改进蛇形磁带机的访问时间性能

Proceedings 15th International Conference on Data Engineering (Cat. No.99CB36337) Pub Date : 1999-03-23 DOI:10.1109/ICDE.1999.754970

O. Sandstå, Roger Midtstraum

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引用次数: 13

摘要

本文提出了一个估计蛇形磁带机访问次数的通用模型。该模型用于调度I/O请求，以最小化总访问时间。本文提出了一种新的调度算法MPScan*，该算法充分利用了磁带机的流传输能力，避免了朴素的多遍扫描算法和“最短定位时间优先”等贪婪算法的缺陷。对于最大可达2048个并发I/O请求的问题，已经模拟了几种调度算法的性能。对于2到1000个I/O请求的调度，MPScan*提供了与任何其他算法相同或更好的结果，并将总访问时间减少了85%。所有结果均已在腾堡MLRI和量子DLT2000驱动器上进行了大量实验验证。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Improving the access time performance of serpentine tape drives

The paper presents a general model for estimating access times of serpentine tape drives. The model is used to schedule I/O requests in order to minimize the total access time. We propose a new scheduling algorithm, Multi-Pass Scan Star (MPScan*), which makes good utilization of the streaming capability of the tape drive and avoids the pitfalls of naive multi-pass scan algorithms and greedy algorithms like Shortest Locate Time First. The performance of several scheduling algorithms have been simulated for problem sizes up to 2048 concurrent I/O requests. For scheduling of two to 1000 I/O requests, MPScan* gives equal or better results than any other algorithm, and provides up to 85 percent reduction of the total access time. All results have been validated by extensive experiments on Tandberg MLRI and Quantum DLT2000 drives.

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Proceedings 15th International Conference on Data Engineering (Cat. No.99CB36337)

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