Title :
Graduated QoS by Decomposing Bursts: Don´t Let the Tail Wag Your Server
Author :
Lu, Lanyue ; Varman, Peter ; Doshi, Kshitij
Author_Institution :
Rice Univ., Houston, TX, USA
Abstract :
The growing popularity of hosted storage services and shared storage infrastructure in data centers is driving the recent interest in resource management and QoS in storage systems. The bursty nature of storage workloads raises significant performance and provisioning challenges, leading to increased infrastructure, management, and energy costs. We present a novel dynamic workload shaping framework to handle bursty workloads, where the arrival stream is dynamically decomposed to isolate its bursts, and then rescheduled to exploit available slack. We show how decomposition reduces the server capacity requirements dramatically while affecting QoS guarantees minimally. We present an optimal decomposition algorithm RTT and a recombination algorithm Miser, and show the benefits of the approach by performance evaluation using several storage traces.
Keywords :
quality of service; resource allocation; storage management; bursty workloads; data centers; decomposing bursts; dynamic workload shaping framework; graduated QoS; hosted storage services; optimal decomposition algorithm; performance evaluation; quality of service; recombination algorithm Miser; resource management; server capacity requirements; shared storage infrastructure; storage systems; storage traces; storage workloads; Costs; Delay; Distributed computing; Energy storage; Network servers; Probability distribution; Resource management; Scheduling; Tail; USA Councils; Bursty; Performance; QoS; Resource; Scheduling;
Conference_Titel :
Distributed Computing Systems, 2009. ICDCS '09. 29th IEEE International Conference on
Conference_Location :
Montreal, QC
Print_ISBN :
978-0-7695-3659-0
Electronic_ISBN :
1063-6927
DOI :
10.1109/ICDCS.2009.55
