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Fumiyoshi Shoji
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2020 – today
- 2024
- [c19]Chongke Bi, Fumiyoshi Shoji, Kenji Ono, Naohisa Sakamoto, Jorji Nonaka, Honggang Yin, Wenjuan Cui:
Enhanced Simulation and Analysis of Air Pollutants Using Multi-Platform HPC and In-Situ Visualization. CLUSTER Workshops 2024: 200-201 - [c18]Jorji Nonaka, Masahiro Nakao, Hitoshi Murai, Keiji Yamamoto, Masaaki Terai, Tomohiro Kawanabe, Toshihiko Kai, Fumiyoshi Shoji, Daichi Obinata, Hiroyuki Ito, Shunji Uno, Takanori Haga, Manabu Motokawa, Atsushi Fujino, Naoyuki Fujita, Seiji Tsutsumi, Atsushi Toyoda, Naohisa Sakamoto:
On the Building of a Common In-Situ Visualization Environment for Arm A64FX Supercomputers. CLUSTER Workshops 2024: 202-203 - 2023
- [c17]Jorji Nonaka, Keijiro Fujita, Takanori Fujiwara, Naohisa Sakamoto, Keiji Yamamoto, Masaaki Terai, Toshiyuki Tsukamoto, Fumiyoshi Shoji:
Reflections on the Developments of Visual Analytics Systems for the K Computer System Log Data. VisGap@EuroVis 2023: 11-18 - 2021
- [c16]Masaaki Terai, Keiji Yamamoto, Shin'ichi Miura, Fumiyoshi Shoji:
An Operational Data Collecting and Monitoring Platform for Fugaku: System Overviews and Case Studies in the Prelaunch Service Period. ISC Workshops 2021: 365-377 - 2020
- [c15]Jorji Nonaka
, Toshihiro Hanawa, Fumiyoshi Shoji:
Analysis of Cooling Water Temperature Impact on Computing Performance and Energy Consumption. CLUSTER 2020: 169-175 - [c14]Jorji Nonaka
HUD-Oden: A Practical Evaluation Environment for Analyzing Hot-Water Cooled Processors. CLUSTER 2020: 494-498 - [c13]Masaaki Terai, Fumiyoshi Shoji, Toshiyuki Tsukamoto, Yukihiro Yamochi:
A Study of Operational Impact on Power Usage Effectiveness using Facility Metrics and Server Operation Logs in the K Computer. CLUSTER 2020: 509-513
2010 – 2019
- 2018
- [j4]Jorji Nonaka
Data I/O management approach for the post-hoc visualization of big simulation data results. Int. J. Model. Simul. Sci. Comput. 9(3): 1840006:1-1840006:16 (2018) - [c12]Yuichi Tsujita
Improving Collective MPI-IO Using Topology-Aware Stepwise Data Aggregation with I/O Throttling. HPC Asia 2018: 12-23 - [c11]Jorji Nonaka
A Study on Open Source Software for Large-Scale Data Visualization on SPARC64fx based HPC Systems. HPC Asia 2018: 278-288 - [c10]Eduardo C. Inacio, Jorji Nonaka
Characterizing I/O and Storage Activity on the K Computer for Post-Processing Purposes. ISCC 2018: 730-735 - [c9]Jorji Nonaka, Kenji Ono, Naohisa Sakamoto, Kengo Hayashi, Motohiko Matsuda, Fumiyoshi Shoji, Kentaro Oku, Masahiro Fujita, Kazuma Hatta:
A Large Data Visualization Framework for SPARC64 fx HPC Systems - Case Study: K Computer Operational Environment -. LDAV 2018: 108-109 - [c8]Kenji Ono
Design of a Flexible In Situ Framework with a Temporal Buffer for Data Processing and Visualization of Time-Varying Datasets. ISC Workshops 2018: 243-257 - [c7]Kengo Hayashi, Naohisa Sakamoto
An In-Situ Visualization Approach for the K Computer Using Mesa 3D and KVS. ISC Workshops 2018: 310-322 - 2017
- [j3]Fumiyoshi Shoji:
Lessons learned from development and operation of the K computer. Parallel Comput. 64: 12-19 (2017) - 2016
- [j2]Fumiyoshi Shoji, Katsuyuki Tanaka, Satoshi Matsushita, Hiroyuki Takitsuka, Toshiyuki Tsukamoto, Mitsuo Yokokawa
Improving the energy efficiencies of power supply and cooling facilities for 10 peta-scale supercomputer. Comput. Sci. Res. Dev. 31(4): 235-243 (2016) - [c6]Fumiyoshi Shoji:
The K computer and its failures. FTXS@HPDC 2016: 17 - [c5]Takeo Hoshi
Extremely Scalable Algorithm for 108-atom Quantum Material Simulation on the Full System of the K Computer. ScalA@SC 2016: 33-40 - 2014
- [c4]Keiji Yamamoto, Atsuya Uno, Hitoshi Murai, Toshiyuki Tsukamoto, Fumiyoshi Shoji
The K computer Operations: Experiences and Statistics. ICCS 2014: 576-585 - 2013
- [j1]Tomoya Adachi, Naoyuki Shida, Kenichi Miura, Shinji Sumimoto, Atsuya Uno, Motoyoshi Kurokawa
The design of ultra scalable MPI collective communication on the K computer. Comput. Sci. Res. Dev. 28(2-3): 147-155 (2013) - 2012
- [c3]Hiroyuki Miyazaki, Yoshihiro Kusano, Hiroshi Okano, Tatsumi Nakada, Ken Seki, Toshiyuki Shimizu, Naoki Shinjo, Fumiyoshi Shoji
K computer: 8.162 PetaFLOPS massively parallel scalar supercomputer built with over 548k cores. ISSCC 2012: 192-194 - 2011
- [c2]Mitsuo Yokokawa, Fumiyoshi Shoji, Atsuya Uno, Motoyoshi Kurokawa, Tadashi Watanabe:
The K computer: Japanese next-generation supercomputer development project. ISLPED 2011: 371-372 - [c1]Yukihiro Hasegawa, Jun-ichi Iwata, Miwako Tsuji
First-principles calculations of electron states of a silicon nanowire with 100, 000 atoms on the K computer. SC 2011: 1:1-1:11
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last updated on 2024-11-20 21:01 CET by the dblp team
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