Torchvision+ Deformable Convolutional Networks


Keywords
deform_conv, deform_conv_transposed, deformable_convolution, transposed_deformable_convolution
License
MIT
Install
pip install tvdcn==0.5.0

Documentation

Torchvision+ Deformable Convolution Networks

GitHub Workflow Status PyPI Downloads GitHub

This package contains the PyTorch implementations of the Deformable Convolution operation (the commonly used torchvision.ops.deform_conv2d) proposed in https://arxiv.org/abs/1811.11168, and the Transposed Deformable Convolution proposed in https://arxiv.org/abs/2210.09446 (currently without interpolation kernel scaling). It also supports their 1D and 3D equivalences, which are not available in torchvision (thus the name).

Highlights

  • Supported operators: (All are implemented in C++/Cuda)

    • tvdcn.ops.deform_conv1d
    • tvdcn.ops.deform_conv2d (faster than torchvision.ops.deform_conv2d by at least 10% during forward pass on our Quadro RTX 5000 according to this test)
    • tvdcn.ops.deform_conv3d
    • tvdcn.ops.deform_conv_transpose1d
    • tvdcn.ops.deform_conv_transpose2d
    • tvdcn.ops.deform_conv_transpose3d
  • And the following supplementary operators (mask activation proposed in https://arxiv.org/abs/2211.05778):

    • tvdcn.ops.mask_softmax1d
    • tvdcn.ops.mask_softmax2d
    • tvdcn.ops.mask_softmax3d
  • Both offset and mask can be turned off, and can be applied in separate groups.

  • All the nn.Module wrappers for these operators are implemented, everything is @torch.jit.script-able! Please check Usage.

Note: We don't care much about onnx exportation, but if you do, you can check this repo: https://github.com/masamitsu-murase/deform_conv2d_onnx_exporter.

Requirements

  • torch>=2.1.0 (torch>=1.9.0 if installed from source)

Installation

From PyPI:

tvdcn provides some prebuilt wheels on PyPI. Run this command to install:

pip install tvdcn

Since PyTorch is migrating to Cuda 12 versions, our Linux and Windows wheels are built with Cuda 12.1 and won't be compatible with older versions.

Linux/Windows MacOS
Python version: 3.8-3.11 3.8-3.11
PyTorch version: torch==2.1.0 torch==2.1.0
Cuda version: 12.1 -
GPU CCs: 5.0,6.0,6.1,7.0,7.5,8.0,8.6,9.0+PTX -

When the Cuda versions of torch and tvdcn mismatch, you will see an error like this:

RuntimeError: Detected that PyTorch and Extension were compiled with different CUDA versions.
PyTorch has CUDA Version=11.8 and Extension has CUDA Version=12.1.
Please reinstall the Extension that matches your PyTorch install.

If you see this error instead, that means there are other issues related to Python, PyTorch, device arch, e.t.c. Please proceed to instructions to build from source, all steps are super easy.

RuntimeError: Couldn't load custom C++ ops. Recompile C++ extension with:
     python setup.py build_ext --inplace

From Source:

For installing from source, you need a C++ compiler (gcc/msvc) and a Cuda compiler (nvcc) with C++17 features enabled. Clone this repo and execute the following command:

pip install .

Or just compile the binary for inplace usage:

python setup.py build_ext --inplace

A binary (.so file for Unix and .pyd file for Windows) should be compiled inside the tvdcn folder. To check if installation is successful, try:

import tvdcn

print('Library loaded successfully:', tvdcn.has_ops())
print('Compiled with Cuda:', tvdcn.with_cuda())

Note: We use soft Cuda version compatibility checking between the built binary and the installed PyTorch, which means only major version matching is required. However, we suggest building the binaries with the same Cuda version with installed PyTorch's Cuda version to prevent any possible conflict.

Usage

Operators:

Functionally, the package offers 6 functions (listed in Highlights) much similar to torchvision.ops.deform_conv2d. However, the order of parameters is slightly different, so be cautious (check this comparison).

torchvision tvdcn
import torch, torchvision

input = torch.rand(4, 3, 10, 10)
kh, kw = 3, 3
weight = torch.rand(5, 3, kh, kw)
offset = torch.rand(4, 2 * kh * kw, 8, 8)
mask = torch.rand(4, kh * kw, 8, 8)
bias = torch.rand(5)

output = torchvision.ops.deform_conv2d(input, offset, weight, bias,
                                       stride=(1, 1),
                                       padding=(0, 0),
                                       dilation=(1, 1),
                                       mask=mask)
print(output)
import torch, tvdcn

input = torch.rand(4, 3, 10, 10)
kh, kw = 3, 3
weight = torch.rand(5, 3, kh, kw)
offset = torch.rand(4, 2 * kh * kw, 8, 8)
mask = torch.rand(4, kh * kw, 8, 8)
bias = torch.rand(5)

output = tvdcn.ops.deform_conv2d(input, weight, offset, mask, bias,
                                 stride=(1, 1),
                                 padding=(0, 0),
                                 dilation=(1, 1),
                                 groups=1)
print(output)

Specifically, the signatures of deform_conv2d and deform_conv_transpose2d look like these:

def deform_conv2d(
        input: Tensor,
        weight: Tensor,
        offset: Optional[Tensor] = None,
        mask: Optional[Tensor] = None,
        bias: Optional[Tensor] = None,
        stride: Union[int, Tuple[int, int]] = 1,
        padding: Union[int, Tuple[int, int]] = 0,
        dilation: Union[int, Tuple[int, int]] = 1,
        groups: int = 1) -> Tensor:
    ...


def deform_conv_transpose2d(
        input: Tensor,
        weight: Tensor,
        offset: Optional[Tensor] = None,
        mask: Optional[Tensor] = None,
        bias: Optional[Tensor] = None,
        stride: Union[int, Tuple[int, int]] = 1,
        padding: Union[int, Tuple[int, int]] = 0,
        output_padding: Union[int, Tuple[int, int]] = 0,
        dilation: Union[int, Tuple[int, int]] = 1,
        groups: int = 1) -> Tensor:
    ...

If offset=None and mask=None, the executed operators are identical to conventional convolution.

Neural Network Layers:

The nn.Module wrappers are:

  • tvdcn.ops.DeformConv1d
  • tvdcn.ops.DeformConv2d
  • tvdcn.ops.DeformConv3d
  • tvdcn.ops.DeformConvTranspose1d
  • tvdcn.ops.DeformConvTranspose2d
  • tvdcn.ops.DeformConvTranspose3d

They are subclasses of the torch.nn.modules._ConvNd, but you have to specify offset and optionally mask as extra inputs for the forward function. For example:

import torch

from tvdcn import DeformConv2d

input = torch.rand(2, 3, 64, 64)
offset = torch.rand(2, 2 * 3 * 3, 62, 62)
# if mask is None, perform the original deform_conv without modulation (v2)
mask = torch.rand(2, 1 * 3 * 3, 62, 62)

conv = DeformConv2d(3, 16, kernel_size=(3, 3))

output = conv(input, offset, mask)
print(output.shape)

Additionally, following many other implementations out there, we also implemented the packed wrappers:

  • tvdcn.ops.PackedDeformConv1d
  • tvdcn.ops.PackedDeformConv2d
  • tvdcn.ops.PackedDeformConv3d
  • tvdcn.ops.PackedDeformConvTranspose1d
  • tvdcn.ops.PackedDeformConvTranspose2d
  • tvdcn.ops.PackedDeformConvTranspose3d

These are easy-to-use classes that contain ordinary convolution layers with appropriate hyperparameters to generate offset (and mask if initialized with modulated=True); but that means less customization. The only tunable hyperparameters that effect these supplementary conv layers are offset_groups and mask_groups, which have been decoupled from and behave somewhat similar to groups.

To use the softmax activation for mask proposed in Deformable Convolution v3, set mask_activation='softmax'. offset_activation and mask_activation also accept any nn.Module.

import torch

from tvdcn import PackedDeformConv1d

input = torch.rand(2, 3, 128)

conv = PackedDeformConv1d(3, 16,
                          kernel_size=5,
                          modulated=True,
                          mask_activation='softmax')
# jit scripting
scripted_conv = torch.jit.script(conv)
print(scripted_conv)

output = scripted_conv(input)
print(output.shape)

Note: For transposed packed modules, we are generating offset and mask with pointwise convolution as we haven't found a better way to do it.

Do check the examples folder, maybe you can find something helpful.

Acknowledgements

This for fun project is directly modified and extended from torchvision.ops.deform_conv2d.

License

The code is released under the MIT license. See LICENSE.txt for details.