3. Java Grande 2001: Stanford University, CA, USA

• Arch D. Robison:
  Impact of economics on compiler optimization. 1-10
  
• Arnold Nelisse, Thilo Kielmann, Henri E. Bal, Jason Maassen:
  Object-based collective communication in Java. 11-20
  
• Orion Sky Lawlor, Laxmikant V. Kalé:
  Supporting dynamic parallel object arrays. 21-28
  
• Jeremy Manson, William Pugh:
  Core semantics of multithreaded Java. 29-38
  
• James C. Pang, Gholamali C. Shoja, Eric G. Manning:
  Providing soft real-time QoS guarantees for Java threads. 39-47
  
• Richard L. Hudson, J. Eliot B. Moss:
  Sapphire: copying GC without stopping the world. 48-57
  
• Kees van Reeuwijk, Frits Kuijlman, Henk J. Sips:
  Spar: a set of extensions Java for scientific computation. 58-67
  
• David F. Bacon:
  Kava: a Java dialect with a uniform object model for lightweight classes. 68-77
  
• Peter R. Cappello, Dimitros Mourloukos:
  A scalable, robust network for parallel computing. 78-86
  
• Sameer Shende, Allen D. Malony:
  Integration and applications of the TAU performance system in parallel Java environments. 87-96
  
• J. Mark Bull, L. A. Smith, L. Pottage, R. Freeman:
  Benchmarking Java against C and Fortran for scientific applications. 97-105
  
• Charlie Daly, Jane Horgan, James F. Power, John Waldron:
  Platform independent dynamic Java virtual machine analysis: the Java Grande Forum Benchmark suite. 106-115
  
• José E. Moreira, Samuel P. Midkiff, Manish Gupta:
  A comparison of three approaches to language, compiler, and library support for multidimensional arrays in Java. 116-125
  
• Keith Seymour, Jack Dongarra:
  Automatic translation of Fortran to JVM bytecode. 126-133
  
• W. B. VanderHeyden, E. D. Dendy, N. T. Padial-Collins:
  CartaBlanca - a pure-Java, component-based systems simulation tool for coupled non-linear physics on unstructured grids. 134-142
  
• Christopher Riley, Siddhartha Chatterjee, Rupak Biswas:
  High-performance Java codes for computational fluid dynamics. 143-152
  
• Ronald Veldema, Rutger F. H. Hofman, Raoul Bhoedjang, Henri E. Bal:
  Runtime optimizations for a Java DSM implementation. 153-162
  
• Yukihiko Sohda, Hidemoto Nakada, Satoshi Matsuoka:
  Implementation of a portable software DSM in Java. 163-172
  
• Fabian Breg, Constantine D. Polychronopoulos:
  Java virtual machine support for object serialization. 173-180
  
• Orit Edelstein, Eitan Farchi, Yarden Nir, Gil Ratsaby, Shmuel Ur:
  Multithreaded Java program test generation. 181
  
• Ralph Deters:
  Scalable multi-agent systems. 182
  
• Zarko Stankovski:
  ARLEQUIN: an integrated Java application. 183
  
• Andrew M. Wissink, Richard D. Hornung, Scott R. Kohn, Steve S. Smith:
  Parallel multi-physics AMR applications using the SAMRAI Library. 184
  

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