Gaurav Menghani scite author profile

Gaurav Menghani

5Publications

26Citation Statements Received

220Citation Statements Given

How they've been cited

How they cite others

135

220

Affiliations

Stony Brook University

Publications

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Efficient Deep Learning: A Survey on Making Deep Learning Models Smaller, Faster, and Better

Menghani¹

2021

Preprint

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Deep Learning has revolutionized the fields of computer vision, natural language understanding, speech recognition, information retrieval and more. However, with the progressive improvements in deep learning models, their number of parameters, latency, resources required to train, etc. have all have increased significantly. Consequently, it has become important to pay attention to these footprint metrics of a model as well, not just its quality. We present and motivate the problem of efficiency in deep learning, followed by a thorough survey of the five core areas of model efficiency (spanning modeling techniques, infrastructure, and hardware) and the seminal work there. We also present an experiment-based guide along with code, for practitioners to optimize their model training and deployment. We believe this is the first comprehensive survey in the efficient deep learning space that covers the landscape of model efficiency from modeling techniques to hardware support. Our hope is that this survey would provide the reader with the mental model and the necessary understanding of the field to apply generic efficiency techniques to immediately get significant improvements, and also equip them with ideas for further research and experimentation to achieve additional gains.

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Avoiding Locks and Atomic Instructions in Shared-Memory Parallel BFS Using Optimistic Parallelization

Tithi

Mátáni

Menghani

et al. 2013

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A Simple Solution to the Level-Ancestor Problem

Menghani¹,

Mátáni²

2019

Preprint

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Robust Active Distillation

Baykal¹,

Trinh²,

Iliopoulos³

et al. 2022

Preprint

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Distilling knowledge from a large teacher model to a lightweight one is a widely successful approach for generating compact, powerful models in the semi-supervised learning setting where a limited amount of labeled data is available. In large-scale applications, however, the teacher tends to provide a large number of incorrect soft-labels that impairs student performance. The sheer size of the teacher additionally constrains the number of soft-labels that can be queried due to prohibitive computational and/or financial costs. The difficulty in achieving simultaneous efficiency (i.e., minimizing soft-label queries) and robustness (i.e., avoiding student inaccuracies due to incorrect labels) hurts the widespread application of knowledge distillation to many modern tasks. In this paper, we present a parameter-free approach with provable guarantees to query the soft-labels of points that are simultaneously informative and correctly labeled by the teacher. At the core of our work lies a game-theoretic formulation that explicitly considers the inherent trade-off between the informativeness and correctness of input instances. We establish bounds on the expected performance of our approach that hold even in worst-case distillation instances. We present empirical evaluations on popular benchmarks that demonstrate the improved distillation performance enabled by our work relative to that of state-of-the-art active learning and active distillation methods.

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A fast genetic algorithm based static heuristic for scheduling independent tasks on heterogeneous systems

Menghani¹

2010

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Gaurav Menghani

Efficient Deep Learning: A Survey on Making Deep Learning Models Smaller, Faster, and Better

Avoiding Locks and Atomic Instructions in Shared-Memory Parallel BFS Using Optimistic Parallelization

A Simple Solution to the Level-Ancestor Problem

Robust Active Distillation

A fast genetic algorithm based static heuristic for scheduling independent tasks on heterogeneous systems

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