ACM Portal
  Subscribe (Full Service)    Register (Limited Service, Free)    Login
  Search:   The ACM Digital Library   The Guide
  
ACM Home Page
Please provide us with feedback. Feedback
SimBA: a discrete event simulator for performance prediction of volunteer computing projects
Full text HtmlHtml (2 KB)
Source Conference on High Performance Networking and Computing archive
Proceedings of the 2006 ACM/IEEE conference on Supercomputing table of contents
Tampa, Florida
POSTER SESSION: Posters table of contents
Article No. 168  
Year of Publication: 2006
ISBN:0-7695-2700-0
Authors
David A. Flores
Trilce Estrada
Michela Taufer
Patricia J. Teller
Andre Kerstens
Sponsors
IEEE : Institute of Electrical and Electronics Engineers
ACM: Association for Computing Machinery
Publisher
ACM  New York, NY, USA
Bibliometrics
Downloads (6 Weeks): 0,   Downloads (12 Months): 5,   Citation Count: 0
Additional Information:

abstract   index terms   collaborative colleagues  

Tools and Actions: Review this Article  
Save this Article to a Binder    Display Formats: BibTex  EndNote ACM Ref   
DOI Bookmark: Use this link to bookmark this Article: http://doi.acm.org/10.1145/1188455.1188629
What is a DOI?

ABSTRACT

SimBA (Simulator of BOINC Applications) is a discrete event simulator that accurately models the main functions of BOINC, a master-worker runtime framework. SimBA generates, distributes, and monitors tasks executed in a highly volatile, heterogeneous, and distributed environment such as Volunteer Computing (VC). In addition, it collects and validates results of executed tasks.To understand the strengths and weaknesses of BOINC under distinct scenarios, project designers must study and quantify its performance without affecting the VC community. Although this is not possible on production systems, it is possible using SimBA, which is capable of testing a wide range of hypotheses in a short period of time.Our experience to date indicates that SimBA is a reliable tool for performance prediction of VC projects. Preliminary results show that SimBA's predictions of Predictor@Home performance are within approximately 5% of the performance reported by this BOINC project.


INDEX TERMS

Primary Classification:
  D. Software
  D.4 OPERATING SYSTEMS
      D.4.7 Organization and Design
          Subjects: Distributed systems

Additional Classification:
  D. Software
  D.4 OPERATING SYSTEMS
      D.4.8 Performance
          Subjects: Simulation

  I. Computing Methodologies
  I.6 SIMULATION AND MODELING
      I.6.7 Simulation Support Systems
      I.6.8 Types of Simulation
          Subjects: Discrete event


General Terms:
Design, Performance

Collaborative Colleagues:
David A. Flores: colleagues
Trilce Estrada: colleagues
Michela Taufer: colleagues
Patricia J. Teller: colleagues
Andre Kerstens: colleagues

The ACM Portal is published by the Association for Computing Machinery. Copyright © 2008 ACM, Inc.
Terms of Usage   Privacy Policy   Code of Ethics   Contact Us

Useful downloads: Adobe Acrobat    QuickTime    Windows Media Player    Real Player