START : Straggler Prediction and Mitigation for Cloud Computing Environments using Encoder LSTM Networks

Tuli, Shreshth and Singh Gill, Sukhpal and Garraghan, Peter and Buyya, Rajkumar and Casale, Giuliano and Jennings, Nicholas R. (2023) START : Straggler Prediction and Mitigation for Cloud Computing Environments using Encoder LSTM Networks. IEEE Transactions on Services Computing, 16 (1). pp. 615-627. ISSN 1939-1374

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Abstract

Modern large-scale computing systems distribute jobs into multiple smaller tasks which execute in parallel to accelerate job completion rates and reduce energy consumption. However, a common performance problem in such systems is dealing with straggler tasks that are slow running instances that increase the overall response time. Such tasks can significantly impact the system’s Quality of Service (QoS) and the Service Level Agreements (SLA). To combat this issue, there is a need for automatic straggler detection and mitigation mechanisms that execute jobs without violating the SLA. Prior work typically builds reactive models that focus first on detection and then mitigation of straggler tasks, which leads to delays. Other works use prediction based proactive mechanisms, but ignore heterogeneous host or volatile task characteristics. In this paper, we propose a Straggler Prediction and Mitigation Technique (START) that is able to predict which tasks might be stragglers and dynamically adapt scheduling to achieve lower response times. Our technique analyzes all tasks and hosts based on compute and network resource consumption using an Encoder Long-Short-Term-Memory (LSTM) network. The output of this network is then used to predict and mitigate expected straggler tasks. This reduces the SLA violation rate and execution time without compromising QoS. Specifically, we use the CloudSim toolkit to simulate START in a cloud environment and compare it with state-of-the-art techniques (IGRU-SD, SGC, Dolly, GRASS, NearestFit and Wrangler) in terms of QoS parameters such as energy consumption, execution time, resource contention, CPU utilization and SLA violation rate. Experiments show that START reduces execution time, resource contention, energy and SLA violations by 13%, 11%, 16% and 19%, respectively, compared to the state-of-the-art approaches.

Item Type:
Journal Article
Journal or Publication Title:
IEEE Transactions on Services Computing
Additional Information:
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Uncontrolled Keywords:
/dk/atira/pure/subjectarea/asjc/1800/1802
Subjects:
?? stragglerdeep learningcloud computingpredictioninformation systems and managementcomputer science applicationshardware and architecturecomputer networks and communications ??
ID Code:
162587
Deposited By:
Deposited On:
22 Nov 2021 20:31
Refereed?:
Yes
Published?:
Published
Last Modified:
11 Nov 2024 01:26