TY - GEN
T1 - Investigating the effects of trees and butterfly barriers on the performance of optimistic GVT algorithm
AU - Elleithy, Abdelrahman
AU - Rizvi, Syed S.
AU - Elleithy, Khaled M.
N1 - Copyright:
Copyright 2021 Elsevier B.V., All rights reserved.
PY - 2010
Y1 - 2010
N2 - There is two approaches for handling timing constraints in a heterogeneous network; conservatives and optimistic algorithms. In optimistic algorithms, time constraints are allowed to be violated with the help of a time wrap algorithm. Global Virtue Time (GVT) is a necessary mechanism for implementing time wrap algorithm. Mattern [2] has introduced an algorithm for GVT based computation using a ring structure. which showed high latency. The performance of this optimistic algorithm is optimal since it gives accurate GVT approximation. However, this accurate GVT approximation comes at the expense of high GVT latency. Since this resultant GVT latency is not only high but may vary, the multiple processors involve in communication remain idle during that period of time. Consequently, the overall throughput of a parallel and distributed simulation system degrades significantly In this paper, we discuss the potential use of trees and (or) butterflies structures instead of the ring structure. We present our analysis to show the effect of these new mechanisms on the latency of the system.
AB - There is two approaches for handling timing constraints in a heterogeneous network; conservatives and optimistic algorithms. In optimistic algorithms, time constraints are allowed to be violated with the help of a time wrap algorithm. Global Virtue Time (GVT) is a necessary mechanism for implementing time wrap algorithm. Mattern [2] has introduced an algorithm for GVT based computation using a ring structure. which showed high latency. The performance of this optimistic algorithm is optimal since it gives accurate GVT approximation. However, this accurate GVT approximation comes at the expense of high GVT latency. Since this resultant GVT latency is not only high but may vary, the multiple processors involve in communication remain idle during that period of time. Consequently, the overall throughput of a parallel and distributed simulation system degrades significantly In this paper, we discuss the potential use of trees and (or) butterflies structures instead of the ring structure. We present our analysis to show the effect of these new mechanisms on the latency of the system.
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U2 - 10.1007/978-90-481-3660-5_77
DO - 10.1007/978-90-481-3660-5_77
M3 - Conference contribution
AN - SCOPUS:84876502522
SN - 9789048136599
T3 - Advanced Techniques in Computing Sciences and Software Engineering
SP - 449
EP - 453
BT - Advanced Techniques in Computing Sciences and Software Engineering
PB - Springer Publishing Company
T2 - 2008 International Conference on Systems, Computing Sciences and Software Engineering, SCSS 2008, Part of the International Joint Conferences on Computer, Information, and Systems Sciences, and Engineering, CISSE 2008
Y2 - 5 December 2008 through 13 December 2008
ER -