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# Image Embedding with ISC
*author: Jael Gu*
<br />
## Description
An image embedding operator generates a vector given an image.
This operator extracts features for image top ranked models from
[Image Similarity Challenge 2021](https://github.com/facebookresearch/isc2021) - Descriptor Track.
The default pretrained model weights are from [The 1st Place Solution of ISC21 (Descriptor Track)](https://github.com/lyakaap/ISC21-Descriptor-Track-1st).
<br />
## Code Example
Load an image from path './towhee.jpg'
and use the pretrained ISC model to generate an image embedding.
*Write a pipeline with explicit inputs/outputs name specifications:*
```python
from towhee.dc2 import pipe, ops, DataCollection
p = (
pipe.input('path')
.map('path', 'img', ops.image_decode())
.map('img', 'vec', ops.image_embedding.isc())
.output('img', 'vec')
)
DataCollection(p('towhee.jpg')).show()
```
<img src="./result.png" height="150px"/>
<br />
## Factory Constructor
Create the operator via the following factory method
***image_embedding.isc(skip_preprocess=False, device=None)***
**Parameters:**
***skip_preprocess:*** *bool*
The flag to control whether to skip image preprocess.
The default value is False.
If set to True, it will skip image preprocessing steps (transforms).
In this case, input image data must be prepared in advance in order to properly fit the model.
***device:*** *str*
The device to run this operator, defaults to None.
When it is None, 'cuda' will be used if it is available, otherwise 'cpu' is used.
<br />
## Interface
An image embedding operator takes a towhee image as input.
It uses the pre-trained model specified by model name to generate an image embedding in ndarray.
**Parameters:**
***img:*** *towhee.types.Image (a sub-class of numpy.ndarray)*
The decoded image data in numpy.ndarray.
**Returns:** *numpy.ndarray*
The image embedding extracted by model.
<br />
***save_model(format='pytorch', path='default')***
Save model to local with specified format.
**Parameters:**
***format***: *str*
​ The format of saved model, defaults to 'pytorch'.
***path***: *str*
​ The path where model is saved to. By default, it will save model to the operator directory.
```python
from towhee import ops
op = ops.image_embedding.isc(device='cpu').get_op()
op.save_model('onnx', 'test.onnx')
```
## Fine-tune
### Requirements
If you want to fine tune this operator, make sure your timm version is 0.4.12, and the higher version would cause model collapse during training.
```python
! python -m pip install tqdm augly timm==0.4.12 pytorch-metric-learning==0.9.99
```
### Download dataset
Your need to download dataset from [Facebook AI Image Similarity Challenge: Descriptor Track](https://www.drivendata.org/competitions/79/competition-image-similarity-1-dev/), and use the `./training_images` folder as your training images root. It requires about 165G space.
### Get started to fine-tune
Just call method op.train() and pass in your args.
```python
import towhee
op = towhee.ops.image_embedding.isc().get_op()
op.train(training_args={
'train_data_dir': './training_images',
'distributed': False,
'output_dir': './output',
'gpu': 0,
'epochs': 2,
'batch_size': 128,
'init_lr': 0.1
})
```
These are each arg infos in training_args:
- output_dir
- default: './output'
- metadata_dict: {'help': 'output checkpoint saving dir.'}
- distributed
- default: False
- metadata_dict: {'help': 'If true, use all gpu in your machine, else use only one gpu.'}
- gpu
- default: 0
- metadata_dict: {'help': 'When distributed is False, use this gpu No. in your machine.'}
- start_epoch
- default: 0
- metadata_dict: {'help': 'Start epoch number.'}
- epochs
- default: 6
- metadata_dict: {'help': 'End epoch number.'}
- batch_size
- default: 128
- metadata_dict: {'help': 'Total batch size in all gpu.'}
- init_lr
- default: 0.1
- metadata_dict: {'help': 'init learning rate in SGD.'}
- train_data_dir
- default: None
- metadata_dict: {'help': 'The dir containing all training data image files.'}
### Your custom training
Your can change [training script](https://towhee.io/image-embedding/isc/src/branch/main/train_isc.py) in your way.
Or your can refer to the [original repo](https://github.com/lyakaap/ISC21-Descriptor-Track-1st) and [paper](https://arxiv.org/abs/2112.04323) to learn more about contrastive learning and image instance retrieval.