Skip to content

jaantollander/masters-thesis

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

Master's Thesis

Title
Monitoring parallel file system usage in a high-performance computer cluster

Author
Jaan Tollander de Balsch

Supervisor
Prof. Petteri Kaski

Advisor
Dr. Sami Ilvonen

Degreeprogram
Computer, Communication and Information Sciences

Major
Computer Science

Keywords
monitoring computer systems, observability, computer cluster, high-performance computing, parallel file system, Lustre, I/O behavior, time series analysis, exploratory data analysis

License
This work is licensed under the Creative Commons Attribution 4.0 International (CC BY 4.0) license.

URN
http://urn.fi/URN:NBN:fi:aalto-202303262552

Download the thesis (PDF)

Abstract

Many high-performance computer clusters, rely on a system-wide, shared, parallel file system for large storage capacity and bandwidth. A shared file system is available across the entire system, making it user-friendly but prone to problems from heavy use. Such use can cause congestion and slow down or even halt the whole system, harming all users who use the parallel file system. In this thesis, we investigate whether monitoring file system usage in a production system at CSC can help identify the causes of slowdowns, such as specific users or jobs. The long-goal at CSC is to build an automatic, real-time monitoring and warning system that system administrators can use to make decisions on alleviating the slowdowns. Specifically, we monitor the usage of the Lustre parallel file system with Lustre Jobstats feature in the Puhti cluster, which is a petascale cluster with a diverse user base. We explain the necessary details of the Puhti cluster and our monitoring system to understand the Lustre file system usage data. During the thesis, we discovered issues in the data quality from Lustre Jobstats. The issues affected identifiers in the data, making some data unreliable and limiting our ability to build an automatic, real-time analysis. Nevertheless, we obtained a feasible data set for explorative data analysis. We demonstrate 24 hours of monitoring data by visually demonstrating file system usage patterns at low and high-level. Furthermore, we show that we can use file system usage data to identify causes of relative changes in I/O trends, particularly large relative increases. Finally, we explore ideas for future work on monitoring file system usage with reliable data from longer periods.

Usage

The thesis shell script convert the Markdown content to PDF via LaTeX. It depends on the pandoc, texlive, texlive-latex-extra, texlive-lang-european and rsvg-convert. We can build the various documents format using the thesis script with the following arguments.

./thesis pdf

We can use the preview for automatically running a build command if files in metadata or content files change. It depends on inotify-tools.

./thesis preview pdf