/CLIP-ONNX

It is a simple library to speed up CLIP inference up to 3x (K80 GPU)

Primary LanguagePythonMIT LicenseMIT

CLIP-ONNX

It is a simple library to speed up CLIP inference up to 3x (K80 GPU)!

Open In Colab Open AI CLIP

Open In Colab RuCLIP Example

Open In Colab RuCLIP tiny Example

Usage

Install clip-onnx module and requirements first. Use this trick

!pip install git+https://github.com/Lednik7/CLIP-ONNX.git
!pip install git+https://github.com/openai/CLIP.git
!pip install onnxruntime-gpu

Example in 3 steps

  1. Download CLIP image from repo
!wget -c -O CLIP.png https://github.com/openai/CLIP/blob/main/CLIP.png?raw=true
  1. Load standard CLIP model, image, text on cpu
import clip
from PIL import Image
import numpy as np

# onnx cannot work with cuda
model, preprocess = clip.load("ViT-B/32", device="cpu", jit=False)

# batch first
image = preprocess(Image.open("CLIP.png")).unsqueeze(0).cpu() # [1, 3, 224, 224]
image_onnx = image.detach().cpu().numpy().astype(np.float32)

# batch first
text = clip.tokenize(["a diagram", "a dog", "a cat"]).cpu() # [3, 77]
text_onnx = text.detach().cpu().numpy().astype(np.int32)
  1. Create CLIP-ONNX object to convert model to onnx
from clip_onnx import clip_onnx

visual_path = "clip_visual.onnx"
textual_path = "clip_textual.onnx"

onnx_model = clip_onnx(model, visual_path=visual_path, textual_path=textual_path)
onnx_model.convert2onnx(image, text, verbose=True)
# ['TensorrtExecutionProvider', 'CUDAExecutionProvider', 'CPUExecutionProvider']
onnx_model.start_sessions(providers=["CPUExecutionProvider"]) # cpu mode
  1. Use for standard CLIP API. Batch inference
image_features = onnx_model.encode_image(image_onnx)
text_features = onnx_model.encode_text(text_onnx)

logits_per_image, logits_per_text = onnx_model(image_onnx, text_onnx)
probs = logits_per_image.softmax(dim=-1).detach().cpu().numpy()

print("Label probs:", probs)  # prints: [[0.9927937  0.00421067 0.00299571]]

Enjoy the speed

Load saved model

Example for ViT-B/32 from Model Zoo

!wget https://clip-as-service.s3.us-east-2.amazonaws.com/models/onnx/ViT-B-32/visual.onnx
!wget https://clip-as-service.s3.us-east-2.amazonaws.com/models/onnx/ViT-B-32/textual.onnx
onnx_model = clip_onnx(None)
onnx_model.load_onnx(visual_path="visual.onnx",
                     textual_path="textual.onnx",
                     logit_scale=100.0000) # model.logit_scale.exp()
onnx_model.start_sessions(providers=["CPUExecutionProvider"])

Model Zoo

Models of the original CLIP can be found on this page.
They are not part of this library but should work correctly.

If something doesn't work

It happens that onnx does not convert the model the first time, in these cases it is worth trying to run it again.

If it doesn't help, it makes sense to change the export settings.

Model export options in onnx looks like this:

DEFAULT_EXPORT = dict(input_names=['input'], output_names=['output'],
                      export_params=True, verbose=False, opset_version=12,
                      do_constant_folding=True,
                      dynamic_axes={'input': {0: 'batch_size'}, 'output': {0: 'batch_size'}})

You can change them pretty easily.

from clip_onnx.utils import DEFAULT_EXPORT

DEFAULT_EXPORT["opset_version"] = 15

Alternative option (change only visual or textual):

from clip_onnx import clip_onnx
from clip_onnx.utils import DEFAULT_EXPORT

visual_path = "clip_visual.onnx"
textual_path = "clip_textual.onnx"

textual_export_params = DEFAULT_EXPORT.copy()
textual_export_params["dynamic_axes"] = {'input': {1: 'batch_size'},
                                         'output': {0: 'batch_size'}}
textual_export_params["opset_version"] = 12

Textual = lambda x: x

onnx_model = clip_onnx(model.cpu(), visual_path=visual_path, textual_path=textual_path)
onnx_model.convert2onnx(dummy_input_image, dummy_input_text, verbose=True,
                        textual_wrapper=Textual,
                        textual_export_params=textual_export_params)

Best practices

See benchmark.md

Examples

See examples folder for more details
Some parts of the code were taken from the post. Thank you neverix for this notebook.