The Lam/Mpi Checkpoint/Restart Framework: System-Initiated Checkpointing

Author:

Sankaran Sriram,Squyres Jeffrey M.,Barrett Brian,Sahay Vishal,Lumsdaine Andrew1,Duell Jason,Hargrove Paul,Roman Eric2

Affiliation:

1. OPEN SYSTEMS LABORATORY, INDIANA UNIVERSITY BLOOMINGTON, IN 47404, USA

2. LAWRENCE BERKELEY NATIONAL LABORATORY BERKELEY, CA 94720, USA

Abstract

As high performance clusters continue to grow in size and popularity, issues of fault tolerance and reliability are becoming limiting factors on application scalability. To address these issues, we present the design and implementation of a system for providing coordinated checkpointing and rollback recovery for MPI-based parallel applications. Our approach integrates the Berkeley Lab BLCR kernel-level process checkpoint system with the LAM implementation of MPI through a defined checkpoint/restart interface. Checkpointing is transparent to the application, allowing the system to be used for cluster maintenance and scheduling reasons as well as for fault tolerance. Experimental results show negligible communication performance impact due to the incorporation of the checkpoint support capabilities into LAM/MPI.

Publisher

SAGE Publications

Subject

Hardware and Architecture,Theoretical Computer Science,Software

Reference45 articles.

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1. Benchmarking Variables for Checkpointing in HPC Applications;2024 IEEE International Parallel and Distributed Processing Symposium Workshops (IPDPSW);2024-05-27

2. Eliminating Vulnerabilities by Disabling Unwanted Functionality in Binary Programs;Proceedings of the ACM Asia Conference on Computer and Communications Security;2023-07-10

3. A Fault-Model-Relevant Classification of Consensus Mechanisms for MPI and HPC;International Journal of Parallel Programming;2022-12-12

4. Software approaches for resilience of high performance computing systems: a survey;Frontiers of Computer Science;2022-12-12

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