Mechanism and Assessment of Spin Transfer Torque ( STT ) Based Memory
نویسنده
چکیده
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 novel write mechanism in STT-RAM, current-induced magnetization switching. It allows STT-RAM to have a smaller cell size and write current than MRAM, and also capable of what MRAM promises: fast, dense, and non-volatile. A technological assessment was conducted to verify the claims of STT-RAM by understanding the physical principles behind it. A comparison of performance parameters in various memory technologies was also made. STT-RAM scores well in all aspect except in the size of the memory cell. The high current density (>10 A/cm) sets the lower limit of the size of the driving transistor and ultimately the cost of manufacturing STT-RAM. Cost models were presented to estimate the cost of a STT-RAM based on a three mask levels fabrication process. Although much effort has been put into reducing the switching current density, there are still no easy solutions to the problem. Research and development of STT-RAM must show success in a very near future or else STT-RAM will follow the step of its predecessor, MRAM: surviving in the niche market. Thesis Supervisor: David I. Paul Title: Senior Lecturer Thesis Supervisor: Geoffrey Beach Title: AMAX Career Development Assistant Professor of Materials Science and Engineering
منابع مشابه
Spin-Transfer Torque MRAM (STT-MRAM): Challenges and Prospects
Spin-transfer torque (STT) switching demonstrated in submicron sized magnetic tunnel junctions (MTJs) has stimulated considerable interest for developments of STT switched magnetic random access memory (STT-MRAM). Remarkable progress in STT switching with MgO MTJs and increasing interest in STTMRAM in semiconductor industry have been witnessed in recent years. This paper will present a review o...
متن کاملA Comparative Study between Spin-Transfer-Torque (STT) and Spin-Hall-Effect (SHE) Switching Mechanisms in PMTJ using SPICE
Spin transfer torque magnetoresistive random access memory (STT-MRAM) is the leading candidate for spinbased memories. Nevertheless, the high write energy and read disturbance of STT-MRAM motivated researchers to find other solutions. Spin Hall effect (SHE) based MRAM is an alternative for STT-MRAM which also provides non-volatility, zero leakage, and competitive area per bit, but with a lower ...
متن کاملSpin Torque Transfer Mram as a Universal Memory
The current multi-core era has resulted in the integration of increasing numbers of cores into the microprocessors used to power computers and cell phones. Spin-Transfer Torque RAM (STT-RAM) is an emerging non-volatile memory technology with the potential to be used as universal memory. STT MRAM with read and write current is discusses here . In addition to that application of STT MRAM as a cac...
متن کاملQuantum Spin Torque
M agnetoresistive random access memories (MRAMs)—a promising memory storage technology based on spintronics—store bits of information in spin valves consisting of junctions of two magnetic layers. To write data in a MRAM junction, a magnetic field switches the magnetization of one of the two layers. Recently, researchers started to explore a variation of the technique based on the spin-transfer...
متن کاملEmbedded Memory Hierarchy Exploration Based on Magnetic Random Access Memory
Static random access memory (SRAM) is the most commonly employed semiconductor in the design of on-chip processor memory. However, it is unlikely that the SRAM technology will have a cell size that will continue to scale below 45 nm, due to the leakage current that is caused by the quantum tunneling effect. Magnetic random access memory (MRAM) is a candidate technology to replace SRAM, assuming...
متن کامل