Paper Info
Title
On-the-fly parallelization in agent-based simulation systems
Abstract
Agent-based simulation (ABS) systems are increasingly being used to solve a wide-array of problems in business, telecommunications, robotics, games, and military applications. ABS modelers face two challenges: First, performance is affected, as their simulations become more complex and larger scale; and second, development is difficult because there is no common interface to the array of platforms that support ABS work. We seek to transform popular, intuitive, sequential ABS APIs into efficient parallel code automatically. As a first step we are parallelizing the popular MASON multiagent simulation kit, other future potential targets include Player/Stage and Teambots. To achieve this, we have mapped the core MASON API to correlate with the agent API of SASSY, a parallel and scalable, agent-based simulation system. We then use Soot, a Java bytecode optimization framework, to automatically convert MASON bytecode into SASSY bytecode. This allows simple, sequential MASON code to be run in a parallel environment.
Year
DOI
Venue
2011
10.1109/WSC.2011.6148002
Winter Simulation Conference
Keywords
Field
DocType
on-the-fly parallelization,sassy bytecode,agent-based simulation system,agent-based simulation,sequential mason code,mason bytecode,core mason api,abs work,java bytecode optimization framework,sequential abs apis,popular mason multiagent simulation,abs modeler,computational modeling,kernel,multi agent systems,computer model,parallel processing,java,robots,synchronization
Synchronization,Computer science,Simulation,Parallel computing,Multi-agent system,Java bytecode,Artificial intelligence,Robot,Bytecode,Java,Robotics,Scalability
Conference
ISSN
ISBN
Citations 
0891-7736
978-1-4799-2077-8
0
PageRank 
References 
Authors
0.34
5
3
Name
Order
Citations
PageRank
Cole Sherer131.22
George Vulov2111.41
Maria Hybinette345941.13