Last diagnostics on this PC

2 • 17d • Quick 1 • 17d • Extreme

>_ DIAGNOSTIC ANALYSIS

Click on the tips for more explanations
(note: for the moment, resources links in the tips are still in french)

Problems identified

⚠️ The pagefile is enabled (modified size).
This can cause frequent crashes. It is recommended to re-enable its automatic management by the system.

To do this, search for "Adjust the appearance and performance of Windows" in the Windows search bar.
Click on the "Advanced" tab, then click on "Change" in the "Virtual Memory" section.
Check "Automatically manage paging file size for all drives", then click "Ok".
Finally, restart your computer.

💔 Some discouraged practices have been identified
System modifications : DriverSearching

Here are the details of the identified bad practices:

System modifications :
- The automatic driver search has been disabled (DriverSearching).
This can cause issues if you want to connect a new device to the computer.
Windows Update will not be able to automatically install or update drivers.
This might have been an oversight after using a tool like DDU to properly reinstall the graphics card drivers.

What to do about these bad practices? :
- This is not really ideal (but not the end of the world either).
Windows seems to have been modified by software/scripts or manually.
If you know how to correctly revert these settings to default, you can do so.
However, note that UserDiag does not detect all possible modifications.
You might be missing other system settings that have been changed.
There may be only a few modifications detected above, but potentially other things could have been altered.
If you have issues or if you prefer, you can always reinstall Windows properly via this tutorial.

If you want to delve deeper into the subject in general, you can check out this advice page for more explanations.

>_ DIAG

Diagnostic type >Quick

Diagnostic count >2

App version >App versionVersion of the application used during the diagnostic25.6.3

Performed >17d (2025-06-23)

Diagnostic duration >3min 27s

Diagnostics history on this PC Copy the report link Share the report via QR code Export to PDF Go to the motherboard website

>_ MOTHERBOARD

Manufacturer >Gigabyte

Model >B760 GAMING X AX

VRM temperatures min/max >VRM temperatures min/maxThe VRMs (Voltage Regulator Modules) are the power stages located on the motherboard near the processor.

High temperatures can be a sign of:
- insufficient VRM cooling
- processor too demanding for this motherboard
- aggressive overclocking

Note:
Few motherboards have this sensor.
34°C / 39°C

>_ BIOS

Vendor >American Megatrends Inc.

Version >VersionThe BIOS version and date help identify the currently installed BIOS version on the machine.

Notes:
- Sometimes, the retrieved BIOS version may slightly differ from the one displayed on the manufacturer's website.
Example: With an MSI BIOS, the retrieved version might be '2.B0' while on the website, the version is listed as '7D22v2B'.

- The retrieved BIOS date may also slightly differ by a few days/months from the one displayed on the manufacturer's website.
Example: With an MSI BIOS, the retrieved date is 26/01/2024, while on the website, the date is 07/01/2023.
Here, the date on the website corresponds to the upload date, while the retrieved date is the BIOS creation date.
F14c (2025-05-27)

Boot mode >Boot modeBoot mode of the computer:
- Legacy (old mode)
- UEFI (recent mode)
UEFI

TPM >TPMThe TPM is a component (physical module on the motherboard or emulated by the processor) that allows secure storage of information.

Specifically, it can store encryption keys, certificates, biometric data, etc.

For example, it is used to encrypt storage with BitLocker or unlock the computer with Windows Hello.

Some anti-cheat software for video games can also use it to confirm the integrity of the game and the system.
Active

Secure Boot >Secure BootThis is a security option available in the BIOS.
Secure Boot ensures that the computer boots only with a verified operating system.

This setting may be required by some game anti-cheats (Valorant, FIFA).
Inactive

Boot duration >Boot durationBoot duration is the time elapsed between pressing the power button and the motherboard returning POST OK (successful hardware check).

This can be useful for identifying a slow boot issue.
(long memory training in DDR5, for example).

A boot duration of around ten seconds is normal.

Note that this period occurs before Windows starts.
Applications that launch at Windows startup do not affect this duration.
36s


>_ WINDOWS

Edition >Windows 10 Professionnel

Version >22H2 (19045.5965)

Installed on >2024-10-09 16:40:59

Fast startup >Fast startupWindows Fast startup allows older computers to boot faster.

Sometimes this mode (enabled by default) can be the source of issues such as LEDs staying on, or crashes at startup with incompatible drivers.
Active

Uptime >UptimeUptime is the time elapsed since the last Windows startup.
This information can be useful to determine how long it has been since Windows was last restarted.

Note that if Fast Startup is enabled in Windows settings, shutting down the computer will actually put it into a hibernation state.

Therefore, Windows only fully shuts down during a restart.
(by clicking on restart and not on shutdown)

As a result, you may sometimes observe high uptimes of several days, even if the computer is regularly shut down and turned on.

However, if Fast Startup is disabled, the computer will fully shut down during shutdown, and the uptime will be reset with each startup.
8min

VBS >VBSVirtualization-Based Security (VBS) is a security feature in Windows.

Its purpose is to protect certain parts of Windows by isolating them from the rest. It may be enabled by default on compatible Windows 11 installations.

It can also be activated if core integrity in Windows Defender is enabled, when using WSL2, or other virtual machine-related features.

However, this feature may slightly reduce performance when enabled.
This option only protects against certain complex vulnerabilities. It will not protect you from a cryptocurrency miner or password theft, etc.

Microsoft advises gamers, if they wish, to disable this option. (More information)
Inactive

Antivirus >AntivirusCurrently active antivirus on your computer.

Ideally, it is better to use something like Windows Defender, which is relatively effective and already integrated by default in Windows, or use a third-party antivirus of your choice.

However, it is advisable to avoid less recommended antiviruses like Avast, Norton, McAfee, Iobit, etc., which are known for collecting your personal data rather than protecting you.
Windows Defender

>_ PROCESSOR

Name >Intel Core i5-12400F

Number of cores/threads >6 / 12

Background usage >1%

Power plan >Performances optimales

Base frequency >2.50 GHz

Frequencies min/max >0.80 GHz / 3.99 GHz

PL2 / PL1 >PL2 / PL1Power Limits allow limiting the processor's power consumption to reduce the generated heat.
Example image (anandtech.com)

When these limits are reached, the processor will reduce its frequency to stay within the limit.

The purpose is to allow the processor to operate at a certain power level for a short period, then limit it a few seconds later.

Power Limit 2 (PL2) is the maximum power the processor can consume for a short period (a few tens of seconds).

Power Limit 1 (PL1) is the same but kicks in once the PL2 duration has elapsed.

By default, these are values recommended by the processor manufacturer and chosen by the motherboard manufacturer.

A value above 4000 W is not a bug, it means the power limit is disabled.
(Value too high to be reached, so it never applies)
4095 W / 4095 W

Voltages min/max >0.83 V / 1.10 V

Consumptions min/max >8 W / 76 W

Temperatures min/max >Temperatures min/maxOn average during the quick diag of UserDiag, this processor reaches 39°C min and 66°C max.

Average based on a sample of recent diags.
35°C / 66°C

Performance level >Performance levelPerformance level determined using data from 4806 other diagnostics containing this CPU model.

As this feature is in the testing phase (beta), there are currently no recommendations provided by UserDiag based on the measured performance level.
Very good (100%)

>_ GRAPHICS CARD

GPU 1

Model >AMD Radeon RX 7600

Manufacturer >Gigabyte

VRAM >8176 MB (GDDR6)

Driver version >32.0.21013.4013

Driver date >09/06/2025

Consommations min/max >11 W / 223 W

Temperatures min/max >Temperatures min/maxOn average during the quick diag of UserDiag, this graphics card reaches 41°C min and 57°C max.

Average based on a sample of recent diags.
45°C / 56°C

Performance level >Performance levelPerformance level determined using data from 415 other diagnostics containing this GPU model.Very good (100%)

>_ MEMORY

Total size >16 GB

Memory type >DDR5

Current frequency >Current frequencyCurrent frequency of the RAM sticks.5986 MT/s

DRAM voltage >DRAM voltageThe DRAM voltage is the voltage applied to the RAM sticks.

Note that this metric is not always accessible depending on the motherboard.
N/A

Channel >4 x 32-bit

Timings >TimingsCAS30tRCD36tRP36tRAS80tRFC480CR230-36-36-80 (tRFC:480/CR:2)

Usage >4.6/15.8 GB (29%)

Pagefile >PagefileThe pagefile allows the system and software to store data on storage instead of RAM when needed.

Modifying or disabling the pagefile can lead to system stability issues (blue screens, software/game crashes, "out of memory" messages, etc.).

It is strongly advised not to modify or disable the pagefile unless you are sure of what you are doing.
Enabled (Modified size)

Comment >CommentHere are the available profiles for your RAM sticks.
The highlighted profiles correspond to the current timings.
However, the frequency may differ.

Note that if different RAM kits are mixed or depending on the processor, not all these profiles may be usable or stable.

XMP 1 | 22-27-27-59 | 4404 MT/s
XMP 2 | 26-32-32-70 | 5204 MT/s
XMP 3 | 28-34-34-75 | 5604 MT/s
XMP 4 | 30-36-36-80 | 6000 MT/s
XMP 5 | 32-36-36-80 | 6000 MT/s
XMP 6 | 36-36-36-80 | 6000 MT/s
XMP 7 | 38-36-36-80 | 6000 MT/s
XMP 8 | 40-36-36-80 | 6000 MT/s
XMP 9 | 42-36-36-80 | 6000 MT/s
XMP 1 | 22-22-22-44 | 3080 MT/s
XMP 2 | 26-26-26-52 | 3640 MT/s
XMP 3 | 28-28-28-56 | 3920 MT/s
XMP 4 | 30-30-30-60 | 4200 MT/s
XMP 5 | 32-33-33-65 | 4480 MT/s
XMP 6 | 36-36-36-72 | 5042 MT/s
XMP 7 | 38-38-38-76 | 5322 MT/s
XMP 8 | 40-40-40-80 | 5600 MT/s
XMP 9 | 42-40-40-80 | 5600 MT/s
XMP 1 | 22-22-22-41 | 2782 MT/s
XMP 2 | 26-26-26-48 | 3288 MT/s
XMP 3 | 28-28-28-52 | 3542 MT/s
XMP 4 | 30-30-30-56 | 3794 MT/s
XMP 5 | 32-32-32-59 | 4048 MT/s
XMP 6 | 36-36-36-67 | 4554 MT/s
XMP 7 | 38-38-38-70 | 4800 MT/s
XMP profile enabled

>_ MEMORY SLOT

SLOT 1 (DDR5-A1)

Format >Unknown (empty slot)


SLOT 2 (DDR5-A2)

Manufacturer >Kingston (SK Hynix)

Reference >KF560C30-8

Size / frequency >Size / frequencyThis frequency is the one reported by the RAM stick. It does not always represent the current frequency of your computer, which can be higher or lower.8 GB - 6000 MT/s


SLOT 3 (DDR5-B1)

Format >Unknown (empty slot)


SLOT 4 (DDR5-B2)

Manufacturer >Kingston (SK Hynix)

Reference >KF560C30-8

Size / frequency >Size / frequencyThis frequency is the one reported by the RAM stick. It does not always represent the current frequency of your computer, which can be higher or lower.8 GB - 6000 MT/s

>_ STORAGE

STORAGE 1

Model >CT1000MX500SSD1

Type >SSD - SATA

Capacity >1 TB

Mode current/max >SATA/600 - SATA/600

Speed current/max >535 - 492 MB/s

Usage read/write >N/A - 24.07 TB

Power on count >1 724 times

Power on time >8 514 hours

Temperature >32°C

Current state (health) >Current state (health)The current state of the storage is an estimate based on SMART metrics.
This estimate may vary depending on the manufacturers and storage models.

The "health" percentage indicates the estimated wear of the flash cells in an SSD.
When new, it is 100%. With use, this percentage decreases.
This estimate is provided by the SSD manufacturer.

IDNameCurrentWorstThresh.Raw01Raw Read Error Rate1001000005Reallocated NAND Block Count10010010009Power On Hours Count100100085140CPower Cycle Count10010001724ABProgram Fail Count10010000ACErase Fail Count10010000ADAverage Block Erase Count9494098AEUnexpected Power Loss Count100100048B4Unused Spare NAND Blocks00030B7SATA interface Downshift10010000B8Error Correction Count10010000BBReported Uncorrectable Errors10010000C2Temperature68430244813135904C4Reallocation Event Count10010000C5Current Pending ECC Count10010000C6SMART Offline Scan Uncorrectable Error Count10010000C7UDMA CRC Error Count10010001CALifetime Remaining949416CEWrite Error Rate10010000D2Successful RAIN Recovery Count10010000F6Cumulative Host Sectors Written100100050475249291F7Host Program NAND Pages Count1001000405532073F8FTL Program NAND Pages Count1001000746292612
Very good (94 %)

D:
Data
1 TB
280 GB free
D: (NTFS)

STORAGE 2

Model >SK hynix BC511 HFM512GDJTNI-82A0A

Type >SSD - NVMe

Capacity >512 GB

Mode current/max >PCIe 3.0 x4 - PCIe 3.0 x4

Speed current/max >1 493 - 966 MB/s

Usage read/write >27.33 TB - 14.79 TB

Power on count >1 210 times

Power on time >2 432 hours

Temperature >44°C

Current state (health) >Current state (health)The current state of the storage is an estimate based on SMART metrics.
This estimate may vary depending on the manufacturers and storage models.

The "health" percentage indicates the estimated wear of the flash cells in an SSD.
When new, it is 100%. With use, this percentage decreases.
This estimate is provided by the SSD manufacturer.

IDNameRaw01Critical Warning002Composite Temperature31703Available Spare10004Available Spare Threshold505Percentage Used006Data Units Read5731131507Data Units Written3101643508Host Read Commands60269398309Host Write Commands3876133750AController Busy Time17370BPower Cycles12100CPower On Hours24320DUnsafe Shutdowns2520EMedia and Data Integrity Errors00FNumber of Error Information Log Entries0
Very good (100 %)

C:
EFI System
105 MB
Data
511 GB
272 GB free
C: (NTFS)
Recovery
587 MB

>_ SCREEN

SCREEN 1

Model >MSI G2412

Max resolution >1920 x 1080

Current frequency >170Hz

Connected via >DisplayPort

Connected to >AMD Radeon RX 7600

Manufacture date >2022

Size >24"

>_ TEST: CPU SINGLE CORE

➡️ How to interpret the overview of this test?

This active test performs a task that only stresses a single core of the processor.
The graphics card is not stressed during this test.

We observe temperatures, consumption, frequencies, and voltages.

Ideally, we want to see a relatively stable CPU frequency that is not affected by high temperatures, for example.

>_ TEST: CPU MULTI CORE

➡️ How to interpret the overview of this test?

This active test performs a task that stresses all the cores of the processor.
The graphics card is not stressed during this test.

We observe temperatures, consumption, frequencies, and voltages.

Ideally, we want to see a relatively stable CPU frequency that is not affected by high temperatures, for example.

>_ TEST: GAMING WORKLOAD

➡️ How to interpret the overview of this test?

This active test simulates the load of an average game that stresses the processor and graphics card in a balanced way.
It does not necessarily stress all processor cores.
This is the most representative test of gaming usage.

We observe temperatures, consumption, frequencies, and voltages.

Ideally, we want to see relatively stable CPU and GPU frequencies that are not affected by high temperatures, for example.

>_ TEST: GPU

➡️ How to interpret the overview of this test?

This active test performs a task that only stresses the graphics card.
The processor is not stressed during this test.

We observe temperatures, consumption, frequencies, and voltages.

Ideally, we want to see a relatively stable GPU frequency that is not affected by high temperatures, for example.
➡️ Note: It is normal to observe potential variations in the processor's frequency or voltage, which is not stressed during this test.

>_ TEST: CPU MULTI CORE + GPU

➡️ How to interpret the overview of this test?

This active test performs a task that stresses all the cores of the processor and the graphics card simultaneously.

We observe temperatures, consumption, frequencies, and voltages.

Ideally, we want to see relatively stable CPU and GPU frequencies that are not affected by high temperatures, for example.