<--- Back to Details
First PageDocument Content
Software engineering / Computer programming / Computing / Programming language comparisons / Parallel computing / Computational neuroscience / Artificial neural networks / Map / Foreach loop / Long short-term memory / Automatic parallelization
Date: 2018-02-21 18:51:59
Software engineering
Computer programming
Computing
Programming language comparisons
Parallel computing
Computational neuroscience
Artificial neural networks
Map
Foreach loop
Long short-term memory
Automatic parallelization

Scaling Neural Network Acceleration using Coarse-Grained Parallelism Mingyu Gao, Xuan Yang, Jing Pu, Mark Horowitz, Christos Kozyrakis Stanford University

Add to Reading List

Source URL: platformlab.stanford.edu

Download Document from Source Website

File Size: 965,65 KB

Share Document on Facebook

Similar Documents

Millisort: An Experiment in Granular Computing Seo Jin Park with Yilong Li, Collin Lee and John Ousterhout Massively Parallel Granular Computing

Millisort: An Experiment in Granular Computing Seo Jin Park with Yilong Li, Collin Lee and John Ousterhout Massively Parallel Granular Computing

DocID: 1xUyt - View Document

arXiv:1803.04432v1 [cs.DC] 12 MarMemory Models for C/C++ Programmers Manuel P¨oter Jesper Larsson Tr¨aff Research Group Parallel Computing

arXiv:1803.04432v1 [cs.DC] 12 MarMemory Models for C/C++ Programmers Manuel P¨oter Jesper Larsson Tr¨aff Research Group Parallel Computing

DocID: 1xTxL - View Document

FEIIC International Journal of Engineering and Technology, Vol. 13, No.2, 2016, ppSURVEY ANALYSIS ON THE EMBEDDED TCPP CURRICULUM IN PARALLEL AND DISTRIBUTED COMPUTING COURSE

FEIIC International Journal of Engineering and Technology, Vol. 13, No.2, 2016, ppSURVEY ANALYSIS ON THE EMBEDDED TCPP CURRICULUM IN PARALLEL AND DISTRIBUTED COMPUTING COURSE

DocID: 1vq34 - View Document

Parallel Computing with IPython: an application to air pollution modeling

Parallel Computing with IPython: an application to air pollution modeling

DocID: 1vlLp - View Document

Multi-EM Multi-Method Inversion to Determine the Electrical Conductivity Distribution of the Subsurface Using Parallel Computing Architectures Multi-EM

Multi-EM Multi-Method Inversion to Determine the Electrical Conductivity Distribution of the Subsurface Using Parallel Computing Architectures Multi-EM

DocID: 1uVPD - View Document