| 日時 | 2018年3月8日 1:00PM – 6:00PM |
|---|---|
| 会場 | 早稲田大学 グリーン・コンピューティングシステム研究開発センター Conference Room 102 |
| 参加費 | シンポジウム・懇親会参加料無料、事前登録制 |
| 主催 | 公益財団法人 大川情報通信基金 早稲田大学SGU(スーパーグローバル大学創成支援) ICT・ロボット工学拠点 早稲田大学アドバンスト・マルチコア・プロセッサ研究所 |
| 協賛 | IEEE Computer Society Japan Chapter IEEE Computer Society Multicore STC 大和日英基金 |
International Symposium on Future of High Performance Green Computing 2018の開催について
本シンポジウムは2018年3月7日に大川賞※を受賞されるインテルフェロー イリノイ大学アーバナシャンペーン校名誉教授 Dr. David Kuck(IEEE Computer Society Computer Pioneer Award受賞者、世界初のスパコンILLIAC Ⅳの開発に始まり、現在のサーバー、スパコン、パソコンで利用されている自動並列化コンパイル技術の開発、OpenMPに代表される並列化プログラミング技術及びプログラムデバッギング及びチューニングツールを開発した並列処理技術のパイオニア)を中心として、世界の第一人者をお招きして開催する高性能低消費電力(Green)コンピューティングに関する議論を行なうことを目的としております。
世界の並列プログラミング、HPCの第一人者であるUniversity of Illinois at Urbana-Champaign Prof. David Padua、日本初のIEEE Computer Society 会長で並列化コンパイラ・マルチコア研究者である早稲田大学 教授 笠原博徳、IEEE Computer Society理事で低消費電力コンピューティングの著名研究者であるWestminster University Prof. Vladimir Getov、組込並列コンピューティングの第一人者であるSeoul National University Prof. Jae Jin Leeによる世界最先端の講演とラウンドテーブルを実施致します。
参加料無料、事前登録制となっておりますので是非ご参加いただきますようお願い申し上げます。
大川賞とは:※情報・通信分野における研究、技術開発および事業において顕著な社会的貢献をされた方の労に報い、その功績を表彰すると共に、情報・通信分野のさらなる発展と啓蒙に寄与することを目的とした国際賞。
プログラム
シンポジウム
| 12:30 | 受付開始 |
|---|---|
| 13:00 – 13:15 | 開会挨拶 |
| 13:15 – 14:05 | Dr. David Kuck |
| 14:05 – 14:35 | Prof. Hironori Kasahara |
| 14:35 – 14:50 | Coffee Break |
| 14:50 – 15:20 | Prof. David Padua |
| 15:20 – 15:50 | Prof. Vladimir Getov |
| 15:50 – 16:20 | Dr. Peter Braam |
| 16:20 – 16:50 | Prof. Jaejin Lee |
| 16:50 – 17:00 | Coffee Break |
| 17:00 – 18:00 | Round Table |
| 18:00 | 閉会挨拶 |
| 18:10 | 終了 |
懇親会(リーガロイヤルホテル)
| 18:30 | 開会挨拶 |
|---|---|
| 20:25 | 閉会挨拶 |
| 20:30 | 終了 |
基調講演者
David KuckIntel Fellow
Professor Emeritus, University of Illinois, Urbana-Champaign
Six Solvable System Challenges
Today’s SW tools provide performance profiles, mostly in architectural terms (cpi, cache misses, etc.), but little energy information about computations. To fix problems, SW developers need more insight about their code and its HW interactions. For example, new system modeling technology reveals codelet energy consumed per HW node. Modeling can also enable What-if analyses answering developer questions about the potential value of vectorization, loop tiling, etc. System user input can also enhance operating policies, accepting performance or power limits and optimization goals (e.g. maximize perf/energy, subject to a power limit). HW/SW codesign is the hardest problem, and requires all of the above together with What-if analyses allowing architects to vary BW, latency and storage size of HW nodes, and run tens of thousands of codelets in system-optimized forms. These topics will be presented in terms of 6 hard but solvable system challenges.
Biography
David Kuck is an Intel Fellow doing R&D in Intel’s Software and Solutions Group. He led the Parallel and Distributed Solutions Division, which produced parallel software development tools, including the Intel Threading and Cluster Tools. He is currently working on the HW/SW codesign of architectures and applications based on performance, energy and cost.
Kuck was a Professor of CS and ECE at the University of Illinois (UIUC), where he founded (1983) and directed the Center for Supercomputing Research and Development through 1992. In 1993, he left the university and joined Kuck and Associates, Inc. full time. He served as Chairman of KAI from its founding in 1979 until 2000 when it was acquired by Intel. In the 1990s, KAI developed the OpenMP parallel programming standard, KAP/Pro Toolset for parallel program development, and the KCC C++ compiler technology.
His R&D career has included contributions to the architecture and software of a number of parallel computer systems, including Illiac IV, Burroughs BSP, Alliant FX, and Cedar, as well as the development of the Parafrase compilation software for parallel program restructuring. He is a Fellow of the IEEE, ACM and AAAS, and has received a number of awards for computer architecture and software design, including the IEEE Piore Award, the IEEE Computer Society’s 2011 Computer Pioneer Award and the Charles Babbage Award, the ACM-IEEE Eckert-Mauchly and Kennedy Awards, and is a member of the National Academy of Engineering.
Kuck received a B.S.E.E. from the University of Michigan, an M.S. and Ph.D. in Engineering from Northwestern University, and was a Ford Foundation post-doc and Assistant Prof. of EE at MIT.
招待講演者
David Padua
Donald Biggar Willett Professor of Engineering,
University of Illinois at Urbana-Champaign
Then and Now: How parallel computing has changed since 1979.
I will present an outline of the history of parallel computing since 1979. The talk will focus on the evolution of machine organization, languages, compilers, and applications. The presentation will be based on a project that Robert Kuhn and I initiated a few weeks ago to commemorate the Tutorial on Parallel Processing that we put together and IEEE Press printed in 1979. Robert Kuhn and I were PhD students of David Kuck and he encouraged us to create the tutorial.
Biography
David Padua is the Donald Biggar Willet Professor of Engineering at the University of Illinois, where he has been a faculty member since 1985. He has done research on parallel computing, autotuning, and compilers and has published more than 170 papers in those areas. He has participated in the organization of more than 70 conferences and workshops and served on the editorial board of ACM TOPLAS, JPDC, IEEE TPDS, and IJPP and as Editor in Chief of the Encyclopedia of Parallel Computing (Springer‐Verlag). He is a fellow of the IEEE and the ACM and the recipient of the 2015 IEEE Computer Society Harry H. Goode Award. In 2017, he received a doctorate honoris causa from the University of Valladolid in Spain.
スポンサー
| 主催 | 公益財団法人 大川情報通信基金 早稲田大学SGU(スーパーグローバル大学創成支援) ICT・ロボット工学拠点 早稲田大学アドバンスト・マルチコア・プロセッサ研究所 |
|---|---|
| 協賛 | IEEE Computer Society Japan Chapter IEEE Computer Society Multicore STC 大和日英基金 |
宿泊情報
リーガロイヤルホテル東京
〒169-8613 東京都新宿区戸塚町1-104-19
TEL:(03)5285-1121
開催地について
グリーン・コンピューティング・システム研究機構
〒162-0042 東京都新宿区早稲田町27
TEL:(03)3203-4369
宿泊と開催地の交通方法
徒歩 (約10分)
公共交通 (約25-30分, 約400円)
タクシー (約10分, 約730円)
