# GaAN: Gated Attention Networks for Learning on Large and Spatiotemporal Graphs [GaAN](https://arxiv.org/abs/1803.07294) is a powerful neural network designed for machine learning on graph. It introduces an gated attention mechanism. Based on PGL, we reproduce the GaAN algorithm and train the model on [ogbn-proteins](https://ogb.stanford.edu/docs/nodeprop/#ogbn-proteins). ## Datasets The ogbn-proteins dataset will be downloaded in directory ./dataset automatically. ## Dependencies - paddlepaddle - pgl - ogb ## How to run ```bash python train.py --lr 1e-2 --rc 0 --batch_size 1024 --epochs 100 ``` ### Hyperparameters - use_gpu: whether to use gpu or not - mini_data: use a small dataset to test code - epochs: number of training epochs - lr: learning rate - rc: regularization coefficient - log_path: the path of log - batch_size: the number of batch size - heads: the number of heads of attention - hidden_size_a: the size of query and key vectors - hidden_size_v: the size of value vectors - hidden_size_m: the size of projection space for computing gates - hidden_size_o: the size of output of GaAN layer ## Performance We train our models for 100 epochs and report the **rocauc** on the test dataset. |dataset|mean|std| |-|-|-| |ogbn-proteins|0.7786|0.0048|