Implementation of the Spline-Based Convolution Operator of SplineCNN in PyTorch
MIT License
This is a PyTorch implementation of the spline-based convolution operator of SplineCNN, as described in our paper:
Matthias Fey, Jan Eric Lenssen, Frank Weichert, Heinrich MΓΌller: SplineCNN: Fast Geometric Deep Learning with Continuous B-Spline Kernels (CVPR 2018)
The operator works on all floating point data types and is implemented both for CPU and GPU.
Update: You can now install pytorch-spline-conv
via Anaconda for all major OS/PyTorch/CUDA combinations π€
Given that you have pytorch >= 1.8.0
installed, simply run
conda install pytorch-spline-conv -c pyg
We alternatively provide pip wheels for all major OS/PyTorch/CUDA combinations, see here.
To install the binaries for PyTorch 2.4.0, simply run
pip install torch-spline-conv -f https://data.pyg.org/whl/torch-2.4.0+${CUDA}.html
where ${CUDA}
should be replaced by either cpu
, cu118
, cu121
, or cu124
depending on your PyTorch installation.
cpu |
cu118 |
cu121 |
cu124 |
|
---|---|---|---|---|
Linux | β | β | β | β |
Windows | β | β | β | β |
macOS | β |
To install the binaries for PyTorch 2.3.0, simply run
pip install torch-spline-conv -f https://data.pyg.org/whl/torch-2.3.0+${CUDA}.html
where ${CUDA}
should be replaced by either cpu
, cu118
, or cu121
depending on your PyTorch installation.
cpu |
cu118 |
cu121 |
|
---|---|---|---|
Linux | β | β | β |
Windows | β | β | β |
macOS | β |
Note: Binaries of older versions are also provided for PyTorch 1.4.0, PyTorch 1.5.0, PyTorch 1.6.0, PyTorch 1.7.0/1.7.1, PyTorch 1.8.0/1.8.1, PyTorch 1.9.0, PyTorch 1.10.0/1.10.1/1.10.2, PyTorch 1.11.0, PyTorch 1.12.0/1.12.1, PyTorch 1.13.0/1.13.1, PyTorch 2.0.0/2.0.1, PyTorch 2.1.0/2.1.1/2.1.2, and PyTorch 2.2.0/2.2.1/2.2.2 (following the same procedure).
For older versions, you need to explicitly specify the latest supported version number or install via pip install --no-index
in order to prevent a manual installation from source.
You can look up the latest supported version number here.
Ensure that at least PyTorch 1.4.0 is installed and verify that cuda/bin
and cuda/include
are in your $PATH
and $CPATH
respectively, e.g.:
$ python -c "import torch; print(torch.__version__)"
>>> 1.4.0
$ echo $PATH
>>> /usr/local/cuda/bin:...
$ echo $CPATH
>>> /usr/local/cuda/include:...
Then run:
pip install torch-spline-conv
When running in a docker container without NVIDIA driver, PyTorch needs to evaluate the compute capabilities and may fail.
In this case, ensure that the compute capabilities are set via TORCH_CUDA_ARCH_LIST
, e.g.:
export TORCH_CUDA_ARCH_LIST = "6.0 6.1 7.2+PTX 7.5+PTX"
from torch_spline_conv import spline_conv
out = spline_conv(x,
edge_index,
pseudo,
weight,
kernel_size,
is_open_spline,
degree=1,
norm=True,
root_weight=None,
bias=None)
Applies the spline-based convolution operator
(number_of_nodes x in_channels)
.(2 x number_of_edges)
.(number_of_edges x number_of_edge_attributes)
in the fixed interval [0, 1].(kernel_size x in_channels x out_channels)
.1
)True
)(in_channels x out_channels)
. (default: None
)(out_channels)
. (default: None
)(number_of_nodes x out_channels)
.import torch
from torch_spline_conv import spline_conv
x = torch.rand((4, 2), dtype=torch.float) # 4 nodes with 2 features each
edge_index = torch.tensor([[0, 1, 1, 2, 2, 3], [1, 0, 2, 1, 3, 2]]) # 6 edges
pseudo = torch.rand((6, 2), dtype=torch.float) # two-dimensional edge attributes
weight = torch.rand((25, 2, 4), dtype=torch.float) # 25 parameters for in_channels x out_channels
kernel_size = torch.tensor([5, 5]) # 5 parameters in each edge dimension
is_open_spline = torch.tensor([1, 1], dtype=torch.uint8) # only use open B-splines
degree = 1 # B-spline degree of 1
norm = True # Normalize output by node degree.
root_weight = torch.rand((2, 4), dtype=torch.float) # separately weight root nodes
bias = None # do not apply an additional bias
out = spline_conv(x, edge_index, pseudo, weight, kernel_size,
is_open_spline, degree, norm, root_weight, bias)
print(out.size())
torch.Size([4, 4]) # 4 nodes with 4 features each
Please cite our paper if you use this code in your own work:
@inproceedings{Fey/etal/2018,
title={{SplineCNN}: Fast Geometric Deep Learning with Continuous {B}-Spline Kernels},
author={Fey, Matthias and Lenssen, Jan Eric and Weichert, Frank and M{\"u}ller, Heinrich},
booktitle={IEEE Conference on Computer Vision and Pattern Recognition (CVPR)},
year={2018},
}
pytest
torch-spline-conv
also offers a C++ API that contains C++ equivalent of python models.
mkdir build
cd build
# Add -DWITH_CUDA=on support for the CUDA if needed
cmake ..
make
make install