Transfer Learning Shootout for PyTorch's model zoo (torchvision)

Last update: Jun 29, 2022

Overview

pytorch-retraining

Transfer Learning shootout for PyTorch's model zoo (torchvision).

Load any pretrained model with custom final layer (num_classes) from PyTorch's model zoo in one line

model_pretrained, diff = load_model_merged('inception_v3', num_classes)

Retrain minimal (as inferred on load) or a custom amount of layers on multiple GPUs. Optionally with Cyclical Learning Rate (Smith 2017).

final_param_names = [d[0] for d in diff]
stats = train_eval(model_pretrained, trainloader, testloader, final_params_names)

Chart training_time, evaluation_time (fps), top-1 accuracy for varying levels of retraining depth (shallow, deep and from scratch)


Transfer learning on example dataset Bee vs Ants with 2xV100 GPUs

Results on more elaborate Dataset

num_classes = 23, slightly unbalanced, high variance in rotation and motion blur artifacts with 1xGTX1080Ti


Constant LR with momentum


Cyclical Learning Rate

Owner

Alexander Hirner

<3 smart people, smart devices>>> CTO moonvision.io (Computer Vision + Data Markets)^2

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