New horizons of computational science : proceedings of the international symposium on supercomputing held in Tokyo, Japan, September 1-3, 1997
著者
書誌事項
New horizons of computational science : proceedings of the international symposium on supercomputing held in Tokyo, Japan, September 1-3, 1997
(Astrophysics and space science library, v.263)
Kluwer Academic Publishers, c2001
大学図書館所蔵 全8件
  青森
  岩手
  宮城
  秋田
  山形
  福島
  茨城
  栃木
  群馬
  埼玉
  千葉
  東京
  神奈川
  新潟
  富山
  石川
  福井
  山梨
  長野
  岐阜
  静岡
  愛知
  三重
  滋賀
  京都
  大阪
  兵庫
  奈良
  和歌山
  鳥取
  島根
  岡山
  広島
  山口
  徳島
  香川
  愛媛
  高知
  福岡
  佐賀
  長崎
  熊本
  大分
  宮崎
  鹿児島
  沖縄
  韓国
  中国
  タイ
  イギリス
  ドイツ
  スイス
  フランス
  ベルギー
  オランダ
  スウェーデン
  ノルウェー
  アメリカ
この図書・雑誌をさがす
内容説明・目次
内容説明
The International Symposium on Supercomputing - New Horizon of Computational Science was held on September 1-3, 1997 at the Science MuseuminTokyo,tocelebrate60-yearbirthdayofProfessorDaiichiroSug- imoto,who hasbeenleadingtheoreticalandnumericalastrophysicsfor 30 years. The conference coveredexceptionally wide range ofsubjects, to follow Sugimoto'saccomplishmentsinmanyfields.Onthefirstdaywehadthree talksonstellarevolutionandsixtalksonstellardynamics. Onthesecond day, six talks on special-purpose computingand four talks on large-scale computing in MolecularDynamicswere given. Onthethirdandthelast day,threetalks on dedicatedcomputerson LatticeQCDcalculationsand sixtalksonpresentandfutureofgeneral-purposeHPCsystemsweregiven. Inaddition,some30posterswerepresentedonvarioussubjectsincompu- tationalscience. Instellarevolution, D.Arnett (Univ. ofArizona) gaveanexcellenttalk on the recent development in three-dimensionalsimulation ofSupernova, inparticularonquantitativecomparisonbetweendifferenttechniquessuch asgrid-basedmethodsandSPH (SmoothedParticleHydrodynamics). Y. Kondo (NASA) discussedresentadvanceinthemodelingoftheevolution ofbinarystars,and1.Hachisu(Univ. ofTokyo)discussedRayleigh-Taylor instabilitiesinsupernovae(contributionnotincluded).
Instellardynamics, P.Hut(lAS)gaveasuperbreviewonthelong-term evolution ofstellarsystem, J. Makino (Univ. ofTokyo) described briefly theresultsobtainedonGRAPE-4special-purposecomputerandthefollow- up project,GRAPE-6,whichisapprovedas ofJune 1997. GRAPE-6will be completed by year 2001 with the peak speed around 200 Tflops. R. Spurzem (Rechen-Inst.) and D. Heggie (Univ. of Edinburgh) talked on recentadvanceinthestudyofstarclusters,andE.Athanassoula(Marseille Observatory) describedthe work doneusingtheirGRAPE-3 systems. S. Ida (TokyoInst. ofTechnology) describedthe result ofthe simulationof theformationofMoon. Thefirst talkoftheseconddaywas given by F-H. Hsu oftheIBMT.J. Watson Research center, on "Deep Blue", the special-purpose computer for Chess,which, forthefirst timeinthehistory, wonthematchwiththe besthumanplayer,Mr. GaryKasparov(unfortunately,Hsu'scontribution isnot included in this volume). Then A. Bakker of Delft Inst. of Tech- nology looked back his 20 years ofdevelopingspecial-purpose computers formoleculardynamicsandsimulationofspinsystems. J.Arnoldgavean overviewoftheemergingnewfieldofreconfigurablecomputing,whichfalls inbetweentraditionalgeneral-purposecomputersandspecial-purposecom- puters.
S.Okumura(NAO)describedthehistoryofultra-high-performance digital signalprocessors for radio astronomy. They havebuilt a machine with 20GaPS performance in early 80s, and keep improvingthe speed. M. Taiji (ISM) told on general aspects of GRAPE-type systems, and T. Narumi (Univ. of Tokyo) the 100-Tflops GRAPE-type machine for MD calculations,whichwillbefinished by 1999.
目次
- Preface
- T. Ebisuzaki, J. Makino. List of Participants. Stellar Evolution, Stellor Dynamics and Tera-Flops Computation
- D. Sugimoto. Simulation of Nature by Computer
- D. Arnett. Supercomputing and Evolution in Close Binaries
- Y. Kondo. Stellar Dynamics of Dense Stellar Systems
- P. Hut. Stellar Dynamics on 200 Tflops Special-Purpose Computers
- J. Makino. Astrophysical N-Body Simulations: Algorithms and Challenges
- R. Spurzem. Star Cluster Simulations
- D.C. Heggie. Stellar Dynamical Simulations of Galaxies and of Galaxy System Using the Marselle Grape-3 Systems
- E. Athanassoula. Accretion of Planets and Moons
- S. Ida. What We Learned from Special Purpose Computers
- A.F. Bakker, F. Berwald. Reconfigurable Computing
- J.M. Arnold. Special-Purpose Computer for Radio Astronomy
- S.K. Okumura. Special-Purpose Computers for Classical Particle Simulations
- M. Taiji. Molecular Dynamics Machine: Highly Parallelized Special-Purpose-Computer for Molecular Dynamics Simulations
- T. Narumi, et al. Molecular Simulations with the MD-Grape Special-Purpose Computer
- M.J. Field. High Performance Computing in Biophysics: Recent Experiences and Developments of Charmm
- M. Hodoscek, et al. Massive Parallelism: The Hardware for Computational Chemistry? M.F. Guest, et al. Molecular Dynamics Simulation of Ion Channels
- Q. Zhong, et al. The QCDSP Computer: Particle Physics with 20,000 Processors
- R.D. Mawhinney. The CP-PACS Project and Lattice QCD
- Y. Iwasaki. Three Generations of APE Projects: Lessons and Perspective
- R. Tripiccione. Vector-Parallel Processing and Fujitsu VPP300E/700E Supercomputer System
- K. Miura. The Evolution of Rotating Collisional Stellar Systems
- C.R.W. Einsel. Effects of the Alfven Wave on the GravitationalInstability in the Interstellar Medium
- N. Fukuda, T. Hanawa. N-Body Simulation of Halo Formation Using GRAPE-4
- T. Fukushige, J. Makino. The PCI Interface for Grape Systems: PCI-HIB
- A. Kawai, et al. Fragmentation of Molecular Clouds: The Initial Phase of a Stellar Cluster
- R.S. Klessen, A. Burkert. Formation of Star Clusters in the Magellanic Clouds
- M. Kontizas, et al. Three Dimensional MHD Simulations of Accretion Disks and Jet Formation
- R. Matsumoto, et al. Gravitational Collapse of Rotating Clouds: Bar Formation in a Self-Similarly Contracting Disk
- T. Matsumoto, T. Hanawa. The Formation and Evolution of Dwarf Galaxies: Hydrodynamics and Color Gradient
- M. Mori, et al. Parallel 3D Lattice Boltzmann Simulations of Turbulent Dark Cloud Flows
- D. Muders. Photoionization of a Clumpy Universe
- T. Nakamoto, et al. Smoothed Particle Hybrodynamics with Parallel Virtual Machine
- N. Nakasato, et al. Jets from Time-Dependent Accretion Flows onto a Black Hole
- K. Nobuta, T. Hanawa. Supercomputing in the Astronomical Institute of Romanian Academy
- M.D. Suran, N.A. Popescu. Anisotropic Fokker-Planck Models of Globular Cluster Evolution
- K. Takahashi. An Efficient Parallel Hierarchical Algorithm for Module Placement
- T. Yang. The Efficient Parallel Newton-GMRES Algorithm for Computational Fluid Dynamics
- T. Yang. Molecular Mechanism of Homogeneous Nucleation in Vapor Phase: Lennard-Jones Fluid
- K. Yasuoka, M. Matsumoto. Development of Special Purpose Computer for Cosmic Hydrodynamics with SPH Method
- Y. Yokono, et al. Index.
「Nielsen BookData」 より