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Developer guidelines
This page describes the behaviour of DXVK in various D3D11 workloads, and may be useful for developers targeting the Steam Deck. In general, most IHV recommendations and good practices apply to our implementation as well, but performance characteristics may differ in practice.
Note that this page is written for DXVK 2.0 and later. Older versions may behave differently.
Do:
- Compile all shaders (as in, calling
ID3D11Device::Create*Shader
) that will be used during gameplay during loading screens or in the game menu. DXVK will start creating Vulkan pipeline libraries or complete Vulkan pipelines in the background. - Prefer
StructuredBuffer<...>
andRWStructuredBuffer<...>
over typed buffer views when format conversion is not needed. Structured buffers are more efficient in our implementation, and easier for Vulkan drivers to optimize. - Calling
ID3D11Device::Create*Shader
from one single thread is usually sufficient. DXVK will perform the time-consuming parts of shader compilation on dedicated worker threads.
Avoid:
- Do not compile shaders "on demand", i.e. just before they are first used in a draw. Doing so will cause stutter that is more severe than on native D3D11 drivers.
- Do not use stream output. DXVK supports this feature, but it is usually less efficient than compute shaders on modern hardware.
- Do not use class linkage. DXVK does not support this feature.
- Avoid writing to UAVs from pixel shaders in a large number of draw calls. Our implementation does not handle this efficiently, and doing so will lead to reduced GPU and CPU performance. In particular, the following situations are bad:
- Mixing draws which do perform UAV writes with draws that don't. Switching between these modes is inefficient in our implementation and we will insert a barrier.
- Writing to the same UAV in consecutive draws. D3D11 requires us to insert a barrier between those draws.
- In shader code, avoid unrolling large loops. Excessive unrolling increases compile times and makes it harder for Vulkan drivers to optimize.
- Use
*SetConstantBuffers1
to bind sub-ranges of a larger constant buffer. This is by far the fastest path on our implementation. Ideally, only map the buffer withMAP_WRITE_DISCARD
a few times per frame and write as much data as possible at once, but if that is not viable, usingMAP_WRITE_NO_OVERWRITE
between draws is still good. - When updating constant buffers,
MAP_WRITE_DISCARD
andUpdateSubresource
have similar performance characteristics if the entire buffer is written in both cases.
Do:
- Prefer strongly typed image formats for render targets and other high-bandwidth images. Using
_TYPELESS
formats may negatively affect GPU performance, especially ifD3D11_BIND_UNORDERED_ACCESS
is set. - Prefer initializing read-only textures during creation via
D3D11_SUBRESOURCE_DATA
rather than usingUpdateSubresource
after creation. This may avoid a redundant clear and allows us to execute the upload on a dedicated transfer or compute queue. - Create render targets and any other high-bandwidth resources early. This makes it more likely for those resources to end up in video memory even when video memory is exhausted.
- Suballocate from large index and vertex buffers and use the
StartIndexLocation
andBaseVertexLocation
draw parameters to avoid overhead from frequent re-binding. - For mapped resources created with
D3D11_USAGE_DYNAMIC
, always write full cache lines for optimal CPU performance. DXVK will generally allocate these resources in host-visible video memory, especially on systems with Resizeable BAR enabled.
Avoid:
- Do not use large textures with
D3D11_USAGE_DYNAMIC
and non-zero bind flags. Partial writes to such resources are inefficient on our implementation.- Prefer
UpdateSubresource
for texure updates. - Textueres with no bind flags as well as
D3D11_USAGE_STAGING
resources are unaffected by this.
- Prefer
- Avoid mapping textures with
D3D11_USAGE_DEFAULT
.- We either use staging buffers or linear images to implement this, both of which have drawbacks.
- Prefer
UpdateSubresource
for texure updates. - Prefer a
D3D11_USAGE_STAGING
resource for readbacks.
- Do not create textures with
DXGI_FORMAT_R32G32B32_*
. Vulkan driver support for these formats is limited. Note: This does not apply to using these formats for vertex buffers or buffer views. - Try not to create many tiny buffers. Doing so may cause memory fragmentation and overhead.
- Avoid
MAP_WRITE
on staging resources that are still in use by the GPU. DXVK will try to avoid stalls, but this comes at the cost of both CPU performance and memory usage. -
NEVER perform a CPU read from a resource that was created without the
D3D11_CPU_ACCESS_READ
flag. In the worst case, these resources are allocated in VRAM and have to be read back over PCI-E, which can very quickly become a major bottleneck.
Do:
-
Clear or discard (using
DiscardView
) render targets when binding them for rendering for the first time within a frame, if the previous contents are no longer needed. This saves CPU work and may enable some driver optimizations compared to clearing at a different time within the frame. Prefer the following pattern:context->OMSetRenderTargets(n, rtvs, dsv); context->ClearDepthStencilView(dsv, ...); context->ClearRenderTargetView(rtvs[0], ...); context->ClearRenderTargetView(rtvs[1], ...); ... context->Draw(...);
-
Use
GenerateMips
rather than a custom render pass to generate mip maps if linear filtering is sufficient for your application. -
When using indirect draws with no state changes in between, keep the stride between multiple draw arguments consistent:
- For
DrawIndexedInstancedIndirect
, consecutive draw arguments should be 20 bytes apart. - For
DrawInstancedIndirect
, consecutive draw arguments should be 16 bytes apart.
This way, we can merge consecutive indirect draws into a single
vkCmdDrawIndexedIndirect
orvkCmdDrawIndirect
call and hit fast paths on all hardware. - For
Avoid:
- Do not bind a new set of vertex buffers on every draw call. Doing so can become the primary CPU bottleneck.
- Do not redundantly set state or bind resources multiple times before a draw call. The following example is inefficient on our implementation:
context->PSSetShaderResources(0, 1, &texture); context->Draw(...); context->PSSetShaderResources(0, 1, nullptr); context->PSSetShaderResources(0, 1, &texture); context->Draw(...);
- Do not rely on vendor-specific extensions provided by NVAPI or AMDAGS. These are generally not supported.
Do:
- Batch draw calls that use the same set of shaders and render state. Switching Vulkan pipelines is expensive and may affect CPU and GPU performance. The following methods can trigger a pipeline swap:
-
Set*Shader
. -
IASetInputLayout
. -
IASetPrimitiveTopology
. -
OMSetBlendState
if the blend state object or the sample mask change. Changing the blend factor is cheaper. -
OMSetDepthStencilState
if the depth-stencil state object changes. Changing the stencil reference is cheaper. -
OMSetRenderTargets
andOMSetRenderTargetsAndUnorderedAccessViews
. -
RSSetState
if theFillMode
orDepthClipEnable
members differ from the currently bound rasterizer state. Only changingCullMode
andFrontCounterClockwise
is cheaper.- Depth bias is more complicated: Given two rasterizer states, if all depth bias members are zero in one state but not in the other, then a pipeline swap is necessary. If depth bias members are non-zero in both, changing the depth bias values is cheaper.
-
Avoid:
- For rasterizer states, avoid setting
FillMode
toD3D11_FILL_WIREFRAME
. Doing so forces us to compile Vulkan pipelines at draw time, which may cause stutter.
Do:
- Use Deferred Contexts for multithreaded rendering if your application is otherwise bound by its own rendering thread.
- Keep the number of
ID3D11CommandList
objects used in a frame reasonably small (~a few dozen), and record at least 50-100 draws into each command list.-
ExecuteCommandLists
is relatively cheap since our implementation forwards pre-processed commands to a background worker.
-
- Release
ID3D11CommandList
objects immediately afterExecuteCommandList
in order to release any resources used as soon as possible. - Set the
RestoreContextState
parameter toFALSE
in bothExecuteCommandList
andFinishCommandList
.
Avoid:
- Do not execute the same
ID3D11CommandList
multiple times per frame. DXVK does not support this by default.
Do:
- Use waitable swap chains in order to control frame pacing. As of DXVK 2.3, this is expected to yield the best results on platforms that properly implement
VK_KHR_present_wait
.