P-GAS: Parallelizing a Cycle-Accurate Event-Driven Many-Core Processor Simulator Using Parallel Discrete Event Simulation

P-GAS: Parallelizing a Cycle-Accurate Event-Driven Many-Core Processor Simulator Using Parallel Discrete Event Simulation

Multi-core processors are commonly available now, but most traditional computer architectural simulators still use single-thread execution. In this paper we use parallel discrete event simulation (PDES) to speedup a cycle-accurate event-driven many-core processor simulator. Evaluation against the se...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser: Huiwei Lv, Yuan Cheng, Lu Bai, Mingyu Chen, Dongrui Fan, Ninghui Sun
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Computational modeling
Computer architecture
Computer simulation
Computer systems organization
Computer systems organization > Dependable and fault-tolerant systems and networks
Concurrent computing
Counting circuits
Discrete event simulation
General and reference
General and reference > Cross-computing tools and techniques
General and reference > Cross-computing tools and techniques > Performance
Kernel
Networks
Networks > Network performance evaluation
Scalability
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Beschreibung
Zusammenfassung:Multi-core processors are commonly available now, but most traditional computer architectural simulators still use single-thread execution. In this paper we use parallel discrete event simulation (PDES) to speedup a cycle-accurate event-driven many-core processor simulator. Evaluation against the sequential version shows that the parallelized one achieves an average speedup of 10.9x (up to 13.6x) running SPLASH-2 kernel on a 16-core host machine, with cycle counter differences of less than 0.1%. Moreover, super-linear speedups are achieved between running 1 thread and 8 threads due to reduced overhead of insert-event-to-queue time and increased cache size in parallel processing. We conclude that PDES could be an attractive option for achieving fast cycle-accurate many-core processor simulations.
ISSN:1087-4097
DOI:10.1109/PADS.2010.5471655