The content delves into the widespread issue of read disturbance in modern DRAM chips, highlighting vulnerabilities and proposing a solution. It presents experimental findings on BER and HCfirst variations across different memory locations, emphasizing the need for more effective defenses against read disturbance.
RowHammer and RowPress are discussed as examples of read disturbance phenomena in DRAM chips. The paper introduces Svärd as a mechanism to mitigate performance overheads caused by existing solutions. Experimental results from real DDR4 DRAM chips demonstrate significant variations in read disturbance vulnerability across memory locations.
The study also investigates correlations between spatial features of DRAM rows and their vulnerability to read disturbance. By reverse-engineering subarray boundaries, the authors aim to improve understanding and develop more efficient solutions for future DRAM-based systems.
他の言語に翻訳
原文コンテンツから
arxiv.org
深掘り質問