A rusty robot holding a fire torch, generated by stable diffusion using Rust and libtorch.
The diffusers crate is a Rust equivalent to Huggingface's amazing
diffusers Python library.
It is based on the tch crate.
The implementation supports running Stable Diffusion v1.5 and v2.1.
The weight files can be retrieved from the HuggingFace model repos and should be
moved in the data/ directory.
- For Stable Diffusion v2.1, get the
bpe_simple_vocab_16e6.txt,clip_v2.1.safetensors,unet_v2.1.safetensors, andvae_v2.1.safetensorsfiles from the v2.1 repo. - For Stable Diffusion v1.5, get the
bpe_simple_vocab_16e6.txt,pytorch_model.safetensors,unet.safetensors, andvae.safetensorsfiles from this v1.5 repo. - Alternatively, you can run the following python script.
# Add --sd_version 1.5 to get the v1.5 weights rather than the v2.1.
python3 ./scripts/get_weights.pycargo run --example stable-diffusion --features clap -- --prompt "A rusty robot holding a fire torch."The final image is named sd_final.png by default.
The default scheduler is the Denoising Diffusion Implicit Model scheduler (DDIM). The
original paper and some code can be found in the associated repo.
This generates some images of rusty robots holding some torches!
The stable diffusion model can also be used to generate an image based on another image. The following command runs this image to image pipeline:
cargo run --example stable-diffusion-img2img --features clap -- --input-image media/in_img2img.jpgThe default prompt is "A fantasy landscape, trending on artstation.", but can
be changed via the -prompt flag.
Inpainting can be used to modify an existing image based on a prompt and modifying the part of the
initial image specified by a mask.
This requires different unet weights unet-inpaint.safetensors that could also be retrieved from this
repo and should also be
placed in the data/ directory.
The following command runs this image to image pipeline:
wget https://raw.githubusercontent.com/CompVis/latent-diffusion/main/data/inpainting_examples/overture-creations-5sI6fQgYIuo.png -O sd_input.png
wget https://raw.githubusercontent.com/CompVis/latent-diffusion/main/data/inpainting_examples/overture-creations-5sI6fQgYIuo_mask.png -O sd_mask.png
cargo run --example stable-diffusion-inpaint --features clap --input-image sd_input.png --mask-image sd_mask.pngThe default prompt is "Face of a yellow cat, high resolution, sitting on a park bench.", but can
be changed via the -prompt flag.
The ControlNet architecture can be
used to control how stable diffusion generate images. This is to be used with
the weights for stable diffusion 1.5 (see how to get these above). Additional
weights have to be retrieved from this HuggingFace
repo
and copied in data/controlnet.safetensors.
The ControlNet pipeline takes as input a sample image, in the default mode it will perform edge detection on this image using the Canny edge detector and will use the resulting edge image as a guide.
cargo run --example controlnet --features clap,image,imageproc -- \
--prompt "a rusty robot, lit by a fire torch, hd, very detailed" \
--input-image media/vermeer.jpgThe media/vermeer.jpg image is the well known painting on the left hand side,
this results in the right hand side image after performing edge detection.
Using only the edge detection image, the ControlNet model generate the following samples.
This requires a GPU with more than 8GB of memory, as a fallback the CPU version can be used but is slower.
cargo run --example stable-diffusion --features clap -- --prompt "A very rusty robot holding a fire torch." --cpu allFor a GPU with 8GB, one can use the fp16 weights for the UNet and put only the UNet on the GPU.
PYTORCH_CUDA_ALLOC_CONF=garbage_collection_threshold:0.6,max_split_size_mb:128 RUST_BACKTRACE=1 CARGO_TARGET_DIR=target2 cargo run \
--example stable-diffusion --features clap -- --cpu vae --cpu clip \
--unet-weights data/unet-fp16.safetensors