pretty strange
1-make sure you did not forgot to install GPU power connection
generally power issue would manifest when you you use heavy gaming or rendering not YouTube browsing
2-if the RAM loosely installed any small physical bump to the chassis cause the PC to shutdown
3-use different monitor and then different GPU to see if the problem persist
4-generate Power report and post it here in CMD C:\WINDOWS\system32\energy-report.html.
5-share your PSU wattage
Posting energy report. Sorry for the delay (so sorry if file should've been attached, couldn't find a button):
Power Efficiency Diagnostics Report
Computer Name | DESKTOP-SO1AJC0 |
Scan Time | 2021-12-09T15:15:31Z |
Scan Duration | 60 seconds |
System Manufacturer | ASUS |
System Product Name | System Product Name |
BIOS Date | 07/13/2021 |
BIOS Version | 1017 |
OS Build | 19043 |
Platform Role | PlatformRoleDesktop |
Plugged In | true |
Process Count | 169 |
Thread Count | 2555 |
Report GUID | {07f270aa-8c4e-4334-87ac-be1ec5b9770e} |
Analysis Results
Errors
Power Policy
ower Plan Personality is High Performance (Plugged In)
The current power plan personality is High Performance when the system is plugged in.
Power Policy
isplay timeout disabled (Plugged In)
The display is not configured to turn off after a period of inactivity.
Power Policy:Sleep timeout is disabled (Plugged In)
The computer is not configured to automatically sleep after a period of inactivity.
Power Policy
isk idle is disabled (Plugged In)
The disk is not configured to turn off after a period of disk inactivity.
Power Policy:Minimum processor performance state is 100% (Plugged In)
The processor is not configured to automatically reduce power consumption based on activity.
Power Policy
CI Express ASPM is disabled (Plugged In)
The current power policy for PCI Express Active State Power Management (ASPM) is configured to Off.
USB Suspend:USB Device not Entering Selective Suspend
This device did not enter the USB Selective Suspend state. Processor power management may be prevented when this USB device is not in the Selective Suspend state. Note that this issue will not prevent the system from sleeping.
Device Name | USB Input Device |
Host Controller ID | PCI\VEN_8086&DEV_43ED |
Host Controller Location | PCI bus 0, device 20, function 0 |
Device ID | USB\VID_1BCF&PID_0005 |
Port Path | 3,4 |
USB Suspend:USB Device not Entering Selective Suspend
This device did not enter the USB Selective Suspend state. Processor power management may be prevented when this USB device is not in the Selective Suspend state. Note that this issue will not prevent the system from sleeping.
Device Name | Generic USB Hub |
Host Controller ID | PCI\VEN_8086&DEV_43ED |
Host Controller Location | PCI bus 0, device 20, function 0 |
Device ID | USB\VID_174C&PID_2074 |
Port Path | 3 |
USB Suspend:USB Device not Entering Selective Suspend
This device did not enter the USB Selective Suspend state. Processor power management may be prevented when this USB device is not in the Selective Suspend state. Note that this issue will not prevent the system from sleeping.
Device Name | USB Composite Device |
Host Controller ID | PCI\VEN_8086&DEV_43ED |
Host Controller Location | PCI bus 0, device 20, function 0 |
Device ID | USB\VID_1038&PID_160E |
Port Path | 7 |
USB Suspend:USB Device not Entering Selective Suspend
This device did not enter the USB Selective Suspend state. Processor power management may be prevented when this USB device is not in the Selective Suspend state. Note that this issue will not prevent the system from sleeping.
Device Name | USB Composite Device |
Host Controller ID | PCI\VEN_8086&DEV_43ED |
Host Controller Location | PCI bus 0, device 20, function 0 |
Device ID | USB\VID_0B05&PID_19AF |
Port Path | 8 |
Platform Power Management Capabilities
CI Express Active-State Power Management (ASPM) Disabled
PCI Express Active-State Power Management (ASPM) has been disabled due to a known incompatibility with the hardware in this computer.
Device Drivers:
Devices with missing or misconfigured drivers can increase power consumption.
Device Name | PANGP Virtual Ethernet Adapter |
Device ID | ROOT\PANGPD\0000 |
Device Status | 0x1802401 |
Device Problem Code | 0x16 |
Warnings
Platform Timer Resolution
latform Timer Resolution
The default platform timer resolution is 15.6 ms (15625000 ns) and should be used whenever the system is idle. If the timer resolution is increased, processor power management technologies may not be effective. The timer resolution may be increased due to multimedia playback or graphical animations.
Current Timer Resolution (100 ns units) | 156217 |
Maximum Timer Period (100 ns units) | 156250 |
Platform Timer Resolution:Outstanding Timer Request
A program or service has requested a timer resolution smaller than the platform maximum timer resolution.
Requested Period | 10000 |
Requesting Process ID | 7700 |
Requesting Process Path | \Device\HarddiskVolume4\Program Files\Google\Chrome\Application\chrome.exe |
Platform Timer Resolution:Outstanding Timer Request
A program or service has requested a timer resolution smaller than the platform maximum timer resolution.
Requested Period | 10000 |
Requesting Process ID | 14872 |
Requesting Process Path | \Device\HarddiskVolume4\Program Files\NVIDIA Corporation\NVIDIA GeForce Experience\NVIDIA Share.exe |
Power Policy
im timeout is long (Plugged In)
The display is configured to automatically dim after longer than 10 minutes.
Information
Platform Timer Resolution:Timer Request Stack
The stack of modules responsible for the lowest platform timer setting in this process.
Requested Period | 10000 |
Requesting Process ID | 7700 |
Requesting Process Path | \Device\HarddiskVolume4\Program Files\Google\Chrome\Application\chrome.exe |
Calling Module Stack | \Device\HarddiskVolume4\Windows\System32\ntdll.dll |
| \Device\HarddiskVolume4\Windows\System32\kernel32.dll |
| \Device\HarddiskVolume4\Program Files\Google\Chrome\Application\96.0.4664.93\chrome.dll |
| \Device\HarddiskVolume4\Windows\System32\kernel32.dll |
| \Device\HarddiskVolume4\Windows\System32\ntdll.dll |
Platform Timer Resolution:Timer Request Stack
The stack of modules responsible for the lowest platform timer setting in this process.
Requested Period | 10000 |
Requesting Process ID | 14872 |
Requesting Process Path | \Device\HarddiskVolume4\Program Files\NVIDIA Corporation\NVIDIA GeForce Experience\NVIDIA Share.exe |
Calling Module Stack | \Device\HarddiskVolume4\Windows\System32\ntdll.dll |
| \Device\HarddiskVolume4\Windows\System32\kernel32.dll |
| \Device\HarddiskVolume4\Program Files\NVIDIA Corporation\NVIDIA GeForce Experience\libcef.dll |
| \Device\HarddiskVolume4\Program Files\NVIDIA Corporation\NVIDIA GeForce Experience\NVIDIA Share.exe |
| \Device\HarddiskVolume4\Windows\System32\kernel32.dll |
| \Device\HarddiskVolume4\Windows\System32\ntdll.dll |
Power Policy:Active Power Plan
The current power plan in use
Plan Name | OEM High Performance |
Plan GUID | {8c5e7fda-e8bf-4a96-9a85-a6e23a8c635c} |
Power Policy
ower Plan Personality (Plugged In)
The personality of the current power plan when the system is plugged in.
Personality | High Performance |
Power Policy:802.11 Radio Power Policy is Maximum Performance (Plugged In)
The current power policy for 802.11-compatible wireless network adapters is not configured to use low-power modes.
Power Policy:Video quality (Plugged In)
Enables Windows Media Player to optimise for quality or power savings when playing video.
Quality Mode | Optimise for Video Quality |
System Availability Requests:Analysis Success
Analysis was successful. No energy efficiency problems were found. No information was returned.
CPU Utilisation
rocessor utilisation is low
The average processor utilisation during the trace was very low. The system will consume less power when the average processor utilisation is very low.
Average Utilisation (%) | 0.88 |
Battery:Analysis Success
Analysis was successful. No energy efficiency problems were found. No information was returned.
Platform Power Management Capabilities:Supported Sleep States
Sleep states allow the computer to enter low-power modes after a period of inactivity. The S3 sleep state is the default sleep state for Windows platforms. The S3 sleep state consumes only enough power to preserve memory contents and allow the computer to resume working quickly. Very few platforms support the S1 or S2 Sleep states.
S1 Sleep Supported | false |
S2 Sleep Supported | false |
S3 Sleep Supported | true |
S4 Sleep Supported | true |
Platform Power Management Capabilities:Connected Standby Support
Connected standby allows the computer to enter a low-power mode in which it is always on and connected. If supported, connected standby is used instead of system sleep states.
Connected Standby Supported | false |
Platform Power Management Capabilities
rocessor Power Management Capabilities
Effective processor power management enables the computer to automatically balance performance and energy consumption.
Group | 0 |
Index | 0 |
Idle State Count | 3 |
Idle State Type | ACPI Idle (C) States |
Nominal Frequency (MHz) | 2592 |
Maximum Performance Percentage | 169 |
Lowest Performance Percentage | 46 |
Lowest Throttle Percentage | 3 |
Performance Controls Type | ACPI Collaborative Processor Performance Control |
Platform Power Management Capabilities
rocessor Power Management Capabilities
Effective processor power management enables the computer to automatically balance performance and energy consumption.
Group | 0 |
Index | 1 |
Idle State Count | 3 |
Idle State Type | ACPI Idle (C) States |
Nominal Frequency (MHz) | 2592 |
Maximum Performance Percentage | 169 |
Lowest Performance Percentage | 46 |
Lowest Throttle Percentage | 3 |
Performance Controls Type | ACPI Collaborative Processor Performance Control |
Platform Power Management Capabilities
rocessor Power Management Capabilities
Effective processor power management enables the computer to automatically balance performance and energy consumption.
Group | 0 |
Index | 2 |
Idle State Count | 3 |
Idle State Type | ACPI Idle (C) States |
Nominal Frequency (MHz) | 2592 |
Maximum Performance Percentage | 169 |
Lowest Performance Percentage | 46 |
Lowest Throttle Percentage | 3 |
Performance Controls Type | ACPI Collaborative Processor Performance Control |
Platform Power Management Capabilities
rocessor Power Management Capabilities
Effective processor power management enables the computer to automatically balance performance and energy consumption.
Group | 0 |
Index | 3 |
Idle State Count | 3 |
Idle State Type | ACPI Idle (C) States |
Nominal Frequency (MHz) | 2592 |
Maximum Performance Percentage | 169 |
Lowest Performance Percentage | 46 |
Lowest Throttle Percentage | 3 |
Performance Controls Type | ACPI Collaborative Processor Performance Control |
Platform Power Management Capabilities
rocessor Power Management Capabilities
Effective processor power management enables the computer to automatically balance performance and energy consumption.
Group | 0 |
Index | 4 |
Idle State Count | 3 |
Idle State Type | ACPI Idle (C) States |
Nominal Frequency (MHz) | 2592 |
Maximum Performance Percentage | 169 |
Lowest Performance Percentage | 46 |
Lowest Throttle Percentage | 3 |
Performance Controls Type | ACPI Collaborative Processor Performance Control |
Platform Power Management Capabilities
rocessor Power Management Capabilities
Effective processor power management enables the computer to automatically balance performance and energy consumption.
Group | 0 |
Index | 5 |
Idle State Count | 3 |
Idle State Type | ACPI Idle (C) States |
Nominal Frequency (MHz) | 2592 |
Maximum Performance Percentage | 169 |
Lowest Performance Percentage | 46 |
Lowest Throttle Percentage | 3 |
Performance Controls Type | ACPI Collaborative Processor Performance Control |
Platform Power Management Capabilities
rocessor Power Management Capabilities
Effective processor power management enables the computer to automatically balance performance and energy consumption.
Group | 0 |
Index | 6 |
Idle State Count | 3 |
Idle State Type | ACPI Idle (C) States |
Nominal Frequency (MHz) | 2592 |
Maximum Performance Percentage | 169 |
Lowest Performance Percentage | 46 |
Lowest Throttle Percentage | 3 |
Performance Controls Type | ACPI Collaborative Processor Performance Control |
Platform Power Management Capabilities
rocessor Power Management Capabilities
Effective processor power management enables the computer to automatically balance performance and energy consumption.
Group | 0 |
Index | 7 |
Idle State Count | 3 |
Idle State Type | ACPI Idle (C) States |
Nominal Frequency (MHz) | 2592 |
Maximum Performance Percentage | 169 |
Lowest Performance Percentage | 46 |
Lowest Throttle Percentage | 3 |
Performance Controls Type | ACPI Collaborative Processor Performance Control |
Platform Power Management Capabilities
rocessor Power Management Capabilities
Effective processor power management enables the computer to automatically balance performance and energy consumption.
Group | 0 |
Index | 8 |
Idle State Count | 3 |
Idle State Type | ACPI Idle (C) States |
Nominal Frequency (MHz) | 2592 |
Maximum Performance Percentage | 169 |
Lowest Performance Percentage | 46 |
Lowest Throttle Percentage | 3 |
Performance Controls Type | ACPI Collaborative Processor Performance Control |
Platform Power Management Capabilities
rocessor Power Management Capabilities
Effective processor power management enables the computer to automatically balance performance and energy consumption.
Group | 0 |
Index | 9 |
Idle State Count | 3 |
Idle State Type | ACPI Idle (C) States |
Nominal Frequency (MHz) | 2592 |
Maximum Performance Percentage | 169 |
Lowest Performance Percentage | 46 |
Lowest Throttle Percentage | 3 |
Performance Controls Type | ACPI Collaborative Processor Performance Control |
Platform Power Management Capabilities
rocessor Power Management Capabilities
Effective processor power management enables the computer to automatically balance performance and energy consumption.
Group | 0 |
Index | 10 |
Idle State Count | 3 |
Idle State Type | ACPI Idle (C) States |
Nominal Frequency (MHz) | 2592 |
Maximum Performance Percentage | 169 |
Lowest Performance Percentage | 46 |
Lowest Throttle Percentage | 3 |
Performance Controls Type | ACPI Collaborative Processor Performance Control |
Platform Power Management Capabilities
rocessor Power Management Capabilities
Effective processor power management enables the computer to automatically balance performance and energy consumption.
Group | 0 |
Index | 11 |
Idle State Count | 3 |
Idle State Type | ACPI Idle (C) States |
Nominal Frequency (MHz) | 2592 |
Maximum Performance Percentage | 169 |
Lowest Performance Percentage | 46 |
Lowest Throttle Percentage | 3 |
Performance Controls Type | ACPI Collaborative Processor Performance Control |