Shvetank Prakash scite author profile

Shvetank Prakash

4Publications

5Citation Statements Received

127Citation Statements Given

How they've been cited

How they cite others

115

127

Affiliations

Harvard University Press

Publications

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Tiny Robot Learning: Challenges and Directions for Machine Learning in Resource-Constrained Robots

Neuman

Plancher

Duisterhof³

et al. 2022

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Machine learning (ML) has become a pervasive tool across computing systems. An emerging application that stresstests the challenges of ML system design is tiny robot learning, the deployment of ML on resource-constrained low-cost autonomous robots. Tiny robot learning lies at the intersection of embedded systems, robotics, and ML, compounding the challenges of these domains. Tiny robot learning is subject to challenges from size, weight, area, and power (SWAP) constraints; sensor, actuator, and compute hardware limitations; end-to-end system tradeoffs; and a large diversity of possible deployment scenarios. Tiny robot learning requires ML models to be designed with these challenges in mind, providing a crucible that reveals the necessity of holistic ML system design and automated end-to-end design tools for agile development. This paper gives a brief survey of the tiny robot learning space, elaborates on key challenges, and proposes promising opportunities for future work in ML system design.

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ArchGym: An Open-Source Gymnasium for Machine Learning Assisted Architecture Design

Yazdanbakhsh

Prakash

Jabbour

et al. 2023

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Machine learning (ML) has become a prevalent approach to tame the complexity of design space exploration for domain-specific architectures. While appealing, using ML for design space exploration poses several challenges. First, it is not straightforward to identify the most suitable algorithm from an ever-increasing pool of ML methods. Second, assessing the trade-offs between performance and sample efficiency across these methods is inconclusive. Finally, the lack of a holistic framework for fair, reproducible, and objective comparison across these methods hinders the progress of adopting ML-aided architecture design space exploration and impedes creating repeatable artifacts. To mitigate these challenges, we introduce ArchGym, an open-source gymnasium and easy-to-extend framework that connects a diverse range of search algorithms to architecture simulators. To demonstrate its utility, we evaluate ArchGym across multiple vanilla and domain-specific search algorithms in the design of a custom memory controller, deep neural network accelerators, and a custom SoC for AR/VR workloads, collectively encompassing over 21K experiments. The results suggest that with an unlimited number of samples, ML algorithms are equally favorable to meet the user-defined target specification if its hyperparameters are tuned thoroughly; no one solution is

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CFU Playground: Want a faster ML processor? Do it yourself!

Prakash

Callahan

Bushagour

et al. 2023

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Tiny Robot Learning: Challenges and Directions for Machine Learning in Resource-Constrained Robots

Neuman¹,

Plancher²,

Duisterhof³

et al. 2022

Preprint

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