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JFLUX

PRs Welcome

JAX Implementation flax.nnx of Black Forest Labs' FLUX Family of Models. JFLUX is a port from the official PyTorch implementation into JAX, using the flax.nnx framework.

Features

  • Full JAX Implementation: The FLUX.1 family of models, originally built in PyTorch, have been fully re-implemented in JAX.
  • Support for Flux Variants: Includes support for FLUX.1 variants namely schnell and dev. (tested on schnell on an A100)
  • Open-Source and Community-Driven: We encourage contributions and collaboration to further improve the performance and capabilities of this repository. (Refer to the Roadmap Section for more details)

Installation

To get started, follow these simple steps:

  1. Clone the repository:
    git clone https://github.com/ml-gde/jflux.git
    cd jflux
  2. With python version >=3.10, run the model with a prompt (install uv beforehand):
    uv run jflux

Note

This might help 😃

uv python install 3.10
uv python pin 3.10

If you don't have uv you can run the following command to get running.

For GPU:

cd jflux && pip install -U pip && pip install -e .[gpu]

For TPU:

cd jflux && pip install -U pip && pip install -e .[tpu]

Usage

Once installed, JFLUX can be used to generate high-quality images from text prompts via a cli. For example:

uv run jflux --prompt "A cute dog"

Additional options are available to adjust resolution, sampling steps, and more.

CLI Overview
NAME
 jflux - Sample the flux model. Either interactively (set `--loop`) or run for a single image.

SYNOPSIS
    jflux <flags>

DESCRIPTION
    Sample the flux model. Either interactively (set `--loop`) or run for a single image.

FLAGS
 --name=NAME
     Type: str
     Default: 'flux-schnell'
     Name of the model to load
 -w, --width=WIDTH
     Type: int
     Default: 1360
     width of the sample in pixels (should be a multiple of 16)
 -h, --height=HEIGHT
     Type: int
     Default: 768
     height of the sample in pixels (should be a multiple of 16)
 -s, --seed=SEED
     Type: Optional[int | None]
     Default: None
     Set a seed for sampling
 -p, --prompt=PROMPT
     Type: str
     Default: 'a photo of a forest with mist swirling around the tree trun...'
     Prompt used for sampling
 --num_steps=NUM_STEPS
     Type: Optional[int | None]
     Default: None
     number of sampling steps (default 4 for schnell, 50 for guidance distilled)
 -l, --loop=LOOP
     Type: bool
     Default: False
     start an interactive session and sample multiple times
 -g, --guidance=GUIDANCE
     Type: float
     Default: 3.5
     guidance value used for guidance distillation
 --offload=OFFLOAD
     Type: bool
     Default: True
 --output_dir=OUTPUT_DIR
     Type: str
     Default: 'output'
 -a, --add_sampling_metadata=ADD_SAMPLING_METADATA
     Type: bool
     Default: True
     Add the prompt to the image Exif metadata

Some Results

Image Prompt PRNG
a photo of a forest with mist swirling around the tree trunks. The word "FLUX" is painted over it in big, red brush strokes with visible texture 42
a cute dog 42
a photo of a forest with mist swirling around the tree trunks. 42
a photo of a forest with mist swirling around the tree trunks. The word "JFLUX" is painted over it in big, red brush strokes with visible texture 42
a photo of a forest with mist swirling around the tree trunks. The word "JFLUX" is painted over it in big, red brush strokes with visible texture 102333

Hiccups and Known Issues

There are a few challenges we’re actively working to resolve. We encourage contributions from the community to help improve the project:

  • No TPU Support: As of now, the code does not support TPUs.
  • High VRAM Requirements: Running flux-schnell currently requires 40 GB of VRAM (A100 or higher).
  • Image Generation Time: Image generation takes longer than expected, especially for high-resolution outputs (takes ~51s on an A100).
  • bfloat16 Upcasting: Weights are upcasted from bfloat16 to fp32 because NumPy does not handle bf16 natively, leading to some inefficiencies.
  • porting weights: Currently, we load pytorch weights and convert them to JAX tensors during inference; however, it would be ideal if, after the first run, we serialise the next weights to avoid redundant conversions in each run.
  • pure JAX inference: As of now, we load the t5 and clip models as torch Module and wrap their outputs as JAX arrays. This prevents OOM while inference; having a pure JAX inference pipeline would be ideal.

Roadmap

  • Add TPU support (#19) (fixed in #25)
  • Optimize VRAM usage with gradient checkpointing (#20)
  • Explore further optimizations for image generation time
  • Improve the handling of bfloat16 tensors with JAX
  • Serialise nnx weights during cli run (#22)
  • Port t5 and clip models to nnx.Module (#21)

Acknowledgements

We’d like to extend our gratitude to those who have supported and guided this project:

Special thanks to Black Forest Labs for the original FLUX implementation.

License

This project is licensed under the same license as the black-forest-labs/flux repository

References

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JAX Implementation of Black Forest Labs' Flux.1 family of models

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