Code of the paper "Multi-Task Meta-Learning Modification with Stochastic Approximation".

Related tags

Deep Learningdeep-learningpytorchimage-classificationmulti-task-learningmeta-learningfew-shotfew-shot-learningstochastic-approximation
Overview

Multi-Task Meta-Learning Modification with Stochastic Approximation

This repository contains the code for the paper
"Multi-Task Meta-Learning Modification with Stochastic Approximation".

Method pipeline

Dependencies

This code has been tested on Ubuntu 16.04 with Python 3.8 and PyTorch 1.8.

To install the required dependencies:

pip install -r requirements.txt

Usage

To reproduce the results on benchmarks described in our article, use the following scripts. To vary types of the experiments, change the parameters of the scripts responsible for benchmark dataset, shot and way (e.g. miniImageNet 1-shot 5-way or CIFAR-FS 5-shot 2-way).

MAML

Multi-task modification (MTM) for Model-Agnostic Meta-Learning (MAML) (Finn et al., 2017).

Multi-task modifications for MAML are trained on top of baseline MAML model which has to be trained beforehand.

To train MAML (reproduced) on miniImageNet 1-shot 2-way benchmark, run:

python maml/train.py ./datasets/ \
    --run-name reproduced-miniimagenet \
    --dataset miniimagenet \
    --num-ways 2 \
    --num-shots 1 \
    --num-steps 5 \
    --num-epochs 300 \
    --use-cuda \
    --output-folder ./results

To train MAML MTM SPSA-Track on miniImageNet 1-shot 2-way benchmark, run:

python maml/train.py ./datasets/ \
    --run-name mini-imagenet-mtm-spsa-track \
    --load "./results/reproduced-miniimagenet/model.th" \
    --dataset miniimagenet \
    --num-ways 2 \
    --num-shots 1 \
    --num-steps 5 \
    --task-weighting spsa-track \
    --normalize-spsa-weights-after 100 \
    --num-epochs 40 \
    --use-cuda \
    --output-folder ./results

To train MAML (reproduced) on tieredImageNet 1-shot 2-way benchmark, run:

python maml/train.py ./datasets/ \
    --run-name reproduced-tieredimagenet \
    --dataset tieredimagenet \
    --num-ways 2 \
    --num-shots 1 \
    --num-steps 5 \
    --num-epochs 300 \
    --use-cuda \
    --output-folder ./results

To train MAML MTM SPSA on tieredImageNet 1-shot 2-way benchmark, run:

python maml/train.py ./datasets/ \
    --run-name tiered-imagenet-mtm-spsa \
    --load "./results/reproduced-tieredimagenet/model.th" \
    --dataset tieredimagenet \
    --num-ways 2 \
    --num-shots 1 \
    --num-steps 5 \
    --task-weighting spsa-delta \
    --normalize-spsa-weights-after 100 \
    --num-epochs 40 \
    --use-cuda \
    --output-folder ./results

To train MAML (reproduced) on FC100 5-shot 5-way benchmark, run:

python maml/train.py ./datasets/ \
    --run-name reproduced-fc100 \
    --dataset fc100 \
    --num-ways 5 \
    --num-shots 5 \
    --num-steps 5 \
    --num-epochs 300 \
    --use-cuda \
    --output-folder ./results

To train MAML MTM SPSA-Coarse on FC100 5-shot 5-way benchmark, run:

python maml/train.py ./datasets/ \
    --run-name fc100-mtm-spsa-coarse \
    --load "./results/reproduced-fc100/model.th" \
    --dataset fc100 \
    --num-ways 5 \
    --num-shots 5 \
    --num-steps 5 \
    --task-weighting spsa-per-coarse-class \
    --num-epochs 40 \
    --use-cuda \
    --output-folder ./results

To train MAML (reproduced) on CIFAR-FS 1-shot 5-way benchmark, run:

python maml/train.py ./datasets/ \
    --run-name reproduced-cifar \
    --dataset cifarfs \
    --num-ways 5 \
    --num-shots 1 \
    --num-steps 5 \
    --num-epochs 600 \
    --use-cuda \
    --output-folder ./results

To train MAML MTM Inner First-Order on CIFAR-FS 1-shot 5-way benchmark, run:

python maml/train.py ./datasets/ \
    --run-name cifar-mtm-inner-first-order \
    --load "./results/reproduced-cifar/model.th" \
    --dataset cifarfs \
    --num-ways 5 \
    --num-shots 1 \
    --num-steps 5 \
    --task-weighting gradient-novel-loss \
    --use-inner-optimizer \
    --num-epochs 40 \
    --use-cuda \
    --output-folder ./results

To train MAML MTM Backprop on CIFAR-FS 1-shot 5-way benchmark, run:

python maml/train.py ./datasets/ \
    --run-name cifar-mtm-backprop \
    --load "./results/reproduced-cifar-5shot-5way/model.th" \
    --dataset cifarfs \
    --num-ways 5 \
    --num-shots 1 \
    --num-steps 5 \
    --task-weighting gradient-novel-loss \
    --num-epochs 40 \
    --use-cuda \
    --output-folder ./results

To test any of the above-described benchmarks, run:

python maml/test.py ./results/path-to-config/config.json --num-steps 10 --use-cuda

For instance, to test MAML MTM SPSA-Track on miniImageNet 1-shot 2-way benchmark, run:

python maml/test.py ./results/mini-imagenet-mtm-spsa-track/config.json --num-steps 10 --use-cuda

Prototypical Networks

Multi-task modification (MTM) for Prototypical Networks (ProtoNet) (Snell et al., 2017).

To train ProtoNet MTM SPSA-Track with ResNet-12 backbone on miniImageNet 1-shot 5-way benchmark, run:

python protonet/train.py \
    --dataset miniImageNet \
    --network ResNet12 \
    --tracking \
    --train-shot 1 \
    --train-way 5 \
    --val-shot 1 \
    --val-way 5

To test ProtoNet MTM SPSA-Track with ResNet-12 backbone on miniImageNet 1-shot 5-way benchmark, run:

python protonet/test.py --dataset miniImageNet --network ResNet12 --shot 1 --way 5

To train ProtoNet MTM Backprop with 64-64-64-64 backbone on CIFAR-FS 1-shot 2-way benchmark, run:

python protonet/train.py \
    --dataset CIFAR_FS \
    --train-weights \
    --train-weights-layer \
    --train-shot 1 \
    --train-way 2 \
    --val-shot 1 \
    --val-way 2

To test ProtoNet MTM Backprop with 64-64-64-64 backbone on CIFAR-FS 1-shot 5-way benchmark, run:

python protonet/test.py --dataset CIFAR_FS --shot 1 --way 2

To train ProtoNet MTM Inner First-Order with 64-64-64-64 backbone on FC100 10-shot 5-way benchmark, run:

python protonet/train.py \
    --dataset FC100 \
    --train-weights \
    --train-weights-opt \
    --train-shot 10 \
    --train-way 5 \
    --val-shot 10 \
    --val-way 5

To test ProtoNet MTM Inner First-Order with 64-64-64-64 backbone on FC100 10-shot 5-way benchmark, run:

python protonet/test.py --dataset FC100 --shot 10 --way 5

To train ProtoNet MTM SPSA with 64-64-64-64 backbone on tieredImageNet 5-shot 2-way benchmark, run:

python protonet/train.py \
    --dataset tieredImageNet \
    --train-shot 5 \
    --train-way 2 \
    --val-shot 5 \
    --val-way 2

To test ProtoNet MTM SPSA with 64-64-64-64 backbone on tieredImageNet 5-shot 2-way benchmark, run:

python protonet/test.py --dataset tieredImageNet --shot 5 --way 2

Acknowledgments

Our code uses some dataloaders from Torchmeta.

Code in maml folder is based on the extended implementation from Torchmeta and pytorch-maml. The code has been updated so that baseline scores more closely follow those of the original MAML paper.

Code in protonet folder is based on the implementation from MetaOptNet. All .py files in this folder except for dataloaders.py and optimize.py were adopted from this implementation and modified afterwards. A copy of Apache License, Version 2.0 is available in protonet folder.

Owner
Andrew
Andrew
GitHub Repository
Orbivator AI - To Determine which features of data (measurements) are most important for diagnosing breast cancer and find out if breast cancer occurs or not.

Orbivator_AI Breast Cancer Wisconsin (Diagnostic) GOAL To Determine which features of data (measurements) are most important for diagnosing breast can

anurag kumar singh 1 Jan 02, 2022
This repository is an implementation of paper : Improving the Training of Graph Neural Networks with Consistency Regularization

CRGNN Paper : Improving the Training of Graph Neural Networks with Consistency Regularization Environments Implementing environment: GeForce RTX™ 3090

THUDM 28 Dec 09, 2022
Multi-Task Deep Neural Networks for Natural Language Understanding

New Release We released Adversarial training for both LM pre-training/finetuning and f-divergence. Large-scale Adversarial training for LMs: ALUM code

Xiaodong 2.1k Dec 30, 2022
Additional code for Stable-baselines3 to load and upload models from the Hub.

Hugging Face x Stable-baselines3 A library to load and upload Stable-baselines3 models from the Hub. Installation With pip Examples [Todo: add colab t

Hugging Face 34 Dec 10, 2022
Galaxy images labelled by morphology (shape). Aimed at ML development and teaching

Galaxy images labelled by morphology (shape). Aimed at ML debugging and teaching.

Mike Walmsley 14 Nov 28, 2022
bio_inspired_min_nets_improve_the_performance_and_robustness_of_deep_networks

Code Submission for: Bio-inspired Min-Nets Improve the Performance and Robustness of Deep Networks Run with docker To build a docker environment, chan

0 Dec 09, 2021
Music Source Separation; Train & Eval & Inference piplines and pretrained models we used for 2021 ISMIR MDX Challenge.

Introduction 1. Usage (For MSS) 1.1 Prepare running environment 1.2 Use pretrained model 1.3 Train new MSS models from scratch 1.3.1 How to train 1.3.

Leo 100 Dec 25, 2022
Simple object detection app with streamlit

object-detection-app Simple object detection app with streamlit. Upload an image and perform object detection. Adjust the confidence threshold to see

Robin Cole 68 Jan 02, 2023
Code for the SIGIR 2022 paper "Hybrid Transformer with Multi-level Fusion for Multimodal Knowledge Graph Completion"

MKGFormer Code for the SIGIR 2022 paper "Hybrid Transformer with Multi-level Fusion for Multimodal Knowledge Graph Completion" Model Architecture Illu

ZJUNLP 68 Dec 28, 2022
Advanced yabai wooting scripts

Yabai Wooting scripts Installation requirements Both https://github.com/xiamaz/python-yabai-client and https://github.com/xiamaz/python-wooting-rgb ne

Max Zhao 3 Dec 31, 2021
Repository containing detailed experiments related to the paper "Memotion Analysis through the Lens of Joint Embedding".

Memotion Analysis Through The Lens Of Joint Embedding This repository contains the experiments conducted as described in the paper 'Memotion Analysis

Nethra Gunti 1 Mar 16, 2022
Unofficial PyTorch implementation of Masked Autoencoders Are Scalable Vision Learners

Unofficial PyTorch implementation of Masked Autoencoders Are Scalable Vision Learners This repository is built upon BEiT, thanks very much! Now, we on

Zhiliang Peng 2.3k Jan 04, 2023
PyTorch GPU implementation of the ES-RNN model for time series forecasting

Fast ES-RNN: A GPU Implementation of the ES-RNN Algorithm A GPU-enabled version of the hybrid ES-RNN model by Slawek et al that won the M4 time-series

Kaung 305 Jan 03, 2023
Tacotron 2 - PyTorch implementation with faster-than-realtime inference

Tacotron 2 (without wavenet) PyTorch implementation of Natural TTS Synthesis By Conditioning Wavenet On Mel Spectrogram Predictions. This implementati

NVIDIA Corporation 4.1k Jan 03, 2023
Computer Vision Paper Reviews with Key Summary of paper, End to End Code Practice and Jupyter Notebook converted papers

Computer-Vision-Paper-Reviews Computer Vision Paper Reviews with Key Summary along Papers & Codes. Jonathan Choi 2021 The repository provides 100+ Pap

Jonathan Choi 2 Mar 17, 2022
CMT: Convolutional Neural Networks Meet Vision Transformers

CMT: Convolutional Neural Networks Meet Vision Transformers [arxiv] 1. Introduction This repo is the CMT model which impelement with pytorch, no refer

FlyEgle 83 Dec 30, 2022
YOLOX Win10 Project

Introduction 这是一个用于Windows训练YOLOX的项目,相比于官方项目,做了一些适配和修改: 1、解决了Windows下import yolox失败,No such file or directory: 'xxx.xml'等路径问题 2、CUDA out of memory等显存不

5 Jun 08, 2022
[BMVC 2021] Official PyTorch Implementation of Self-supervised learning of Image Scale and Orientation Estimation

Self-Supervised Learning of Image Scale and Orientation Estimation (BMVC 2021) This is the official implementation of the paper "Self-Supervised Learn

Jongmin Lee 17 Nov 10, 2022
CR-FIQA: Face Image Quality Assessment by Learning Sample Relative Classifiability

This is the official repository of the paper: CR-FIQA: Face Image Quality Assessment by Learning Sample Relative Classifiability A private copy of the

Fadi Boutros 33 Dec 31, 2022
A treasure chest for visual recognition powered by PaddlePaddle

简体中文 | English PaddleClas 简介 飞桨图像识别套件PaddleClas是飞桨为工业界和学术界所准备的一个图像识别任务的工具集,助力使用者训练出更好的视觉模型和应用落地。 近期更新 2021.11.1 发布PP-ShiTu技术报告,新增饮料识别demo 2021.10.23 发

4.6k Dec 31, 2022