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ReCA: An efficient reconfigurable cache architecture for storage systems with online workload characterization

Salkhordeh, R ; Sharif University of Technology | 2018

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  1. Type of Document: Article
  2. DOI: 10.1109/TPDS.2018.2796100
  3. Publisher: IEEE Computer Society , 2018
  4. Abstract:
  5. In recent years, Solid-State Drives (SSDs) have gained tremendous attention in computing and storage systems due to significant performance improvement over Hard Disk Drives (HDDs). The cost per capacity of SSDs, however, prevents them from entirely replacing HDDs in such systems. One approach to effectively take advantage of SSDs is to use them as a caching layer to store performance critical data blocks in order to reduce the number of accesses to HDD-based disk subsystem. Due to characteristics of Flash-based SSDs such as limited write endurance and long latency on write operations, employing caching algorithms at the Operating System (OS) level necessitates to take such characteristics into consideration. Previous OS-level caching techniques are optimized towards only one type of application, which affects both generality and applicability. In addition, they are not adaptive when the workload pattern changes over time. This paper presents an efficient Reconfigurable Cache Architecture (ReCA) for storage systems using a comprehensive workload characterization to find an optimal cache configuration for I/O intensive applications. For this purpose, we first investigate various types of I/O workloads and classify them into five major classes. Based on this characterization, an optimal cache configuration is presented for each class of workloads. Then, using the main features of each class, we continuously monitor the characteristics of an application during system runtime and the cache organization is reconfigured if the application changes from one class to another class of workloads. The cache reconfiguration is done online and workload classes can be extended to emerging I/O workloads in order to maintain its efficiency with the characteristics of I/O requests. Experimental results obtained by implementing ReCA in a 4U rackmount server with SATA 6Gb/s disk interfaces running Linux 3.17.0 show that the proposed architecture improves performance and lifetime up to 24 and 33 percent, respectively. © 1990-2012 IEEE
  6. Keywords:
  7. Endurance ; I/O caching ; Solid-state drives ; Cache memory ; Characterization ; Computer architecture ; Drives ; Durability ; Flash-based SSDs ; Linux ; Memory architecture ; Metadata ; Online systems ; Reconfigurable architectures ; Data storage systems ; Performance ; Performance evaluations ; Runtimes ; Solid state drives ; Hard disk storage
  8. Source: IEEE Transactions on Parallel and Distributed Systems ; Volume 29, Issue 7 , 2018 , Pages 1605-1620 ; 10459219 (ISSN)
  9. URL: https://ieeexplore.ieee.org/document/8265001