MASc seminar - Bharathwaj Raghunathan

Friday, August 15, 2014 3:00 pm - 3:00 pm EDT (GMT -04:00)

Candidate

Bharathwaj Raghunathan

Title

Job Arrival Rate Aware Scheduling for Asymmetric Multi-Core Servers in the Dark Silicon Era

Supervisor

Siddarth Garg

Abstract

The arrival rate of jobs at servers in a data-center can vary significantly over time. The servers in data-centers are typically multicore-processors, which allows jobs to be processed at different degrees of parallelism (DoPs), i.e., the number of threads spawned by a job. In this thesis, we show analytically as well as empirically that the DoP which minimizes the service time of jobs varies with the arrival rate of jobs. Also, recent trends have shown a move towards asymmetric multi-core server processors. These processors are made up of multiple clusters, each consisting of cores of different type and of which only one cluster can be turned on at a given point in time while the others remain dark. We show that the choice of the optimal cluster is dependent on the arrival rate. Based on these observations, we propose a run-time scheduler that determines the optimal DoP and performs inter- cluster migration to minimize the mean total service time. The main contributions of this thesis are

We propose a queueing theoretic model to determine the mean service time of jobs as function of the DoP , number of parallel jobs and the cluster choice.

Based on the queueing theoretic model, we show that both the optimal DoP and cluster choice are dependent on the job arrival rate, and propose a run-time scheduler that makes optimal optimal cluster migration and DoP selection decisions to minimize mean service time.