A pure Python implementation of Compact Bilinear Pooling and Count Sketch for PyTorch.

Last update: Dec 07, 2022

Overview

Compact Bilinear Pooling for PyTorch.

This repository has a pure Python implementation of Compact Bilinear Pooling and Count Sketch for PyTorch.

This version relies on the FFT implementation provided with PyTorch 0.4.0 onward. For older versions of PyTorch, use the tag v0.3.0.

Installation

Run the setup.py, for instance:

python setup.py install

Usage

class compact_bilinear_pooling.CompactBilinearPooling(input1_size, input2_size, output_size, h1 = None, s1 = None, h2 = None, s2 = None)

Basic usage:

from compact_bilinear_pooling import CountSketch, CompactBilinearPooling

input_size = 2048
output_size = 16000
mcb = CompactBilinearPooling(input_size, input_size, output_size).cuda()
x = torch.rand(4,input_size).cuda()
y = torch.rand(4,input_size).cuda()

z = mcb(x,y)

Test

A couple of test of the implementation of Compact Bilinear Pooling and its gradient can be run using:

python test.py

References

Yang Gao et al. "Compact Bilinear Pooling" in Proceedings of IEEE Conference on Computer Vision and Pattern Recognition", 2016
Akira Fukui et al. "Multimodal Compact Bilinear Pooling for Visual Question Answering and Visual Grounding", 2016

Comments

The value in ComplexMultiply_backward function
Hi @gdlg, thanks for this nice work. I'm confused about the backward procedure of complex multiplication. So I hope you can help me to figure it out.

In forward,

Z = XY = (Rx + i * Ix)(Ry + i * Iy) = (RxRy - IxIy) + i * (IxRy + RxIy) = Rz + i * Iz

In backward, according the chain rule, it will has

grad_(L/X) = grad_(L/Z) * grad(Z/X) = grad_Z * Y = (R_gz + i * I_gz)(Ry + i * Iy) = (R_gzRy - I_gzIy) + i * (I_gzRy + R_gzIy)

So, why is this line implemented by using the value = 1 for real part and value = -1 for image part?

Is there something wrong in my thoughts? Thanks.
opened by KaiyuYue 8
The miss of Rfft

When I run the test module, it indicates that the module of pytorch_fft of fft in autograd does not have attribute of Rfft. What version of pytorch_fft should I install to fit this code?

opened by PeiqinZhuang 8

Save the model - TypeError: can't pickle Rfft objects

How do you save and load the model, I'm using torch.save, which cause the following error:

File "x/anaconda3/lib/python3.6/site-packages/tor                                                                                                                               ch/serialization.py", line 135, in save
   return _with_file_like(f, "wb", lambda f: _save(obj, f, pickle_module, pickl                                                                                                                               e_protocol))
 File "x/anaconda3/lib/python3.6/site-packages/tor                                                                                                                               ch/serialization.py", line 117, in _with_file_like
   return body(f)
 File "xanaconda3/lib/python3.6/site-packages/tor                                                                                                                               ch/serialization.py", line 135, in <lambda>
   return _with_file_like(f, "wb", lambda f: _save(obj, f, pickle_module, pickl                                                                                                                               e_protocol))
 File "x/anaconda3/lib/python3.6/site-packages/tor                                                                                                                               ch/serialization.py", line 198, in _save
   pickler.dump(obj)
TypeError: can't pickle Rfft objects

opened by idansc 3

Multi GPU support
I modify

class CompactBilinearPooling(nn.Module): def forward(self, x, y): return CompactBilinearPoolingFn.apply(self.sketch1.h, self.sketch1.s, self.sketch2.h, self.sketch2.s, self.output_size, x, y)

to

def forward(self, x): x = x.permute(0, 2, 3, 1) #NCHW to NHWC y = Variable(x.data.clone()) out = (CompactBilinearPoolingFn.apply(self.sketch1.h, self.sketch1.s, self.sketch2.h, self.sketch2.s, self.output_size, x, y)).permute(0,3,1,2) #to NCHW out = nn.functional.adaptive_avg_pool2d(out, 1) # N,C,1,1 #add an element-wise signed square root layer and an instance-wise l2 normalization out = (torch.sqrt(nn.functional.relu(out)) - torch.sqrt(nn.functional.relu(-out)))/torch.norm(out,2,1,True) return out

This makes the compact pooling layer can be plugged to PyTorch CNNs more easily:

model.avgpool = CompactBilinearPooling(input_C, input_C, bilinear['dim'])
model.fc = nn.Linear(int(model.fc.in_features/input_C*bilinear['dim']), num_classes)

However, when I run this using multiple GPUs, I got the following error:

Traceback (most recent call last): File "train3_bilinear_pooling.py", line 400, in run() File "train3_bilinear_pooling.py", line 219, in run train(train_loader, model, criterion, optimizer, epoch) File "train3_bilinear_pooling.py", line 326, in train return _each_epoch('train', train_loader, model, criterion, optimizer, epoch) File "train3_bilinear_pooling.py", line 270, in _each_epoch output = model(input_var) File "/home/member/fuwang/opt/anaconda/lib/python3.6/site-packages/torch/nn/modules/module.py", line 319, in call result = self.forward(*input, **kwargs) File "/home/member/fuwang/opt/anaconda/lib/python3.6/site-packages/torch/nn/parallel/data_parallel.py", line 67, in forward replicas = self.replicate(self.module, self.device_ids[:len(inputs)]) File "/home/member/fuwang/opt/anaconda/lib/python3.6/site-packages/torch/nn/parallel/data_parallel.py", line 72, in replicate return replicate(module, device_ids) File "/home/member/fuwang/opt/anaconda/lib/python3.6/site-packages/torch/nn/parallel/replicate.py", line 19, in replicate buffer_copies = comm.broadcast_coalesced(buffers, devices) File "/home/member/fuwang/opt/anaconda/lib/python3.6/site-packages/torch/cuda/comm.py", line 55, in broadcast_coalesced for chunk in _take_tensors(tensors, buffer_size): File "/home/member/fuwang/opt/anaconda/lib/python3.6/site-packages/torch/_utils.py", line 232, in _take_tensors if tensor.is_sparse: File "/home/member/fuwang/opt/anaconda/lib/python3.6/site-packages/torch/autograd/variable.py", line 68, in getattr return object.getattribute(self, name) AttributeError: 'Variable' object has no attribute 'is_sparse'

Do you have any ideas?
opened by YanWang2014 3
AssertionError: False is not true

Hi, I am back again. When running the test.py, I got the following error File "test.py", line 69, in test_gradients self.assertTrue(torch.autograd.gradcheck(cbp, (x,y), eps=1)) AssertionError: False is not true

What does this mean?

opened by YanWang2014 2
Support for Pytorch 1.11?

Hi, torch.fft() and torch.irfft() are no more functions, those are modules. And there appears to be a lof of modification in the parameters. I am currently trying to combine the two types of features with compact bilinear pooling, do you know how to port this code to pytorch 1.11?

opened by bhosalems 1
Training does not converge after joining compact bilinear layer

Source code： x = self.features(x) #[4,512,28,28] batch_size = x.size(0) x = (torch.bmm(x, torch.transpose(x, 1, 2)) / 28 ** 2).view(batch_size, -1) x = torch.nn.functional.normalize(torch.sign(x) * torch.sqrt(torch.abs(x) + 1e-10)) x = self.classifiers(x) return x my code: x = self.features(x) #[4,512,28,28] x = x.view(x.shape[0], x.shape[1], -1) #[4,512,784] x = x.permute(0, 2, 1) #[4,784,512] x = self.mcb(x,x) #[4,784,512] batch_size = x.size(0) x = x.sum(1) #对于二维来说，dim=0，对列求和；dim=1对行求和；在这里是三维所以是对列求和 x = torch.nn.functional.normalize(torch.sign(x) * torch.sqrt(torch.abs(x) + 1e-10)) x = self.classifiers(x) return x

The training does not converge after modification. Why? Is it a problem with my code?

opened by roseif 3

Releases(v0.4.0)

v0.4.0(Jun 19, 2018)

Source code(tar.gz)
Source code(zip)

Owner

Grégoire Payen de La Garanderie

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