyHistogramTEMP@D	sp� R�p(�ml	��pD�	EventDataA��5�oDataK�NameGroup
A��;�oData#K�NameAffinity
A��5�oDataK�NameClass
A��I�oData1K�NameDistributeCores
A��E�oData-K�Name
HistogramSize
A��S�oData;K�NameConcurrencyHistogram
�A��I�oData1K�NameConcurrentCores
A��O�oData7K�NameNthCoreUtilization
��@

`��GroupAffinityClass$DistributeCores HistogramSize0ConcurrencyHistogram$ConcurrentCores,NthCoreUtilizationTEMP�	�u�W�m
_�������D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��c�oDataKK�NameMaximumCoordinatedProcessors
A��?�oData'K�Name
StateCount
A��EZ�ComplexDataK�NameStates
�Xh|��

�



,\GroupNumber@MaximumCoordinatedProcessorsStateCountStates Interruptible CacheCoherent0ThreadContextRetainedCStateTypeTEMP���X���X�^z!���&D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��?�oData'K�Name
StateCount
A��EZ�ComplexDataK�NameStates
��	�	�	





8


X
�


�


�
�
�
GroupNumberStateCountStates Interruptible CacheCoherent0ThreadContextRetainedCStateType$WakesSpuriously PlatformOnlyLatency(BreakEvenDurationTEMP��RW���^��,n	Ã1��xD�	EventDataA��W�oData?K�NamePlatformIdleStateCount
�4PlatformIdleStateCountTEMP|@���ɸ1�X��*rO�����D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��S�oData;K�NameFeedbackCounterCount
A��G�oData/K�NameIdleStateCount
A��_�oDataGK�NamePerformanceStatesSupported

A��K�oData3K�NameParkingSupported

���

0

lGroupNumber0FeedbackCounterCount$IdleStateCount<PerformanceStatesSupported(ParkingSupportedTEMP<(�X�V�NV_��$P��`D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��S�oData;K�NameFeedbackCounterCount
A��G�oData/K�NameIdleStateCount
A��_�oDataGK�NamePerformanceStatesSupported

A��K�oData3K�NameParkingSupported

A��e�oDataMK�NameDiscretePerformanceStateCount
���

,

h�GroupNumber0FeedbackCounterCount$IdleStateCount<PerformanceStatesSupported(ParkingSupported@DiscretePerformanceStateCountTEMP4@�1mf�Wu=���B��:D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��U�oData=K�NameGuaranteedPerformance
A��C�oData+K�NameLimitReasons
����GroupNumber0GuaranteedPerformance LimitReasonsTEMP
\u��fW�Y�=�?�����$D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��E�oData-K�Name
FeedbackCount
A��IZ�ComplexData#K�NameFeedback
�A��O�oData7K�NameHighestPerformance
A��O�oData7K�NameNominalPerformance
A��_�oDataGK�NameLowestNonlinearPerformance
A��M�oData5K�NameLowestPerformance
A��;�oData#K�NameDomainId
A��E�oData-K�Name
DomainMembers
	t��
���(d��

���GroupNumber FeedbackCountFeedback,HighestPerformance,NominalPerformance<LowestNonlinearPerformance(LowestPerformanceDomainId DomainMembersAffinitizedTypeCounterNominalRateTEMP� =���V�oY9�ӊ��ߑ���D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��E�oData-K�Name
FeedbackCount
A��IZ�ComplexData#K�NameFeedback
�A��O�oData7K�NameHighestPerformance
A��O�oData7K�NameNominalPerformance
A��_�oDataGK�NameLowestNonlinearPerformance
A��M�oData5K�NameLowestPerformance
A��;�oData#K�NameDomainId
A��E�oData-K�Name
DomainMembers
	A��G�oData/K�NamePerfStateCount
A��MZ�ComplexData'K�Name
PerfStates
��!�!�!�!�! "L"�"�"�"�"
#

(#D#T#h#�#�#�#GroupNumber FeedbackCountFeedback,HighestPerformance,NominalPerformance<LowestNonlinearPerformance(LowestPerformanceDomainId DomainMembers$PerfStateCountPerfStatesAffinitizedTypeCounterNominalRatePerformanceFrequency,PercentPerformanceTEMP@
((��ܔ�\v71H�e����D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��E�oData-K�Name
FeedbackCount
A��IZ�ComplexData#K�NameFeedback
�A��O�oData7K�NameHighestPerformance
A��O�oData7K�NameNominalPerformance
A��_�oDataGK�NameLowestNonlinearPerformance
A��M�oData5K�NameLowestPerformance
A��;�oData#K�NameDomainId
A��E�oData-K�Name
DomainMembers
	A��G�oData/K�NamePerfStateCount
A��MZ�ComplexData'K�Name
PerfStates
�A��C�oData+K�NameEppSupported

�)�)�)
�)*@*l*�*�*�*+
,+

H+

h+�+�+�+�+�+�+GroupNumber FeedbackCountFeedback,HighestPerformance,NominalPerformance<LowestNonlinearPerformance(LowestPerformanceDomainId DomainMembers$PerfStateCountPerfStates EppSupportedAffinitizedTypeCounterNominalRatePerformanceFrequency,PercentPerformanceTEMP��0
?%ۗfY���ղ��jD�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��E�oData-K�Name
FeedbackCount
A��IZ�ComplexData#K�NameFeedback
�A��O�oData7K�NameHighestPerformance
A��O�oData7K�NameNominalPerformance
A��_�oDataGK�NameLowestNonlinearPerformance
A��M�oData5K�NameLowestPerformance
A��;�oData#K�NameDomainId
A��E�oData-K�Name
DomainMembers
	A��G�oData/K�NamePerfStateCount
A��MZ�ComplexData'K�Name
PerfStates
�A��C�oData+K�NameEppSupported

A��S�oData;K�NameAutonomousCapability

h2x2�2�2�2�23X3�3�3�3
�3

�34

H4d4t4�4�4�4�4GroupNumber FeedbackCountFeedback,HighestPerformance,NominalPerformance<LowestNonlinearPerformance(LowestPerformanceDomainId DomainMembers$PerfStateCountPerfStates EppSupported0AutonomousCapabilityAffinitizedTypeCounterNominalRatePerformanceFrequency,PercentPerformanceTEMP|87����qsT#*Յ�	A���D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��7�oDataK�NameParked

A��9�oData!K�NameBiosCap
A��?�oData'K�Name
ThermalCap
A��O�oData7K�NameDesiredPerformance
A��K�oData3K�NameNominalFrequency
�7�7

�7�78,8X8GroupNumberParkedBiosCapThermalCap,DesiredPerformance(NominalFrequencyTEMP��;��û�QP+�ExsI���8D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��7�oDataK�NameParked

A��9�oData!K�NameBiosCap
A��?�oData'K�Name
ThermalCap
A��O�oData7K�NameDesiredPerformance
A��K�oData3K�NameNominalFrequency
A��?�oData'K�Name
MinPercent
A��?�oData'K�Name
MaxPercent
A��K�oData3K�NameTolerancePercent
	A��S�oData;K�NameDeliveredPerformance
�<�<

�<==0=\=�=�=�=�=GroupNumberParkedBiosCapThermalCap,DesiredPerformance(NominalFrequencyMinPercentMaxPercent(TolerancePercent0DeliveredPerformanceTEMPhB牸i�<V�@�]�
���D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��7�oDataK�NameParked

A��9�oData!K�NameBiosCap
A��?�oData'K�Name
ThermalCap
A��O�oData7K�NameDesiredPerformance
A��K�oData3K�NameNominalFrequency
A��?�oData'K�Name
MinPercent
A��?�oData'K�Name
MaxPercent
A��K�oData3K�NameTolerancePercent
	A��S�oData;K�NameDeliveredPerformance
A��I�oData1K�NameEfficiencyClass
A��I�oData1K�NameSchedulingClass
A��?�oData'K�Name
Autonomous


�C�C

�C�C�C�CD<DXDtD�D�D�D

EGroupNumberParkedBiosCapThermalCap,DesiredPerformance(NominalFrequencyMinPercentMaxPercent(TolerancePercent0DeliveredPerformance$EfficiencyClass$SchedulingClassAutonomousTEMP0	�J4��,^O){�Rj}��VD�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��7�oDataK�NameParked

A��9�oData!K�NameBiosCap
A��?�oData'K�Name
ThermalCap
A��O�oData7K�NameDesiredPerformance
A��K�oData3K�NameNominalFrequency
A��?�oData'K�Name
MinPercent
A��?�oData'K�Name
MaxPercent
A��K�oData3K�NameTolerancePercent
	A��S�oData;K�NameDeliveredPerformance
A��I�oData1K�NameEfficiencyClass
A��I�oData1K�NameSchedulingClass
A��?�oData'K�Name
Autonomous


A��?�oData'K�Name
EppPercent
A��G�oData/K�NameActivityWindow
A��E�oData-K�Name
VirtualLittle

A��Q�oData9K�NameRelativePerformance
$L4L

HL\LpL�L�L�L�LM@MpM�M

�M�M�M

N4NGroupNumberParkedBiosCapThermalCap,DesiredPerformance(NominalFrequencyMinPercentMaxPercent(TolerancePercent0DeliveredPerformance$EfficiencyClass$SchedulingClassAutonomousEppPercent$ActivityWindow VirtualLittle,RelativePerformanceTEMP	�Sx�=�п[��ɓ����LD�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��7�oDataK�NameParked

A��9�oData!K�NameBiosCap
A��?�oData'K�Name
ThermalCap
A��O�oData7K�NameDesiredPerformance
A��K�oData3K�NameNominalFrequency
A��?�oData'K�Name
MinPercent
A��?�oData'K�Name
MaxPercent
A��K�oData3K�NameTolerancePercent
	A��S�oData;K�NameDeliveredPerformance
A��I�oData1K�NameEfficiencyClass
A��I�oData1K�NameSchedulingClass
A��?�oData'K�Name
Autonomous


A��?�oData'K�Name
EppPercent
A��G�oData/K�NameActivityWindow
A��;�oData#K�NameQosClass
A��Q�oData9K�NameRelativePerformance
HUXU

lU�U�U�U�UV V<VdV�V�V

�V�VW8WPWGroupNumberParkedBiosCapThermalCap,DesiredPerformance(NominalFrequencyMinPercentMaxPercent(TolerancePercent0DeliveredPerformance$EfficiencyClass$SchedulingClassAutonomousEppPercent$ActivityWindowQosClass,RelativePerformanceTEMP�	`]'})�Y����9����D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��7�oDataK�NameParked

A��9�oData!K�NameBiosCap
A��?�oData'K�Name
ThermalCap
A��O�oData7K�NameDesiredPerformance
A��K�oData3K�NameNominalFrequency
A��?�oData'K�Name
MinPercent
A��?�oData'K�Name
MaxPercent
A��K�oData3K�NameTolerancePercent
	A��S�oData;K�NameDeliveredPerformance
A��I�oData1K�NameEfficiencyClass
A��I�oData1K�NameSchedulingClass
A��?�oData'K�Name
Autonomous


A��?�oData'K�Name
EppPercent
A��G�oData/K�NameActivityWindow
A��;�oData#K�NameQosClass
A��Q�oData9K�NameRelativePerformance
A��]�oDataEK�NameEfficiencySchedulingClass
�^�^

__(_D_p_�_�_�_�_(`L`

p`�`�`�`�`aGroupNumberParkedBiosCapThermalCap,DesiredPerformance(NominalFrequencyMinPercentMaxPercent(TolerancePercent0DeliveredPerformance$EfficiencyClass$SchedulingClassAutonomousEppPercent$ActivityWindowQosClass,RelativePerformance8EfficiencySchedulingClassTEMPT
|g��tM�^f���������D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��7�oDataK�NameParked

A��9�oData!K�NameBiosCap
A��?�oData'K�Name
ThermalCap
A��O�oData7K�NameDesiredPerformance
A��K�oData3K�NameNominalFrequency
A��?�oData'K�Name
MinPercent
A��?�oData'K�Name
MaxPercent
A��K�oData3K�NameTolerancePercent
	A��S�oData;K�NameDeliveredPerformance
A��I�oData1K�NameEfficiencyClass
A��I�oData1K�NameSchedulingClass
A��?�oData'K�Name
Autonomous


A��?�oData'K�Name
EppPercent
A��G�oData/K�NameActivityWindow
A��;�oData#K�NameQosClass
A��Q�oData9K�NameRelativePerformance
A��]�oDataEK�NameEfficiencySchedulingClass
A��I�oData1K�NameTargetFrequency
ii

0iDiXiti�i�i�ij(jXj|j

�j�j�j�jk@kxkGroupNumberParkedBiosCapThermalCap,DesiredPerformance(NominalFrequencyMinPercentMaxPercent(TolerancePercent0DeliveredPerformance$EfficiencyClass$SchedulingClassAutonomousEppPercent$ActivityWindowQosClass,RelativePerformance8EfficiencySchedulingClass$TargetFrequencyTEMP�
r���{?�Tu?
R1����FD�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��7�oDataK�NameParked

A��9�oData!K�NameBiosCap
A��?�oData'K�Name
ThermalCap
A��O�oData7K�NameDesiredPerformance
A��K�oData3K�NameNominalFrequency
A��?�oData'K�Name
MinPercent
A��?�oData'K�Name
MaxPercent
A��K�oData3K�NameTolerancePercent
	A��S�oData;K�NameDeliveredPerformance
A��I�oData1K�NameEfficiencyClass
A��I�oData1K�NameSchedulingClass
A��?�oData'K�Name
Autonomous


A��?�oData'K�Name
EppPercent
A��G�oData/K�NameActivityWindow
A��;�oData#K�NameQosClass
A��Q�oData9K�NameRelativePerformance
A��]�oDataEK�NameEfficiencySchedulingClass
A��I�oData1K�NameTargetFrequency
A��?�oData'K�Name
SoftParked

�s�s

�s�st$tPtxt�t�t�tu,u

Pulu�u�u�u�u(v

LvGroupNumberParkedBiosCapThermalCap,DesiredPerformance(NominalFrequencyMinPercentMaxPercent(TolerancePercent0DeliveredPerformance$EfficiencyClass$SchedulingClassAutonomousEppPercent$ActivityWindowQosClass,RelativePerformance8EfficiencySchedulingClass$TargetFrequencySoftParkedTEMPl@}A����>�\.��9����D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��7�oDataK�NameParked

A��9�oData!K�NameBiosCap
A��?�oData'K�Name
ThermalCap
A��O�oData7K�NameDesiredPerformance
A��K�oData3K�NameNominalFrequency
A��?�oData'K�Name
MinPercent
A��?�oData'K�Name
MaxPercent
A��K�oData3K�NameTolerancePercent
	A��S�oData;K�NameDeliveredPerformance
A��I�oData1K�NameEfficiencyClass
A��I�oData1K�NameSchedulingClass
A��?�oData'K�Name
Autonomous


A��?�oData'K�Name
EppPercent
A��G�oData/K�NameActivityWindow
A��;�oData#K�NameQosClass
A��Q�oData9K�NameRelativePerformance
A��]�oDataEK�NameEfficiencySchedulingClass
A��I�oData1K�NameTargetFrequency
A��?�oData'K�Name
SoftParked

A��U�oData=K�NameDeliveredFrequencyMhz
�~

0D`�����D�h�

����Ā��,�d�

����GroupNumberParkedBiosCapThermalCap,DesiredPerformance(NominalFrequencyMinPercentMaxPercent(TolerancePercent0DeliveredPerformance$EfficiencyClass$SchedulingClassAutonomousEppPercent$ActivityWindowQosClass,RelativePerformance8EfficiencySchedulingClass$TargetFrequencySoftParked0DeliveredFrequencyMhzTEMP��?"���&^eF�q�$����D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��7�oDataK�NameParked

A��9�oData!K�NameBiosCap
A��?�oData'K�Name
ThermalCap
A��O�oData7K�NameDesiredPerformance
A��K�oData3K�NameNominalFrequency
A��?�oData'K�Name
MinPercent
A��?�oData'K�Name
MaxPercent
A��K�oData3K�NameTolerancePercent
	A��S�oData;K�NameDeliveredPerformance
A��I�oData1K�NameEfficiencyClass
A��I�oData1K�NameSchedulingClass
A��?�oData'K�Name
Autonomous


A��?�oData'K�Name
EppPercent
A��G�oData/K�NameActivityWindow
A��;�oData#K�NameQosClass
A��Q�oData9K�NameRelativePerformance
A��]�oDataEK�NameEfficiencySchedulingClass
A��I�oData1K�NameTargetFrequency
A��?�oData'K�Name
SoftParked

A��U�oData=K�NameDeliveredFrequencyMhz
A��C�oData+K�NameEppSupported

��Њ

����(�T�|�����܋�0�

T�p�����Ȍ�,�

P�l�

��GroupNumberParkedBiosCapThermalCap,DesiredPerformance(NominalFrequencyMinPercentMaxPercent(TolerancePercent0DeliveredPerformance$EfficiencyClass$SchedulingClassAutonomousEppPercent$ActivityWindowQosClass,RelativePerformance8EfficiencySchedulingClass$TargetFrequencySoftParked0DeliveredFrequencyMhz EppSupportedTEMP������~jG�\���|�E���D�	EventDataA��9�oData!K�NameLpIndex
A��9�oData!K�NameBiosCap
A��?�oData'K�Name
ThermalCap
A��O�oData7K�NameDesiredPerformance
A��K�oData3K�NameNominalFrequency
A��?�oData'K�Name
MinPercent
A��?�oData'K�Name
MaxPercent
A��K�oData3K�NameTolerancePercent
A��S�oData;K�NameDeliveredPerformance
A��?�oData'K�Name
Autonomous
	
A��?�oData'K�Name
EppPercent
A��G�oData/K�NameActivityWindow
A��Q�oData9K�NameRelativePerformance
A��I�oData1K�NameTargetFrequency

A��O�oData7K�NameDeliveredFrequency
��ȓܓ��$�L�h�����

ܔ���8�d���LpIndexBiosCapThermalCap,DesiredPerformance(NominalFrequencyMinPercentMaxPercent(TolerancePercent0DeliveredPerformanceAutonomousEppPercent$ActivityWindow,RelativePerformance$TargetFrequency,DeliveredFrequencyTEMPx̚����'�^D�P���f����D�	EventDataA��9�oData!K�NameLpIndex
A��9�oData!K�NameBiosCap
A��?�oData'K�Name
ThermalCap
A��O�oData7K�NameDesiredPerformance
A��K�oData3K�NameNominalFrequency
A��?�oData'K�Name
MinPercent
A��?�oData'K�Name
MaxPercent
A��K�oData3K�NameTolerancePercent
A��S�oData;K�NameDeliveredPerformance
A��?�oData'K�Name
Autonomous
	
A��?�oData'K�Name
EppPercent
A��G�oData/K�NameActivityWindow
A��Q�oData9K�NameRelativePerformance
A��I�oData1K�NameTargetFrequency

A��O�oData7K�NameDeliveredFrequency
A��C�oData+K�NameEppSupported

� �4�P�|�����ܜ�

4�P�l������

�LpIndexBiosCapThermalCap,DesiredPerformance(NominalFrequencyMinPercentMaxPercent(TolerancePercent0DeliveredPerformanceAutonomousEppPercent$ActivityWindow,RelativePerformance$TargetFrequency,DeliveredFrequency EppSupportedTEMP�t�3ﴜ�P~]�N~�]�9��D�	EventDataA��5�oDataK�NameGroup
A��;�oData#K�NameAffinity
A��7�oDataK�NameParked
A��7�oDataK�NameLpiCap
ğԟ��GroupAffinityParkedLpiCapTEMP`���T���vIT�$�*�~w��ZD�	EventDataA��5�oDataK�NameGroup
A��;�oData#K�NameAffinity
A��7�oDataK�NameParked
A��7�oDataK�NameLpiCap
A��?�oData'K�Name
ThermalCap
��0�D�X�GroupAffinityParkedLpiCapThermalCapTEMP�D��<mlꎑZ�3”
���D�	EventDataA��5�oDataK�NameGroup
A��;�oData#K�NameAffinity
A��7�oDataK�NameParked
A��7�oDataK�NameLpiCap
A��?�oData'K�Name
ThermalCap
A��;�oData#K�NameParkHint
��̤����(�GroupAffinityParkedLpiCapThermalCapParkHintTEMPDX�^��+�.`\�|��^�����D�	EventDataA��5�oDataK�NameGroup
A��;�oData#K�NameAffinity
A��7�oDataK�NameParked
A��7�oDataK�NameLpiCap
A��?�oData'K�Name
ThermalCap
A��;�oData#K�NameParkHint
A��?�oData'K�Name
SoftParked
��� �4�P�h�GroupAffinityParkedLpiCapThermalCapParkHintSoftParkedTEMP�������[P]�EO�R����D�	EventDataA��5�oDataK�NameGroup
A��;�oData#K�NameAffinity
A��7�oDataK�NameLpiCap
̩ܩ�GroupAffinityLpiCapTEMP�X�L��|�<U�z	�wa���D�	EventDataA��5�oDataK�NameGroup
A��;�oData#K�NameAffinity
A��7�oDataK�NameLpiCap
A��?�oData'K�Name
ThermalCap
����Ы�GroupAffinityLpiCapThermalCapTEMP�H�R��EҲ]!��A�+��D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��3�oDataK�NameType
A��?�oData'K�Name
StateCount
������̭GroupNumberTypeStateCountTEMP�|����Ȼ�]SY��h�z����`D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��3�oDataK�NameType
A��?�oData'K�Name
StateCount
A��EZ�ComplexDataK�NameStates
���̰��� �4�\�

t�

��

��

�

�

$�

D�\�GroupNumberTypeStateCountStatesLatency(BreakEvenDurationStateType(InterruptsEnabled Interruptible$ContextRetained CacheCoherent$WakesSpuriously PlatformOnlyNoCStateNameTEMPX��q#��WU��I�:���D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��3�oDataK�NameType
A��?�oData'K�Name
StateCount
A��EZ�ComplexDataK�NameStates
�A��Q�oData9K�NameLatencyLimitIn100ns
�������<�P�x�

��

��

ض

��

�

@�

`�x�GroupNumberTypeStateCountStates,LatencyLimitIn100nsLatency(BreakEvenDurationStateType(InterruptsEnabled Interruptible$ContextRetained CacheCoherent$WakesSpuriously PlatformOnlyNoCStateNameTEMP�2.�"��^N�ϻ�Z4���.D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��7�oDataK�NameAcpiId
A��U�oData=K�NameInterruptControllerId
<�L�`�t�GroupNumberAcpiId0InterruptControllerIdTEMP�T����l$T��OuSu6i��|D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��7�oDataK�NameAcpiId
A��U�oData=K�NameInterruptControllerId
A��G�oData/K�NameProcessorIndex
��Ȼܻ� �GroupNumberAcpiId0InterruptControllerId$ProcessorIndexTEMP8��t�JƖT����B������D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��7�oDataK�NameAcpiId
A��U�oData=K�NameInterruptControllerId
A��G�oData/K�NameProcessorIndex
A��=�oData%K�Name	HvLpIndex
����Ծ��<�GroupNumberAcpiId0InterruptControllerId$ProcessorIndexHvLpIndexTEMP���JHŶyV(Vv7O5;zY���D�	EventDataA��7�oDataK�NameAcpiId
A��U�oData=K�NameInterruptControllerId
A��=�oData%K�Name	HvLpIndex
����AcpiId0InterruptControllerIdHvLpIndexTEMP���\f�Qѥy_
D��f����BD�	EventDataA��?�oData'K�Name
StateCount
A��?�oData'K�Name
ResetCount
A��K�oData3K�NameTotalTransitions

A��=�oData%K�Name	StartTime

A��;�oData#K�NameReserved

A��CZ�ComplexDataK�NameState
�A��5�oDataK�NameGroup
A��7�oDataK�NameNumber
���

�

D�

\�	t�����������$�<�T�

��

��
��StateCountResetCount(TotalTransitionsStartTimeReservedStateGroupNumber$IdleTransitions(FailedTransitions0CancelledTransitionsMaxTimeUsMinTimeUs,InvalidBucketIndexTotalTimeReserved$IdleTimeBucketsTEMP�
�0]�+1��[AY<�T^Sz���D�	EventDataA��?�oData'K�Name
StateCount
A��?�oData'K�Name
ResetCount
A��K�oData3K�NameTotalTransitions

A��=�oData%K�Name	StartTime

A��;�oData#K�NameReserved

A��CZ�ComplexDataK�NameState
�A��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��G�oData/K�NameSelectionCount
A��_Z�ComplexData9K�NameSelectionAccounting
	�D�`�

|�

��

��
	�������
,�X�|��������

0�

H�
`�

��

��

��

��

�

0�

H�

p�

��

��StateCountResetCount(TotalTransitionsStartTimeReservedStateGroupNumber$SelectionCount,SelectionAccounting$IdleTransitions(FailedTransitions0CancelledTransitionsMaxTimeUsMinTimeUs,InvalidBucketIndexTotalTimeReserved$IdleTimeBuckets$LegacyOverrideLatency IdleDuration,ProcessorDependency(DeviceDependencyNoCState(CStateCheckFailedPreVetoVetoSelectedTEMPl	,��=��B��R�0�u~R���LD�	EventDataA��?�oData'K�Name
StateCount
A��?�oData'K�Name
ResetCount
A��K�oData3K�NameTotalTransitions

A��=�oData%K�Name	StartTime

A��;�oData#K�NameReserved

A��CZ�ComplexDataK�NameState
�A��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��G�oData/K�NameSelectionCount
A��_Z�ComplexData9K�NameSelectionAccounting
	�A��O�oData7K�NameDripsWakeSkipCount

����

��

��

��	�$�4�H�
l�

�������@�X�p�

��

��
��

��

�

(�

H�

t�

��

��

��

��

�StateCountResetCount(TotalTransitionsStartTimeReservedStateGroupNumber$SelectionCount,SelectionAccounting,DripsWakeSkipCount$IdleTransitions(FailedTransitions0CancelledTransitionsMaxTimeUsMinTimeUs,InvalidBucketIndexTotalTimeReserved$IdleTimeBuckets$LegacyOverrideLatency IdleDuration,ProcessorDependency(DeviceDependencyNoCState(CStateCheckFailedPreVetoVetoSelectedTEMP�����J��Q�5@�fd��HD�	EventDataA��5�oDataK�NameGroup
A��;�oData#K�NameAffinity
A��A�oData)K�NameUnparkCount
A��K�oData3K�NameOSPreferencePark
A��O�oData7K�NameOSPreferenceUnpark
A��W�oData?K�NamePlatformPreferencePark
A��[�oDataCK�NamePlatformPreferenceUnpark
 �0�H�d�������GroupAffinityUnparkCount(OSPreferencePark,OSPreferenceUnpark4PlatformPreferencePark8PlatformPreferenceUnparkTEMP�,�E3,�ŶfS8[t�,3�����D�	EventDataA��[�oDataCK�NamePreviousActiveScenarioId
A��Q�oData9K�NameNewActiveScenarioId
T���8PreviousActiveScenarioId,NewActiveScenarioIdTEMP�h�#�sf"e[�j!�����zD�	EventDataA��Y�oDataAK�NameCurrentActiveScenarioId
|�4CurrentActiveScenarioIdTEMPl��}uN���R�5������D�	EventDataA��?�oData'K�Name
ScenarioId
A��W�oData?K�NamePlatformIdleStateIndex
����ScenarioId4PlatformIdleStateIndexTEMP4��H"'��-rZt�>�KN��LD�	EventDataA��?�oData'K�Name
StateIndex
A��_Z�ComplexData9K�NameInitiatingProcessor
A��C�oData+K�NameOneInitiator

A��9�oData!K�NameLatency
A��M�oData5K�NameBreakEvenDuration
A��I�oData1K�NameDependencyCount
A��QZ�ComplexData+K�NameDependencies
�����

���0�X�	|�����������

�

,�StateIndex,InitiatingProcessor OneInitiatorLatency(BreakEvenDuration$DependencyCount DependenciesGroupNumberGroupNumber ExpectedState(AllowDeeperStates$LooseDependencyTEMP���!b�*˧�]��(v�e��
D�	EventDataA��O�oData7K�NameScenarioInstanceId
A��M�oData5K�NameDripsBucketsCount
A��?�oData'K�Name
TotalTimes
�����
 �,ScenarioInstanceId(DripsBucketsCountTotalTimesTEMP�����:K 2�U�r��l9���dD�	EventDataA��O�oData7K�NameScenarioInstanceId
A��M�oData5K�NameDripsBucketsCount
A��?�oData'K�Name
TotalTimes
�A��S�oData;K�NameScenarioInstanceIdV2

$�P�
x�

��,ScenarioInstanceId(DripsBucketsCountTotalTimes0ScenarioInstanceIdV2TEMPl��|�p޻NN]��`)�;���D�	EventDataA��Q�oData9K�NameIntervalLimitsCount
A��G�oData/K�NameIntervalLimits
���
�,IntervalLimitsCount$IntervalLimitsTEMP<��-TUf�^b*�����@���D�	EventDataA��?�oData'K�Name
StateIndex
A��?�oData'K�Name
VetoReason
4�P�StateIndexVetoReasonTEMP��)I��2:P�$|��n��� D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��?�oData'K�Name
StateIndex
A��?�oData'K�Name
VetoReason
� �4�P�GroupNumberStateIndexVetoReasonTEMP����j�!��\�M]������D�	EventDataA��?�oData'K�Name
StateIndex
A��?�oData'K�Name
VetoReason
A��=�oData%K�Name	VetoCount
�����StateIndexVetoReasonVetoCountTEMPp���t�%�>_B��݉��dD�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��?�oData'K�Name
StateIndex
A��?�oData'K�Name
VetoReason
A��=�oData%K�Name	VetoCount
�$�8�T�p�GroupNumberStateIndexVetoReasonVetoCountTEMP���,?z�
tMP��mM��/��<D�	EventDataA��U�oData=K�NamePerfBoostAtGuaranteed

A���oDatagK�Name*PerfIdealAggressiveIncreasePolicyThreshold
A��O�oData7K�NamePerfSingleStepSize
A��g�oDataOK�NamePerfCalculateActualUtilization
A��S�oData;K�NamePerfArtificialDomain

A��a�oDataIK�NameLowLatencyScalingPercentage
A��Y�oDataAK�NameParkWithCoreGranularity
A��S�oData;K�NameMultiparkGranularity


���$�P�

����4�0PerfBoostAtGuaranteed\PerfIdealAggressiveIncreasePolicyThreshold,PerfSingleStepSizeDPerfCalculateActualUtilization0PerfArtificialDomain<LowLatencyScalingPercentage4ParkWithCoreGranularity0MultiparkGranularityTEMP

��߹�'��T.p������D�	EventDataA��U�oData=K�NamePerfBoostAtGuaranteed

A���oDatagK�Name*PerfIdealAggressiveIncreasePolicyThreshold
A��O�oData7K�NamePerfSingleStepSize
A��g�oDataOK�NamePerfCalculateActualUtilization
A��S�oData;K�NamePerfArtificialDomain

A��a�oDataIK�NameLowLatencyScalingPercentage
A��Y�oDataAK�NameParkWithCoreGranularity
A��S�oData;K�NameMultiparkGranularity
A��[�oDataCK�NameQosManagesIdleProcessors

A��E�oData-K�Name
QosHysteresis
	

L�|���

H�x����

P0PerfBoostAtGuaranteed\PerfIdealAggressiveIncreasePolicyThreshold,PerfSingleStepSizeDPerfCalculateActualUtilization0PerfArtificialDomain<LowLatencyScalingPercentage4ParkWithCoreGranularity0MultiparkGranularity8QosManagesIdleProcessors QosHysteresisTEMP�F����dU�O�~�����ZD�	EventDataA��U�oData=K�NamePerfBoostAtGuaranteed

A���oDatagK�Name*PerfIdealAggressiveIncreasePolicyThreshold
A��O�oData7K�NamePerfSingleStepSize
A��g�oDataOK�NamePerfCalculateActualUtilization
A��S�oData;K�NamePerfArtificialDomain

A��a�oDataIK�NameLowLatencyScalingPercentage
A��Y�oDataAK�NameParkWithCoreGranularity
A��S�oData;K�NameMultiparkGranularity
A��[�oDataCK�NameQosManagesIdleProcessors

A��E�oData-K�Name
QosHysteresis
	A��i�oDataQK�NameCoreParkingRotationSeedTimeInMs


�h�

�Dx

��0PerfBoostAtGuaranteed\PerfIdealAggressiveIncreasePolicyThreshold,PerfSingleStepSizeDPerfCalculateActualUtilization0PerfArtificialDomain<LowLatencyScalingPercentage4ParkWithCoreGranularity0MultiparkGranularity8QosManagesIdleProcessors QosHysteresisDCoreParkingRotationSeedTimeInMsTEMP@	

�
��W���t]7.ਗ਼}�G��(D�	EventDataA��U�oData=K�NamePerfBoostAtGuaranteed

A���oDatagK�Name*PerfIdealAggressiveIncreasePolicyThreshold
A��O�oData7K�NamePerfSingleStepSize
A��g�oDataOK�NamePerfCalculateActualUtilization
A��S�oData;K�NamePerfArtificialDomain

A��a�oDataIK�NameLowLatencyScalingPercentage
A��Y�oDataAK�NameParkWithCoreGranularity
A��S�oData;K�NameMultiparkGranularity
A��[�oDataCK�NameQosManagesIdleProcessors

A��E�oData-K�Name
QosHysteresis
	A��i�oDataQK�NameCoreParkingRotationSeedTimeInMs
A��a�oDataIK�NameEffectiveParkingGranularity
A��_�oDataGK�NameIsUnparkCoresPolicyEnabled



��0\

��@

p��

H0PerfBoostAtGuaranteed\PerfIdealAggressiveIncreasePolicyThreshold,PerfSingleStepSizeDPerfCalculateActualUtilization0PerfArtificialDomain<LowLatencyScalingPercentage4ParkWithCoreGranularity0MultiparkGranularity8QosManagesIdleProcessors QosHysteresisDCoreParkingRotationSeedTimeInMs<EffectiveParkingGranularity<IsUnparkCoresPolicyEnabledTEMPh
�H7&��W��0
e� ���D�	EventDataA��U�oData=K�NamePerfBoostAtGuaranteed

A���oDatagK�Name*PerfIdealAggressiveIncreasePolicyThreshold
A��O�oData7K�NamePerfSingleStepSize
A��g�oDataOK�NamePerfCalculateActualUtilization
A��S�oData;K�NamePerfArtificialDomain

A��a�oDataIK�NameLowLatencyScalingPercentage
A��Y�oDataAK�NameParkWithCoreGranularity
A��S�oData;K�NameMultiparkGranularity
A��[�oDataCK�NameQosManagesIdleProcessors

A��E�oData-K�Name
QosHysteresis
	A��i�oDataQK�NameCoreParkingRotationSeedTimeInMs
A��a�oDataIK�NameEffectiveParkingGranularity
A��_�oDataGK�NameIsUnparkCoresPolicyEnabled

A��Q�oData9K�NameMultiCoreScheduling

A��K�oData3K�NameMultiCoreParking


��Dp

�� T

��� 

\��0PerfBoostAtGuaranteed\PerfIdealAggressiveIncreasePolicyThreshold,PerfSingleStepSizeDPerfCalculateActualUtilization0PerfArtificialDomain<LowLatencyScalingPercentage4ParkWithCoreGranularity0MultiparkGranularity8QosManagesIdleProcessors QosHysteresisDCoreParkingRotationSeedTimeInMs<EffectiveParkingGranularity<IsUnparkCoresPolicyEnabled,MultiCoreScheduling(MultiCoreParkingTEMP��6��-U�Z���ײ���D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��Q�oData9K�NameResolvedUtilization
A��7�oDataK�NameTarget
A��G�oData/K�NameResolvedTarget
A��5�oDataK�NameFlags
L\p���GroupNumber,ResolvedUtilizationTarget$ResolvedTargetFlagsTEMP�� F����aZ���QV�%��zD�	EventDataA��9�oData!K�NameLpIndex
A��Q�oData9K�NameResolvedUtilization
A��7�oDataK�NameTarget
A��G�oData/K�NameResolvedTarget
A��5�oDataK�NameFlags
� !8!L!p!LpIndex,ResolvedUtilizationTarget$ResolvedTargetFlagsTEMP$P"�(	%Z\}Z��"Q9���D�	EventDataA��?�oData'K�Name
VetoReason
A��3�oDataK�NameName
x"�"VetoReasonNameTEMP�#��8���^le1��	�����D�	EventDataA��?�oData'K�Name
StateCount
A��[Z�ComplexData5K�NameCoordinatedStates
�$$D$X$�$StateCount(CoordinatedStatesLatency(BreakEvenDuration$DependencyCountTEMP��&uca
Z�?�Ve�j���D�	EventDataA��?�oData'K�Name
StateIndex
A��I�oData1K�NameDependencyIndex
A��Q�oData9K�NameProcessorDependency

A��WZ�ComplexData1K�NameTargetProcessor
A��A�oData)K�NameOptionCount
A��GZ�ComplexData!K�NameOptions
��'�'

(0(T(p(�(�(�(

�(

�(

)StateIndex$DependencyIndex,ProcessorDependency$TargetProcessorOptionCountOptionsGroupNumber,ExpectedStateIndex$LooseDependency$InitiatingState$DependentStateTEMP��)��;�x�dV}�<A3���ZD�	EventDataA��9�oData!K�NameEngaged



�)EngagedTEMPp�*��-�9�^�F(baG���D�	EventDataA��I�oData1K�NameEfficiencyClass
A��Q�oData9K�NameEnergyInMicroJoules

+

<+$EfficiencyClass,EnergyInMicroJoulesTEMP�H,Al[
9QYl��J{���D�	EventDataA��?�oData'K�Name
StateCount
A��EZ�ComplexDataK�NameStates
��,�,�,-

,-L-StateCountStatesLatency(BreakEvenDuration PlatformStateNameTEMPt�0���Y�#0]*\�]X�P���*D�	EventDataA��5�oDataK�NameGroup
A��;�oData#K�NameAffinity
A��=�oData%K�Name	ProcCount
A��E�oData-K�Name
ActualUtility
�A��K�oData3K�NameEstimatedUtility
�A��?�oData'K�Name
ActiveTime

A��?�oData'K�Name
CheckCount
A��;�oData#K�NameDecision
A��K�oData3K�NameIdealClass1Count
A��M�oData5K�NameActualClass1Count
	A��5�oDataK�NameFlags
�1�1�1�1

�1

 2<2X2p2�2�2GroupAffinityProcCount ActualUtility(EstimatedUtilityActiveTimeCheckCountDecision(IdealClass1Count(ActualClass1CountFlagsTEMP4@41S@@R�=�B��:���<D�	EventDataA��5�oDataK�NameGroup
A��;�oData#K�NameAffinity
A��I�oData1K�NameClass0FloorPerf
A��M�oData5K�NameClass1MinimumPerf
�4�4�4�4GroupAffinity$Class0FloorPerf(Class1MinimumPerfTEMP�		�7q��uc$X�b��v����D�	EventDataA��3�oDataK�NameName
A��/�oDataK�NameId
A��;�oData#K�NamePriority
A��5�oDataK�NameFlags
A��3�oDataK�NameGuid
A��A�oData)K�NameActiveCount

A��U�oData=K�NameMaxActiveDurationInUs

A��U�oData=K�NameMinActiveDurationInUs

A��Y�oDataAK�NameTotalActiveDurationInUs

�8�8�8�8�8

�8

9

09

`9NameIdPriorityFlagsGuidActiveCount0MaxActiveDurationInUs0MinActiveDurationInUs4TotalActiveDurationInUsTEMP`�:$FG$g�V�,Ȱ�ҪM���D�	EventDataA��M�oData5K�NamePreviousProfileId
A��E�oData-K�Name
NextProfileId
�:�:(PreviousProfileId NextProfileIdTEMP�<��ߟ�;PP0���A����D�	EventDataA��=�oData%K�Name	ProfileId
A��3�oDataK�NameName
A��3�oDataK�NameType
A��5�oDataK�NameClass
A��3�oDataK�NameGuid
A��=�oData%K�Name	ValueSize
A��5�oDataK�NameValue
|=�=��=�=�=�=�=ProfileIdNameTypeClassGuidValueSizeValueTEMP��>e��7�\�r�4V��VD�	EventDataA��5�oDataK�NameFlags
�>FlagsTEMP�@?O��QAWvѶ����^D�	EventDataA��=�oData%K�Name	ProfileId
T?ProfileIdTEMP�@O��QAWvѶ����^D�	EventDataA��=�oData%K�Name	ProfileId
@ProfileIdTEMP�A�@8�wP\9�_�������D�	EventDataA��?�oData'K�Name
GroupCount
A��CZ�ComplexDataK�NameGroup
�\AxA�A�AGroupCountGroupNumberAffinityTEMP��B�x�][^P�	�s?Ō����D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��S�oData;K�NameDeliveredPerformance
C$C8CGroupNumber0DeliveredPerformanceTEMP0�DXS:���],`��1���8D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��S�oData;K�NameDeliveredPerformance
A��C�oData+K�NameDurationInUs

$E4EHE

xEGroupNumber0DeliveredPerformance DurationInUsTEMP�\G��f���P �$���D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��S�oData;K�NameDeliveredPerformance
A��C�oData+K�NameDurationInUs

A��O�oData7K�NameDeliveredFrequency
�G�G�G

H4HGroupNumber0DeliveredPerformance DurationInUs,DeliveredFrequencyTEMP�(J9��"F<�Z�ʻ��7���D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��S�oData;K�NameDeliveredPerformance
A��C�oData+K�NameDurationInUs

A��U�oData=K�NameDeliveredFrequencyMhz
�J�J�J

�JKGroupNumber0DeliveredPerformance DurationInUs0DeliveredFrequencyMhzTEMPt�Lcp���Q��?D_F���ZD�	EventDataA��9�oData!K�NameLpIndex
A��S�oData;K�NameDeliveredPerformance
A��C�oData+K�NameDurationInUs

A��U�oData=K�NameDeliveredFrequencyMhz
M$M

TMtMLpIndex0DeliveredPerformance DurationInUs0DeliveredFrequencyMhzTEMP�N|�R�4V����w��"D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��=�oData%K�Name	CounterId
A��C�oData+K�NameCounterValue

LO\OpO
�OGroupNumberCounterId CounterValueTEMP<�P�еz�G�X���=fV����D�	EventDataA��=�oData%K�Name	CounterId
A��C�oData+K�NameCounterValue

�P
�PCounterId CounterValueTEMP��Qd�5w���V�J�\z�l���D�	EventDataA��K�oData3K�NameEnergyStatusUnit
A��W�oData?K�NameEsuToMilliJoulesMethod
R�4R(EnergyStatusUnit4EsuToMilliJoulesMethodTEMPt�S]�C�!v[q�`��"���\D�	EventDataA��I�oData1K�NameEfficiencyClass
A��A�oData)K�NameBucketCount
A��M�oData5K�NameBucketFrequencies
�A��O�oData7K�NameBucketPowerWeights
�HTlT�T�T$EfficiencyClassBucketCount(BucketFrequencies,BucketPowerWeightsTEMP,�V�P	>�rV`��D}v���zD�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��?�oData'K�Name
StateIndex
A��E�oData-K�Name
VetoCodeCount
A��MZ�ComplexData'K�Name
Accounting
�,W<WPWlW�W�W

�W

�WGroupNumberStateIndex VetoCodeCountAccountingVetoCodeHitCount0AccumulatedActiveTimeTEMPd<Y-�Ts0�]����X���D�	EventDataA��?�oData'K�Name
StateIndex
A��E�oData-K�Name
VetoCodeCount
A��MZ�ComplexData'K�Name
Accounting
��Y�Y�YZ

$Z

<ZStateIndex VetoCodeCountAccountingVetoCodeHitCount0AccumulatedActiveTimeTEMP$�[��:{�-�Z\��NbgfH��4D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��I�oData1K�NameEfficiencyClass
A��I�oData1K�NameSchedulingClass
$\4\H\l\GroupNumber$EfficiencyClass$SchedulingClassTEMP�\^P]��0U����BI%a���D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��I�oData1K�NameEfficiencyClass
A��I�oData1K�NameSchedulingClass
A��]�oDataEK�NameEfficiencySchedulingClass
�^�^�^_,_GroupNumber$EfficiencyClass$SchedulingClass8EfficiencySchedulingClassTEMPX		 c&d��U�Y�5�[�]���D�	EventDataA��Q�oData9K�NameHeterogeneousPolicy
A��Y�oDataAK�NameHeterogeneousSystemType
A��E�oData-K�Name
DefaultPolicy
A��S�oData;K�NameDefaultDynamicPolicy
A��S�oData;K�NameDynamicCpuPolicyMask
A��]�oDataEK�NameDynamicCpuPolicyImportant
A��g�oDataOK�NameDynamicCpuPolicyImportantShort
A��m�oDataUK�Name!DynamicCpuPolicyImportantPriority
A��i�oDataQK�NameDynamicCpuPolicyExpectedRuntime
�cd4dTd�d�d�d0exe,HeterogeneousPolicy4HeterogeneousSystemType DefaultPolicy0DefaultDynamicPolicy0DynamicCpuPolicyMask8DynamicCpuPolicyImportantDDynamicCpuPolicyImportantShortHDynamicCpuPolicyImportantPriorityDDynamicCpuPolicyExpectedRuntimeTEMP�

�i�w�iԇ\�NWS�^����D�	EventDataA��Q�oData9K�NameHeterogeneousPolicy
A��Y�oDataAK�NameHeterogeneousSystemType
A��E�oData-K�Name
DefaultPolicy
A��S�oData;K�NameDefaultDynamicPolicy
A��S�oData;K�NameDynamicCpuPolicyMask
A��]�oDataEK�NameDynamicCpuPolicyImportant
A��g�oDataOK�NameDynamicCpuPolicyImportantShort
A��m�oDataUK�Name!DynamicCpuPolicyImportantPriority
A��i�oDataQK�NameDynamicCpuPolicyExpectedRuntime
A��I�oData1K�NameWPSCapabilities
	
�j�j�jk@kpk�k�k4l
xl,HeterogeneousPolicy4HeterogeneousSystemType DefaultPolicy0DefaultDynamicPolicy0DynamicCpuPolicyMask8DynamicCpuPolicyImportantDDynamicCpuPolicyImportantShortHDynamicCpuPolicyImportantPriorityDDynamicCpuPolicyExpectedRuntime$WPSCapabilitiesTEMP��m�k.�,{UW���c�+���D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��?�oData'K�Name
Autonomous

�m�m

nGroupNumberAutonomousTEMP,�no��
��U7�Ө�b�����D�	EventDataA��9�oData!K�NameLpIndex
A��?�oData'K�Name
Autonomous

$o

8oLpIndexAutonomousTEMP�0q���r^Z����8I^���D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��;�oData#K�NameRevision
A��9�oData!K�NameLevelId

A��?�oData'K�Name
StateCount
A��EZ�ComplexDataK�NameStates
�`sps�s

�s�s�s�st(t8t`t�t�t�t(uXu

�u�u�u0vhv

�v�vwDwtw

�w�wGroupNumberRevisionLevelIdStateCountStates(MinimumResidency WakeupLatencyFlags(ArchitectureFlags8ResidencyCounterFrequency,EnabledParentState8EntryMethodAddressSpaceId,EntryMethodBitWidth0EntryMethodBitOffset0EntryMethodAccessSize,EntryMethodAddressDResidencyCounterAddressSpaceId8ResidencyCounterBitWidth8ResidencyCounterBitOffset<ResidencyCounterAccessSize4ResidencyCounterAddress<UsageCounterAddressSpaceId0UsageCounterBitWidth0UsageCounterBitOffset4UsageCounterAccessSize,UsageCounterAddressNameTEMP4�y���Q�W�N�gn�K��nD�	EventDataA��9�oData!K�NameLpIndex
A��;�oData#K�NameRevision
A��9�oData!K�NameLevelId

A��?�oData'K�Name
StateCount
A��EZ�ComplexDataK�NameStates
��{�{

�{�{||<|\|l|�|�|�|0}\}�}

�}�},~d~�~

�~Hx�

��LpIndexRevisionLevelIdStateCountStates(MinimumResidency WakeupLatencyFlags(ArchitectureFlags8ResidencyCounterFrequency,EnabledParentState8EntryMethodAddressSpaceId,EntryMethodBitWidth0EntryMethodBitOffset0EntryMethodAccessSize,EntryMethodAddressDResidencyCounterAddressSpaceId8ResidencyCounterBitWidth8ResidencyCounterBitOffset<ResidencyCounterAccessSize4ResidencyCounterAddress<UsageCounterAddressSpaceId0UsageCounterBitWidth0UsageCounterBitOffset4UsageCounterAccessSize,UsageCounterAddressNameTEMPLȁ)J+!��Q]��y(�����zD�	EventDataA��E�oData-K�Name
NamespacePath
A��;�oData#K�NameRevision
A��9�oData!K�NameLevelId

A��?�oData'K�Name
StateCount
A��EZ�ComplexDataK�NameStates
���

�0�L�`���������D�|���؅

�4�x����

$�X���ć�

(�T� NamespacePathRevisionLevelIdStateCountStates(MinimumResidency WakeupLatencyFlags(ArchitectureFlags8ResidencyCounterFrequency,EnabledParentState8EntryMethodAddressSpaceId,EntryMethodBitWidth0EntryMethodBitOffset0EntryMethodAccessSize,EntryMethodAddressDResidencyCounterAddressSpaceId8ResidencyCounterBitWidth8ResidencyCounterBitOffset<ResidencyCounterAccessSize4ResidencyCounterAddress<UsageCounterAddressSpaceId0UsageCounterBitWidth0UsageCounterBitOffset4UsageCounterAccessSize,UsageCounterAddressNameTEMP<̉�^s���PZ~ؑ�A����2D�	EventDataA��e�oDataMK�NameVirtualHeterogeneitySupported

A��W�oData?K�NameVirtualHeterogeneityOn

A��G�oData/K�NameDisableReasons


�

H�|�@VirtualHeterogeneitySupported4VirtualHeterogeneityOn$DisableReasonsTEMPL�7���	@�X&�J��R�G��:D�	EventDataA��s�oData[K�Name$SchedulerDirectedPerfStatesSupported

A��E�oData-K�Name
PpmQosEnabled

A��S�oData;K�NamePpmQosDisableReasons


L�

����PSchedulerDirectedPerfStatesSupported PpmQosEnabled0PpmQosDisableReasonsTEMPH|�ϗ͎j�[wn�"c����ZD�	EventDataA��;�oData#K�NameDomainId
A��K�oData3K�NameCoordinationType
A��[�oDataCK�NameIdleProcessorsDiscounted

A��u�oData]K�Name%SchedulerDirectedTransitionsSupported

A��_�oDataGK�NameWorstCaseTransitionLatency
A��a�oDataIK�NameWorstCaseTransitionOverhead
��

4�

l�����DomainId(CoordinationType8IdleProcessorsDiscountedPSchedulerDirectedTransitionsSupported<WorstCaseTransitionLatency<WorstCaseTransitionOverheadTEMP��`]�w�oR��4"x����D�	EventDataA��;�oData#K�NameDomainId
A��K�oData3K�NameCoordinationType
A��[�oDataCK�NameIdleProcessorsDiscounted

A��u�oData]K�Name%SchedulerDirectedTransitionsSupported

A��_�oDataGK�NameWorstCaseTransitionLatency
A��a�oDataIK�NameWorstCaseTransitionOverhead
A��M�oData5K�NameAffinitizePerfSet

����

�

�l���

�DomainId(CoordinationType8IdleProcessorsDiscountedPSchedulerDirectedTransitionsSupported<WorstCaseTransitionLatency<WorstCaseTransitionOverhead(AffinitizePerfSetTEMP���hk.�i/]ۗl�q�]+���D�	EventDataA��5�oDataK�NameGroup
A��;�oData#K�NameAffinity
A��;�oData#K�NameParkHint
X�h���GroupAffinityParkHintTEMP�`�T>Gš�[{��+MU!���D�	EventDataA��M�oData5K�NameDomainMasterGroup
A��O�oData7K�NameDomainMasterNumber
A��A�oData)K�NameProcessorId
A��9�oData!K�NameBiosCap
A��?�oData'K�Name
ThermalCap
ę��4�H�(DomainMasterGroup,DomainMasterNumberProcessorIdBiosCapThermalCapTEMPDܛ�"���R�V��e��b��DD�	EventDataA��M�oData5K�NameDomainMasterGroup
A��O�oData7K�NameDomainMasterNumber
A��A�oData)K�NameProcessorId
A��1�oDataK�NameCap
,�T�����(DomainMasterGroup,DomainMasterNumberProcessorIdCapTEMP��/x���SW��kT��
��D�	EventDataA��5�oDataK�NameGroup
A��?�oData'K�Name
Processors
A��9�oData!K�NameOldPark
A��9�oData!K�NameNewPark
A��A�oData)K�NameNewSoftPark
A��=�oData%K�Name	UnparkCap
A��A�oData)K�NameUnparkFloor
A��C�oData+K�NameForceParkSet
A��G�oData/K�NameForceUnparkSet
A��I�oData1K�NameOverUtilizedSet
	A��E�oData-K�Name
IsolatedCores
A��K�oData3K�NameIdealUnparkCount
A��A�oData)K�NameUnparkCount
A��?�oData'K�Name
ParkReason

���$�8�L�h���������$�L�h�GroupProcessorsOldParkNewParkNewSoftParkUnparkCapUnparkFloor ForceParkSet$ForceUnparkSet$OverUtilizedSet IsolatedCores(IdealUnparkCountUnparkCountParkReasonTEMP�(�=�`'ka�UeG������pD�	EventDataA��5�oDataK�NameGroup
A��?�oData'K�Name
Processors
A��9�oData!K�NameOldPark
A��9�oData!K�NameNewPark
A��A�oData)K�NameNewSoftPark
A��=�oData%K�Name	UnparkCap
A��A�oData)K�NameUnparkFloor
A��C�oData+K�NameForceParkSet
A��G�oData/K�NameForceUnparkSet
A��I�oData1K�NameOverUtilizedSet
	A��E�oData-K�Name
IsolatedCores
A��K�oData3K�NameIdealUnparkCount
A��A�oData)K�NameUnparkCount
A��?�oData'K�Name
ParkReason

A��e�oDataMK�NamePerformanceCoresUnparkedCount
T�d�������ĩܩ���<�`�����Ī�GroupProcessorsOldParkNewParkNewSoftParkUnparkCapUnparkFloor ForceParkSet$ForceUnparkSet$OverUtilizedSet IsolatedCores(IdealUnparkCountUnparkCountParkReason@PerformanceCoresUnparkedCountTEMP�T���b��Vw_%�Yz��8B��D�	EventDataA��5�oDataK�NameGroup
A��?�oData'K�Name
Processors
A��9�oData!K�NameOldPark
A��9�oData!K�NameNewPark
A��A�oData)K�NameNewSoftPark
A��=�oData%K�Name	UnparkCap
A��A�oData)K�NameUnparkFloor
A��C�oData+K�NameForceParkSet
A��G�oData/K�NameForceUnparkSet
A��I�oData1K�NameOverUtilizedSet
	A��E�oData-K�Name
IsolatedCores
A��K�oData3K�NameIdealUnparkCount
A��A�oData)K�NameUnparkCount
A��?�oData'K�Name
ParkReason

A��e�oDataMK�NamePerformanceCoresUnparkedCount
A��5�oDataK�NameClass
A��M�oData5K�NameTargetUnparkCount
����Ա����0�L�l�����Բ���4�t���GroupProcessorsOldParkNewParkNewSoftParkUnparkCapUnparkFloor ForceParkSet$ForceUnparkSet$OverUtilizedSet IsolatedCores(IdealUnparkCountUnparkCountParkReason@PerformanceCoresUnparkedCountClass(TargetUnparkCountTEMPl���&̉6*X�ٽ�2����4D�	EventDataA��?�oData'K�Name
GroupCount
A��CZ�ComplexDataK�NameGroup
�A��C�oData+K�NameLpIndexCount
A��9�oData!K�NameLpIndex
�������ص��GroupCountGroup LpIndexCountLpIndexNumberAffinityTEMP�ķ�(�)3ٵ\��׻lUO��vD�	EventDataA��?�oData'K�Name
GroupCount
A��CZ�ComplexDataK�NameGroup
�A��C�oData+K�NameLpIndexCount
A��9�oData!K�NameLpIndex
�A��;�oData#K�NameDomainId
P�l�|�����ȸܸGroupCountGroup LpIndexCountLpIndexDomainIdNumberAffinityTEMP�
P�ɝ�j�R�[=�R������(D�	EventDataA��?�oData'K�Name
RegisterId
A��9�oData!K�NameAddress
A��5�oDataK�NameValue

A��?�oData'K�Name
NameLength
A��5�oDataK�NameScope
A��?�oData'K�Name
GroupCount
A��CZ�ComplexDataK�NameGroup
�A��3�oDataK�NameName
�4�

H�X�t���������ԼRegisterIdAddressValueNameLengthScopeGroupCountGroupNameNumberAffinityTEMPL��Y��LY������-���D�	EventDataA��?�oData'K�Name
RegisterId
A��A�oData)K�NameParameterId
A��;�oData#K�NameBitWidth
A��=�oData%K�Name	BitOffset
A��3�oDataK�NameType
A��?�oData'K�Name
NameLength
A��3�oDataK�NameName
����̿����(�RegisterIdParameterIdBitWidthBitOffsetTypeNameLengthNameTEMP$��8��]�bY����rdu����D�	EventDataA��?�oData'K�Name
RegisterId
A��5�oDataK�NameValue

0�

L�RegisterIdValueTEMP���G;g��w\ K()3�	���RD�	EventDataA��;�oData#K�NameDomainId
A��E�oData-K�Name
QosClassCount
A��OZ�ComplexData)K�NameQosPolicies
�A��M�oData5K�NameQosDisableReasons
����
4�P�x������@�

p�

������

��DomainId QosClassCountQosPolicies(QosDisableReasons(MaxPolicyPercent@MaxEquivalentFrequencyPercent(MinPolicyPercent8AutonomousActivityWindow0EnergyPerfPreference$ProvideGuidance$AllowThrottling PerfBoostMode$LatencyHintPerf4TrackDesiredCrossClassTEMP�\�L6쁰8�VwUV� ��0���D�	EventDataA��;�oData#K�NameDomainId
A��;�oData#K�NameQosClass
A��M�oData5K�NameQosDisableReasons
A��K�oData3K�NameEquivalencyMasks
A��K�oData3K�NameMaxPolicyPercent
A��e�oDataMK�NameMaxEquivalentFrequencyPercent
A��K�oData3K�NameMinPolicyPercent
A��[�oDataCK�NameAutonomousActivityWindow
A��S�oData;K�NameEnergyPerfPreference
A��I�oData1K�NameProvideGuidance
	
A��I�oData1K�NameAllowThrottling

A��E�oData-K�Name
PerfBoostMode
A��I�oData1K�NameLatencyHintPerf
A��W�oData?K�NameTrackDesiredCrossClass


A��G�oData/K�NameLatencyHintEpp
���������0�p�����

�

$�H�h�

����DomainIdQosClass(QosDisableReasons(EquivalencyMasks(MaxPolicyPercent@MaxEquivalentFrequencyPercent(MinPolicyPercent8AutonomousActivityWindow0EnergyPerfPreference$ProvideGuidance$AllowThrottling PerfBoostMode$LatencyHintPerf4TrackDesiredCrossClass$LatencyHintEppTEMPD	d�0�
O�XX��2g����JD�	EventDataA��;�oData#K�NameDomainId
A��;�oData#K�NameQosClass
A��M�oData5K�NameQosDisableReasons
A��K�oData3K�NameEquivalencyMasks
A��K�oData3K�NameMaxPolicyPercent
A��e�oDataMK�NameMaxEquivalentFrequencyPercent
A��K�oData3K�NameMinPolicyPercent
A��[�oDataCK�NameAutonomousActivityWindow
A��S�oData;K�NameEnergyPerfPreference
A��I�oData1K�NameProvideGuidance
	
A��I�oData1K�NameAllowThrottling

A��E�oData-K�Name
PerfBoostMode
A��I�oData1K�NameLatencyHintPerf
A��W�oData?K�NameTrackDesiredCrossClass


A��G�oData/K�NameLatencyHintEpp
A��K�oData3K�NameResourcePriority
��������$�L�������

�

@�d���

�����DomainIdQosClass(QosDisableReasons(EquivalencyMasks(MaxPolicyPercent@MaxEquivalentFrequencyPercent(MinPolicyPercent8AutonomousActivityWindow0EnergyPerfPreference$ProvideGuidance$AllowThrottling PerfBoostMode$LatencyHintPerf4TrackDesiredCrossClass$LatencyHintEpp(ResourcePriorityTEMP
d�`�i͞�_�)ﯛ�#:��D�	EventDataA��;�oData#K�NameDomainId
A��E�oData-K�Name
QosClassCount
A��YZ�ComplexData3K�NameQosPerfSelection
�h���
��
�����4�P�l�����

��

�DomainId QosClassCount(QosPerfSelection SelectedState$SelectedPercent(SelectedFrequencyMinPercentMaxPercent(TolerancePercentEppPercent8AutonomousActivityWindowAutonomous(InheritFromDomainTEMP�h�`�i͞�_�)ﯛ�#:��D�	EventDataA��;�oData#K�NameDomainId
A��E�oData-K�Name
QosClassCount
A��YZ�ComplexData3K�NameQosPerfSelection
�������
���8�`�|�������

�

0�
X���DomainId QosClassCount(QosPerfSelection SelectedState$SelectedPercent(SelectedFrequencyMinPercentMaxPercent(TolerancePercentEppPercent8AutonomousActivityWindowAutonomous(InheritFromDomain8SelectedResourcePriority4ResourcePriorityPercentTEMP0	��t&��n}�[��q$�����D�	EventDataA��S�oData;K�NameThreadClassification

A��S�oData;K�NameNumberOfLogicalCores
A��Y�oDataAK�NameNumberOfWorkLoadClasses
A��?�oData'K�Name
TableCount
A��SZ�ComplexData-K�Name
HardwareTable
�

|������,�L�|�����0ThreadClassification0NumberOfLogicalCores4NumberOfWorkLoadClassesTableCount HardwareTable0LogicalProcessorIndex,WorkLoadClassIndex(PerformanceClass$EfficiencyClassTEMPx
��yZ=A%U9P��j1���D�	EventDataA��S�oData;K�NameThreadClassification

A��S�oData;K�NameNumberOfLogicalCores
A��Y�oDataAK�NameNumberOfWorkLoadClasses
A��?�oData'K�Name
TableCount
A��WZ�ComplexData1K�NameNormalizedTable
�

����$�X�t������� �H�0ThreadClassification0NumberOfLogicalCores4NumberOfWorkLoadClassesTableCount$NormalizedTable0LogicalProcessorIndex,WorkLoadClassIndex,ArchitecturalClass(PerformanceClass$EfficiencyClassTEMP����E{s	�>Q	��5:����D�	EventDataA��_�oDataGK�NameTotalFavouredUnparkedCores
A��g�oDataOK�NameCurrentPickedFavouredCoreIndex
����<TotalFavouredUnparkedCoresDCurrentPickedFavouredCoreIndexTEMPh��R���?�WF�h�	�/��xD�	EventDataA��5�oDataK�NameGroup
A��?�oData'K�Name
Processors
A��U�oData=K�NamePerformanceClassIndex
A��S�oData;K�NameEfficiencyClassIndex
A��E�oData-K�Name
WorkloadCount
A��g�oDataOK�NamePerformanceWorkloadTotalCycles
�A��e�oDataMK�NameEfficiencyWorkloadTotalCycles
�p���������

�

`�GroupProcessors0PerformanceClassIndex0EfficiencyClassIndex WorkloadCountDPerformanceWorkloadTotalCycles@EfficiencyWorkloadTotalCyclesTEMP����>Y�U[�f������D�	EventDataA��5�oDataK�NameGroup
A��?�oData'K�Name
Processors
A��U�oData=K�NamePerformanceClassIndex
A��S�oData;K�NameEfficiencyClassIndex
A��E�oData-K�Name
WorkloadCount
A��g�oDataOK�NamePerformanceWorkloadTotalCycles
�A��e�oDataMK�NameEfficiencyWorkloadTotalCycles
�A��5�oDataK�NameFlags
(�8�T�����

��

�X�GroupProcessors0PerformanceClassIndex0EfficiencyClassIndex WorkloadCountDPerformanceWorkloadTotalCycles@EfficiencyWorkloadTotalCyclesFlagsTEMPLp��IaV�
0P^�i������D�	EventDataA��5�oDataK�NameGroup
A��?�oData'K�Name
Processors
A��Y�oDataAK�NameTotalCoresUnparkedCount
A��e�oDataMK�NamePerformanceCoresUnparkedCount
A��c�oDataKK�NameEfficiencyCoresUnparkedCount
���4�t�GroupProcessors4TotalCoresUnparkedCount@PerformanceCoresUnparkedCount@EfficiencyCoresUnparkedCountTEMP����Eme��QG�FY
����(D�	EventDataA��5�oDataK�NameGroup
A��?�oData'K�Name
Processors
A��Y�oDataAK�NameTotalCoresUnparkedCount
A��e�oDataMK�NamePerformanceCoresUnparkedCount
A��c�oDataKK�NameEfficiencyCoresUnparkedCount
A��O�oData7K�NameContainmentEnabled
�������(�h�GroupProcessors4TotalCoresUnparkedCount@PerformanceCoresUnparkedCount@EfficiencyCoresUnparkedCount,ContainmentEnabledTEMP���ƄZ���P�D3�v��TD�	EventDataA��=�oData%K�Name	NodeIndex
A��A�oData)K�NameGroupNumber
A��E�oData-K�Name
WorkLoadClass
A��=�oData%K�Name	ThreadQoS
A��A�oData)K�NameRunningType
A��W�oData?K�NameDynamicHeteroCpuPolicy
A��G�oData/K�NameLowerThreshold
A��G�oData/K�NameUpperThreshold
A��=�oData%K�Name	IdealMask
A��E�oData-K�Name
PreferredMask
	A��E�oData-K�Name
AvailableMask
��,dL�d����4NodeIndexGroupNumber WorkLoadClassThreadQoSRunningType4DynamicHeteroCpuPolicy$LowerThreshold$UpperThresholdIdealMask PreferredMask AvailableMaskTEMP�

t��CH��Q�oL
�J���D�	EventDataA��=�oData%K�Name	NodeIndex
A��A�oData)K�NameGroupNumber
A��E�oData-K�Name
WorkLoadClass
A��=�oData%K�Name	ThreadQoS
A��A�oData)K�NameRunningType
A��W�oData?K�NameDynamicHeteroCpuPolicy
A��G�oData/K�NameLowerThreshold
A��G�oData/K�NameUpperThreshold
A��=�oData%K�Name	IdealMask
A��E�oData-K�Name
PreferredMask
	A��E�oData-K�Name
AvailableMask
A��I�oData1K�NameRestrictionMask
A��A�oData)K�NameTriggerType
x��d���4X|����NodeIndexGroupNumber WorkLoadClassThreadQoSRunningType4DynamicHeteroCpuPolicy$LowerThreshold$UpperThresholdIdealMask PreferredMask AvailableMask$RestrictionMaskTriggerTypeTEMP0
~&�Ռ8U�sE������D�	EventDataA��5�oDataK�NameGroup
A��?�oData'K�Name
Processors
A��5�oDataK�NameState
A��C�oData+K�NameStateChanged
A��C�oData+K�NameRankingCount
A��GZ�ComplexData!K�NameRanking
��
�
�
�
�
 GroupProcessorsState StateChanged RankingCountRanking$Processor IndexTEMP��
_g��niX�7OO��7��D�	EventDataA��=�oData%K�Name	NodeIndex
A��A�oData)K�NameGroupNumber
A��E�oData-K�Name
WorkLoadClass
A��I�oData1K�NameHeteroCpuPolicy
A��=�oData%K�Name	IdealMask
A��E�oData-K�Name
PreferredMask
A��E�oData-K�Name
AvailableMask
$<Xx���NodeIndexGroupNumber WorkLoadClass$HeteroCpuPolicyIdealMask PreferredMask AvailableMaskTEMPD�����)�!RS�N��߲���D�	EventDataA��I�oData1K�NameRankListEntries
A��;�oData#K�NameRankList
�� $RankListEntriesRankListTEMP`�U��#�U+�!�#��4���D�	EventDataA��5�oDataK�NameClass
A��5�oDataK�NameGroup
A��;�oData#K�NameAffinity
A��=�oData%K�Name	ProcCount
A��E�oData-K�Name
ActualUtility
�A��K�oData3K�NameImportantUtility
�A��U�oData=K�NameTotalImportantUtility

A��G�oData/K�NameOldIdealUnpark
A��;�oData#K�NameDecision
A��Y�oDataAK�NameCurrentClassUnparkCount
	A��a�oDataIK�NameCurrentClassPlusUnparkCount
A��=�oData%K�Name	DeltaTime

,D\|

���D

�ClassGroupAffinityProcCount ActualUtility(ImportantUtility0TotalImportantUtility$OldIdealUnparkDecision4CurrentClassUnparkCount<CurrentClassPlusUnparkCountDeltaTimeTEMP�x���u��U^��C�m�����D�	EventDataA��5�oDataK�NameClass
A��=�oData%K�Name	ProcCount
A��M�oData5K�NameTargetUnparkCount
A��_�oDataGK�NameTargetUnparkedAccumulation

A��Q�oData9K�NameAccumulatedDuration

��

,

hClassProcCount(TargetUnparkCount<TargetUnparkedAccumulation,AccumulatedDurationTEMPL\�k9��Z���xҎJ���D�	EventDataA��5�oDataK�NameClass
A��S�oData;K�NameRawTargetUnparkCount
A��K�oData3K�NameIdealUnparkCount
A��[�oDataCK�NameUpdatedTargetUnparkCount
A��G�oData/K�NameMaxUnparkCount
A��E�oData-K�Name
SelectionFlag
A��G�oData/K�NameIncreasePolicy
A��G�oData/K�NameDecreasePolicy
A��O�oData7K�NameIncreaseTimePolicy
A��O�oData7K�NameDecreaseTimePolicy
	A��G�oData/K�NameParkCheckCount
8Hx���@d��Class0RawTargetUnparkCount(IdealUnparkCount8UpdatedTargetUnparkCount$MaxUnparkCount SelectionFlag$IncreasePolicy$DecreasePolicy,IncreaseTimePolicy,DecreaseTimePolicy$ParkCheckCountTEMP�0!����B�P�w�ʪ;���D�	EventDataA��Y�oDataAK�NameNumberOfWorkLoadClasses
A��?�oData'K�Name
TableCount
A��SZ�ComplexData-K�Name
HardwareTable
��!�!�!"D"�"4NumberOfWorkLoadClassesTableCount HardwareTable,WorkLoadClassIndex<PerformanceClassReasonCode8EfficiencyClassReasonCodeTEMP��#�7���hU���;�;���D�	EventDataA��?�oData'K�Name
TableCount
A��IZ�ComplexData#K�NameMapTable
��#$ $8$TableCountMapTableBitIndexReasonNameTEMP�t%E����P��*<z����D�	EventDataA��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��Q�oData9K�NameLatencyLimitIn100ns
�%�%�%GroupNumber,LatencyLimitIn100nsTEMP\'��}C�U'(%��Y�Q��&D�	EventDataA��C�oData+K�NamePpmCheckTime

A��5�oDataK�NameGroup
A��7�oDataK�NameNumber
A��A�oData)K�NameForceParked



�'�'�'

�' PpmCheckTimeGroupNumberForceParkedTEMPD)ZP�Oժ�]IVB�$�Y	���D�	EventDataA��U�oData=K�NameContainmentGroupCount
A��YZ�ComplexData3K�NameContainmentGroup
�|)�)�)*8*0ContainmentGroupCount(ContainmentGroup0ContainmentGroupType4ContainmentGroupMembersAffinityTEMP�,v��s�yPnJ�nc���DD�	EventDataA��O�oData7K�NameContainmentEnabled
A��C�oData+K�NameHeteroPolicy
A��[�oDataCK�NameIsPerfMaxOverrideEnabled
A��S�oData;K�NameIsLatencyBoostActive
A��g�oDataOK�NameIsMinPolicyDisabledContainment
A��Y�oDataAK�NameHeteroContainmentPolicy
@-l-�-�-�-8.,ContainmentEnabled HeteroPolicy8IsPerfMaxOverrideEnabled0IsLatencyBoostActiveDIsMinPolicyDisabledContainment4HeteroContainmentPolicyTEMP�H1|9-�{�XUe�bM�����D�	EventDataA��O�oData7K�NameContainmentEnabled
A��C�oData+K�NameHeteroPolicy
A��[�oDataCK�NameIsPerfMaxOverrideEnabled
A��S�oData;K�NameIsLatencyBoostActive
A��g�oDataOK�NameIsMinPolicyDisabledContainment
A��Y�oDataAK�NameHeteroContainmentPolicy
A��[�oDataCK�NameIsGlobalParkHintsPresent
�12 2X2�2�23,ContainmentEnabled HeteroPolicy8IsPerfMaxOverrideEnabled0IsLatencyBoostActiveDIsMinPolicyDisabledContainment4HeteroContainmentPolicy8IsGlobalParkHintsPresentTEMP|
H9
c?�APU�v˂!����D�	EventDataA��U�oData=K�NameContainmentCheckCount
A��c�oDataKK�NameContainmentCrossOverRequired
A��k�oDataSK�Name PreviousSelectedContainmentGroup
A��g�oDataOK�NameCurrentDesiredContainmentGroup
A��i�oDataQK�NameCurrentSelectedContainmentGroup
A��U�oData=K�NameBeforePerfUnparkCount
A��_�oDataGK�NameBeforeEfficientUnparkCount
A��S�oData;K�NameRawTargetUnparkCount
A��S�oData;K�NameAfterPerfUnparkCount
A��]�oDataEK�NameAfterEfficientUnparkCount
	A��E�oData-K�Name
SelectionFlag
A��O�oData7K�NameContainmentEnabled
A��[�oDataCK�NameIsTimeWindowIsInProgress
A��_�oDataGK�NameIsIncreaseTimeWindowActive

A��_�oDataGK�NameIsDecreaseTimeWindowActive
t:�:�:,;p;�;�; <P<�<�<�<=<=x=0ContainmentCheckCount@ContainmentCrossOverRequiredHPreviousSelectedContainmentGroupDCurrentDesiredContainmentGroupDCurrentSelectedContainmentGroup0BeforePerfUnparkCount<BeforeEfficientUnparkCount0RawTargetUnparkCount0AfterPerfUnparkCount8AfterEfficientUnparkCount SelectionFlag,ContainmentEnabled8IsTimeWindowIsInProgress<IsIncreaseTimeWindowActive<IsDecreaseTimeWindowActiveTEMP\�>�n�"�c&Tѯ����D�	EventDataA��;�oData#K�NameAffinity
A��S�oData;K�NameContainmentGroupType
�>�>Affinity0ContainmentGroupTypeTEMPp�C�G�m"[_jQ5���ND�	EventDataA��5�oDataK�NameGroup
A��A�oData)K�NameUnparkCount
A��=�oData%K�Name	UnparkCap
A��Y�oDataAK�NameCumulativeUnparkedCount
A��M�oData5K�NamePerfUnparkedCount
A��?�oData'K�Name
ParkReason
A��?�oData'K�Name
Candidates
A��A�oData)K�NameParkedCores
A��A�oData)K�NameChosenCores
A��M�oData5K�NameComplexCandidates
	A��K�oData3K�NameModuleCandidates
A��M�oData5K�NamePackageCandidates
A��G�oData/K�NameCoreCandidates
A��M�oData5K�NameOverUtilizedCores

�D�D�D�D$ELEhE�E�E�E�EF4FXFGroupUnparkCountUnparkCap4CumulativeUnparkedCount(PerfUnparkedCountParkReasonCandidatesParkedCoresChosenCores(ComplexCandidates(ModuleCandidates(PackageCandidates$CoreCandidates(OverUtilizedCoresTEMPltG��I�Z�_�A��,����D�	EventDataA��K�oData3K�NameHighPerfOverride

A��M�oData5K�NameSoftParkLatencyUs


�G�G(HighPerfOverride(SoftParkLatencyUsPRVAhHMicrosoft-Windows-Kernel-Processor-PowerOPCO�0�H0�H0�H!�����H"�����Hwin:Infowin:Startwin:StopMakeupFailedStartLEVL�PPIPhIP�IP�Iwin:Errorwin:Warning(win:Informationalwin:VerboseTASK8:������^�����^����_����H_����\_�����_�����_�����_	�����_
����`����P`����h`
�����`�����`�����`�����`����a����La�����a�����a�����a����b����,b����Db����db�����b�����b�����b�����b����$c ����Pc!����pc"�����c#�����c$�����c%����<d&����pd'�����d(�����d)�����d*����e+����De,����pe-�����e.�����e/�����e0����f1����@f2����lf3�����f4�����f5����g6����Pg7�����g8�����g9�����g:����4h;����hh<�����h=�����h>����8i?����pi@�����iA�����iB���� jC����TjD�����jE�����jF�����jG����kH����PkI�����kJ�����kK����$lL����TlM����tlN�����lO�����lP����mQ����(mR����LmS����lmT�����mU�����mV�����mW���� nX����DnY����xnZ�����n[�����n\�����n]����(o^����po_�����o`�����oa����pb����Ppc�����pd�����pe�����pf����Dqg�����qh�����qi�����qj����rk����Drl����|rm�����rn�����ro����sp����Psq�����sr�����ss����tt����(tu����Ttv����|tw�����tx�����ty����uz����Du{�����u|�����u}�����u~����v����8v�����Tv�����lv������v������v������v�����w�����Hw�����xw������w������w������w�����(x�����Dx�����`x������x������x������x������x�����y�����Xy������y������y����� z�����Xz������z������z�����{�����0{�����`{������{������{�����|�����8|������|������|������|�����4}�����h}������}������}����� ~�����P~������~������~������~�����4�����������������������T�������������̀�����������<������p�������������������8������p�������������Ԃ�����������(������\���������������$IdleStatesError$PerfStatesError,ThrottleStatesErrorSummary(IdleStatesErrata(PerfStatesErrataLongCapInfo QuickCapInfo0DomainPerfStateChange8ProcessorPerfStateChangePerfCheck$RecordedUtility$ExpectedUtilityParkCoreUnparkCore0IdleAccountingRundown8ProcessorFirmwareRundown<CStateDomainFirmwareRundown@PTStateDomainFirmwareRundown0ThrottleStatesErrataPccSummaryPccErrataPccError NotifyPStates NotifyCStates NotifyTStates(PerfStatesRundown,BiosPStatesRundown,BiosCStatesRundown,BiosTStatesRundown PccCapChange BiosCapChange(ThermalCapChangeDLogicalProcessorIdlingCorePark@LogicalProcessorIdlingRundown4LatencySensitivityHint0ParkNodeRecordedStatsCpcError(PepGetIdleStates0PepQueryCapabilities4PepPerfConstraintChange,PepPerfCapabilities<ProcessorPerformanceRundown$ParkNodeRundown(ParkNodeCapChangeSummary20ProcessorIdleRundown,ProcessorIdRundown8PepGetPlatformIdleStates@PlatformIdleAccountingRundown8PlatformParkingPreference4LowPowerScenarioChange4LowPowerScenarioRundownLLowPowerScenarioInformationRundown,PepGetIdleStatesV28PepGetIdleStatesV2Rundown4PepGetPlatformIdleStateDPepGetPlatformIdleStateRundown4DripsAccountingSnapshotXPlatformAccountingBucketIntervalsRundown8PlatformIdleVetoIncrement8PlatformIdleVetoDecrement<ProcessorIdleVetoIncrement<ProcessorIdleVetoDecrement4PlatformIdleVetoRundown8ProcessorIdleVetoRundown,StaticPolicyRundown8PerfSelectProcessorState$VetoNameRundown<PepGetCoordinatedIdleStatesLPepGetCoordinatedIdleStatesRundown<PepGetCoordinatedDependencyLPepGetCoordinatedDependencyRundown0MediaBufferingNotify ComputeEnergy4CoordinatedIdleRundown$HeteroResponse4HeteroDistributeUtility(ProfileRegistered$ProfileRundown ProfileChange0ProfileSettingChange0ProfileSettingRundown0ProfileStatusRundown$ProfileEnabled$ProfileDisabled4IdleDurationExpiration,DeliveredPerfChange ParkSelection4ProcessorEnergyCounter0PackageEnergyCounterHProcessorPreVetoAccountingRundownHPlatformPreVetoAccountingRundown(NotifyCpcHighest0ProcessorClassUpdate@HeterogeneousPoliciesChanged@HeterogeneousPoliciesRundown0AutonomousModeChange8ProcessorLpiStatesRundownLProcessorContainerLpiStatesRundown<VirtualHeterogeneityRundownLVirtualHeterogeneitySupportChanged(QosSupportRundown(QosSupportChanged(PepPerfDomainInfo8PepPerfDomainInfoRundown(WpsDynamicUpdate<ParkNodeClassRecordedStats4ParkNodeParkHintChange<HiddenProcessorPerfRundown@HiddenProcessorBiosCapChangeDHiddenProcessorThermalCapChange,PerfStatesDegraded(SoftParkSelection,SoftParkStateChange(RecordedUtilityHv<PerfSelectProcessorStateHv0DeliveredPerfChangeHv(ExpectedUtilityHv4AutonomousModeChangeHv<ProcessorPerfStateChangeHv$BiosCapChangeHv,ThermalCapChangeHv@ProcessorPerformanceRundownHv(PerfDomainRundownSummary2HvSummaryHv$QuickCapInfoHv LongCapInfoHv<ProcessorFirmwareRundownHv,PerfStatesRundownHv0BiosPStatesRundownHv0BiosCStatesRundownHv0BiosTStatesRundownHv(IdleStatesErrorHv(PerfStatesErrorHv0ThrottleStatesErrorHvPccErrorHvCpcErrorHv$NotifyPStatesHv$NotifyCStatesHv$NotifyTStatesHv,NotifyCpcHighestHv$PccCapChangeHv<ProcessorLpiStatesRundownHv@HardwareDebugRegisterRundown@HardwareDebugParameterRundownHHardwareDebugRegisterValueChange8HardwareDebugRegisterAdd<HardwareDebugRegisterRemove8HardwareDebugParameterAdd@HardwareDebugParameterRemove$QosClassPolicy0QosClassPolicyRundown4WpsDynamicTableRundown4WpsDynamicTableChanged8WpsOrderValueTableRundown8WpsOrderValueTableChangedHHeteroFavoredCoreRotationChanged@HeteroWpsActiveWorkloadClass<HeteroParkingSelectionCount8MultiCoreClassHeteroSets4DualCoreClassHeteroSets<SoftParkingRankListChanged8MultiClassHeteroResponseDMultiClassHeteroResponseUpdate0ParkingCountSelection8MultiCoreHeteroSetRundown8MultiCoreHeteroSetUpdate4WpsDynamicUpdateReason@WpsDynamicUpdateReasonRundownXWpsDynamicUpdateReasonBitIndexMapRundown8ProcessorEnergyEsuRundownHEnergyEstimationFrequencyRundownHProcessorLatencyRequirementChangeHProcessorLatencyReevaluationWake0QosClassPerfSelection@QosClassPerfSelectionRundown0ForceParkStateChange4WpsContainmentGroupInfoDWpsContainmentGroupInfoRundown<WpsContainmentPolicyChangeHWpsContainmentPolicyChangeRundown8WpsContainmentUnparkCount4WpsContainmentHwUpdate0ProcessorIdHvRundown,RestrictionRundown(RestrictionUpdate4WpsContainmentHwRundown0CoreParkingSelection0SoftParkLatencyUpdateDHighPerfSoftParkLatencyRundownKEYW�
����������������̄���������� �����@����4������L�����d�������PerfDiag(PowerDiagnosticsLpiSleepStudyAlgorithmProfilesPerfDiag(EnergyEstimation HardwareDebugEVNTt=+�p`H I�I��p`H I�I��p`H IJ���`H8I(J��`H IDJ��`H I`J��x`H,I|J�@x`H,I�J�		�����%`H8I�Jн		�����'`H8I�JԽ		�����*`H8I�Jؽ		�����.`H8I�Jܽ

����|3`H8I�J�

����P5`H8I�J�

�����7`H8I�J�

����x:`H8I�J�

�����@`H8I�J�

�����F`H8I�J������ZlHDI�J������x[lHDI�J������``HDIK������b`HDIK������g`HDIK�����n`HDIK������t`HDIK�

������`H8I$K�����h�`H8I@K�������`H8I@K �����h�`H8I\K(������ZxHDI�J0�
����|3`H8I�J4�
����P5`H8I�J8�
�����7`H8I�J<�����p�`H8IxK@�����Ģ`H8IxKH�����Ȩ`H8IxKP�����Ա`H8I�KX������`H8I�K`������`H8I�Kh������
`H8I(Jp�����`H IDJx�����`H I`J�����
`H8I(J���
`H8I(J��`H I�K�����`H I�K�����`H8IL�������`H8IL���`H I L� ����`H I L��!�!0`H I<L�"�"�0`H I�I�"�"0`H I�I�#�#�0`H I�I�#�#0`H I�I�$�$�0`H IJ�$�$0`H IJ�%�%��`H,I|J�%�%�`H,I|J�&@%��`H,I�J�'�����`H8IXL��(������`H8ItL��)�����`H8I�L��*����`�`H8I�L��+�����`H8I�L��,������`H8I�L��-����0�`H8IMľ. �����`H8IM̾/!�����`H8I8Mо0"�����`H8ITMԾ1!�����HDI�Jؾ2#
������`H8IpMܾ3$
������`H8I�M�4%������`H8I�M�5&����p�`HDI�M�5&����4�`HDI�M�5&������`HDI�M��6'�60`H I�M�7/�7��`H8I�N�7/�7�`H8I�N�8/�����`H8I�N��9(�����`H8I�M�:(�����`H8I�M�;)����`H8IN�;)�����`H8IN�<)����`H8IN�<)�����`H8IN�=*�����`H8I4N�>+����`H8IPN �>+���� `H8IPN$�>+����$,`H8IPN(�?+����`H8IPN,�?+���� `H8IPN0�?+����$,`H8IPN4�@,����5`H8IlN8�@,������8`H8IlN<�@,�����>`H8IlND�@,�����0E`H8IlNL�@,�����`N`H8IlNT�@,�����|W`H8IlN\�@,�����Ha`H8IlNd�@,������k`H8IlNl�@,�����hv`H8IlNt�@	,�����ԁ`H8IlN|�A-����,�`H8I�N��A-�����`H8I�N��A-����t�`H8I�N��A-����@�`H8I�N��B.������`H8I�N��B.�����`H8I�N��C0�����`H8I�N��C0�����`H8I�N��C0����l�`H8I�N��D1������`H8I�N��D1�������`H8I�N��D1�����D�`H8I�N��E2����$`H8IOĿF2����$`H8IOȿG"���� _�HDI�JпH3�����`H8I0OԿH3������`H8I0OؿH3������`H8I0OܿI4�����`H8ILO�J5����$�`H8IhO�K6������`H8I�O�L7������`H8I�O�M8����x`H8I�O��N9����x`H8I�O�O:�����`H8I�O�P;�����`H8IP�Q<����P�`H8I,P�Q<����<�`H8I,P�R=������`H8IHP�S>����0�`H8IdP�T?����0�`H8I�P�U@����l�`H8I�P �VA����l�`H8I�P$�WB����l�`H8I�P(�XC�����`H8I�P,�YD������`H8IQ0�YD����d�`H8IQ4�YD����p`H8IQ8�YD����D`H8IQ<�YD�����`H8IQ@�ZE �����`H8I(QD�[F�����!`H8IDQH�\G�����"`H8I`QL�]H�����"`H8I|QP�^I�����$`H8I�QT�_J�����$`H8I�QX�`K ����@)`H8I�Q\�aL�����)`H8I�Q`�bM����h+`H8IRd�cN ����\-`HDI$Rl�d����L]lHDI�Jp�eO �����2`HDI@Rt�fP`����5`H8I\Rx�gQd����5`H8IxR��hR`�����9`H8I�R��iS`�����:`H8I�R��jTd�����:`H8I�R��kUd�����=`H8I�R��lV`�����>`H8IS��mW`����l?`H8I S��nX����,@`H8I<S�oY������A`H8IXS�oY�����hC`H8IXS�oY������E`H8IXS�pZ �����`HDItS�q[�����M`HDI�S�r\�����O`HDI�S�s]�����T`HDI�S�t^����X`HDI�S�u_������`H8IT�v`����lZ`H8IT�v`�����\`H8IT�wa����d_`H8I8T�wa�����e`H8I8T��xb����d_`H8ITT��xb�����e`H8ITT�yc�����l`H8IpT�zd����To`H8I�T�{e�����`H8I�T�|f�����d�`H8I�T�}g�����d�`H8I�T�~h�������`H8I�T �i�������`H8IU(��j�����`H8I4U0��j����4�`H8I4U4��k�����`H8IPU8��k����4�`H8IPU<��l����`H8IlU@��m����|�`HDI�UD��m������`HDI�UH��n�����`HDI�UL��o�������`H8I�UP��p����d�`H8I�UX��q����d�`H8I�U\��r��`H IV��s ������`HDI0V`��s ������`HDI0Vd��s ���� �`HDI0Vh��t������`H8ILVl��u�����{`HDIhVt��u������`HDIhVx��u����؇`HDIhV|��v �����`H8I�V���w�����0K`H8I�V���x����0�`H8I�V���y����(n`H8I�V���z����N`H8I�V���z�����S`H8I�V���{����t�`H8IW���|����t�`H8I,W���}�������`H8IHW���}�������`H8IHW���Y�����`H`H8IXS���~�������`H8IdW���~������`H8IdW�������``H8I�W������``H8I�W�������`H8I�W��������"`H,I�W��������"`H,I�W���������`H8I�W��������`H8IX���������`H8I(X����������`H8IDX���������`H8I`X�������D`H I|X������D`H I�X������D`H I�X������D`H I�X������D`H I�X��������`H8IY���������`H8I$Y���������`H8I@Y���������`H8I\Y �������t�`H8IxY$��������w`H8I�Y(��������`H8I�Y,��������`H8I�Y0�������8�`H8I�Y4��������`H8IZ8��������`H8I Z<��������`H8I<Z@��������`H8IXZD�������\�`H8ItZH�������\�`H8I�ZL���������`H8I�ZP���������`H8I�ZT���������`H8I�ZX���������`H8I[\�������l�`H8I[`�������8�`H8I8[d���������`H8I8[h�������h�`H8IT[l���������`H8IT[p�������T`H8Ip[t�������D`H8I�[x��������`H8I�[|��� ����8`H8I�[���������`H8I�[���������`H8I�[����������`H8I\��������T`H8I\����������`H8I4\��������T`H8I4\���������`H8IP\���������`H8Il\���������"`H8I�\���������P`HDI�\��������hR`HDI�\��������T$`HDI�\��������,@`HDI�\��������(�`H8I]��������,�`H8I]��������(�`H8I0]��������,�`H8I0]��������&`H8IL]��������(`H8Ih]��������(`H8I�]��������P*`H8I�]��������l.`H8I�]��������P*`H8I�]��������l.`H8I�]��������83`H8I�]���������=`H8I�]��������0�`H8ItZ����������`H8ItZ��������0�`H8I�Z����������`H8I�Z���������T�`H8I^�������`H8I,^�������`H8IH^��������=`H8I�]��� ����?`HDI�^��������F`H8I�^��������F`H8I�^ ������������������������������,��,��,��,��,��,��,��,��,��,��,��,�����,��,��,��,������<��<������,����������������|��|��|��|��|��|��|��|��|�������������|���|���L����������������L�L�L������������\������\����L�\��\�\�l�,�\�l�\�l�\�l�,�\�l�,�\�l�\�l�\�l��|�|�|�\������������������|��|��|��|����������|���\�\�\������\�|��������|��|�|���|���|��,��,��,����,��,��,��,��,�����������������������������������\������������������������������������|����\���WEVTL�t�(�
��X���������CHAN����������SystemtMicrosoft-Windows-Kernel-Interrupt-Steering/DiagnosticTTBL�
TEMPHP��u���CY��Z�<G���D�	EventDataA��3�oDataK�NameGsiv
A��=�oData%K�Name	NewTarget
A��=�oData%K�Name	OldTarget
A��7�oDataK�NameVector
A��G�oData/K�NameServiceRoutine
A��9�oData!K�NameIsrLoad
A��9�oData!K�NameDpcLoad
������0�T�h�GsivNewTargetOldTargetVector$ServiceRoutineIsrLoadDpcLoadTEMP�����a����X�<���P��$D�	EventDataA��3�oDataK�NameGsiv
A��5�oDataK�NameGroup
A��=�oData%K�Name	NewTarget
A��=�oData%K�Name	OldTarget
A��7�oDataK�NameVector
A��G�oData/K�NameServiceRoutine
A��9�oData!K�NameIsrLoad

A��9�oData!K�NameDpcLoad

t�����������

��

�GsivGroupNewTargetOldTargetVector$ServiceRoutineIsrLoadDpcLoadTEMP|��d�}5�U�蕟���e��jD�	EventDataA��A�oData)K�NameLoadPercent
A��=�oData%K�Name	GsivCount
A��=�oData%K�Name	MaskCount
A��?�oData'K�Name
GroupCount
A��3�oDataK�NameMask
�(�D�\�t���LoadPercentGsivCountMaskCountGroupCountMaskTEMPL��)Z�_�\X��q��G���D�	EventDataA��=�oData%K�Name	ProcIndex
A��K�oData3K�NameDeviceInterrupts
����ProcIndex(DeviceInterruptsPRVAl�Microsoft-Windows-Kernel-Interrupt-SteeringOPCO00p�win:InfoLEVL@P��(win:InformationalTASK�����������������0�����p�����������������<�����|�@InterruptSteeringMaskRundown<InterruptSteeringMaskChange@InterruptSteeringStateRundown@InterruptSteeringStateConnectHInterruptSteeringStateDisconnectDInterruptSteeringStateRetarget@InterruptSteeringProcRundown<InterruptSteeringProcChangeKEYW4������IntSteerEVNT�����$�d�����@�����$�d�����D�����4�d����H�����|�d����L�����4�d���(�P�����|�d���(�T�����4�d���D�X�����|�d���D�\�����4�d���`�`�����|�d���`�d�������d���|�h�������d�����l������������������������������)76_�~�U��-z��w^QrlT���*����WEVT_TEMPLATEMUIMUIen-US�%0�%�	*�H��
��%~0�%z10
	`�He0\
+�7�N0L0
+�70	���010
	`�He ��Mqp��R s�S	Ɣ���
����EϠ�
�0��0��3��測]_��0
	*�H��
0��10	UUS10U
Washington10URedmond10U
Microsoft Corporation1.0,U%Microsoft Windows Production PCA 20110
240912200407Z
250911200407Z0p10	UUS10U
Washington10URedmond10U
Microsoft Corporation10UMicrosoft Windows0�"0
	*�H��
�0�
�� 6��É���zY�����W���Cd��`����q�����-9��2��U��F)h.�)�#F�(���b=…e�I���O�6�,��]R«�>p�<�c~���=5��&0��$[oF�ho���W��	VN�˞��%��\hr���1s��]!^S-���{�L�$�Ho3�~=�����aY�`���W�z\QW@���T$p���ikh7�������T!��H$gN�"�]7�6̋��L�*�R�+� r0�B���v0�r0U%0
+�7
+0U�rJ,�������g�����0EU>0<�:0810UMicrosoft Corporation10U
229879+5029570U#0��)9�ėx͐��O��|U�S0WUP0N0L�J�H�Fhttp://www.microsoft.com/pkiops/crl/MicWinProPCA2011_2011-10-19.crl%200a+U0S0Q+0�Ehttp://www.microsoft.com/pkiops/certs/MicWinProPCA2011_2011-10-19.crt0U�00
	*�H��
��Uh>	�^�C��|�M$57���ݣ�;�"��������.�p��[�����\��7AW����r�`�84�m�#ә-�{��f���R�6U`�߷�r�G�x���>�%cj�Q9�
x��ޣ�C{�2D����WjuO�-[�@j�-��R.�k�[�UQ�%�|(��&��Ϊ�%��T����A���jզ�']g�7����/:1�H�:�����nq�‰Q�E��l��p<���2�0��0���
avV0
	*�H��
0��10	UUS10U
Washington10URedmond10U
Microsoft Corporation1200U)Microsoft Root Certificate Authority 20100
111019184142Z
261019185142Z0��10	UUS10U
Washington10URedmond10U
Microsoft Corporation1.0,U%Microsoft Windows Production PCA 20110�"0
	*�H��
�0�
�����.	����i�!�i33��T����� ��ҋ�8����-|by��J?5 p���k�6u�1ݍp��7�tF�([�`#,��G�g�Q'�r��ɹ;S5|���'�����#	o�F��n�<A�ˣ?]jM�i%(\6��C
��������['�'x0�[*	k"�S`,�hS��I�a��h	sD]}�T+�y��5]l+\μ�#�on�&�6�O�'��2;A�,���w�TN�\�e�C���mw�Z$�H��C0�?0	+�70U�)9�ėx͐��O��|U�S0	+�7
SubCA0U�0U�0�0U#0��Vˏ�\bh�=��[�Κ�0VUO0M0K�I�G�Ehttp://crl.microsoft.com/pki/crl/products/MicRooCerAut_2010-06-23.crl0Z+N0L0J+0�>http://www.microsoft.com/pki/certs/MicRooCerAut_2010-06-23.crt0
	*�H��
��|qQ�y�n��9>�<Rn+?s��h�H�4M��&�1F�ay�8.Ek��(�����	��L
6fj���������@26v�Zƿ���Ӭ�h�b��TlP0X��|���N���|�sW�R!s4Z�V��	����~�����?�rS��c��=1e�������=����BА�_T���G�o�sNA�@�_�*��s�!(���s9_>�\`����	���Q�fG���=�*hw��Lb{��Ǻz�4Kbz����J7�-�W|�=ܸZ��ij�:��n�i!7ށ�ugӓW^)9��-���Es[���z��FX�^���g�l5��?$�5�
u�V��x,��Ј���ߺ~,c��#!�xl�X6+�̤��-����@�E�Ί\k>��p*
j�_G��c
2��6*pZ�BYqKW�~���!<��Ź���E��� ����ŕ�]b֠c �uw}=�E�����W�o3��w�bY~1�'0�#0��0��10	UUS10U
Washington10URedmond10U
Microsoft Corporation1.0,U%Microsoft Windows Production PCA 20113��測]_��0
	`�He���0	*�H��
	1
+�70/	*�H��
	1" R\Rs�D��g�9vC8Un,Wv1�k0Z
+�71L0J�$�"Microsoft Windows�"� http://www.microsoft.com/windows0
	*�H��
�H)e;`6:��T<�è�9G�%�0�P�©��`�0 HlzD����yp49�+��h���GUz8~Ӱ��Td���4���&K���o���)nF�����W��t+�RD��g�ԑ��9��i@������A�_�T��Z�'�=��CL�[�N�7c�m��(Z��%�J�{���C���#.y<�4)Mn`��Ƀ���󨏏P���X�.B����˞���c�G]�PR�ޠ�e�cE�Ux��1�W���0��
+�71��0��	*�H��
���0��10
	`�He0�Z*�H��
	��I�E0�A
+�Y
010
	`�He >3�.[�� �t[�����g/��%�$s��hS1R
20250619193931.951Z0��٤��0��10	UUS10U
Washington10URedmond10U
Microsoft Corporation1-0+U$Microsoft Ireland Operations Limited1'0%UnShield TSS ESN:6F1A-05E0-D9471%0#UMicrosoft Time-Stamp Service���0�(0��3����iZ�:�0
	*�H��
0|10	UUS10U
Washington10URedmond10U
Microsoft Corporation1&0$UMicrosoft Time-Stamp PCA 20100
240725183114Z
251022183114Z0��10	UUS10U
Washington10URedmond10U
Microsoft Corporation1-0+U$Microsoft Ireland Operations Limited1'0%UnShield TSS ESN:6F1A-05E0-D9471%0#UMicrosoft Time-Stamp Service0�"0
	*�H��
�0�
��P�(�imU�ǔ��[���c%e�����l���?�Ûh[�)��,�WAE&3�r��X��";��љ��&6�H:!�u���4@2|#՘���+l��}Ƈ�B���Đ�(:��1v��D�
�ZO��[���1���Գ��Y7���Ëݬ?5�d��e�XH��5�-�H�����)��
(.!d�7�e�!;!wc��Ķh�H��l��a��ºi�����m�6�U*����+����)�yq��o�͐-k90ZZl?З<���Kf̶�F]%FԳ��ݥE?�R�>�]��h3��U���Y������:�p�
-3��{�S�Y�:��F >����A8omnV��G�:F�G�@n�
���Xk�����Flz|���L�Bkh@
�`S�����_Y�@Ziax�dcP2I;�^�ʃ�}�D��S=�"�Gh��輙�x�G�ಏ�=��Blv�@�@H�w:�c��h���ut���p%>�ǰ^vT��	��I0�E0U��+�F��r�]�$/��v0U#0���]^b]����e�S5�r0_UX0V0T�R�P�Nhttp://www.microsoft.com/pkiops/crl/Microsoft%20Time-Stamp%20PCA%202010(1).crl0l+`0^0\+0�Phttp://www.microsoft.com/pkiops/certs/Microsoft%20Time-Stamp%20PCA%202010(1).crt0U�00U%�0
+0U��0
	*�H��
�O�,��Ѵ��숖���艊o�YH����l�$��('����B�-�'��Dx+@q(�kK?�a~��m�)˝�k�xMi�@Y���:{�f.�502�v��+y�
"z���Sg��hyp���!���>pަ`��4�2�X&�J�39G(yy���Dɜh4��i�����wC˰���iݪNF�7��|b}�#�>��by�w�_ ���Π�8��Q�(��"ț�}殇Y[{$�����<�Y+p/ޡ˰�Ȳ���tٯM2�`���4N��r��*I[om׶2k�~&\��g=N�!�������C�@���D~���Z�?�{� �x�y2b��xt��|W���O�x�R�|@����{;$�"<"���(���yAt�E��JB�4!�#w�uX
���}iJ��\��H0�ۧR=J����ո�����k晁�\(��K��]H���.�#=B��eN�Vכ��@��K���Dd�1�8��¨�_x�:<�$��B��?�0�q0�Y�3��k��I�0
	*�H��
0��10	UUS10U
Washington10URedmond10U
Microsoft Corporation1200U)Microsoft Root Certificate Authority 20100
210930182225Z
300930183225Z0|10	UUS10U
Washington10URedmond10U
Microsoft Corporation1&0$UMicrosoft Time-Stamp PCA 20100�"0
	*�H��
�0�
���L�r!y���$y�Ղ��ҩlNu��5W�lJ�⽹>`3�\O�f��SqZ�~JZ��6g�F#���w2��`}jR�D���Fk��v��P�D�q\Q17�
8n����&S|9azĪ�ri����6�5&dژ;�{3��[~��R���b%�j�]�S���VM�ݼ��㑏�9,Q��pi
�6-p�1�5(�㴇$��ɏ~�T��U�mh;�F��z)7���E�Fn�2��0\O,�b�͹⍈䖬J��q�[g`���=� �s}A�Fu��_4���� }~�ٞE߶r/�}_��۪~6�6L�+n�Q���s�M7t�4���G��|?Lۯ^����s=CN�39L��Bh.�QF�ѽjZas�g�^�(v�3rק ��
�co�6d�[���!]_0t���عP��a�65�G������k�\RQ]�%��Pzl�r�Rą��<�7�?x�E���^ڏ�riƮ{��>j�.����0��0	+�70#	+�7*�R�dĚ���<F5)��/�0U��]^b]����e�S5�r0\U U0S0Q+�7L�}0A0?+3http://www.microsoft.com/pkiops/Docs/Repository.htm0U%0
+0	+�7
SubCA0U�0U�0�0U#0��Vˏ�\bh�=��[�Κ�0VUO0M0K�I�G�Ehttp://crl.microsoft.com/pki/crl/products/MicRooCerAut_2010-06-23.crl0Z+N0L0J+0�>http://www.microsoft.com/pki/certs/MicRooCerAut_2010-06-23.crt0
	*�H��
��U}�*��,g1$[�rK��o�\�>NGdx���=13�9��q6?�dl|�u9m�1��lѡ�"��fg:SMݘ��x�6.���V����i�	�{�jo�)�n�?Hu��m��m#T�xSu$W�ݟ�=��h�e��V����(U'�$�@���]='�@�8���)�ü�T�B�������j�BRu�6��as.,k{n?,	x鑲�[�I�t�쑀�=�J>f;O���2ٖ����t��Lro�u0�4�z�P�
X�@<�Tm�ctH,�NG-�q�d�$�smʎ	��WITd�s�[D�Z�k
��(�g($�8K�n�!TkjEG����^O���Lv�WT	�iD~|�als�
��Af=i��AI~~���;����>�1Q������{��p���(��6ںL���
�4�$5g+�
�挙��"��'B=%��tt[jў>�~�13}���{�8pDѐ�ȫ:�:b�pcSM��m��qj�U3X��pf�Y0�A0���٤��0��10	UUS10U
Washington10URedmond10U
Microsoft Corporation1-0+U$Microsoft Ireland Operations Limited1'0%UnShield TSS ESN:6F1A-05E0-D9471%0#UMicrosoft Time-Stamp Service�#
0+NA)%s����~�lÃKW
������0���~0|10	UUS10U
Washington10URedmond10U
Microsoft Corporation1&0$UMicrosoft Time-Stamp PCA 20100
	*�H��
�X�0"20250619093600Z20250620093600Z0w0=
+�Y
1/0-0
�X�0
%��0�0
�06
+�Y
1(0&0
+�Y
�
0� �
0��0
	*�H��
�j#S������1��l��m�A'����B"�\�[]\�_=��F�:z���s�V����J9��NJ���5�n=1�P��lU���=s(�� �3�x.M��32a�Sf�1/������ik�)��a��l��F��W�>���2��x�y0<A|����j��ix% �z:y��퍴�qR�1Nƚ�2��<re��Ԅ_�
��7���ɹj�L��xN�XEC����RSr��3�Y��	��w�t1�
0�	0��0|10	UUS10U
Washington10URedmond10U
Microsoft Corporation1&0$UMicrosoft Time-Stamp PCA 20103����iZ�:�0
	`�He��J0	*�H��
	1
*�H��
	0/	*�H��
	1" ��d"I+���z����K���������oj�0��*�H��
	/1��0��0��0�� �B������?�0yL����w�h�-b0��0���~0|10	UUS10U
Washington10URedmond10U
Microsoft Corporation1&0$UMicrosoft Time-Stamp PCA 20103����iZ�:�0" ��6ӧ����OuW��h@#�P���z/�J�0
	*�H��
�4�׹��$����0]��D@ ._N���#�h��@R��� u�Fxw���̡H�h��K�O�����М�`h�a��(v��(f��:o���H3��A/9��Uy	�^��#�D�FK���i�F������9���bv2`J
�S�>Ex�&C��k�_
�Kom�ɱ�
��QC�д�4�?&�)�|a�E�H��ʯ��(u���i:��T9i�
�C�R�,��RL_i�z��+/����z�޶>��čI#O�
��#�-۾�89~�QJ�{�i��M��_�J�s�e��(��J�KRq{p������(���{��]��n���ϋ6h�(�xuI�N������uY��YA��3����n���!���o�UTG?h��^��x�ڈV�Ma*�pc`@��`x+�m�F��4� }���vb�חk�v�5���ӽ�Ig���ٯ��7*r�le��R��$-�fA$�ɏQ��M;^<"�

Anon7 - 2021