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Compute Shader Overview

A compute shader is a programmable shader stage that expands Microsoft Direct3D 11 beyond graphics programming. The compute shader technology is also known as the DirectCompute technology. Like other programmable shaders (vertex and geometry shaders for example), a compute shader is designed and implemented with HLSL but that is just about where the similarity ends. A compute shader provides high-speed general purpose computing and takes advantage of the large numbers of parallel processors on the graphics processing unit (GPU). The compute shader provides memory sharing and thread synchronization features to allow more effective parallel programming methods. You call the ID3D11DeviceContext::Dispatch or ID3D11DeviceContext::DispatchIndirect method to execute commands in a compute shader. A compute shader can run on many threads in parallel.

Using Compute Shader on Direct3D 10.x Hardware

A compute shader on Microsoft Direct3D 10 is also known as DirectCompute 4.x.

If you use the Direct3D 11 API and updated drivers, feature level 10 and 10.1 Direct3D hardware can optionally support a limited form of DirectCompute that uses the cs_4_0 and cs_4_1 profiles. When you use DirectCompute on this hardware, keep the following limitations in mind:

  • The maximum number of threads is limited to D3D11_CS_4_X_THREAD_GROUP_MAX_THREADS_PER_GROUP (768) per group.
  • The X and Y dimension of numthreads is limited to D3D11_CS_4_X_THREAD_GROUP_MAX_X (768) and D3D11_CS_4_X_THREAD_GROUP_MAX_Y (768).
  • The Z dimension of numthreads is limited to 1.
  • The Z dimension of dispatch is limited to D3D11_CS_4_X_DISPATCH_MAX_THREAD_GROUPS_IN_Z_DIMENSION (1).
  • Only one unordered-access view can be bound to the shader (D3D11_CS_4_X_UAV_REGISTER_COUNT is 1).
  • Only RWStructuredBuffers and RWByteAddressBuffers are available as unordered-access views.
  • A thread can only access its own region in groupshared memory for writing, though it can read from any location.
  • SV_GroupIndex or SV_DispatchThreadID must be used when accessing groupshared memory for writing.
  • Groupshared memory is limited to 16KB per group.
  • A single thread is limited to a 256 byte region of groupshared memory for writing.
  • No atomic instructions are available.
  • No double-precision values are available.

Using Compute Shader on Direct3D 11.x Hardware

A compute shader on Direct3D 11 is also known as DirectCompute 5.0.

When you use DirectCompute with cs_5_0 profiles, keep the following items in mind:

  • The maximum number of threads is limited to D3D11_CS_THREAD_GROUP_MAX_THREADS_PER_GROUP (1024) per group.
  • The X and Y dimension of numthreads is limited to D3D11_CS_THREAD_GROUP_MAX_X (1024) and D3D11_CS_THREAD_GROUP_MAX_Y (1024).
  • The Z dimension of numthreads is limited to D3D11_CS_THREAD_GROUP_MAX_Z (64).
  • The maximum dimension of dispatch is limited to D3D11_CS_DISPATCH_MAX_THREAD_GROUPS_PER_DIMENSION (65535).
  • The maximum number of unordered-access views that can be bound to a shader is D3D11_PS_CS_UAV_REGISTER_COUNT (8).
  • Supports RWStructuredBuffers, RWByteAddressBuffers, and typed unordered-access views (RWTexture1D, RWTexture2D, RWTexture3D, and so on).
  • Atomic instructions are available.
  • Double-precision support might be available. For information about how to determine whether double-precision is available, see D3D11_FEATURE_DOUBLES.

In This Section


New Resource Types

Several new resource types have been introduced to support generalized memory access.

Accessing Resources

The new resource types support existing methods for accessing resources, as well as support new accessing techniques.

Atomic Functions

This section covers several functions that guarantee atomic functionality of the new resource types.

How To: Create a Compute Shader

Describes how to create a compute shader.


Related topics

Graphics Pipeline



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