mindspore_gl.nn.AvgPooling
- class mindspore_gl.nn.AvgPooling[源代码]
将平均池化应用于批处理图形中的节点。
\[r^{(i)} = \frac{1}{N_i}\sum_{k=1}^{N_i} x^{(i)}_k\]- 输入:
x (Tensor) - 要更新的输入节点特征。Shape为 \((N, D)\) 其中 \(N\) 是节点数, \(D\) 是节点的特征大小。
g (BatchedGraph) - 输入图形。
- 输出:
x (Tensor) - 图的输出表示。Shape为 \((2, D_{out})\) ,其中 \(D_{out}\) 是节点的特征大小。
- 支持平台:
Ascend
GPU
样例:
>>> import numpy as np >>> import mindspore as ms >>> from mindspore_gl.nn import AvgPooling >>> from mindspore_gl import BatchedGraphField >>> n_nodes = 7 >>> n_edges = 8 >>> src_idx = ms.Tensor([0, 2, 2, 3, 4, 5, 5, 6], ms.int32) >>> dst_idx = ms.Tensor([1, 0, 1, 5, 3, 4, 6, 4], ms.int32) >>> ver_subgraph_idx = ms.Tensor([0, 0, 0, 1, 1, 1, 1], ms.int32) >>> edge_subgraph_idx = ms.Tensor([0, 0, 0, 1, 1, 1, 1, 1], ms.int32) >>> graph_mask = ms.Tensor([1, 1], ms.int32) >>> batched_graph_field = BatchedGraphField(src_idx, dst_idx, n_nodes, n_edges, ver_subgraph_idx, ... edge_subgraph_idx, graph_mask) >>> node_feat = np.random.random((n_nodes, 4)) >>> node_feat = ms.Tensor(node_feat, ms.float32) >>> net = AvgPooling() >>> ret = net(node_feat, *batched_graph_field.get_batched_graph()) >>> print(ret.shape) (2, 4)