Title :
Realization of spin-torque transfer magnetoresistive RAM
Author :
Mandhdapu, Ramakrushna ; Immanuel, J. Samson
Author_Institution :
Dept. of ECE, Karunya Univ., Coimbatore, India
Abstract :
Spin-torque transfer (STT) programming is a promising, maturing, non-volatile memory technology for future memory applications. When a sufficient current density passes through the MTJ, the spin polarized current will exert a spin transfer torque to switch the magnetization of the free layer. This is the fundamental of the write mechanism in STT-RAM, current induced magnetization switching. It allows STT-RAM to have a smaller cell size and write current than MRAM.The new MRAM cell structure design can realize high speed and reliable sensing operations in the presence of relatively poor magnetoresistive ratio, while maintain the low sensing current through the magnetic tunnelling junctions (MTJs). The effectiveness of the proposed RAM structure was demonstrated by circuit simulation at 0.18μm CMOS technology using Mentor Graphics tool.
Keywords :
circuit simulation; logic design; random-access storage; CMOS technology; MRAM cell structure design; Mentor Graphics tool; STT programming; STT-RAM write mechanism; cell size; circuit simulation; complimentary metal oxide semiconductor; current induced magnetization switching; free layer magnetization; magnetic tunnelling junction; nonvolatile memory technology; random access memory; sensing operation; size 0.18 mum; spin polarized current; spin-torque transfer programming; write current; Logic gates; Magnetic tunneling; Magnetic tunneling junction (MTJ); magnetoresistive random access memory (MRAM); spin torque transfer (STT) magnetoresistive memory;
Conference_Titel :
Advances in Engineering, Science and Management (ICAESM), 2012 International Conference on
Conference_Location :
Nagapattinam, Tamil Nadu
Print_ISBN :
978-1-4673-0213-5
