naga
Vulkan-Docs
naga | Vulkan-Docs | |
---|---|---|
28 | 161 | |
1,494 | 2,664 | |
0.3% | 0.3% | |
9.2 | 8.4 | |
6 months ago | 1 day ago | |
Rust | JavaScript | |
GNU General Public License v3.0 or later | GNU General Public License v3.0 or later |
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naga
- How does webgpu planning to use webgl shaders?
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I want to talk about WebGPU
That wouldn't have been all that different from WGSL though, the most important thing is that whatever WebGPU uses for its shaders can be translated to and from SPRIV (and WGSL does that too (e.g. via https://dawn.googlesource.com/tint and https://github.com/gfx-rs/naga).
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Survey: How have shader compilation messages been for you?
Hey all, wanted to put this link in here, where I'm proposing changing the API for errors in naga, so Naga can take ownership of error presentation and actually Make Shader Compilation Messages Comfyâ„¢: https://github.com/gfx-rs/naga/issues/2317
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Start project on Metal, port to DX11?
EDIT: There is also naga but it does not take HLSL as input: https://github.com/gfx-rs/naga but you can use DirectXShaderCompiler to compile to SpirV, then use naga to compile to Metal.
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Chrome ships WebGPU (available by default in Chrome 113)
And it seems that naga https://github.com/gfx-rs/naga Already has a working front/backend for wgsl.
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Ray query example in Blade
This is basically Ray Tracing support in Blade. So far, only ray queries are supported. Unlike prior work on ray tracing in Rust, this is original due to all shader code being WGSL, see the Naga PR.
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Does WGSL work well with vulkan?
There's a compiler that can translate from WGSL to SPIR-V called naga. Having such a compiler is essential, since WebGPU is planned to use WGSL and browsers are expected to implement rendering via Vulkan (and probably Metal and DX12).
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Glsl transpiler, interpreter?
Not sure about on the CPU, but naga is a shading language transpiler you can write custom front/backends for.
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Any guides/documentation on the WGSL shading language?
The spec docs are actually pretty useful https://www.w3.org/TR/WGSL/ besides that I was using naga's tests for reference https://github.com/gfx-rs/naga/tree/master/tests
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How are Vulkan, CUDA, Triton and all other things connected?
For cross-platform support look at WebGPU and Vulkan (e.g,: [0] [1]. Essentially, you would need to write the func in WGSL or GLSL, HLSL or MSL. Each of these can be cross-compiled to SPIR-V (what Vulkan needs) with cross-compilers such as spirv-cross and naga.
Vulkan-Docs
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GPU synchronization in Godot 4.3 is getting a major upgrade
Pipelines (or in general terms PSOs) are the most problematic aspect of Vulkan / DX12 - much more than synchronization! Large parts of the gamedev industry seems to recognize all the performance issues with pipelines and therefore companies are experimenting with newer models like the VK_EXT_shader_object extension ("Vulkan without Pipelines": https://www.khronos.org/blog/you-can-use-vulkan-without-pipe...).
I've written a detailed comment about this before here (https://news.ycombinator.com/item?id=37843946#37845431) but for a much more comprehensive explanation by an engineer from Nintendo read the initial proposal for the VK_EXT_shader_object extension: https://github.com/KhronosGroup/Vulkan-Docs/blob/main/propos...).
There's also Casey Muratori's mail to the Vulkan advisory on 2015 that basically predicts this whole clusterfuck would happen: https://github.com/cmuratori/misc/blob/main/vulkan_dynamic_s...
- Vulkan 1.3.273 spec update
- [Roadmap Feedback] Function Pointers with some limitations
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New Vulkan Documentation Website
Apple -> MoltenVK is an emulation layer and doesn't give you as much control as using Metal directly.
Nintendo and Sony prefer their own APIs, NVN and LibGNM, and AIUI Vulkan is a second-class API on those platforms which does not offer as much power, it is widely understood studios use NVN and LibGNM to get access to the real hardware on those platforms.
Windows/AMD/NVidia/Intel -> HW manufacturers tend to prototype and release new features with D3D first and then 'backport' them to Vulkan after a while. DirectX 12 for example had mesh shaders for over 2 years before Vulkan got a vendor neutral extension for them[0]
Android and Linux are the only platform where Vulkan is a first-class citizen.
You could maybe argue Nvidia treats Vulkan as a first-class citizen because they tend to have vendor-specific Vulkan extensions for the latest features available before anyone else. But otherwise, no, Vulkan is not a first-class API anywhere except Linux and Android.
Graphics API wars are alive and well.
[0] https://github.com/KhronosGroup/Vulkan-Docs/issues/1423
- Vulkan 1.3.267 spec update
- Vulkan 1.3.266 spec update
- Vulkan 1.3.262 spec update
- Vulkan 1.3.260 spec update
- Vulkan 1.3.257 spec update
- Vulkan 1.3.256 spec update
What are some alternatives?
wgsl-cheat-sheet - Cheat sheet for WGSL syntax for developers coming from GLSL.
shaderc - A collection of tools, libraries, and tests for Vulkan shader compilation.
vkd3d-proton - Fork of VKD3D. Development branches for Proton's Direct3D 12 implementation.
wgsl.vim - WGSL syntax highlight for vim
webgpu-wgsl-hello-triangle - An example of how to render a triangle with WebGPU using WebGPU Shading Language - the "Hello world!" of computer graphics.
wgsl-mode - Emacs syntax highlighting for the WebGPU Shading Language (WGSL)
Vulkan-Headers - Vulkan header files and API registry
gpuweb - Where the GPU for the Web work happens!
WASI - WebAssembly System Interface
vscode-wgsl - VsCode Syntax highlight for WGSL files
Vulkan - Examples and demos for the new Vulkan API