• Title/Summary/Keyword: Cache Flushing

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A Study on the Implementation of Low-Power Cache Flushing Instructions for Persistent Memory (퍼시스턴트 메모리를 위한 저전력 캐시 플러싱 명령어 구현에 대한 연구)

  • Juhee Choi
    • Journal of the Semiconductor & Display Technology
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    • v.23 no.3
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    • pp.52-57
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    • 2024
  • Persistent memory technology has been recognized as a next-generation memory solution because of its stability over traditional volatile memory. The primary advantage of persistent memory is its non-volatile nature, allowing data retention even when the power is off. Additionally, persistent memory offers faster read speeds compared to traditional HDDs and SSDs. However, ensuring data consistency through cache flushing commands is increasingly important so that performance and power consumption issue would be challenges. This paper proposes a new cache structure to mitigate the drawbacks of cache flushing by considering the number of flushes per cache line. On top of that, a counter and decision bit to track and manage these actions are added. As a result, this architecture decreases approximately 56% of the additional memory access.

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Policy for Selective Flushing of Smartphone Buffer Cache using Persistent Memory (영속 메모리를 이용한 스마트폰 버퍼 캐시의 선별적 플러시 정책)

  • Lim, Soojung;Bahn, Hyokyung
    • The Journal of the Institute of Internet, Broadcasting and Communication
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    • v.22 no.1
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    • pp.71-76
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    • 2022
  • Buffer cache bridges the performance gap between memory and storage, but its effectiveness is limited due to periodic flush, performed to prevent data loss in smartphones. This paper shows that selective flushing technique with small persistent memory can reduce the flushing overhead of smartphone buffer cache significantly. This is due to our I/O analysis of smartphone applications in that a certain hot data account for most of file writes, while a large proportion of file data incurs single-writes. The proposed selective flushing policy performs flushing to persistent memory for frequently updated data, and storage flushing is performed only for single-write data. This eliminates storage write traffic and also improves the space efficiency of persistent memory. Simulations with popular smartphone application I/O traces show that the proposed policy reduces write traffic to storage by 24.8% on average and up to 37.8%.

A Data-Consistency Scheme for the Distributed-Cache Storage of the Memcached System

  • Liao, Jianwei;Peng, Xiaoning
    • Journal of Computing Science and Engineering
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    • v.11 no.3
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    • pp.92-99
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    • 2017
  • Memcached, commonly used to speed up the data access in big-data and Internet-web applications, is a system software of the distributed-cache mechanism. But it is subject to the severe challenge of the loss of recently uncommitted updates in the case where the Memcached servers crash due to some reason. Although the replica scheme and the disk-log-based replay mechanism have been proposed to overcome this problem, they generate either the overhead of the replica synchronization or the persistent-storage overhead that is caused by flushing related logs. This paper proposes a scheme of backing up the write requests (i.e., set and add) on the Memcached client side, to reduce the overhead resulting from the making of disk-log records or performing the replica consistency. If the Memcached server fails, a timestamp-based recovery mechanism is then introduced to replay the write requests (buffered by relevant clients), for regaining the lost-data updates on the rebooted Memcached server, thereby meeting the data-consistency requirement. More importantly, compared with the mechanism of logging the write requests to the persistent storage of the master server and the server-replication scheme, the newly proposed approach of backing up the logs on the client side can greatly decrease the time overhead by up to 116.8% when processing the write workloads.

An Efficient Data Block Replacement and Rearrangement Technique for Hybrid Hard Disk Drive (하이브리드 하드디스크를 위한 효율적인 데이터 블록 교체 및 재배치 기법)

  • Park, Kwang-Hee;Lee, Geun-Hyung;Kim, Deok-Hwan
    • Journal of KIISE:Computing Practices and Letters
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    • v.16 no.1
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    • pp.1-10
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    • 2010
  • Recently heterogeneous storage system such as hybrid hard disk drive (H-HDD) combining flash memory and magnetic disk is launched, according as the read performance of NAND flash memory is enhanced as similar to that of hard disk drive (HDD) and the power consumption of NAND flash memory is reduced less than that of HDD. However, the read and write operations of NAND flash memory are slower than those of rotational disk. Besides, serious overheads are incurred on CPU and main memory in the case that intensive write requests to flash memory are repeatedly occurred. In this paper, we propose the Least Frequently Used-Hot scheme that replaces the data blocks whose reference frequency of read operation is low and update frequency of write operation is high, and the data flushing scheme that rearranges the data blocks into the multi-zone of the rotation disk. Experimental results show that the execution time of the proposed method is 38% faster than those of conventional LRU and LFU block replacement schemes in I/O performance aspect and the proposed method increases the life span of Non-Volatile Cache 40% higher than those of conventional LRU, LFU, FIFO block replacement schemes.