A static partitioning and mapping algorithm for conservative parallel simulations
PADS '94 Proceedings of the eighth workshop on Parallel and distributed simulation
Background execution of time warp programs
PADS '96 Proceedings of the tenth workshop on Parallel and distributed simulation
The dynamic load balancing of clustered time warp for logic simulation
PADS '96 Proceedings of the tenth workshop on Parallel and distributed simulation
Dynamic load balancing strategies for conservative parallel simulations
Proceedings of the eleventh workshop on Parallel and distributed simulation
Dynamic load balancing in parallel discrete event simulation for spatially explicit problems
PADS '98 Proceedings of the twelfth workshop on Parallel and distributed simulation
Experiments in load migration and dynamic load balancing in SPEEDES
Proceedings of the 30th conference on Winter simulation
Efficient Execution of Time Warp Programs on Heterogeneous, NOW Platforms
IEEE Transactions on Parallel and Distributed Systems
Load balancing for conservative simulation on shared memory multiprocessor systems
PADS '00 Proceedings of the fourteenth workshop on Parallel and distributed simulation
The resource sharing system: dynamic federate mapping for HLA-based distributed simulation
Proceedings of the fifteenth workshop on Parallel and distributed simulation
On Process Migration and Load Balancing in Time Warp
IEEE Transactions on Parallel and Distributed Systems
An Adaptive Partitioning Algorithm for Conservative Parallel Simulation
IPDPS '01 Proceedings of the 15th International Parallel & Distributed Processing Symposium
Dynamic Load-Balancing for BSP Time Warp
SS '02 Proceedings of the 35th Annual Simulation Symposium
Towards a Grid Management System for HLA-Based Interactive Simulations
DS-RT '03 Proceedings of the Seventh IEEE International Symposium on Distributed Simulation and Real-Time Applications
Load Distribution Services in HLA
DS-RT '04 Proceedings of the 8th IEEE International Symposium on Distributed Simulation and Real-Time Applications
The Anatomy of the Grid: Enabling Scalable Virtual Organizations
International Journal of High Performance Computing Applications
A Flexible Dynamic Partitioning Algorithm for Optimistic Distributed Simulation
Proceedings of the 21st International Workshop on Principles of Advanced and Distributed Simulation
Elections in a Distributed Computing System
IEEE Transactions on Computers
Federate Migration in a Service Oriented HLA RTI
DS-RT '07 Proceedings of the 11th IEEE International Symposium on Distributed Simulation and Real-Time Applications
An Efficient Dynamic Load Balancing Scheme for Distributed Simulations on a Grid Infrastructure
DS-RT '08 Proceedings of the 2008 12th IEEE/ACM International Symposium on Distributed Simulation and Real-Time Applications
Optimized Federate Migration for Large-Scale HLA-Based Simulations
DS-RT '08 Proceedings of the 2008 12th IEEE/ACM International Symposium on Distributed Simulation and Real-Time Applications
EuroPar'10 Proceedings of the 16th international Euro-Par conference on Parallel processing: Part I
An adaptive load balancing middleware for distributed simulation
ISPA'06 Proceedings of the 2006 international conference on Frontiers of High Performance Computing and Networking
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As the scale of distributed simulations, such as HLA-base simulations, grow due to the complexity in modelling real systems, balancing systems become essential for enabling the execution of these simulations or preventing simulation performance loss. This loss is greatly produced by non-dedication or heterogeneity of resources in large-scale environments or by simulations that might generate dynamic load oscillations. In light of avoiding load imbalances in such conditions, a distributed balancing system has been developed. However, in order to enable load balancing systems to effectively and properly react to load imbalances, they need to be properly deployed and configured in environments where are occasionally unknown due to the lack of previous information about them or to the dynamic changes that might occur as time passes. As a result, an autonomous configuration scheme is proposed to increment the distributed balancing system and allow it to flexibly adapt to the environment where it is deployed. Experiments have been performed in defined scenarios in order to assess the benefit in incorporating such dynamic configuration solution on the balancing system.