research-article

LSim: Fine-Grained Simulation Framework for Large-Scale Performance Evaluation

Authors:

Hanhwi JangAuthors Info & Claims

IEEE Computer Architecture Letters, Volume 21, Issue 1

Pages 25 - 28

https://doi.org/10.1109/LCA.2022.3168831

Published: 01 January 2022 Publication History

Abstract

As large-scale workloads with massive parallelism emerge, the demand for large-scale systems such as datacenters and supercomputers is rising sharply. To accurately design a large-scale system, architects heavily rely on performance modeling at design phases. However, modeling a large-scale workload without a large-scale system is a challenging problem. This paper presents LSim, a framework for large-scale performance evaluation. Based on the captured behavior within small-scale workload traces, LSim extrapolates the behavior of the workload on a large-scale system. To do so, we propose two techniques: (1) representative trace model and (2) function latency model to synthesize a trace and to predict the latency of functions in the synthesized trace, respectively.

Index Terms

LSim: Fine-Grained Simulation Framework for Large-Scale Performance Evaluation
1. Computing methodologies
  1. Modeling and simulation
    1. Model development and analysis
      1. Modeling methodologies
2. General and reference
  1. Cross-computing tools and techniques
    1. Performance

Index terms have been assigned to the content through auto-classification.

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cover image IEEE Computer Architecture Letters

IEEE Computer Architecture Letters Volume 21, Issue 1

Jan.-June 2022

24 pages

ISSN:1556-6056

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IEEE Computer Society

United States

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Published: 01 January 2022

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A flexible aggregation framework on large-scale heterogeneous information networks

Scalability and Performance Evaluation of DDM-Based Aggregation/Dissaggregation Protocols for Large-Scale Distributed Interactive Simulations Systems

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