Dx11 Feature Level 11.0 Download Windows 10

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Renderdoc is a standalone program that can be used to capture and replay frames from any Windows application using Direct3D 11. Application using Direct3D 11.0 or 11.1.

  1. Directx 11 Feature Level 10.0 Download Windows 10
  2. Dx11 Feature Level 11.0 Download Windows 10 For Minecraft
  3. Dx11 Feature Level 10 Download Windows 7
  1. Full Listing of Features. This is a complete list of the features in Direct3D 11. You can run Direct3D 11 on downlevel hardware by specifing a feature level when you create a device. You can perform tessellation (see Tessellation Overview) by using the following shader types: Hull Shader; Domain Shader; Direct3D 11 supports multithreading (see.
  2. This download is provided to you free of charge. The download was scanned for viruses by our system. We also recommend you check the files before installation. The contents of the download are original and were not modified in any way. The version of DirectX you are about to download is 11.0.
  3. Generally speaking, for Windows 10, Windows 8 and Windows 8.1, you can directly update your Windows to the latest version to install the latest DirectX on your computer. However, for Windows 7, Windows Vista and Windows XP, you may need to install an update package to install the latest DirectX in your computer.

Gamers must be quite familiar with the error message “DX11 feature level 10.0 is required to run the engine”. This can pop up during the gameplay in CS:GO, PUBG, etc. And this is something that’s been plaguing Valorant players. To pinpoint the main source of the problem and get it resolved, we’ve gathered some fixes.

Try these fixes

Not all solutions are necessary, so just work the list down until you find the one that solves your problem.

1. Download and install Windows updates

Windows updates usually include security updates. They can protect your system from malware attacks. What’s more, by installing Windows updates, you can take advantage of the new features. Follow the steps below to download and install Windows updates:

1) In the Search box, type check for updates. Then click Check for updates from the results.

2) Click on the Check for updates button. If there are any updates available, it’ll automatically start to download and install it. Simply wait for it to complete and you should be asked to restart your computer.

After the restart, launch Valorant to check if you can play it without error messages popping up. If your problem persists, try the next fix below.

2. Update your graphics driver

Your graphics card is an important hardware that decides whether your computer can run games smoothly. And the graphics driver acts as an interpreter between Windows and your device. If the driver is outdated or corrupted, you may run into any sorts of problems which can ultimately prevent your game from launching. Therefore, to ensure that you can enjoy your game, you should update your graphics driver:

There are two ways you can update your graphics driver: manually and automatically.

Option 1: Manually update your graphics driver

If you’re familiar with computer hardware, you can manually update your graphics driver by going to the manufacturer’s official websites:


Option 2: Automatically update your graphics driver (recommended)

However, updating drivers on your own can be error-prone and it’s time-consuming. If you don’t have the time, patience or computer skills to update drivers manually, you can instead do it automatically with Driver Easy. Driver Easy will automatically recognize your system and all your devices, and install the latest correct drivers for you – direct from the manufacturer. You don’t need to know exactly what system your computer is running, you don’t need to risk downloading and installing the wrong drivers, and you don’t need to worry about making a mistake when installing:

1) Download and install Driver Easy.

2) Click Scan Now. Driver Easy will then scan your computer and detect any devices with missing or outdated drivers.

3) Click Update All. Driver Easy will then download and update all your outdated and missing device drivers, giving you the latest version of each, direct from the device manufacturer.
(This requires the Pro version which comes with full support and a 30-day money-back guarantee. You’ll be prompted to upgrade when you click Update All. If you don’t want to upgrade to the Pro version, you can also update your drivers with the FREE version. All you need to do is to download them one at a time and manually install them.)

The Pro version of Driver Easy comes with full technical support. If you need assistance, please contact Driver Easy’s support team at [email protected].

After updating your drivers, restart your PC and launch your game to check if your problem has been resolved. If updating the graphics driver didn’t do the trick, try the next fix below.

3. Install the newest version of DirectX

If your Windows is up to date, the latest DirectX will automatically be integrated into your system. For Windows 10 users, you should have DirectX12 and should also be able to run DirectX11 and DirectX10. But for some reasons, you may not have the latest DirectX installed on your Windows. In this case, you need to install the newest version of DirectX by visiting the DirectX download page.

4. Uninstall Vanguard

Riot Vanguard is designed to set both game safety and personal computer safety as a priority. However, it has the capability of blocking drivers and certain components in your computer will not be working when you’re playing Valorant. And that could be the reason why you would get the error message. To troubleshoot the issue, you can try uninstalling Vanguard:

1) On your keyboard, press the Windows + I keys simultaneously to open Settings.

2) Click Apps.

3) In the search field, type vanguard. Double-click Riot Vanguard and click Uninstall.

4) Click Uninstall.

When Vanguard has been removed from your system, launch Valorant and you may need to reinstall Vanguard. Simply wait for the installation to complete. Till then, you can click on the Play button and you should be able to boot up the game without getting the error message “DX11 feature level 10.0 is required to run the engine”.

Hopefully this post helped! If you have any suggestions or questions, feel free to drop us a line in the comment section below.


The programming guide contains information about how to use the Direct3D 11 programmable pipeline to create realtime 3D graphics for games, and for scientific and desktop applications.

Compute Shader

A compute shader is a programmable shader designed for general-purpose data-parallel processing. In other words, compute shaders allow a GPU to be used as a general-purpose parallel processor. The compute shader is similar to the other programmable pipeline shaders (such as vertex, pixel, geometry) in the way that it accesses inputs and outputs. The compute shader technology is also known as the DirectCompute technology. A compute shader is integrated into Direct3D and is accessible through a Direct3D device. It can directly share memory resources with graphics shaders by using the Direct3D device. However, it is not directly connected to other shader stages.

A compute shader is designed for mass-market applications that perform computations at interactive rates, when the cost of transitioning between the API (and its associated software stack) and a CPU would consume too much overhead.

A compute shader has its own set of states. A compute shader does not necessarily have a forced 1-1 mapping to either input records (like a vertex shader does) or output records (like the pixel shader does). Some features of the graphics shader are supported, but others have been removed so that new compute shader-specific features could be added.

To support the compute shader-specific features, several new resource types are now available, such as read/write buffers, textures, and structured buffers.

See Compute Shader Overview for additional information.

Dynamic Shader Linking

Rendering systems must deal with significant complexity when they manage shaders, while providing the opportunity to optimize shader code. This becomes an even greater challenge because shaders must support a variety of different materials in a rendered scene across various hardware configurations. To address this challenge, shader developers have often resorted to one of two general approaches. They have either created fully featured large, general-purpose shaders that can be used by a wide variety of scene items, which trade off some performance for flexibility, or created individual shaders for each geometry stream, material type, or light type combination needed.

These large, general-purpose shaders handle this challenge by recompiling the same shader with different preprocessor definitions, and the latter method uses brute-force developer power to achieve the same result. The shader permutation explosion has often been a problem for developers who must now manage thousands of different shader permutations within their game and asset pipeline.

Direct3D 11 and shader model 5 introduce object-oriented language constructs and provide runtime support of shader linking to help developers program shaders.

See Dynamic Linking for additional information.


Many graphics applications are CPU-bound because of costly activities such as scene graph traversal, object sorting, and physics simulations. Because multicore systems are becoming increasingly available, Direct3D 11 has improved its multithreading support to enable efficient interaction between multiple CPU threads and the D3D11 graphics APIs.

Direct3D 11 enables the following functionality to support multithreading:

  • Concurrent objects are now created in separate threads — Making entry-point functions that create objects free-threaded makes it possible for many threads to create objects simultaneously. For example, an application can now compile a shader or load a texture on one thread while rendering on another.
  • Command lists can be created on multiple threads — A command list is a recorded sequence of graphics commands. With Direct3D 11, you can create command lists on multiple CPU threads, which enables parallel traversal of the scene database or physics processing on multiple threads. This frees the main rendering thread to dispatch command buffers to the hardware.

See MultiThreading for additional information.


Tessellation can be used to render a single model with varying levels of detail. This approach generates a more geometrically accurate model that depends on the level of detail required for a scene. Use tessellation in a scene where the level of detail allows a lower geometry model, which reduces the demand on memory bandwidth consumed during rendering.

In Direct3D, tessellation is implemented on the GPU to calculate a smoother curved surface from a coarse (less detailed) input patch. Each (quad or triangle) patch face is subdivided into smaller triangular faces that better approximate the surface that you want.

For information about implementing tessellation in the graphics pipeline, see Tessellation Overview.

Full Listing of Features


This is a complete list of the features in Direct3D 11.

Directx 11 Feature Level 10.0 Download Windows 10

  • You can run Direct3D 11 on downlevel hardware by specifing a feature level when you create a device.

  • You can perform tessellation (see Tessellation Overview) by using the following shader types:

    • Hull Shader
    • Domain Shader
  • Direct3D 11 supports multithreading (see MultiThreading)

    • Multithread resource/shader/object creation
    • Multithreaded Display list creation
  • Direct3D 11 expands shaders with the following features (see Shader Model 5)

    • Addressable resources - textures, constant buffers, and samplers

    • Additional resource types, such as read/write buffers and textures (see New Resource Types).

    • Subroutines

    • Compute shader (see Compute Shader Overview) - A shader that speeds up computations by dividing the problem space between several software threads or groups of threads, and sharing data among shader registers to significantly reduce the amount of data required to input into a shader. Algorithms that the compute shader can significantly improve include post processing, animation, physics, and artificial intelligence.

    • Geometry shader (see Geometry Shader Features)

      • Instancing - Allows the geometry shader to output a maximum of 1024 vertices, or any combination of instances and vertices up to 1024 (maximum of 32 instances of 32 vertices each).
    • Pixel shader

      • Coverage as PS Input

      • Programmable Interpolation of Inputs - The pixel shader can evaluate attributes within the pixel, anywhere on the multisample grid

      • Centroid sampling of attributes must obey the following rules:

        • If all samples in the primitive are covered, the attribute is evaluated at the pixel center regardless of whether the sample pattern has a sample location at the pixel center.

        • Otherwise, the attribute is evaluated at the first covered sample, that is, the sample with the lowest index among all sample indexes. In this situation, sample coverage is determined after applying the logical AND operation to the coverage and the sample-mask rasterizer state.

        • If no samples are covered (such as on helper pixels that are executed off the bounds of a primitive to fill out 2x2 pixel stamps), the attribute is evaluated in one of the following ways:

          • If the sample-mask rasterizer state is a subset of the samples in the pixel, the first sample that is covered by the sample-mask rasterizer state is the evaluation point.
          • Otherwise, in the full sample-mask condition, the pixel center is the evaluation point.
  • Direct3D 11 expands textures (see Textures Overview) with the following features

    • Gather4

      • Support for multi-component textures - specify a channel to load from
      • Support for programmable offsets
    • Streaming

      • Texture clamps to limit WDDM preload
    • 16K texture limits

    • Require 8-bits of subtexel and sub-mip precision on texture filtering

    • New texture compression formats (1 new LDR format and 1 new HDR format)

  • Direct3D 11 supports conservative oDepth - This algorithm allows a pixel shader to compare the per-pixel depth value of the pixel shader with that in the rasterizer. The result enables early depth culling operations while maintaining the ability to output oDepth from a pixel shader.

  • Direct3D 11 supports large memory

    • Allow for resources > 4GB
    • Keep indices of resources 32bit, but resource larger
  • Direct3D 11 supports stream output improvements

    • Addressable Stream output
    • Increase Stream output count to 4
    • Change all stream output buffers to be multi-element
  • Direct3D 11 supports Shader Model 5 (see Shader Model 5)

    • Doubles with denorms
    • Count bits set instruction
    • Find first bit set instruction
    • Carry/Overflow handling
    • Bit reversal instructions for FFTs
    • Conditional Swap intrinsic
    • Resinfo on buffers
    • Reduced-precision reciprocal
    • Shader conversion instructions - fp16 to fp32 and vice versa
    • Structured buffer, which is a new type of buffer containing structured elements.
  • Direct3D 11 supports read-only depth or stencil views

    • Disables writes to the part that is read-only, allows for using texture as input and for depth-culling
  • Direct3D 11 supports draw indirect - Direct3D 10 implements DrawAuto, which takes content (generated by the GPU) and renders it (on the GPU). Direct3D 11 generalizes DrawAuto so that it can be called by a Compute Shader using DrawInstanced and DrawIndexedInstanced.

  • Direct3D 11 supports miscellaneous features

    • Floating-point viewports
    • Per-resource mipmap clamping
    • Depth Bias - This algorithm updates the behavior of depth bias, by using rasterizer state. The result eliminates the scenarios where the calculated bias could be NaN.
    • Resource limits - Resource indices are still required to be <= 32 bits, but resources can be larger than 4 GB.
    • Rasterizer Precision
    • MSAA Requirements
    • Counters Reduced
    • 1-Bit Format and Text Filter Removed

Features Added in Previous Releases

Dx11 Feature Level 11.0 Download Windows 10 For Minecraft

For the list of the features added in previous releases, see the following topics:

Dx11 Feature Level 10 Download Windows 7

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