Hubbry Logo
Windows System Assessment ToolWindows System Assessment ToolMain
Open search
Windows System Assessment Tool
Community hub
Windows System Assessment Tool
logo
8 pages, 0 posts
0 subscribers
Be the first to start a discussion here.
Be the first to start a discussion here.
Windows System Assessment Tool
Windows System Assessment Tool
Windows System Assessment Tool
View on Wikipedia
from Wikipedia

WinSAT
DeveloperMicrosoft
Initial releaseMarch 2005; 20 years ago (2005-03) (announced)
Operating system
Platformx86, x86-64
TypeComputer performance measurement
WebsiteWindows System Assessment Tool at MSDN

The Windows System Assessment Tool (WinSAT) is a module of Microsoft Windows Vista, Windows 7, Windows 8, Windows 8.1, Windows 10, and Windows 11 that is available in the Control Panel under Performance Information and Tools (except in Windows 8.1, Windows 10, and Windows 11). It measures various performance characteristics and capabilities of the hardware it is running on and reports them as a Windows Experience Index (WEI) score. The WEI includes five subscores: processor, memory, 2D graphics, 3D graphics, and disk; the basescore is equal to the lowest of the subscores and is not an average of the subscores.[1][2] WinSAT reports WEI scores on a scale from 1.0 to 5.9 for Windows Vista,[3] 7.9 for Windows 7,[4] and 9.9 for Windows 8, Windows 8.1, Windows 10, and Windows 11.[5]

The WEI enables users to match their computer hardware performance with the performance requirements of software. For example, the Aero graphical user interface will not automatically be enabled unless the system has a WEI score of 3 or higher.[6][7]

The WEI can also be used to show which part of a system would be expected to provide the greatest increase in performance when upgraded. For example, a computer with the lowest subscore being its memory, would benefit more from a RAM upgrade than adding a faster hard drive (or any other component).[2]

Detailed raw performance information, like actual disk bandwidth, can be obtained by invoking winsat from the command line. This also allows only specific tests to be re-run.[8] Obtaining the WEI score from the command line is done invoking winsat formal, which also updates the value stored in %systemroot%\Performance\WinSAT\DataStore.[9] (The XML files stored there can be easily hacked to report fake performance values.[10]) The WEI is also available to applications through an API, so they can configure themselves as a function of hardware performance, taking advantage of its capabilities without becoming unacceptably slow.[11]

The Windows Experience Index score is not displayed in Windows 8.1 and onwards because the graphical user interface for WinSAT was removed in these versions of Windows, although the command line winsat tool still exists and operates correctly along with a final score when launching the command "shell:games".[12] According to an article in PC Pro, Microsoft removed the WinSAT GUI in order to promote the idea that all kinds of hardware run Windows 8 equally well.[13]

History

[edit]

At the 2003 Game Developers Conference Dean Lester, Microsoft's General Manager of Windows Graphics and Gaming, stated in an interview with GameSpot that Microsoft intended to focus on improvements to the PC gaming experience as part of a new gaming initiative for the next version of Windows, Windows Vista, then codenamed "Longhorn." Lester stated that as part of this initiative the operating system would include a games folder that would centralize settings pertinent to gamers and, among other features, display driver streamlining, parental controls for games and the ability to start a Windows game directly from optical media during installation—in a manner similar to games designed for a video game console. Microsoft would also require a new method of displaying system requirements on retail packaging for Windows games with a rating system that would categorize games based on a numerical system.[14] In 2004, Lester expanded further on Microsoft's intentions by stating that the company would work with hardware manufacturers to create PCs for Windows Vista that used a "level system" to designate the performance and capabilities of a system's hardware and that Xbox 360 peripherals would be fully compatible with the operating system.[15] The Windows Experience Index feature in Windows Vista relies on measurements taken with WinSAT to provide an accurate assessment of a system's capabilities—these capabilities are presented in the form of a rating, where a higher rating indicates better performance.

Preliminary design elements created for Microsoft by Robert Stein in 2004 suggest that WinSAT was intended to rate a user's hardware during the out-of-box experience;[16] this is a design decision that would be retained for the operating system's release to manufacturing.[17]

During the Windows Hardware Engineering Conference of 2005, Microsoft formally unveiled the existence of WinSAT and presented it as a technology not only for games, but one that would allow Windows Vista to make decisions, such as whether to enable desktop composition, based on a machine's hardware capabilities.[18][19][20] WinSAT would remain a key focus throughout development of the operating system before its release to manufacturing.[17]

Tests

[edit]

WinSAT in Windows Vista and Windows 7 performs the following tests:

  • Direct3D 9 Aero Assessment
  • Direct3D 9 Batch Assessment
  • Direct3D 9 Alpha Blend Assessment
  • Direct3D 9 Texture Load Assessment
  • Direct3D 9 ALU Assessment
  • Direct3D 10 Batch Assessment
  • Direct3D 10 Alpha Blend Assessment
  • Direct3D 10 Texture Load Assessment
  • Direct3D 10 ALU Assessment
  • Direct3D 10 Geometry Assessment
  • Direct3D 10 Constant Buffer Assessment
  • Windows Media Decoding Performance
  • Windows Media Encoding Performance
  • CPU Performance
  • Memory Performance
  • Disk Performance (includes devices such as Solid-state drives)

While running, the tests show only a progress bar and a "working" background animation. Aero Glass is deactivated on Windows Vista and Windows 7 during testing so the tool can properly assess the graphics card and CPU.

In Windows 8, WinSAT runs under the maintenance scheduler every week. The default schedule is 1am on Sundays. The maintenance scheduler collates various OS tasks into a schedule so the computer is not being randomly interrupted by the individual tasks. The scheduler wakes the computer from sleep, runs all the scheduled tasks and then puts the computer back to sleep. During this weekly task, WinSAT runs long enough to detect if there have been any hardware changes. If so, then the tests are run again. If not, then WinSAT simply ends as the existing scores must be valid.

WinSAT cannot perform the above tests when a laptop is battery-operated.

References

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Windows System Assessment Tool

View on Grokipedia
from Grokipedia
The Windows System Assessment Tool (WinSAT) is a command-line utility developed by Microsoft to evaluate the performance characteristics and capabilities of a computer's hardware components, producing standardized scores that inform software compatibility and optimization decisions. Introduced with Windows Vista in 2007, WinSAT assesses key subsystems including the processor, memory, graphics, and storage to generate the Windows Experience Index (WEI), a numerical rating system where the overall base score reflects the lowest subscore among evaluated components. WinSAT operates through formal and assessment modes, with formal assessments running comprehensive tests across multiple hardware areas and saving results to an XML-based assessment store for later querying. The tool's , available via COM interfaces like IInitiateWinSATAssessment, allows developers to initiate evaluations programmatically, while the winsat.exe supports command-line invocation for tasks such as winsat formal to perform full benchmarks. Restrictions include prohibitions on remote assessments and evaluations during battery-powered operation to ensure accurate results under controlled conditions. The WEI subscores, scaled from 1.0 to 9.9 (with higher values indicating better performance), cover processor speed and throughput, RAM bandwidth, disk transfer rates, 2D and 3D graphics performance, and gaming graphics capabilities. These scores enable users to compare hardware against software requirements—for instance, applications specifying a base WEI of 3.0 can run on systems meeting or exceeding that threshold. Output is primarily in XML format, queryable via for detailed metrics like processor clock speed or graphics frame rates. While WinSAT was integral to earlier Windows versions for out-of-box experience scoring, Microsoft documentation indicated it may be altered or unavailable after Windows 8.1. However, the utility remains available and functional on and as of 2025 for legacy compatibility and manual performance checks, often invoked via elevated Command Prompt to regenerate WEI scores after hardware upgrades. recommends alternatives like the PC Health Check app for verifying modern in Windows 11.

Introduction

Purpose and Functionality

The Windows System Assessment Tool (WinSAT) is a built-in diagnostic utility that evaluates a computer's hardware performance across core components such as the CPU, , , and storage to produce standardized benchmark scores. It operates as an automated assessment framework, executing a series of tests that measure key capabilities without requiring user intervention beyond initiation. The resulting data is stored in XML files within the directory %%\Performance\WinSAT\DataStore, providing a structured record of system metrics for or integration into other Windows features. WinSAT's primary objectives include enabling dynamic adjustments to elements, such as activating or deactivating the Aero Glass visual effects based on available graphics memory to ensure optimal rendering performance. It also supports resource optimization for technologies like , where its CPU assessment algorithms align with compression methods used for caching and hybrid storage enhancements, helping to determine suitability for supplemental flash-based acceleration. WinSAT has assisted original equipment manufacturers (OEMs) in validating hardware against certification standards in earlier Windows versions, such as , evaluating metrics like video and graphics frame rates to confirm compatibility with Windows requirements across desktop, mobile, and multi-GPU configurations. Introduced with , WinSAT shifted hardware evaluation from subjective manual checks to objective, quantifiable benchmarks, establishing a consistent basis for system performance assessment. These benchmarks contribute to the computation of the Windows Experience Index, a composite score reflecting overall system capability.

Windows Experience Index

The Windows Experience Index (WEI) serves as the primary numerical output of the Windows System Assessment Tool (WinSAT), providing a standardized rating of a computer's overall hardware and capability to handle Windows-specific tasks. As a composite score, the WEI aggregates results from hardware assessments to help users and applications gauge system suitability for various workloads, with higher values signifying greater performance potential. WinSAT generates this index by executing targeted benchmarks on key components, ensuring the score reflects real-world usability rather than isolated metrics. Starting with , the graphical interface for viewing WEI scores was removed, but the underlying assessments and scores remain accessible via command-line invocation or system queries. The WEI scale has evolved to accommodate hardware advancements, starting at a range of 1.0 to 5.9 in , expanding to a maximum of 7.9 in , and reaching 1.0 to 9.9 from onward. This progression allows the index to scale with faster processors, more , and improved without requiring frequent recalibration. The overall WEI is determined by calculating separate sub-scores for the processor (measuring computational throughput), (evaluating RAM bandwidth), primary (assessing 2D desktop rendering), gaming (gauging 3D performance), and primary hard disk (testing storage transfer rates); the base score is simply the minimum of these sub-scores, emphasizing balanced system performance by highlighting the weakest component. WEI scores play a direct role in enabling Windows features, such as requiring a minimum of 3.0 for eligibility to run with standard video playback. These scores are persisted in the at HKEY_LOCAL_MACHINE\SOFTWARE[Microsoft](/page/Microsoft)\Windows\CurrentVersion\Explorer\PerformanceWinSAT, allowing quick access for system diagnostics and application checks. In terms of interpretation, higher scores denote enhanced suitability for resource-intensive activities; for example, a WEI of 3.0 or above activates advanced visual effects like glass interfaces, while scores of 4.0 or above support enhanced video playback in .

History

Development and Introduction

The Windows System Assessment Tool (WinSAT) was developed by during the mid-2000s as part of the engineering efforts for to provide a standardized method for evaluating hardware . This tool emerged from the need to address consumer confusion over PC capabilities, enabling easier assessment of whether systems could handle Vista's resource-intensive features and helping original equipment manufacturers (OEMs) comply with requirements. Early prototypes appeared in beta builds, such as the Community Technology Preview released in early 2006, where it was still evolving with planned refinements before finalization. WinSAT was designed by to support key Vista innovations, particularly the Windows Aero graphical interface, by measuring system components like the CPU, , , and disk to determine compatibility and performance thresholds. The tool's naming reflects its core focus on systematic hardware assessment, generating subscores that contribute to an overall rating on a 1.0 to 5.9 scale, allowing users to identify bottlenecks without specialized knowledge. It includes Vista-specific tests, such as graphics bandwidth for Aero and AES encryption performance, differentiating it from general benchmarks by emphasizing operating system interactions. WinSAT was first integrated into the release-to-manufacturing (RTM) build on November 8, 2006, and automatically executed during the initial setup process on first boot to establish a performance baseline and conditionally enable features like Aero based on results. Available in both 32-bit and 64-bit variants, it served multiple roles: aiding OEM validation, providing diagnostic insights for users, and simplifying hardware-software matching for smoother application experiences. Over subsequent Windows versions, WinSAT continued to evolve, adapting its scoring and assessments to new hardware paradigms. has deprecated WinSAT since , with no active development since approximately 2015.

Evolution Across Windows Versions

The Windows System Assessment Tool (WinSAT) was first introduced in as a component to evaluate key hardware capabilities, including graphics for Aero effects, performance, memory throughput, and disk speed, contributing to an overall system rating. In subsequent releases, WinSAT evolved to accommodate hardware advancements while shifting toward more automated and backend usage. With , WinSAT expanded its scoring scale for the Windows Experience Index (WEI) to a maximum of 7.9, reflecting improved hardware capabilities compared to Vista's limit of 5.9. Additionally, it included media tests to measure video format conversion performance, supporting integrations like enhanced media handling in applications such as . In and 8.1, WinSAT raised the WEI maximum score to 9.9 to better scale with , including faster SSDs and touch interfaces. The for viewing WEI scores was removed from the Control Panel, with results accessible only through command-line queries, as assessments shifted to running automatically after first boot via the Maintenance Scheduler if not prepopulated during imaging. This change aligned with feedback that visible scores could mislead users about overall system suitability, leading to de-emphasize public display of the index. Windows 10 and 11 further streamlined WinSAT to command-line operation exclusively, with the tool executing during feature updates and upgrades to baseline system performance for optimizations like prefetching and disk . As of November 2025, WinSAT remains functional in version 24H2 and 2025, primarily for diagnostic purposes such as in virtual desktop infrastructure, though it has seen no major feature updates since around 2015.

Assessment Tests

CPU Assessment

The CPU assessment component of the Windows System Assessment Tool (WinSAT) evaluates performance through synthetic benchmarks emphasizing integer-heavy workloads, including , decryption, hashing, compression, and decompression tasks. These tests utilize algorithms such as 256-bit AES for and decryption, for hashing, Lempel-Ziv-Welch (LZW) for compression, and an internal algorithm optimized for system features like file creation and caching. The benchmarks are designed to reflect real-world computational demands on x86 and x64 instruction sets, focusing on throughput rather than floating-point operations. WinSAT's methodology employs multi-threaded execution to assess parallelism across all available logical processors, scaling with core count to simulate intensive workloads. Each test runs for a fixed duration under controlled conditions, measuring key metrics like operations per second and data throughput (e.g., megabytes per second for compression tasks). In and later versions, the assessment is compatible with multi-core and hyper-threaded architectures without explicit overclock detection. The resulting CPU sub-score for the Windows Experience Index is derived by normalizing measured against a reference baseline, while incorporating factors like clock speed, core count, and cache efficiency to provide a holistic rating of computational capability. This score integrates into the overall Windows Experience Index as one of several sub-components, aiding in system optimization and compatibility checks.

Memory Assessment

The memory assessment in the Windows System Assessment Tool (WinSAT) evaluates the bandwidth performance of the system's (RAM) through simulations of large-scale data transfers, akin to those in processing and other high-throughput applications. This test, accessible via the winsat mem command, requires administrative privileges and generates results in XML format for analysis. The methodology centers on memory copy operations that measure read and write throughput in megabytes per second (MB/s). It allocates configurable buffers in RAM, with a default size of 16 MB per logical processor, a minimum of 4 KB, and a maximum of 32 MB per buffer (rounded to the nearest 4 KB multiple). These buffers facilitate direct memory-to-memory copies, with runtime controlled by minimum (default 2 seconds) and maximum (default 5 seconds) duration parameters to ensure consistent . The -nc enables non-cached mode, bypassing CPU caches to assess raw RAM access rates, including cache-to-RAM transfer efficiency. By default, the test operates in multi-threaded mode, spawning one thread per logical processor to evaluate parallel access patterns and overall system under load. A single-threaded variant (-up ) isolates for uniprocessor scenarios or targeted diagnostics. This approach highlights differences in configurations, such as single-channel versus dual-channel setups, where multi-threaded execution can reveal up to 50-100% higher bandwidth in interleaved modes due to improved parallelism. The assessment outputs key metrics including maximum and average bandwidth values, which inform the memory sub-score within the Windows Experience Index (WEI). This sub-score prioritizes throughput for demanding workloads like video editing. The memory score contributes to the overall WEI by balancing RAM performance against other components.

Graphics Assessment

The graphics assessment in the Windows System Assessment Tool (WinSAT) evaluates the performance of integrated and discrete graphics hardware, focusing on capabilities for 2D and in desktop environments and gaming applications. It consists of two primary (D3D) sub-assessments: one for desktop graphics, which measures suitability for effects and video playback based on video , and another for gaming graphics, which tests high-end performance. Post-Windows 8.1, the gaming graphics assessment reports fixed sentinel values rather than performing full real-time tests. The methodology involves rendering complex scenes using batches of spherical to simulate real-world workloads, with configurable parameters for object count, texture sizes (up to 4096x4096 pixels), and shader complexity. Key components include texture loading (multiple textures per object), pixel operations (ranging from simple to intensive shaders with lighting effects), and support for as handled by the driver. Tests run in windowed or full-screen modes at various resolutions, typically for 5-8 seconds, measuring frames per second (FPS) and effective fill rates in texels per second to quantify rendering throughput. WinSAT's graphics tests support 9 and 10 feature levels through vertex and pixel shader profiles (e.g., ps_2_0 to ps_3_0), ensuring compatibility with hardware from the Vista era onward, though later Windows versions like 8.1 and beyond de-emphasize full 3D gaming assessments. Results generate two sub-scores for the Windows Experience Index (WEI): the desktop graphics score (critical for enabling visual effects, requiring ≥2.0 for basic Aero animations) and the gaming graphics score (for intensive 3D tasks). These sub-scores, scaled from 1.0 to 9.9, influence system eligibility for premium UI features and are stored in XML format for analysis.

Disk Assessment

The disk assessment in the Windows System Assessment Tool (WinSAT) evaluates storage device performance by conducting sequential and random read/write operations, as well as write flush tests, to determine throughput and latency characteristics essential for system optimization. Introduced with , this component supports features like ReadyDrive for hybrid hard drive hibernation and SuperFetch for prefetching frequently used data into memory, allowing Windows to adapt caching strategies based on measured disk capabilities. The methodology targets active drives, creating temporary test files to simulate real-world I/O workloads under the , where overhead from metadata and allocation can influence results. Tests distinguish between HDDs and SSDs implicitly through performance outcomes, as SSDs exhibit lower latency in random operations due to the absence of mechanical seek times, while HDDs are more affected by head movement. Sequential benchmarks measure sustained transfer rates in MB/s using IO sizes from 64 KB to 1 MB, whereas random 4K benchmarks capture for small, scattered accesses typical of application loading, with seek times (in ms) emerging as a key differentiator for rotational media. WinSAT runs these assessments using up to 50 iterations and 5,000 IO operations per test, generating raw metrics that are normalized against baselines like a standard 7200 RPM HDD to produce a disk sub-score from 1.0 to 9.9. For instance, SSDs routinely achieve scores of 7.0 or higher, reflecting their superior random I/O performance and enabling optimizations such as reduced boot times via enhanced SuperFetch. In contrast, older HDD-based systems often see the disk sub-score as the limiting factor in the overall Windows Experience Index, as it represents the minimum across read and write metrics.

Usage and Integration

Command-Line Interface

The Windows System Assessment Tool (WinSAT) offers a for executing hardware assessments manually, introduced in and accessible through the Command Prompt or . This interface requires administrator privileges, so it must be run from an elevated command prompt, which can be launched by searching for "cmd" in the , right-clicking Command Prompt, and selecting "Run as administrator." In , the same process applies, with results remaining compatible for generating Windows Experience Index scores. The primary command for a comprehensive assessment is winsat formal, which evaluates the CPU, , , and primary disk, displaying real-time progress in the console while saving detailed results to an XML file in the %systemroot%\performance\winsat\datastore directory. For targeted evaluations, ad hoc commands like winsat cpu focus on specific components, such as the processor using or compression algorithms, and output results directly to the console without automatically storing them in the assessment datastore. Other ad hoc options include winsat disk for storage and winsat d3d for capabilities. Several parameters enable customization of these assessments. The -drive <letter> option, used with winsat disk, specifies a particular drive for testing, such as winsat disk -drive C. For graphics assessments, winsat d3d runs benchmarks. The -restart parameter, applicable in scenarios like tests, helps clear caches for more accurate results by restarting relevant services. To capture output in a custom file, the -xml <filename> parameter saves ad hoc results to XML, as in winsat cpu -xml winsat.xml, allowing for easy parsing and review. These XML reports can be viewed using standard XML parsers or third-party tools that interpret WinSAT schema for human-readable scores. In and later, WEI scores are not displayed in the Control Panel but can be retrieved via with Get-CimInstance Win32_WinSAT or by examining the XML output. Common troubleshooting involves addressing "access denied" errors, which typically arise from insufficient privileges; always verify the command prompt is running as administrator before execution. For automated runs, WinSAT can be scheduled via Task Scheduler by creating a basic task, setting winsat formal as the action in the program field, and enabling "Run with highest privileges" to ensure proper execution without manual intervention.

Role in Windows Features

The Windows System Assessment Tool (WinSAT) plays a key role in determining eligibility for several performance-dependent features in Windows, particularly in earlier versions such as Vista and 7. For instance, the (DWM) test assesses graphics capabilities to enable or disable the Aero visual theme, which requires a Windows Experience Index (WEI) base score of at least 3.0 for full functionality, including transparency effects and window animations. Similarly, provides the most significant improvements on systems with a primary hard disk WEI subscore below 4.0, allowing the system to utilize removable storage as a performance cache to supplement RAM. During the Out-of-Box Experience (OOBE), WinSAT historically ran assessments to establish baseline performance data, though in and later, scores are no longer generated automatically during OOBE to reduce setup time; instead, OEM-prepopulated results are used via the winsat moobe command for immediate feature availability at first boot. In system upgrades or hardware changes, WinSAT can be re-run selectively (e.g., winsat prepop -disk or -graphics) to update scores and ensure compatibility with features like plans, which adjust CPU throttling and energy efficiency based on assessed capabilities. Original equipment manufacturers (OEMs), including and HP, integrate WinSAT extensively during pre-installation tuning in audit mode, running winsat prepop to generate XML result files that populate WEI scores before shipping devices; this enables optimized configurations for features like Aero and without requiring post-setup assessments. Additionally, WinSAT supports broader system diagnostics, with assessment logs appearing in under Windows Logs > System for troubleshooting failures.

Limitations and Modern Relevance

Criticisms and Shortcomings

One major criticism of the Windows System Assessment Tool (WinSAT) is that its scoring system has remained unchanged since in 2012, capping the maximum Windows Experience Index (WEI) at 9.9, which fails to adequately reflect advancements in modern hardware such as high-end GPUs like those in NVIDIA's RTX 40-series. This limitation means that systems with significantly superior components, such as newer processors or graphics cards, often receive identical top scores without distinguishing relative performance improvements. In 2012, removed the for WEI in , retaining only command-line access via WinSAT, a decision attributed to the tool's diminishing utility for end-users in assessing system capabilities. This change highlighted broader concerns that WinSAT's assessments were no longer providing meaningful insights into hardware as evolved rapidly. WinSAT's synthetic benchmarks have been faulted for poor correlation with real-world application performance, such as frame rates in gaming, where the tool's controlled tests do not replicate the variability of actual workloads. For instance, while WinSAT evaluates graphics through rendering, these results often diverge from practical scenarios involving complex game engines or multi-threaded tasks. The tool is also resource-intensive during execution, frequently consuming up to 50% or more of CPU capacity, which can disrupt system usability on older or lower-powered machines. This high overhead stems from its comprehensive stress tests on components like the processor and , potentially leading to elevated temperatures and temporary performance impacts. A notable shortcoming is WinSAT's exclusive focus on physical local hardware, ignoring and peripheral devices entirely. It cannot assess mapped network drives, as these are treated as logical pointers rather than testable physical media, limiting its applicability in networked or distributed environments.

Status in Recent Windows Versions

In , version 24H2 and subsequent updates including 25H2, the Windows System Assessment Tool (WinSAT) operates exclusively as a command-line accessible via the winsat formal command in an elevated Command Prompt, enabling manual hardware assessments without a graphical interface. This implementation aligns with changes since , where the GUI was discontinued to streamline the tool for scripting and in enterprise environments. WinSAT continues to evaluate key components such as CPU, , , and disk , generating Windows Experience Index (WEI) scores stored in XML format for analysis. While some NVMe SSD performance issues from March 2023 security patches were addressed in subsequent updates like August 2023, new storage detection problems, including with NVMe SSDs, have arisen in 24H2 following the August 2025 update (KB5063878). WinSAT-specific enhancements for these drives remain tied to the underlying system optimizations rather than tool-specific overhauls. has indicated that WinSAT is a deprecated feature with no further development, maintaining its availability across consumer and enterprise editions for diagnostic purposes as of November 2025. The tool is compatible with 2025, where it supports basic hardware scoring, including in virtualized environments, though formal assessments may require additional configuration for server roles. Looking ahead, WinSAT's role appears stable but potentially complementary to emerging diagnostics, such as those leveraging DirectStorage API benchmarks for storage performance in gaming and AI workloads, which offer more specialized metrics for modern hardware like NPUs in Copilot+ PCs without direct integration into WinSAT. This continuity from its origins in underscores its persistence as a foundational assessment mechanism amid evolving Windows features.

References

  1. https://learn.microsoft.com/en-us/windows/win32/winsat/windows-system-assessment-tool-portal
  2. https://learn.microsoft.com/en-us/windows/win32/winsat/using-winsat
  3. https://blog.acer.com/en/discussion/2851/how-to-score-your-pcs-health-using-the-windows-experience-index
  4. https://support.microsoft.com/en-us/windows/check-if-a-device-meets-windows-11-system-requirements-after-changing-device-hardware-f3bc0aeb-6884-41a1-ab57-88258df6812b
  5. https://learn.microsoft.com/en-us/windows-hardware/manufacture/desktop/configure-windows-system-assessment-test-scores?view=windows-10
  6. https://learn.microsoft.com/en-us/windows-hardware/drivers/display/reporting-graphics-memory
  7. https://download.microsoft.com/download/7/0/e/70e74967-b0fe-477a-974f-c1ed16ee31df/windows8-1-hardware-cert-requirements-system.pdf
  8. https://learn.microsoft.com/en-us/answers/questions/2451477/windows-experience-index
  9. https://learn.microsoft.com/en-us/answers/questions/2528161/question-performance-rate-and-improve-your-compute
  10. https://learn.microsoft.com/en-us/answers/questions/2562643/can-you-reach-a-9-9-windows-experience-score-in-wi
  11. https://www.digitalcitizen.life/windows-experience-index-how-use-it-interpret-results/
  12. https://arstechnica.com/uncategorized/2006/03/6399-2/
  13. https://www.exoprise.com/2023/10/06/windows-experience-index-and-reliability-monitor/
  14. https://www.eweek.com/news/winsat-vistas-built-in-benchmark/
  15. https://betawiki.net/wiki/Windows_Vista_build_6000.16386
  16. https://learn.microsoft.com/en-us/windows/win32/w8cookbook/windows-assessment-toolkit
  17. https://learn.microsoft.com/en-us/answers/questions/2618971/missing-windows-experience-index-in-windows-8-1-su
  18. https://learn.microsoft.com/en-us/windows-server/remote/remote-desktop-services/remote-desktop-services-vdi-optimize-configuration
  19. https://learn.microsoft.com/en-us/previous-versions/windows/it-pro/windows-server-2012-r2-and-2012/cc742175(v=ws.11)
  20. https://learn.microsoft.com/en-us/windows-server/administration/windows-commands/winsat-mem
  21. https://www.edn.com/benchmarking-memory-on-an-inexpensive-pc/
  22. https://learn.microsoft.com/en-us/answers/questions/2526509/graphics-subscore-is-4-9-but-gaming-graphics-is-6
  23. https://www.tenforums.com/tutorials/82029-get-windows-experience-index-wei-score-windows-10-a.html
  24. https://learn.microsoft.com/en-us/windows/win32/api/winsatcominterfacei/ne-winsatcominterfacei-winsat_assessment_type
  25. https://learn.microsoft.com/en-us/previous-versions/windows/it-pro/windows-server-2012-r2-and-2012/cc742128(v=ws.11)
  26. https://learn.microsoft.com/en-us/previous-versions/windows/it-pro/windows-server-2012-r2-and-2012/cc742128(v=ws.11)#parameters
  27. https://www.sevenforums.com/tutorials/263-windows-experience-index-update-refresh-score.html
  28. https://download.microsoft.com/download/3/0/2/3027d574-c433-412a-a8b6-5e0a75d5b237/perfaccel.docx
  29. https://learn.microsoft.com/en-us/previous-versions/windows/it-pro/windows-server-2012-r2-and-2012/cc742157(v=ws.11)
  30. https://learn.microsoft.com/en-us/answers/questions/2452876/what-goes-into-windows-experience-disk-score
  31. https://learn.microsoft.com/en-us/previous-versions/windows/it-pro/windows-server-2012-r2-and-2012/cc770542(v=ws.11)
  32. https://learn.microsoft.com/en-us/previous-versions/windows/it-pro/windows-server-2012-r2-and-2012/cc742136(v=ws.11)
  33. https://www.ninjaone.com/blog/how-to-get-windows-experience-index-score/
  34. https://learn.microsoft.com/en-us/answers/questions/2596712/why-did-my-windows-experience-index-decrease-when
  35. https://techgage.com/news/benchmarks-that-matter-synthetic-vs-real-world/
  36. https://arstechnica.com/civis/threads/synthetic-vs-real-world-benchmarks.919682/
  37. https://learn.microsoft.com/en-us/answers/questions/2607064/winsat-exe-process-utilizing-50-of-cpu-on-vista-pc
  38. https://superuser.com/questions/1606312/how-to-use-winsat-on-network-share-to-measure-disk-performance-under-windows
  39. https://petri.com/winsat/
  40. https://learn.microsoft.com/en-us/windows-server/get-started/removed-deprecated-features-windows-server
  41. https://learn.microsoft.com/en-us/answers/questions/71884/availability-of-winsat-formal-features-on-windows
  42. https://www.guru3d.com/story/3dmark-adds-directstorage-benchmark-to-assess-technology-for-pc-gaming/
Add your contribution
Related Hubs
User Avatar
No comments yet.