Implementation of popular SOTA self-supervised learning algorithms as Fastai Callbacks.

CI PyPI DOI

Install

pip install self-supervised

Documentation

Please read the documentation here.

To go back to github repo please click here.

Algorithms

Please read the papers or blog posts before getting started with an algorithm, you may also check out documentation page of each algorithm to get a better understanding.

Here are the list of implemented self_supervised.vision algorithms:

Here are the list of implemented self_supervised.multimodal algorithms:

  • CLIP
  • CLIP-MoCo (No paper, own idea)

For vision algorithms all models from timm and fastai can be used as encoders.

For multimodal training currently CLIP supports ViT-B/32 and ViT-L/14, following best architectures from the paper.

Simple Usage

Vision

SimCLR

from self_supervised.vision.simclr import *
dls = get_dls(resize, bs)
# encoder = create_encoder("xresnet34", n_in=3, pretrained=False) # a fastai encoder
encoder = create_encoder("tf_efficientnet_b4_ns", n_in=3, pretrained=False) # a timm encoder
model = create_simclr_model(encoder, hidden_size=2048, projection_size=128)
aug_pipelines = get_simclr_aug_pipelines(size=size)
learn = Learner(dls,model,cbs=[SimCLR(aug_pipelines, temp=0.07)])
learn.fit_flat_cos(100, 1e-2)

MoCo

from self_supervised.vision.moco import *
dls = get_dls(resize, bs)
# encoder = create_encoder("xresnet34", n_in=3, pretrained=False) # a fastai encoder
encoder = create_encoder("tf_efficientnet_b4_ns", n_in=3, pretrained=False) # a timm encoder
model = create_moco_model(encoder, hidden_size=2048, projection_size=128)
aug_pipelines = get_moco_aug_pipelines(size=size)
learn = Learner(dls, model,cbs=[MOCO(aug_pipelines=aug_pipelines, K=128)])
learn.fit_flat_cos(100, 1e-2)

BYOL

from self_supervised.vision.byol import *
dls = get_dls(resize, bs)
# encoder = create_encoder("xresnet34", n_in=3, pretrained=False) # a fastai encoder
encoder = create_encoder("tf_efficientnet_b4_ns", n_in=3, pretrained=False) # a timm encoder
model = create_byol_model(encoder, hidden_size=2048, projection_size=128)
aug_pipelines = get_byol_aug_pipelines(size=size)
learn = Learner(dls, model,cbs=[BYOL(aug_pipelines=aug_pipelines)])
learn.fit_flat_cos(100, 1e-2)

SWAV

from self_supervised.vision.swav import *
dls = get_dls(resize, bs)
encoder = create_encoder("xresnet34", n_in=3, pretrained=False) # a fastai encoder
encoder = create_encoder("tf_efficientnet_b4_ns", n_in=3, pretrained=False) # a timm encoder
model = create_swav_model(encoder, hidden_size=2048, projection_size=128)
aug_pipelines = get_swav_aug_pipelines(num_crops=[2,6],
                                       crop_sizes=[128,96], 
                                       min_scales=[0.25,0.05],
                                       max_scales=[1.0,0.3])
learn = Learner(dls, model, cbs=[SWAV(aug_pipelines=aug_pipelines, crop_assgn_ids=[0,1], K=bs*2**6, queue_start_pct=0.5)])
learn.fit_flat_cos(100, 1e-2)

Barlow Twins

from self_supervised.vision.simclr import *
dls = get_dls(resize, bs)
# encoder = create_encoder("xresnet34", n_in=3, pretrained=False) # a fastai encoder
encoder = create_encoder("tf_efficientnet_b4_ns", n_in=3, pretrained=False) # a timm encoder
model = create_barlow_twins_model(encoder, hidden_size=2048, projection_size=128)
aug_pipelines = get_barlow_twins_aug_pipelines(size=size)
learn = Learner(dls,model,cbs=[BarlowTwins(aug_pipelines, lmb=5e-3)])
learn.fit_flat_cos(100, 1e-2)

DINO

from self_supervised.models.vision_transformer import *
from self_supervised.vision.dino import *
dls = get_dls(resize, bs)

deits16 = MultiCropWrapper(deit_small(patch_size=16, drop_path_rate=0.1))
dino_head = DINOHead(deits16.encoder.embed_dim, 2**16, norm_last_layer=True)
student_model = nn.Sequential(deits16,dino_head)

deits16 = MultiCropWrapper(deit_small(patch_size=16))
dino_head = DINOHead(deits16.encoder.embed_dim, 2**16, norm_last_layer=True)
teacher_model = nn.Sequential(deits16,dino_head)

dino_model = DINOModel(student_model, teacher_model)
aug_pipelines = get_dino_aug_pipelines(num_crops=[2,6],
                                       crop_sizes=[128,96], 
                                       min_scales=[0.25,0.05],
                                       max_scales=[1.0,0.3])
 learn = Learner(dls,model,cbs=[DINO(aug_pipelines=aug_pipelines)])
learn.fit_flat_cos(100, 1e-2)

SupCon

from self_supervised.vision.supcon import *
dls = get_dls(resize, bs)
# encoder = create_encoder("xresnet34", n_in=3, pretrained=False) # a fastai encoder
encoder = create_encoder("tf_efficientnet_b4_ns", n_in=3, pretrained=False) # a timm encoder
model = create_supcon_model(encoder, hidden_size=2048, projection_size=128)
aug_pipelines = get_supcon_aug_pipelines(size=size)
learn = Learner(dls,model,cbs=[SupCon(aug_pipelines, unsup_class_id, unsup_method=UnsupMethod.All,                                               reg_lambda=1.0, temp=0.07)])
learn.fit_flat_cos(100, 1e-2)

Multimodal

CLIP

from self_supervised.multimodal.clip import *
dls = get_dls(...)
clip_tokenizer = ClipTokenizer()
vitb32_config_dict = vitb32_config(224, clip_tokenizer.context_length, clip_tokenizer.vocab_size)
clip_model = CLIP(**vitb32_config_dict, checkpoint=False, checkpoint_nchunks=0)
learner = Learner(dls, clip_model, loss_func=noop, cbs=[CLIPTrainer()])
learn.fit_flat_cos(100, 1e-2)

CLIP-MoCo

from self_supervised.multimodal.clip_moco import *
dls = get_dls(...)
clip_tokenizer = ClipTokenizer()
vitb32_config_dict = vitb32_config(224, clip_tokenizer.context_length, clip_tokenizer.vocab_size)
clip_model = CLIPMOCO(K=4096,m=0.999, **vitb32_config_dict, checkpoint=False, checkpoint_nchunks=0)
learner = Learner(dls, clip_model, loss_func=noop, cbs=[CLIPMOCOTrainer()])
learn.fit_flat_cos(100, 1e-2)

ImageWang Benchmarks

All of the algorithms implemented in this library have been evaluated in ImageWang Leaderboard.

In overall superiority of the algorithms are as follows SwAV > MoCo > BYOL > SimCLR in most of the benchmarks. For details you may inspect the history of ImageWang Leaderboard through github.

BarlowTwins is still under testing on ImageWang.

It should be noted that during these experiments no hyperparameter selection/tuning was made beyond using learn.lr_find() or making sanity checks over data augmentations by visualizing batches. So, there is still space for improvement and overall rankings of the alogrithms may change based on your setup. Yet, the overall rankings are on par with the papers.

Contributing

Contributions and or requests for new self-supervised algorithms are welcome. This repo will try to keep itself up-to-date with recent SOTA self-supervised algorithms.

Before raising a PR please create a new branch with name <self-supervised-algorithm>. You may refer to previous notebooks before implementing your Callback.

Please refer to sections Developers Guide, Abbreviations Guide, and Style Guide from https://docs.fast.ai/dev-setup and note that same rules apply for this library.