容错缓存RAID控制器的结构

J. Menon, Jim Cortney
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引用次数: 96

摘要

RAID-5阵列需要4次磁盘访问来更新数据块—2次读取旧数据和奇偶校验,2次写入新数据和奇偶校验。以前提出的改进此类数组更新性能的方案是日志结构文件系统[10]和浮动奇偶校验方法[6]。这里,我们考虑第三种方法,称为Fast Write,它通过在磁盘阵列控制器中使用非易失性缓存,消除了从主机响应时间到写入的磁盘时间。我们研究了处理快速写入的三种替代方案,并描述了具有增强故障鲁棒性的破坏算法的层次结构。将这些破坏算法与采用镜像的磁盘控制器所使用的算法进行比较。我们表明,阵列控制器比采用镜像的磁盘控制器需要更多的总线带宽和内存带宽(多2到3倍)。因此,使用奇偶校验的阵列控制器可能比使用镜像的控制器成本更高,尽管在同时考虑控制器和磁盘时,镜像成本更高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Architecture Of A Fault-tolerant Cached RAID Controller
RAID-5 arrays need 4 disk accesses to update a data block—2 to read old data and parity, and 2 to write new data and parity. Schemes previously proposed to improve the update performance of such arrays are the Log-Structured File System [10] and the Floating Parity Approach [6]. Here, we consider a third approach, called Fast Write, which eliminates disk time from the host response time to a write, by using a Non-Volatile Cache in the disk array controller. We examine three alternatives for handling Fast Writes and describe a hierarchy of destage algorithms with increasing robustness to failures. These destage algorithms are compared against those that would be used by a disk controller employing mirroring. We show that array controllers require considerably more (2 to 3 times more) bus bandwidth and memory bandwidth than do disk controllers that employ mirroring. So, array controllers that use parity are likely to be more expensive than controllers that do mirroring, though mirroring is more expensive when both controllers and disks are considered.
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