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On-line Access: 2022-04-22
Received: 2022-04-22
Revision Accepted: 2022-04-22
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Zuo-ning Chen, Jack Dongarra, Zhi-wei Xu. Post-exascale supercomputing: research opportunities abound[J]. Frontiers of Information Technology & Electronic Engineering,in press.https://doi.org/10.1631/FITEE.1830000 @article{title="Post-exascale supercomputing: research opportunities abound", %0 Journal Article TY - JOUR
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Reference[1]Asch M, Moore T, Badia R, et al., 2018. Big data and extreme-scale computing: pathways to convergence— toward a shaping strategy for a future software and data ecosystem for scientific inquiry. Int J High Perform Comput Appl, 32(4):435-479. [2]Cambricon, 2018. MLU100-Cambricon. https://en.wikichip.org/wiki/cambricon/mlu/mlu100 [Accessed on Oct. 15, 2018]. [3]Feldman M, 2018. Europeans Budget 1.4 Billion Euros to Build Next-Generation Supercomputers. https://www.top500.org/news/europeans-budget-14-billion-euros-to-build-next-generation-supercomputers/ [Accessed on Oct. 15, 2018]. [4]Hu XS, Niemier M, 2018. Cross-layer efforts for energy-efficient computing: towards peta operations per second per watt. Front Inform Technol Electron Eng, 19(10): 1209-1223. [5]Jun Y, Gavrilov M, Bechhoefer J, 2014. High-precision test of Landauer’s principle in a feedback trap. Phys Rev Lett, 113(19):190601. [6]Landauer R, 1961. Irreversibility and heat generation in the computing process. IBM J Res Devel, 5(3):183-191. [7]Liao XK, Lu K, Yang CQ, et al., 2018. Moving from exascale to zettascale computing: challenges and techniques. Front Inform Technol Electron Eng, 19(10):1236-1244. [8]Mo ZY, 2018. Extreme-scale parallel computing: bottlenecks and strategies. Front Inform Technol Electron Eng, 19(10): 1251-1260. [9]Panda DK, Lu XY, Subramoni H, 2018. Networking and communication challenges for post-exascale systems. Front Inform Technol Electron Eng, 19(10):1230-1235. [10]Strohmaier E, 2018. Highlights of the 51st TOP500 list. https://www.top500.org/static/media/uploads/top500_ppt_201806.pdf [Accessed on Oct. 15, 2018]. [11]Sun NH, Bao YG, Fan DR, 2018. The rise of high-throughput computing. Front Inform Technol Electron Eng, 19(10): 1245-1250. [12]Xie XH, Jia X, 2018. Exploring high-performance processor architecture beyond the exascale. Front Inform Technol Electron Eng, 19(10):1224-1229. [13]Xu Z, Chi X, Xiao N, 2016. High-performance computing environment: a review of twenty years of experiments in China. Natl Sci Rev, 3(1):36-48. [14]Yang GW, Fu HH, 2018. Application software beyond exa- scale: challenges and possible trends. Front Inform Technol Electron Eng, 19(10):1267-1272. [15]Zhai JD, Chen WG, 2018. A vision of post-exascale pro-gramming. Front Inform Technol Electron Eng, 19(10): 1261-1266. Journal of Zhejiang University-SCIENCE, 38 Zheda Road, Hangzhou
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