On the Parallelism of I/O Scheduling Algorithms in MEMS-Based Large Storage Systems

EUNJI LEE; KERN KOH; HYUNKYOUNG CHOI; HYOKYUNG BAHN

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On the Parallelism of I/O Scheduling Algorithms in MEMS-Based Large Storage Systems

机译：基于MEMS的大型存储系统中I / O调度算法的并行性

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MEMS-based storage is being developed as a new storage media that has several salient characteristics such as high-parallelism, high density, and low-power consumption. Because physical structures of MEMS-based storage is different from those of hard disks, new software management techniques for MEMS-based storage are needed. Specifically, MEMS-based storage has thousands of parallel-activating heads, which requires parallelism-aware request scheduling algorithms to maximize the performance of the storage media. In this paper, we compare various versions of I/O scheduling algorithms that exploit high-parallelism of MEMS-based storage devices. Trace-driven simulations show that parallelism-aware algorithms can be effectively used for high capacity mass storage servers because they perform better than other algorithms in terms of the average response time when the workload intensity becomes heavy.

机译：基于MEMS的存储正在被开发为一种新的存储介质，它具有多种显着特征，例如高并行度，高密度和低功耗。由于基于MEMS的存储的物理结构不同于硬盘的物理结构，因此需要用于基于MEMS的存储的新软件管理技术。具体而言，基于MEMS的存储具有数千个并行激活头，这需要并行感知的请求调度算法来最大化存储介质的性能。在本文中，我们比较了利用基于MEMS的存储设备的高度并行性的各种版本的I / O调度算法。跟踪驱动的仿真表明，可感知并行性的算法可有效地用于大容量海量存储服务器，因为在工作负载强度增加时，它们在平均响应时间方面比其他算法表现更好。

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来源
《WSEAS Transactions on Information Science and Applications》 |2009年第6期|共10页
作者
EUNJI LEE; KERN KOH; HYUNKYOUNG CHOI; HYOKYUNG BAHN;
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正文语种 eng
中图分类计算技术、计算机技术;
关键词
MEMS-based storage; Parallelism; Request Scheduling; Scheduling algorithm; Storage;

机译：基于MEMS的存储;并行性;请求调度;调度算法;存储;

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专利

1. On the Parallelism of I/O Scheduling Algorithms in MEMS-Based Large Storage Systems [J] . EUNJI LEE, KERN KOH, HYUNKYOUNG CHOI, WSEAS Transactions on Information Science and Applications . 2009,第4a6期

机译：基于MEMS的大型存储系统中I / O调度算法的并行性
2. G-MST: A dynamic group-based scheduling algorithm for MEMS-based mobile storage devices [J] . Park J., Chun H., Bahn H., Consumer Electronics, IEEE Transactions on . 2009,第2期

机译：G-MST：基于MEMS的移动存储设备的基于动态组的调度算法
3. Peak demand shaving and load-levelling using a combination of bin packing and subset sum algorithms for electrical energy storage system scheduling [J] . Simon U. Agamah, Lambros Ekonomou Science, Measurement & Technology, IET . 2016,第5期

机译：结合装箱和子集和算法的峰值需求削减和负载均衡，用于电能存储系统调度
4. Comparison of I/O Scheduling Algorithms for High Parallelism MEMS-Based Storage Devices [C] . EUNJI LEE, KERN KOH, HYUNKYOUNG CHOI, WSEAS International Conferences . 2009

机译：基于高行性MEMS存储设备的I / O调度算法的比较
5. Storage and file systems for MEMS-based storage. [D] . Hong, Bo. 2005

机译：用于基于MEMS的存储的存储和文件系统。
6. Multi-objective AGV scheduling in an automatic sorting system of an unmanned (intelligent) warehouse by using two adaptive genetic algorithms and a multi-adaptive genetic algorithm [O] . Yubang Liu, Shouwen Ji, Zengrong Su, 2019

机译：通过使用两个自适应遗传算法和多自适应遗传算法无人驾驶（智能）仓库自动分拣系统中的多目标AGV调度
7. An Exact Algorithm for the Input/Output Scheduling Problem in an End-of-Aisle Multi-Shuttle Automated Storage/Retrieval System with Dedicated Storage [O] . Shunji TANAKA, Mituhiko ARAKI 2006

机译：具有专用存储的AISLE多班车自动存储/检索系统输入/输出调度问题的精确算法
8. Exposing and Exploiting Internal Parallelism in MEMS-Based Storage [R] . Schlosser, S. W., Schindler, J., Ailamaki, A., 2003

机译：在mEms存储中揭示和利用内部并行性

On the Parallelism of I/O Scheduling Algorithms in MEMS-Based Large Storage Systems

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