News

[2022-3-22]: **v0.2.2 has been released:
- Fix some bugs.
[2021-11-3]: **v0.2.0 has been released:
- New features:
  - Change the format of link configuration.
[2021-10-27]: **v0.1.4 has been released:
- New features:
  - Add contrastive representation learning methods (MoCo-V2).
[2021-10-24]: **v0.1.2 has been released:
- New features:
  - Add distributed (DDP) support.
[2021-10-7]: **v0.1.1 has been released:
- New features:
  - Change the Cars196 loading method.
[2021-9-15]: **v0.1.0 has been released:
- New features:
  - output_wrapper and pipeline setting are decomposed for convenience.
  - Pipeline will be stored in the experiment folder using a directed graph.
[2021-9-13]: **v0.0.1 has been released:
- New features:
  - config.yaml will be created to store the configuration in the experiment folder.**
[2021-9-6]: v0.0.0 has been released.

Introduction

GeDML is an easy-to-use generalized deep metric learning library, which contains:

State-of-the-art DML algorithms: We contrain 18+ losses functions and 6+ sampling strategies, and divide these algorithms into three categories (i.e., collectors, selectors, and losses).
Bridge bewteen DML and SSL: We attempt to bridge the gap between deep metric learning and self-supervised learning through specially designed modules, such as collectors.
Auxiliary modules to assist in building: We also encapsulates the upper interface for users to start programs quickly and separates the codes and configs for managing hyper-parameters conveniently.

Installation

Pip

pip install gedml

Quickstart

Demo 1: deep metric learning

CUDA_VISIBLE_DEVICES=0 python demo.py \
--data_path <path_to_data> \
--save_path <path_to_save> \
--eval_exclude f1_score NMI AMI \
--device 0 --batch_size 128 --test_batch_size 128 \
--setting proxy_anchor --splits_to_eval test --embeddings_dim 128 \
--lr_trunk 0.0001 --lr_embedder 0.0001 --lr_collector 0.01 \
--dataset cub200 --delete_old \

Demo 2: contrastive representation learning

CUDA_VISIBLE_DEVICES=0 python demo.py \
--data_path <path_to_data> \
--save_path <path_to_save> \
--eval_exclude f1_score NMI AMI \
--device 0 --batch_size 128 --test_batch_size 128 \
--setting mocov2 --splits_to_eval test --embeddings_dim 128 \
--lr_trunk 0.015 --lr_embedder 0.015 \
--dataset imagenet --delete_old \

If you want to use our code to conduct DML or CRL experiments, please refer to the up-to-date and most detailed configurations below: 👇

If you use the command line, you can run sample_run.sh to try this project.
If you debug with VS Code, you can refer to launch.json to set .vscode.

API

Initialization

Use ParserWithConvert to get parameters

>>> from gedml.launcher.misc import ParserWithConvert
>>> csv_path = ...
>>> parser = ParserWithConvert(csv_path=csv_path, name="...")
>>> opt, convert_dict = parser.render()

Use ConfigHandler to create all objects.

>>> from gedml.launcher.creators import ConfigHandler
>>> link_path = ...
>>> assert_path = ...
>>> param_path = ...
>>> config_handler = ConfigHandler(
    convert_dict=convert_dict,
    link_path=link_path,
    assert_path=assert_path,
    params_path=param_path,
    is_confirm_first=True
)
>>> config_handler.get_params_dict()
>>> objects_dict = config_handler.create_all()

Start

Use manager to automatically call trainer and tester.

>>> from gedml.launcher.misc import utils
>>> manager = utils.get_default(objects_dict, "managers")
>>> manager.run()

Or directly use trainer and tester.

>>> from gedml.launcher.misc import utils
>>> trainer = utils.get_default(objects_dict, "trainers")
>>> tester = utils.get_default(objects_dict, "testers")
>>> recorder = utils.get_default(objects_dict, "recorders")
# start to train
>>> utils.func_params_mediator(
    [objects_dict],
    trainer.__call__
)
# start to test
>>> metrics = utils.func_params_mediator(
    [
        {"recorders": recorder},
        objects_dict,
    ],
    tester.__call__
)

Document

For more information, please refer to: 👉 Docs 📖

Some specific guidances:

Configs

We will continually update the optimal parameters of different configs in TsinghuaCloud

Framework

This project is modular in design. The pipeline diagram is as follows:

Code structure

tests: Debug files.
examples: Demos.
- config: Folder which stores links, param, wrapper, args.yaml and assert.yaml.
- demo.py: A demo python file.
src/gedml: Main code.
- core: Losses, selectors, collectors, etc.
- client: Tmux manager.
- config: Config files which define the hyper-string etc.
- launcher: Manager, Trainer, Tester, etc.
- recorder: Recorder.

Method

Collectors

method	description
BaseCollector	Base class
DefaultCollector	Do nothing
ProxyCollector	Maintain a set of proxies
MoCoCollector	paper: Momentum Contrast for Unsupervised Visual Representation Learning
SimSiamCollector	paper: Exploring Simple Siamese Representation Learning
HDMLCollector	paper: Hardness-Aware Deep Metric Learning
DAMLCollector	paper: Deep Adversarial Metric Learning
DVMLCollector	paper: Deep Variational Metric Learning

Losses

classifier-based

method	description
CrossEntropyLoss	Cross entropy loss for unsupervised methods
LargeMarginSoftmaxLoss	paper: Large-Margin Softmax Loss for Convolutional Neural Networks
ArcFaceLoss	paper: ArcFace: Additive Angular Margin Loss for Deep Face Recognition
CosFaceLoss	paper: CosFace: Large Margin Cosine Loss for Deep Face Recognition

pair-based

method	description
ContrastiveLoss	paper: Learning a Similarity Metric Discriminatively, with Application to Face Verification
MarginLoss	paper: Sampling Matters in Deep Embedding Learning
TripletLoss	paper: Learning local feature descriptors with triplets and shallow convolutional neural networks
AngularLoss	paper: Deep Metric Learning with Angular Loss
CircleLoss	paper: Circle Loss: A Unified Perspective of Pair Similarity Optimization
FastAPLoss	paper: Deep Metric Learning to Rank
LiftedStructureLoss	paper: Deep Metric Learning via Lifted Structured Feature Embedding
MultiSimilarityLoss	paper: Multi-Similarity Loss With General Pair Weighting for Deep Metric Learning
NPairLoss	paper: Improved Deep Metric Learning with Multi-class N-pair Loss Objective
SignalToNoiseRatioLoss	paper: Signal-To-Noise Ratio: A Robust Distance Metric for Deep Metric Learning
PosPairLoss	paper: Exploring Simple Siamese Representation Learning

proxy-based

method	description
ProxyLoss	paper: No Fuss Distance Metric Learning Using Proxies
ProxyAnchorLoss	paper: Proxy Anchor Loss for Deep Metric Learning
SoftTripleLoss	paper: SoftTriple Loss: Deep Metric Learning Without Triplet Sampling

Selectors

method	description
BaseSelector	Base class
DefaultSelector	Do nothing
DenseTripletSelector	Select all triples
DensePairSelector	Select all pairs

Code Reference

TODO:

assert parameters.
write github action to automate unit-test, package publish and docs building.
add cross-validation splits protocol.
distributed tester for matrix-form input.
add metrics module.
how to improve the running efficiency.

IMPORTANT TODO:

re-define pipeline setting!!!
simplify distribution setting!!

Name		Name	Last commit message	Last commit date
Latest commit History 57 Commits
.docsrc		.docsrc
.github/workflows		.github/workflows
examples		examples
src/gedml		src/gedml
tests		tests
.gitignore		.gitignore
LICENSE		LICENSE
README.md		README.md
distribute.sh		distribute.sh
requirements.txt		requirements.txt
setup.py		setup.py

License

zbr17/GeDML

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