Wednesday, July 13th 2011
Hynix and Toshiba Sign Joint Development for MRAM
Hynix Semiconductor Inc. and Toshiba Corporation today announced that they have agreed to strategic collaboration in the joint development of Spin-Transfer Torque Magnetoresistance Random Access Memory (MRAM), a fast emerging next generation memory device. Once technology development is successfully completed, the companies intend to cooperate in manufacturing MRAM products in a production joint venture. Hynix and Toshiba have also extended their patent cross licensing and product supply agreements.
Toshiba recognizes MRAM as an important next-generation memory technology with the potential to sustain future growth in its semiconductor business. Hynix has a cutting-edge memory technology, most notably in manufacturing process optimization and cost competitiveness. The collaboration announced today, between two of the world's leading semiconductor manufacturers in a promising new technology, is expected to make a significant contribution to the continued progress of the world semiconductor industry.
A number of exceptional features have earned MRAM the status of promising future memory technology. A non-volatile memory, it is also power efficient and operates at ultra-high speed. Applications requiring high-density memory are expected to take advantages of MRAM, and major initial applications are expected in the mobile market, which notably demands low power consumption.
Developing a new technology is always prone to risk. One reason for merging the necessary resources and expertise from Hynix and Toshiba is to minimize risk and to accelerate the pace of MRAM commercialization.
"MRAM is a rare gem full of exciting properties, like ultra high-speed, low power consumption, and high capacity, and it will play the role of key factor in driving advances in memories. It will also be a perfect fit for growing consumer demand in more sophisticated smart phones. MRAM is our next growth platform," said Oh Chul Kwon, Hynix's CEO.
"We believe that MRAM has huge potential as highly scalable non-volatile RAM," said Kiyoshi Kobayashi, Corporate Senior Vice President of Toshiba Corporation, and President and CEO of Toshiba's Semiconductor and Storage Products Company. "We will strongly promote initiatives in integration of storage solutions including MRAM, NAND, and HDD. The MRAM joint development program with Hynix is one of the key steps to support our efforts."
Additional Information
Spin-Transfer Torque Magnetoresistance RAM (MRAM):
MRAM is a next-generation memory solution that uses magnetic properties to store data. Unlike DRAM, which distinguishes between 0 and 1 by passing an electron through a capacitor, data in MRAM can be determined by measuring the difference in resistance from magnetization on a magnetic tunnel junction (MTJ). Data is written and saved by reorienting the magnetization of a thin magnetic layer in a tunnel magnetoresistance (TMR) element using a spin-polarized current.
Toshiba recognizes MRAM as an important next-generation memory technology with the potential to sustain future growth in its semiconductor business. Hynix has a cutting-edge memory technology, most notably in manufacturing process optimization and cost competitiveness. The collaboration announced today, between two of the world's leading semiconductor manufacturers in a promising new technology, is expected to make a significant contribution to the continued progress of the world semiconductor industry.
A number of exceptional features have earned MRAM the status of promising future memory technology. A non-volatile memory, it is also power efficient and operates at ultra-high speed. Applications requiring high-density memory are expected to take advantages of MRAM, and major initial applications are expected in the mobile market, which notably demands low power consumption.
Developing a new technology is always prone to risk. One reason for merging the necessary resources and expertise from Hynix and Toshiba is to minimize risk and to accelerate the pace of MRAM commercialization.
"MRAM is a rare gem full of exciting properties, like ultra high-speed, low power consumption, and high capacity, and it will play the role of key factor in driving advances in memories. It will also be a perfect fit for growing consumer demand in more sophisticated smart phones. MRAM is our next growth platform," said Oh Chul Kwon, Hynix's CEO.
"We believe that MRAM has huge potential as highly scalable non-volatile RAM," said Kiyoshi Kobayashi, Corporate Senior Vice President of Toshiba Corporation, and President and CEO of Toshiba's Semiconductor and Storage Products Company. "We will strongly promote initiatives in integration of storage solutions including MRAM, NAND, and HDD. The MRAM joint development program with Hynix is one of the key steps to support our efforts."
Additional Information
Spin-Transfer Torque Magnetoresistance RAM (MRAM):
MRAM is a next-generation memory solution that uses magnetic properties to store data. Unlike DRAM, which distinguishes between 0 and 1 by passing an electron through a capacitor, data in MRAM can be determined by measuring the difference in resistance from magnetization on a magnetic tunnel junction (MTJ). Data is written and saved by reorienting the magnetization of a thin magnetic layer in a tunnel magnetoresistance (TMR) element using a spin-polarized current.
11 Comments on Hynix and Toshiba Sign Joint Development for MRAM
There was so much talk over so many years about replacement for venerable DRAM and Flash.
Now, we're one step closer to actually getting next gen memory manufactured and in the market.
If it has no writing problems like NAND Flash which has to first clear the cells and cells don't degrade over time, yet it still provides high tranfser and access rates, i think there is not much to think about really. Sure i'd prefer a memory that's highly resistant to electro magnetic radiation or in short EMP but hell, i'm fine with MRAM as well.
i doubt it will bring anything more to the table because there are only a few fields left in magnetism we don't know much about