Challenges in Migrating Imperative Deep Learning Programs to Graph Execution: An Empirical Study

January 24, 2022 Β· Declared Dead Β· πŸ› IEEE Working Conference on Mining Software Repositories

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Authors Tatiana Castro VΓ©lez, Raffi Khatchadourian, Mehdi Bagherzadeh, Anita Raja arXiv ID 2201.09953 Category cs.SE: Software Engineering Cross-listed cs.LG, cs.PL Citations 10 Venue IEEE Working Conference on Mining Software Repositories Last Checked 4 months ago
Abstract
Efficiency is essential to support responsiveness w.r.t. ever-growing datasets, especially for Deep Learning (DL) systems. DL frameworks have traditionally embraced deferred execution-style DL code that supports symbolic, graph-based Deep Neural Network (DNN) computation. While scalable, such development tends to produce DL code that is error-prone, non-intuitive, and difficult to debug. Consequently, more natural, less error-prone imperative DL frameworks encouraging eager execution have emerged but at the expense of run-time performance. While hybrid approaches aim for the "best of both worlds," the challenges in applying them in the real world are largely unknown. We conduct a data-driven analysis of challenges -- and resultant bugs -- involved in writing reliable yet performant imperative DL code by studying 250 open-source projects, consisting of 19.7 MLOC, along with 470 and 446 manually examined code patches and bug reports, respectively. The results indicate that hybridization: (i) is prone to API misuse, (ii) can result in performance degradation -- the opposite of its intention, and (iii) has limited application due to execution mode incompatibility. We put forth several recommendations, best practices, and anti-patterns for effectively hybridizing imperative DL code, potentially benefiting DL practitioners, API designers, tool developers, and educators.
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