Robotics and Automation in Industry 4.0

A Detailed Analysis of Issues with Solid-State Devices

Author(s): Shweta* and Hifzan Ahmad

Pp: 168-188 (21)

DOI: 10.2174/9789815223491124010013

* (Excluding Mailing and Handling)

Abstract

Non-volatile memory technologies, such as NAND flash memory, have improved storage system performance, reliability, durability, and cost. Due to their speed and density, solid-state devices (SSDs) that are based on flash memory are being used as workstations, desktops, and laptops. Despite offering superior performance, stress resistance, and energy economy as compared to mechanical hard drives, NAND flash memory has unique features and operating limits and cannot be employed as a perfect block device. The design of SSDs has developed over time to make use of the benefits offered by flash memory while, at the same time, hiding their drawbacks. SSD concurrency techniques make use of the available parallelism of flash memories. This chapter thoroughly examines SSD subjects, ranging from the physical features of a flash memory cell to the design of SSDs themselves. The subjects pertaining to the flash translation layer (FTL) are described within the context of interconnected systemlevel operations. These operations include garbage collection, wear-leveling, address mapping and bad block management. This chapter also provides a review of the most current SSD-related studies.

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