An efficient labeled memory system for learned indexes

IF 6.2 3区 综合性期刊 Q1 Multidisciplinary Fundamental Research Pub Date : 2024-05-01 DOI:10.1016/j.fmre.2022.05.016
Yuxuan Mo, Jingnan Jia, Pengfei Li, Yu Hua
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Abstract

The appearance and wide use of memory hardware bring significant changes to the conventional vertical memory hierarchy that fails to handle contentions for shared hardware resources and expensive data movements. To deal with these problems, existing schemes have to rely on inefficient scheduling strategies that also cause extra temporal, spatial and bandwidth overheads. Based on the insights that the shared hardware resources trend to be uniformly and hierarchically offered to the requests for co-located applications in memory systems, we present an efficient abstraction of memory hierarchies, called Label, which is used to establish the connection between the application layer and underlying hardware layer. Based on labels, our paper proposes LaMem, a labeled, resource-isolated and cross-tiered memory system by leveraging the way-based partitioning technique for shared resources to guarantee QoS demands of applications, while supporting fast and low-overhead cache repartitioning technique. Besides, we customize LaMem for the learned index that fundamentally replaces storage structures with computation models as a case study to verify the applicability of LaMem. Experimental results demonstrate the efficiency and efficacy of LaMem.

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内存硬件的出现和广泛使用给传统的垂直内存层次结构带来了重大变化,这种层次结构无法处理共享硬件资源的争夺和昂贵的数据移动。为了解决这些问题,现有方案不得不依赖低效的调度策略,这也会造成额外的时间、空间和带宽开销。基于对共享硬件资源趋势的洞察,我们提出了一种高效的内存分层抽象,称为标签(Label),用于建立应用层与底层硬件层之间的联系。基于标签,我们的论文提出了 LaMem--一种标签化、资源隔离和跨层级的内存系统,它利用基于方式的共享资源分区技术来保证应用程序的 QoS 需求,同时支持快速、低开销的缓存重新分区技术。实验结果证明了 LaMem 的效率和功效。
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来源期刊
Fundamental Research
Fundamental Research Multidisciplinary-Multidisciplinary
CiteScore
4.00
自引率
1.60%
发文量
294
审稿时长
79 days
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