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LazyTensor: combining eager execution with domain-specific compilers

Alex Suhan, Davide Libenzi, Ailing Zhang, Parker Schuh, Brennan Saeta, Jie Young Sohn, Denys Shabalin
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arXiv:2102.13267 [cs.PL], (26 Feb 2021)

@misc{suhan2021lazytensor,

   title={LazyTensor: combining eager execution with domain-specific compilers},

   author={Alex Suhan and Davide Libenzi and Ailing Zhang and Parker Schuh and Brennan Saeta and Jie Young Sohn and Denys Shabalin},

   year={2021},

   eprint={2102.13267},

   archivePrefix={arXiv},

   primaryClass={cs.PL}

}

Domain-specific optimizing compilers have demonstrated significant performance and portability benefits, but require programs to be represented in their specialized IRs. Existing frontends to these compilers suffer from the "language subset problem" where some host language features are unsupported in the subset of the user’s program that interacts with the domain-specific compiler. By contrast, define-by-run ML frameworks-colloquially called "eager" mode-are popular due to their ease of use and expressivity, where the full power of the host programming language can be used. LazyTensor is a technique to target domain specific compilers without sacrificing define-by-run ergonomics. Initially developed to support PyTorch on Cloud TPUs, the technique, along with a substantially shared implementation, has been used by Swift for TensorFlow across CPUs, GPUs, and TPUs, demonstrating the generality of the approach across (1) Tensor implementations, (2) hardware accelerators, and (3) programming languages.
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