Unified address translation for memory-mapped SSDs with FlashMap

Jian Huang, Anirudh Badam, Moinuddin K. Qureshi, K. Schwan
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引用次数: 58

Abstract

Applications can map data on SSDs into virtual memory to transparently scale beyond DRAM capacity, permitting them to leverage high SSD capacities with few code changes. Obtaining good performance for memory-mapped SSD content, however, is hard because the virtual memory layer, the file system and the flash translation layer (FTL) perform address translations, sanity and permission checks independently from each other. We introduce FlashMap, an SSD interface that is optimized for memory-mapped SSD-files. FlashMap combines all the address translations into page tables that are used to index files and also to store the FTL-level mappings without altering the guarantees of the file system or the FTL. It uses the state in the OS memory manager and the page tables to perform sanity and permission checks respectively. By combining these layers, FlashMap reduces critical-path latency and improves DRAM caching efficiency. We find that this increases performance for applications by up to 3.32x compared to state-of-the-art SSD file-mapping mechanisms. Additionally, latency of SSD accesses reduces by up to 53.2%.
统一地址转换的内存映射ssd与FlashMap
应用程序可以将SSD上的数据映射到虚拟内存中,以透明地扩展DRAM容量之外的容量,从而允许它们在很少的代码更改的情况下利用高SSD容量。然而,为内存映射的SSD内容获得良好的性能是困难的,因为虚拟内存层、文件系统和闪存转换层(FTL)相互独立地执行地址转换、完整性和权限检查。我们介绍FlashMap,这是一个SSD接口,针对内存映射的SSD文件进行了优化。FlashMap将所有的地址转换合并到页表中,这些页表用于索引文件,也用于存储FTL级别的映射,而不会改变文件系统或FTL的保证。它使用操作系统内存管理器中的状态和页表分别执行完整性检查和权限检查。通过结合这些层,FlashMap减少了关键路径延迟并提高了DRAM缓存效率。我们发现,与最先进的SSD文件映射机制相比,这将应用程序的性能提高了3.32倍。此外,SSD访问延迟降低高达53.2%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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