Zobrazeno 1 - 5
of 5
pro vyhledávání: '"Dai Cheol Jung"'
Autor:
Michael Taylor, Dustin Richmond, Max Ruttenberg, Peitian Pan, Zhiru Zhang, Seyed Borna Ehsani, Preslav Ivanov, Krithik Ranjan, Dai Cheol Jung, Christopher Batten, Lin Cheng, Jack Weber, Bandhav Veluri, Zhongyuan Zhao
Publikováno v:
IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems. 41:1620-1635
Future CPU-manycore heterogeneous systems can provide high peak throughput by integrating thousands of simple, independent, energy-efficient cores in a single die. However, there are two key challenges to translating this high peak throughput into im
Autor:
Lin Cheng, Max Ruttenberg, Dai Cheol Jung, Dustin Richmond, Michael Taylor, Mark Oskin, Christopher Batten
Publikováno v:
Proceedings of the 28th ACM International Conference on Architectural Support for Programming Languages and Operating Systems, Volume 3.
Autor:
Tavio Guarino, Scott Davidson, Farzam Gilani, Daniel Petrisko, Zahra Azad, Mark Oskin, Chun Zhao, Ajay Joshi, Bandhav Veluri, Michael Taylor, Dai Cheol Jung, Mark Wyse, Paul Gao, Sadullah Canakci
Publikováno v:
IEEE Micro. 40:93-102
This article introduces BlackParrot, which aims to be the default open-source, Linux-capable, cache-coherent, 64-bit RISC-V multicore used by the world. In executing this goal, our research aims to advance the world's knowledge about the “software
Autor:
Emily Furst, Victor A. Ying, Saman Amarasinghe, Dustin Richmond, Ajay Brahmakshatriya, Claire C. Hsu, Dai Cheol Jung, Yunming Zhang, Daniel Sanchez, Max Ruttenberg, Julian Shun, Michael Taylor, Changwan Hong, Mark Oskin
Publikováno v:
ISCA
We live in a new Cambrian Explosion of hardware devices. The end of conventional processor scaling has driven research and industry practice to explore a new generation of approaches. The old DNA of architecture design, including vectors, threads, sh
Publikováno v:
NOCS
Network-On-Chip design has been an active area of academic research for two decades, but many proposed ideas have not been adopted in real chips because they have complex behavior or create significant risks in chip implementation. For this reason, m