Enhancing the Lifetime of a Phase Change Memory with Bit-Flip Reversal

Abstract

Phase Change Memory (PCM) has evolved as a promising alternative over Dynamic Random Access Memory (DRAM) in terms of cell density and leakage power. While non-volatility is a desirable feature, it gives rise to the possibility of the data being present even after the power is switched off. To secure the data, encryption is normally done by using the standard Advanced Encryption Standard (AES) algorithm. Encrypting the data results in huge number of bit-flips, which reduces the lifetime of a PCM. The proposed method increases the lifetime of PCM by reducing the number of bit-flips occurred due to the encryption of modified words only and leaving the unmodified words as they are. The generated encrypted text, which is written by using the bit-flips reversal method, reduces the number of cells involved in writing by approximately 25%. This method is implemented by using Gem5 simulator and is evaluated with splash2 benchmark suite. It is observed that the proposed method improves the lifetime of a PCM memory by 15% without consuming extra power.