An evaluation of linear models for host load prediction

Author

Dinda, Peter A. ; O´Hallaron, David R.

Author_Institution

Carnegie Mellon Univ., Pittsburgh, PA, USA

fYear

1999

fDate

1999

Firstpage

87

Lastpage

96

Abstract

Evaluates linear models for predicting the Digital Unix five-second host load average from 1 to 30 seconds into the future. A detailed statistical study of a large number of long, fine-grain load traces from a variety of real machines leads to consideration of the Box-Jenkins (1994) models (AR, MA, ARMA, ARIMA), and the ARFIMA (autoregressive fractional integrated moving average) models (due to self-similarity). These models, as well as a simple windowed-mean scheme, are then rigorously evaluated by running a large number of randomized test cases on the load traces and by data-mining their results. The main conclusions are that the load is consistently predictable to a very useful degree, and that the simpler models, such as AR, are sufficient for performing this prediction

Keywords

DEC computers; Unix; autoregressive moving average processes; data mining; performance evaluation; resource allocation; statistical analysis; 1 to 30 s; 5 s; ARFIMA; ARIMA; ARMA; Box-Jenkins models; Digital Unix; autoregressive fractional integrated moving average; autoregressive model; consistently predictable load; data mining; host load prediction; linear models; long fine-grain load traces; moving average model; randomized test cases; self-similarity; statistical study; windowed-mean scheme; Distributed computing; Java; Laboratories; Load modeling; Operating systems; Predictive models; Processor scheduling; Testing;

fLanguage

English

Publisher

ieee

Conference_Titel

High Performance Distributed Computing, 1999. Proceedings. The Eighth International Symposium on

Conference_Location

Redondo Beach, CA

ISSN

1082-8907

Print_ISBN

0-7803-5681-0

Type

conf

DOI

10.1109/HPDC.1999.805285

Filename

805285