pyg-team/pytorch_geometric

Laplacian Eigenvector PE is not deterministic

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#7,499 opened on 2023年6月2日

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説明

Laplacian Eigenvector PE is not deterministic, i.e. it produces different encodings when applied to the same graph at different times even with everything seeded.

This is a code that reproduces it:

import torch
import random
import numpy as np
from torch_geometric.datasets import Planetoid
from torch_geometric.transforms import AddLaplacianEigenvectorPE

def seed_everything(seed: int):
    random.seed(seed)
    np.random.seed(seed)
    torch.manual_seed(seed)
    torch.cuda.manual_seed_all(seed)

seed_everything(42)
dataset = Planetoid(root='../datasets', name='Cora')
data = dataset[0]

lpe1 = AddLaplacianEigenvectorPE(k=124, attr_name="lpe1")
lpe2 = AddLaplacianEigenvectorPE(k=124, attr_name="lpe2")

# add lpe1
data = lpe1(data)
# add lpe2
data = lpe2(data)

# get pe
pe1 = data.lpe1
pe2 = data.lpe2

print(torch.allclose(pe1, pe2))  # prints False

# print for manual inspection
print(pe1[:5, :10])
print(pe2[:5, :10])

Environment

  • PyG version: 2.3.1
  • PyTorch version: 2.0.1+cu118
  • OS: Linux (Ubuntu 20.04)
  • Python version: 3.10
  • CUDA/cuDNN version: 12.0
  • How you installed PyTorch and PyG (conda, pip, source): pip.
  • Any other relevant information (e.g., version of torch-scatter): None.

コントリビューターガイド

技術スタック
pythonpytorch
領域
datamachine learning
Issue 種別
bug
難度新しい貢献者にとっての実装難度です。1 は非常に小さな変更、5 は専門的な作業です。
3
推定時間経験ある貢献者が調査、実装、テスト、pull request 準備にかけるおおよその時間範囲です。
half day
活動状況Issue が今どれだけ取り組みやすいかを示します。新しい、活発、古い、ブロック中、またはメンテナー入力待ちなどです。
stale
明確さ期待される変更、受け入れ条件、次の手順がどれだけ明確かを示します。
clear
前提条件
PyTorchPyTorch Geometricunderstanding of seedingeigenvalue decomposition basics
初心者向け度初回貢献者にどれだけ取り組みやすいかを 1-100 で推定したスコアです。
55
調査方針
The issue is about non deterministic behavior in the AddLaplacianEigenvectorPE transform. The reproduction code shows that applying the transform twice with the same seed yields different results. The fix likely involves ensuring that all random operations in the eigen decomposition are seeded. Look at the implementation in torch geometric/transforms/add laplacian eigenvector pe.py. Consider using torch.use deterministic algorithms(True) or setting a seed for the underlying operation. Also check if the issue is related to the use of torch.linalg.eigh which may not be deterministic across runs. A possible approach is to set a manual seed within the transform or to use a deterministic version of the function.