| Abstrakt: |
Whereas emerging non-volatile memories (NVMs) are low power, dense, scalable alternatives to DRAM, the high latency and low endurance of these NVMs limit the feasibility of NVM-only memory systems. Smart hybrid memories (SHMs) that integrate NVM, DRAM, and on-module processor logic are an efficient means to bridge the latency and endurance gaps between NVM-only and DRAM-only memory systems. However, these SHMs are vulnerable to data confidentiality and integrity attacks that can be executed on the unsecure NVM, DRAM, and/or memory buses. STASH is the first comprehensive end-to-end SecuriTy Architecture for SHMs that integrates (i) counter mode encryption for data confidentiality, (ii) low overhead page-level Merkle Tree (MT) authentication for data integrity, (iii) recovery-compatible MT updates to withstand power/system failures, and (iv) page-migration-friendly security meta-data management. For security guarantees equivalent to the closest state-of-the-art security solution extensible to SHMs, STASH reduces memory overhead by 12.7x, increases system performance by 65%, and improves NVM lifetime by 2.5x. [ABSTRACT FROM AUTHOR] |
