WOSP 2000: Ottawa, Canada

• Marco Bernardo, Paolo Ciancarini, Lorenzo Donatiello:
  ÆMPA: a process algebraic description language for the performance analysis of software architectures. 1-11
  
• Christoph Lindemann, Axel Thümmler, Alexander Klemm, Marco Lohmann, Oliver P. Waldhorst:
  Quantitative system evaluation with DSPNexpress 2000. 12-17
  
• Nigel Thomas, Malcolm Munro, Peter J. B. King, Rob Pooley:
  Visual representation of stochastic process algebra models. 18-19
  
• Virginie Galtier, Kevin L. Mills, Yannick Carlinet, Stefan Leigh, Andrew L. Rukhin:
  Expressing meaningful processing requirements among heterogeneous nodes in an active network. 20-28
  
• Peter M. Ewert, Naraig Manjikian:
  Optimizing software performance for IP frame reassembly in an integrated architecture. 29-37
  
• Adrian E. Conway:
  A performance monitoring system for VoIP gateways. 38-43
  
• Vincenzo Grassi, Vittorio Cortellessa:
  Performance evaluation of mobility-based software architectures. 44-46
  
• F. Andolfi, Federica Aquilani, Simonetta Balsamo, Paola Inverardi:
  Deriving performance models of software architectures from message sequence charts. 47-57
  
• Vittorio Cortellessa, Raffaela Mirandola:
  Deriving a queueing network based performance model from UML diagrams. 58-70
  
• L. B. Arief, Neil A. Speirs:
  A UML tool for an automatic generation of simulation programs. 71-76
  
• Fried Hoeben:
  Using UML models for performance calculation. 77-82
  
• Miguel de Miguel, Thomas Lambolais, Mehdi Hannouz, Stéphane Betgé-Brezetz, Sophie Piekarec:
  UML extensions for the specification and evaluation of latency constraints in architectural models. 83-88
  
• Andreas Schmietendorf, André Scholz, Claus Rautenstrauch:
  Evaluating the performance engineering process. 89-95
  
• Efstathios Papaefstathiou:
  Design of a performance technology infrastructure to support the construction of responsive software. 96-104
  
• Marc Courtois, C. Murray Woodside:
  Using regression splines for software performance analysis. 105-114
  
• Peter H. Hughes:
  Toward a common process model for systems development and performance engineering. 115-116
  
• Hassan Gomaa, Daniel A. Menascé:
  Design and performance modeling of component interconnection patterns for distributed software architectures. 117-126
  
• Connie U. Smith, Lloyd G. Williams:
  Software performance antipatterns. 127-136
  
• José Merseguer, Javier Campos, Eduardo Mena:
  A pattern-based approach to model software performance. 137-142
  
• A. Inkeri Verkamo, Juha Gustafsson, Lilli Nenonen, Jukka Paakki:
  Design patterns in performance prediction. 143-144
  
• Leigh A. Davis, Jamie Payton, Rose F. Gamble:
  How system architectures impede interoperability. 145-146
  
• Alma Riska, Evgenia Smirni, Gianfranco Ciardo:
  Analytic modeling of load balancing policies for tasks with heavy-tailed distributions. 147-157
  
• Paul Reeser, Rema Hariharan:
  Analytic model of Web servers in distributed environments. 158-167
  
• Hiroyuki Okamura, Tadashi Dohi, Shunji Osaki:
  Performance analysis of a transaction based software system with shutdown. 168-179
  
• Catalina M. Lladó, Peter G. Harrison:
  Performance evaluation of an enterprise JavaBean server implementation. 180-188
  
• Dorina C. Petriu, Hoda Amer, Shikharesh Majumdar, Istabrak Abdul-Fatah:
  Using analytic models predicting middleware performance. 189-194
  
• Andre B. Bondi:
  Characteristics of scalability and their impact on performance. 195-203
  
• Thomas Fahringer, Bernhard Scholz, Xian-He Sun:
  Execution-driven performance analysis for distributed and parallel systems. 204-215
  
• Hasyim Gautama, Arjan J. C. van Gemund:
  Static performance prediction of data-dependent programs. 216-226