A novel data caching scheme for multimedia servers

Simulation Practice and Theory Pub Date : 2002-04-15 DOI:10.1016/S0928-4869(01)00050-7
James Z. Wang, Ratan K. Guha
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引用次数: 4

Abstract

In this paper, we propose a Bi-directional Fragmental Pipelining (BFP) technique and its variable buffer size data-caching scheme BFPV to reduce the disk I/O bandwidth requirement for multimedia servers. Our mathematical analysis shows that the BFP technique is superior to the traditional unidirectional pipelining technique in terms of memory buffer space requirement. We further demonstrate that the memory buffer management using BFPV is better than that of using the fixed buffer size approach BFPF. We have mathematically proved that BFPV saves more disk I/O bandwidth than BFPF does using the same memory buffer space. Our simulation results have quantitatively confirmed our analysis.

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一种新的多媒体服务器数据缓存方案
为了减少多媒体服务器对磁盘I/O带宽的需求,本文提出了一种双向分段流水线(BFP)技术及其可变缓冲区大小的数据缓存方案BFPV。数学分析表明,BFP技术在内存缓冲空间需求方面优于传统的单向流水线技术。我们进一步证明了使用BFPV的内存缓冲区管理优于使用固定缓冲区大小的BFPF方法。我们已经从数学上证明,在使用相同的内存缓冲空间时,BFPV比BFPF节省更多的磁盘I/O带宽。我们的模拟结果在数量上证实了我们的分析。
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Simulation Practice and Theory
Simulation Practice and Theory
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