SVDPEο
- class dgl.transforms.SVDPE(k, feat_name='svd_pe', padding=False, random_flip=True)[source]ο
Bases:
BaseTransformSVD-based Positional Encoding, as introduced in Global Self-Attention as a Replacement for Graph Convolution
This function computes the largest \(k\) singular values and corresponding left and right singular vectors to form positional encodings, which could be stored in ndata.
- Parameters:
k (int) β Number of largest singular values and corresponding singular vectors used for positional encoding.
feat_name (str, optional) β Name to store the computed positional encodings in ndata. Default :
svd_pepadding (bool, optional) β If False, raise an error when \(k > N\), where \(N\) is the number of nodes in
g. If True, add zero paddings in the end of encodings when \(k > N\). Default : False.random_flip (bool, optional) β If True, randomly flip the signs of encoding vectors. Proposed to be activated during training for better generalization. Default : True.
Example
>>> import dgl >>> from dgl import SVDPE
>>> transform = SVDPE(k=2, feat_name="svd_pe") >>> g = dgl.graph(([0,1,2,3,4,2,3,1,4,0], [2,3,1,4,0,0,1,2,3,4])) >>> g_ = transform(g) >>> print(g_.ndata['svd_pe']) tensor([[-6.3246e-01, -1.1373e-07, -6.3246e-01, 0.0000e+00], [-6.3246e-01, 7.6512e-01, -6.3246e-01, -7.6512e-01], [ 6.3246e-01, 4.7287e-01, 6.3246e-01, -4.7287e-01], [-6.3246e-01, -7.6512e-01, -6.3246e-01, 7.6512e-01], [ 6.3246e-01, -4.7287e-01, 6.3246e-01, 4.7287e-01]])