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Improving DRAM Performance, Reliability, and Security by Rigorously Understanding Intrinsic DRAM Operation

德拉姆 延迟时间 可靠性(半导体) 通用存储器 计算机科学 嵌入式系统 动态随机存取存储器 数据保留 可靠性工程 工程类 内存控制器 计算机硬件 计算机安全 计算机存储器 半导体存储器 内存刷新 功率(物理) 量子力学 物理
作者
Hasan Hassan
出处
期刊:Cornell University - arXiv [Cornell University]
被引量:2
标识
DOI:10.48550/arxiv.2303.07445
摘要

DRAM is the primary technology used for main memory in modern systems. Unfortunately, as DRAM scales down to smaller technology nodes, it faces key challenges in both data integrity and latency, which strongly affect overall system reliability, security, and performance. To develop reliable, secure, and high-performance DRAM-based main memory for future systems, it is critical to rigorously characterize, analyze, and understand various aspects (e.g., reliability, retention, latency, RowHammer vulnerability) of existing DRAM chips and their architecture. The goal of this dissertation is to 1) develop techniques and infrastructures to enable such rigorous characterization, analysis, and understanding, and 2) enable new mechanisms to improve DRAM performance, reliability, and security based on the developed understanding. To this end, in this dissertation, we 1) design, implement, and prototype a new practical-to-use and flexible FPGA-based DRAM characterization infrastructure (called SoftMC), 2) use the DRAM characterization infrastructure to develop a new experimental methodology (called U-TRR) to uncover the operation of existing proprietary in-DRAM RowHammer protection mechanisms and craft new RowHammer access patterns to efficiently circumvent these RowHammer protection mechanisms, 3) propose a new DRAM architecture, called SelfManaging DRAM, for enabling autonomous and efficient in-DRAM maintenance operations that enable not only better performance, efficiency, and reliability but also faster and easier adoption of changes to DRAM chips, and 4) propose a versatile DRAM substrate, called the Copy-Row (CROW) substrate, that enables new mechanisms for improving DRAM performance, energy consumption, and reliability.

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