SpatialEncoder3d

class dgl.nn.pytorch.gt.SpatialEncoder3d(num_kernels, num_heads=1, max_node_type=100)[source]

Bases: torch.nn.modules.module.Module

3D Spatial Encoder, as introduced in One Transformer Can Understand Both 2D & 3D Molecular Data

This module encodes pair-wise relation between node pair \((i,j)\) in the 3D geometric space, according to the Gaussian Basis Kernel function:

\(\psi _{(i,j)} ^k = \frac{1}{\sqrt{2\pi} \lvert \sigma^k \rvert} \exp{\left ( -\frac{1}{2} \left( \frac{\gamma_{(i,j)} \lvert \lvert r_i - r_j \rvert \rvert + \beta_{(i,j)} - \mu^k}{\lvert \sigma^k \rvert} \right) ^2 \right)},k=1,...,K,\)

where \(K\) is the number of Gaussian Basis kernels. \(r_i\) is the Cartesian coordinate of node \(i\). \(\gamma_{(i,j)}, \beta_{(i,j)}\) are learnable scaling factors and biases determined by node types. \(\mu^k, \sigma^k\) are learnable centers and standard deviations of the Gaussian Basis kernels.

Parameters

  • num_kernels (int) – Number of Gaussian Basis Kernels to be applied. Each Gaussian Basis Kernel contains a learnable kernel center and a learnable standard deviation.

  • num_heads (int, optional) – Number of attention heads if multi-head attention mechanism is applied. Default : 1.

  • max_node_type (int, optional) – Maximum number of node types. Each node type has a corresponding learnable scaling factor and a bias. Default : 100.

Examples

>>> import torch as th
>>> import dgl
>>> from dgl.nn import SpatialEncoder3d

>>> coordinate = th.rand(1, 4, 3)
>>> node_type = th.tensor([[1, 0, 2, 1]])
>>> spatial_encoder = SpatialEncoder3d(num_kernels=4,
...                                    num_heads=8,
...                                    max_node_type=3)
>>> out = spatial_encoder(coordinate, node_type=node_type)
>>> print(out.shape)
torch.Size([1, 4, 4, 8])
forward(coord, node_type=None)[source]
Parameters

  • coord (torch.Tensor) – 3D coordinates of nodes in shape \((B, N, 3)\), where \(B\) is the batch size, \(N\): is the maximum number of nodes.

  • node_type (torch.Tensor, optional) –

    Node type ids of nodes. Default : None.

    • If specified, node_type should be a tensor in shape \((B, N,)\). The scaling factors in gaussian kernels of each pair of nodes are determined by their node types.

    • Otherwise, node_type will be set to zeros of the same shape by default.

Returns

Return attention bias as 3D spatial encoding of shape \((B, N, N, H)\), where \(H\) is num_heads.

Return type

torch.Tensor