/neural-collaborative-filtering

pytorch version of neural collaborative filtering

Primary LanguageJupyter Notebook

neural-collaborative-filtering

Neural collaborative filtering(NCF), is a deep learning based framework for making recommendations. The key idea is to learn the user-item interaction using neural networks. Check the follwing paper for details about NCF.

He, Xiangnan, et al. "Neural collaborative filtering." Proceedings of the 26th International Conference on World Wide Web. International World Wide Web Conferences Steering Committee, 2017.

The authors of NCF actually published a nice implementation written in tensorflow(keras). This repo instead provides my implementation written in pytorch. I hope it would be helpful to pytorch fans. Have fun playing with it !

Dataset

The Movielens 1M Dataset is used to test the repo.

Files

data.py: prepare train/test dataset

utils.py: some handy functions for model training etc.

metrics.py: evaluation metrics including hit ratio(HR) and NDCG

gmf.py: generalized matrix factorization model

mlp.py: multi-layer perceptron model

neumf.py: fusion of gmf and mlp

engine.py: training engine

train.py: entry point for train a NCF model

Performance

The hyper params are not tuned. Better performance can be achieved with careful tuning, especially for the MLP model. Pretraining the user embedding & item embedding might be helpful to improve the performance of the MLP model.

Experiments' results with num_negative_samples = 4 and dim_latent_factor=8 are shown as follows

GMF V.S. MLP

Note that the MLP model was trained from scratch but the authors suggest that the performance might be boosted by pretrain the embedding layer with GMF model.

NeuMF pretrain V.S no pretrain

The pretrained version converges much faster.

L2 regularization for MLP model

a bit l2 regulzrization seems to improve the performance of the MLP model

L2 for MLP

MLP with pretrained user/item embedding

Pre-training the MLP model with user/item embedding from the trained GMF gives better result.

MLP network size = [16, 64, 32, 16, 8]

Pretrain for MLP Pretrain for MLP

TODO

  • migrate to pytorch 0.4
  • num of negative samples
  • check NDCG metric