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A library of tested, GPU implementations of core structured prediction algorithms for deep learning applications.

  • HMM / LinearChain-CRF
  • HSMM / SemiMarkov-CRF
  • Dependency Tree-CRF
  • PCFG Binary Tree-CRF

Designed to be used as efficient batched layers in other PyTorch code.

Tutorial paper describing methodology.

Getting Started

!pip install -qU git+https://github.com/harvardnlp/pytorch-struct
# Optional CUDA kernels for FastLogSemiring
!pip install -qU git+https://github.com/harvardnlp/genbmm
# For plotting.
!pip install -q matplotlib
import torch
from torch_struct import DependencyCRF, LinearChainCRF
import matplotlib.pyplot as plt
def show(x): plt.imshow(x.detach())
# Make some data.
vals = torch.zeros(2, 10, 10) + 1e-5
vals[:, :5, :5] = torch.rand(5)
vals[:, 5:, 5:] = torch.rand(5) 
dist = DependencyCRF(vals.log())
show(dist.log_potentials[0])

png

# Compute marginals
show(dist.marginals[0])

png

# Compute argmax
show(dist.argmax.detach()[0])

png

# Compute scoring and enumeration (forward / inside)
log_partition = dist.partition
max_score = dist.log_prob(dist.argmax)
# Compute samples 
show(dist.sample((1,)).detach()[0, 0])

png

# Padding/Masking built into library.
dist = DependencyCRF(vals, lengths=torch.tensor([10, 7]))
show(dist.marginals[0])
plt.show()
show(dist.marginals[1])

png

png

# Many other structured prediction approaches
chain = torch.zeros(2, 10, 10, 10) + 1e-5
chain[:, :, :, :] = vals.unsqueeze(-1).exp()
chain[:, :, :, :] += torch.eye(10, 10).view(1, 1, 10, 10) 
chain[:, 0, :, 0] = 1
chain[:, -1,9, :] = 1
chain = chain.log()

dist = LinearChainCRF(chain)
show(dist.marginals.detach()[0].sum(-1))

png

Library

Full docs: nlp.seas.harvard.edu/pytorch-struct/

Current distributions implemented:

  • LinearChainCRF
  • SemiMarkovCRF
  • DependencyCRF
  • NonProjectiveDependencyCRF
  • TreeCRF
  • NeuralPCFG / NeuralHMM

Each distribution includes:

  • Argmax, sampling, entropy, partition, masking, log_probs, k-max

Extensions:

  • Integration with torchtext, pytorch-transformers, dgl
  • Adapters for generative structured models (CFG / HMM / HSMM)
  • Common tree structured parameterizations TreeLSTM / SpanLSTM

Low-level API:

Everything implemented through semiring dynamic programming.

  • Log Marginals
  • Max and MAP computation
  • Sampling through specialized backprop
  • Entropy and first-order semirings.

Examples

Citation

@misc{alex2020torchstruct,
    title={Torch-Struct: Deep Structured Prediction Library},
    author={Alexander M. Rush},
    year={2020},
    eprint={2002.00876},
    archivePrefix={arXiv},
    primaryClass={cs.CL}
}

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