Title :
Exploiting fine-grained idle periods in networks of workstations
Author :
Ryu, Kyung Dong ; Hollingsworth, Jeffrey K.
Author_Institution :
Dept. of Comput. Sci., Maryland Univ., College Park, MD, USA
fDate :
7/1/2000 12:00:00 AM
Abstract :
Studies have shown that for a significant fraction of the time, workstations are idle. In this paper, we present a new scheduling policy called Linger-Longer that exploits the fine-grained availability of workstations to run sequential and parallel jobs. We present a two-level workload characterization study and use it to simulate a cluster of workstations running our new policy. We compare two variations of our policy to two previous policies: Immediate-Eviction and Pause-and-Migrate. Our study shows that the Linger-Longer policy can improve the throughput of foreign jobs on a cluster by 60 percent with only a 0.5 percent slowdown of local jobs. For parallel computing, we show that the Linger-Longer policy outperforms reconfiguration strategies when the processor utilization by the local process is 20 percent or less in both synthetic bulk synchronous and real data-parallel applications
Keywords :
processor scheduling; workstation clusters; Linger-Longer; cluster of workstations; fine-grained availability; networks of workstations; scheduling policy; workload characterization; Computer networks; Concurrent computing; Contracts; Delay; Intelligent networks; Parallel processing; Predictive models; Resumes; Throughput; Workstations;
Journal_Title :
Parallel and Distributed Systems, IEEE Transactions on
