Sabrina M. Neuman scite author profile

Sabrina M. Neuman

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16Publications

80Citation Statements Received

306Citation Statements Given

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Affiliations

Harvard University Press, Harvard University, Massachusetts Institute of Technology

Publications

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Self-aware computing in the Angstrom processor

Holt²,

et al. 2012

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Addressing the challenges of extreme scale computing requires holistic design of new programming models and systems that support those models. This paper discusses the Angstrom processor, which is designed to support a new Self-aware Computing (SEEC) model. In SEEC, applications explicitly state goals, while other systems components provide actions that the SEEC runtime system can use to meet those goals. Angstrom supports this model by exposing sensors and adaptations that traditionally would be managed independently by hardware. This exposure allows SEEC to coordinate hardware actions with actions specified by other parts of the system, and allows the SEEC runtime system to meet application goals while reducing costs (e.g., power consumption).

Benchmarking and Workload Analysis of Robot Dynamics Algorithms

et al. 2019

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Accelerating Robot Dynamics Gradients on a CPU, GPU, and FPGA

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et al. 2021

IEEE Robot. Autom. Lett.

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Computing the gradient of rigid body dynamics is a central operation in many state-of-the-art planning and control algorithms in robotics. Parallel computing platforms such as GPUs and FPGAs can offer performance gains for algorithms with hardware-compatible computational structures. In this paper, we detail the designs of three faster than state-ofthe-art implementations of the gradient of rigid body dynamics on a CPU, GPU, and FPGA. Our optimized FPGA and GPU implementations provide as much as a 3.0x end-to-end speedup over our optimized CPU implementation by refactoring the algorithm to exploit its computational features, e.g., parallelism at different granularities. We also find that the relative performance across hardware platforms depends on the number of parallel gradient evaluations required.

Power modeling and other new features in the Graphite simulator

et al. 2014

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

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et al. 2022

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Robomorphic computing: a design methodology for domain-specific accelerators parameterized by robot morphology

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et al. 2021

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FPGA-based spectral envelope preprocessor for power monitoring and control

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et al. 2010

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Smart Grid and Smart Meter initiatives seek to enable energy providers and consumers to intelligently manage their energy needs through real-time monitoring, analysis, and control. We have developed an inexpensive FPGA implementation of a spectral envelope preprocessor. This FPGA permits costeffective and richly detailed power consumption monitoring for individual loads or collections of loads. It permits a flexible trade-off between data transmission, storage, and computation requirements in a power monitoring or control system. The information from the FPGA can be used to coordinate the operation of power electronic controls.

GRiD: GPU-Accelerated Rigid Body Dynamics with Analytical Gradients

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et al. 2022

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