A PyTorch Implementation of "Neural Arithmetic Logic Units"

Related tags

Deep Learningdeep-learningneural-networkpytorchnalu
Overview

Neural Arithmetic Logic Units

[WIP]

This is a PyTorch implementation of Neural Arithmetic Logic Units by Andrew Trask, Felix Hill, Scott Reed, Jack Rae, Chris Dyer and Phil Blunsom.

Drawing

API

from models import *

# single layer modules
NeuralAccumulatorCell(in_dim, out_dim)
NeuralArithmeticLogicUnitCell(in_dim, out_dim)

# stacked layers
NAC(num_layers, in_dim, hidden_dim, out_dim)
NALU(num_layers, in_dim, hidden_dim, out_dim)

Experiments

To reproduce "Numerical Extrapolation Failures in Neural Networks" (Section 1.1), run:

python failures.py

This should generate the following plot:

Drawing

To reproduce "Simple Function Learning Tasks" (Section 4.1), run:

python function_learning.py

This should generate a text file called interpolation.txt with the following results. (Currently only supports interpolation, I'm working on the rest)

Relu6 None NAC NALU
a + b 4.472 0.132 0.154 0.157
a - b 85.727 2.224 2.403 34.610
a * b 89.257 4.573 5.382 1.236
a / b 97.070 60.594 5.730 3.042
a ^ 2 89.987 2.977 4.718 1.117
sqrt(a) 5.939 40.243 7.263 1.119

Notes

  • RMSprop works really well with NAC and NALU
  • high learning rate (0.01) does a good job as well
Owner
Kevin Zakka
Kevin Zakka
GitHub Repository
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