通过数据碎片抑制,3D tsv集成混合ReRAM/MLC NAND ssd的性能提高了x11,续航能力提高了x6.9,能耗降低了93%

Hiroki Fujii, K. Miyaji, K. Johguchi, K. Higuchi, Chao Sun, K. Takeuchi
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引用次数: 60

摘要

提出了一种用于PC、服务器和智能手机应用的3D通硅通孔(TSV)集成混合ReRAM/multi-level cell (MLC) NAND固态硬盘(ssd)架构。提出了类似nand的I/F接口和扇区访问覆盖策略。在此基础上,提出了智能数据管理算法。提出的算法通过在ReRAM中存储热数据来抑制数据碎片和MLC NAND的过度使用。与传统的MLC NAND SSD相比,性能提高了11倍,续航能力提高了6.9倍,写入能量降低了93%。要获得这些改进,ReRAM的写和读延迟都应该小于3μs。ReRAM所需的续航时间是105。3D TSV互连减少68%的能源消耗。
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x11 performance increase, x6.9 endurance enhancement, 93% energy reduction of 3D TSV-integrated hybrid ReRAM/MLC NAND SSDs by data fragmentation suppression
A 3D through-silicon-via (TSV) -integrated hybrid ReRAM/multi-level-cell (MLC) NAND solid-state drives' (SSDs') architecture is proposed for PC, server and smart phone applications. NAND-like interface (I/F) and sector-access overwrite policy are proposed for the ReRAM. Furthermore, intelligent data management algorithms are proposed. The proposed algorithms suppress data fragmentation and excess usage of the MLC NAND by storing hot data in the ReRAM. As a result, 11 times performance increase, 6.9 times endurance enhancement and 93% write energy reduction are achieved compared with the conventional MLC NAND SSD. Both ReRAM write and read latency should be less than 3μs to obtain these improvements. The required endurance for ReRAM is 105. 3D TSV interconnects reduce the energy consumption by 68%.
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