xinfer 0.2.0

A unified interface to run inference on machine learning libraries.

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🤔 Why x.infer?

So, a new computer vision model just dropped last night. It's called GPT-54o-mini-vision-pro-max-xxxl. It's a super cool model, open-source, open-weights, open-data, all the good stuff.

You're excited. You want to try it out.

But it's written in a new framework, TyPorch that you know nothing about. You don't want to spend a weekend learning TyPorch just to find out the model is not what you expected.

This is where x.infer comes in.

x.infer is a simple library that allows you to run inference with any computer vision model in just a few lines of code. All in Python.

Out of the box, x.infer supports the following frameworks:

Combined, x.infer supports over 1000+ models from all the above frameworks.

Tasks supported:

Run any supported model using the following 4 lines of code:

import xinfer

model = xinfer.create_model("vikhyatk/moondream2")
model.infer(image, prompt)         # Run single inference
model.infer_batch(images, prompts) # Run batch inference
model.launch_gradio()              # Launch Gradio interface

Have a custom model? Create a class that implements the BaseModel interface and register it with x.infer. See Add Your Own Model for more details.

🌟 Key Features

• Unified Interface: Interact with different computer vision frameworks through a single, consistent API.
• Modular Design: Integrate and swap out models without altering the core framework.
• Extensibility: Add support for new models and libraries with minimal code changes.

🚀 Quickstart

Here's a quick example demonstrating how to use x.infer with a Transformers model:

import xinfer

model = xinfer.create_model("vikhyatk/moondream2")

image = "https://raw.githubusercontent.com/vikhyat/moondream/main/assets/demo-1.jpg"
prompt = "Describe this image. "

model.infer(image, prompt)

>>> An animated character with long hair and a serious expression is eating a large burger at a table, with other characters in the background.

🛠️ Usage

List Models

xinfer.list_models()

       Available Models                                      
┏━━━━━━━━━━━━━━━━┳━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━┳━━━━━━━━━━━━━━━━━━━━━━┓
┃ Implementation ┃ Model ID                                              ┃ Input --> Output     ┃
┡━━━━━━━━━━━━━━━━╇━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━╇━━━━━━━━━━━━━━━━━━━━━━┩
│ timm           │ timm/eva02_large_patch14_448.mim_m38m_ft_in22k_in1k   │ image --> categories │
│ timm           │ timm/eva02_large_patch14_448.mim_m38m_ft_in1k         │ image --> categories │
│ timm           │ timm/eva02_large_patch14_448.mim_in22k_ft_in22k_in1k  │ image --> categories │
│ timm           │ timm/eva02_large_patch14_448.mim_in22k_ft_in1k        │ image --> categories │
│ timm           │ timm/eva02_base_patch14_448.mim_in22k_ft_in22k_in1k   │ image --> categories │
│ timm           │ timm/eva02_base_patch14_448.mim_in22k_ft_in1k         │ image --> categories │
│ timm           │ timm/eva02_small_patch14_336.mim_in22k_ft_in1k        │ image --> categories │
│ timm           │ timm/eva02_tiny_patch14_336.mim_in22k_ft_in1k         │ image --> categories │
│ transformers   │ Salesforce/blip2-opt-6.7b-coco                        │ image-text --> text  │
│ transformers   │ Salesforce/blip2-flan-t5-xxl                          │ image-text --> text  │
│ transformers   │ Salesforce/blip2-opt-6.7b                             │ image-text --> text  │
│ transformers   │ Salesforce/blip2-opt-2.7b                             │ image-text --> text  │
│ transformers   │ fancyfeast/llama-joycaption-alpha-two-hf-llava        │ image-text --> text  │
│ transformers   │ vikhyatk/moondream2                                   │ image-text --> text  │
│ transformers   │ sashakunitsyn/vlrm-blip2-opt-2.7b                     │ image-text --> text  │
│ ultralytics    │ ultralytics/yolov8x                                   │ image --> boxes      │
│ ultralytics    │ ultralytics/yolov8m                                   │ image --> boxes      │
│ ultralytics    │ ultralytics/yolov8l                                   │ image --> boxes      │
│ ultralytics    │ ultralytics/yolov8s                                   │ image --> boxes      │
│ ultralytics    │ ultralytics/yolov8n                                   │ image --> boxes      │
│ ...            │ ...                                                   │ ...                  │
│ ...            │ ...                                                   │ ...                  │
└────────────────┴───────────────────────────────────────────────────────┴──────────────────────┘

If you're running in a Juypter Notebook environment, you can specify interactive=True to list and search supported models interactively.

https://github.com/user-attachments/assets/d51cf707-2001-478c-881a-ae27f690d1bc

Gradio Interface

For all supported models, you can launch a Gradio interface to interact with the model. This is useful for quickly testing the model and visualizing the results.

Once the model is created, you can launch the Gradio interface with the following line of code:

model.launch_gradio()

https://github.com/user-attachments/assets/25ce31f3-c9e2-4934-b341-000a6d1b7dc4

If you'd like to launch a Gradio interface with all models available in a dropdown, you can use the following line of code:

xinfer.launch_gradio_demo()

https://github.com/user-attachments/assets/bd46f55a-573f-45b9-910f-e22bee27fd3d

See Gradio Demo for more details.

Serve Model

If you're happy with your model, you can serve it with x.infer.

xinfer.serve_model("vikhyatk/moondream2")

This will start a FastAPI server at http://localhost:8000 powered by Ray Serve, allowing you to interact with your model through a REST API.

You can also specify deployment options such as the number of replicas and GPU requirements and host/port.

xinfer.serve_model(
    "vikhyatk/moondream2",
    device="cuda",
    dtype="float16",
    host="0.0.0.0",
    port=8000,
    deployment_kwargs={
        "num_replicas": 1, 
        "ray_actor_options": {"num_gpus": 1}
    }
)

Add Your Own Model

• Step 1: Create a new model class that implements the BaseModel interface.

• Step 2: Implement the required abstract methods load_model, infer, and infer_batch.

• Step 3: Decorate your class with the register_model decorator, specifying the model ID, implementation, and input/output.

For example:

@register_model("my-model", "custom", ModelInputOutput.IMAGE_TEXT_TO_TEXT)
class MyModel(BaseModel):
    def load_model(self):
        # Load your model here
        pass

    def infer(self, image, prompt):
        # Run single inference 
        pass

    def infer_batch(self, images, prompts):
        # Run batch inference here
        pass

See an example implementation of the Molmo model here.

📦 Installation

[!IMPORTANT] You must have PyTorch installed to use x.infer.

To install the barebones x.infer (without any optional dependencies), run:

pip install xinfer

x.infer can be used with multiple optional dependencies. You'll just need to install one or more of the following:

pip install "xinfer[transformers]"
pip install "xinfer[ultralytics]"
pip install "xinfer[timm]"
pip install "xinfer[vllm]"

To install all optional dependencies, run:

pip install "xinfer[all]"

To install from a local directory, run:

git clone https://github.com/dnth/x.infer.git
cd x.infer
pip install -e .

🤖 Supported Models

Model	Usage
BLIP2 Series	xinfer.create_model("Salesforce/blip2-opt-2.7b")
Moondream2	xinfer.create_model("vikhyatk/moondream2")
VLRM-BLIP2	xinfer.create_model("sashakunitsyn/vlrm-blip2-opt-2.7b")
JoyCaption	xinfer.create_model("fancyfeast/llama-joycaption-alpha-two-hf-llava")
Llama-3.2 Vision Series	xinfer.create_model("meta-llama/Llama-3.2-11B-Vision-Instruct")
Florence-2 Series	xinfer.create_model("microsoft/Florence-2-base-ft")

You can also load any AutoModelForVision2Seq model from Transformers by using the Vision2SeqModel class.

from xinfer.transformers import Vision2SeqModel

model = Vision2SeqModel("facebook/chameleon-7b")
model = xinfer.create_model(model)

All models from TIMM fine-tuned for ImageNet 1k are supported.

For example load a resnet18.a1_in1k model:

xinfer.create_model("timm/resnet18.a1_in1k")

You can also load any model (or a custom timm model) by using the TIMMModel class.

from xinfer.timm import TimmModel

model = TimmModel("resnet18")
model = xinfer.create_model(model)

Model	Usage
YOLOv8 Series	xinfer.create_model("ultralytics/yolov8n")
YOLOv10 Series	xinfer.create_model("ultralytics/yolov10x")
YOLOv11 Series	xinfer.create_model("ultralytics/yolov11s")

You can also load any model from Ultralytics by using the UltralyticsModel class.

from xinfer.ultralytics import UltralyticsModel

model = UltralyticsModel("yolov5n6u")
model = xinfer.create_model(model)

Model	Usage
Molmo-72B	xinfer.create_model("vllm/allenai/Molmo-72B-0924")
Molmo-7B-D	xinfer.create_model("vllm/allenai/Molmo-7B-D-0924")
Molmo-7B-O	xinfer.create_model("vllm/allenai/Molmo-7B-O-0924")
Phi-3.5-vision-instruct	xinfer.create_model("vllm/microsoft/Phi-3.5-vision-instruct")
Phi-3-vision-128k-instruct	xinfer.create_model("vllm/microsoft/Phi-3-vision-128k-instruct")

To use Ollama models, you'll need to install the Ollama on your machine. See Ollama Installation Guide for more details.

Model	Usage
LLaVA Phi3	xinfer.create_model("ollama/llava-phi3")

🤝 Contributing

If you'd like to contribute, here are some ways you can help:

1. Add support for new models: Implement new model classes following the steps in the Adding New Models section.

2. Improve documentation: Help us enhance our documentation, including this README, inline code comments, and the official docs.

3. Report bugs: If you find a bug, please open an issue with a clear description and steps to reproduce.

4. Suggest enhancements: Have ideas for new features? Open a feature request.

5. Submit pull requests: Feel free to fork the repository and submit pull requests for any improvements you've made.

Please also see the code of conduct here. Thank you for helping make x.infer better!

⚠️ Disclaimer

x.infer is not affiliated with any of the libraries it supports. It is a simple wrapper that allows you to run inference with any of the supported models.

Although x.infer is Apache 2.0 licensed, the models it supports may have their own licenses. Please check the individual model repositories for more details.

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