Write Pulse Scaling for Energy Efficient STT-MRAM

Abstract

Spin transfer torque magnetic random access memory (STT-MRAM) is one of the most promising new non-volatile memory technologies. Recently, STT-MRAM has become popular as a DRAM alternative in main memories particularly for tablets and palmtop computers in part due to its non-volatile properties and potential for improved device scalability. However, STT-MRAM is well known for its asymmetric access properties and considerable attention has been applied to the device, circuit, and architecture designs to mitigate its write energy concerns. In this work, we propose a new method to reduce the write energy consumption using a combination of pulse width scaling and error correction coding schemes for STT-MRAM main memories. The introduced methodology works by dynamically adjusting the pulse width based on the compressibility of the written data. We evaluate the efficiency of the proposed method on Android applications. Experimental results show an average improvement of more than 10% in the write energy consumption, in addition to the 46% reduction achieved by compression.