Performance impact and interplay of SSD parallelism through advanced commands, allocation strategy and data granularity

Abstract

With the development of the NAND-Flash technology, NAND-Flash based Solid-State Disk (SSD) has been attracting a great deal of attention from both industry and academia. While a range of SSD research topics, from interface techniques to buffer management and Flash Translation Layer (FTL), from perfor-mance to endurance and energy efficiency, have been extensively studied in the literature, the SSD being studied was by and large treated as a grey or black box in that many of the internal features such as advanced commands, physical-page allocation schemes and data granularity are hidden or assumed away. We argue that, based on our experimental study, it is these internal features and their interplay that will help provide the missing but significant insights to designing high-performance and high-endurance SSDs. In this paper, we use our highly accurate and multi-tiered SSD