Nanotechnology Now

Our NanoNews Digest Sponsors

Heifer International

Wikipedia Affiliate Button


Home > News > Sony, Toshiba co-develop 45nm embedded DRAM

June 20th, 2005

Sony, Toshiba co-develop 45nm embedded DRAM

Sony Corp. and Toshiba Corp. have reported they developed the first 45nm embedded DRAM cell by scaling embedded DRAM cells down to 0.069 square microns. Both companies invested about 20 billion yen for the 45 nm node process development.


Delicious Digg Newsvine Google Yahoo Reddit Magnoliacom Furl Facebook

Related News Press


Harris & Harris Group Portfolio Company, D-Wave Systems, Announces Multi-Year Agreement to Provide Its Technology to Google, NASA and USRA's Quantum Artificial Intelligence Lab October 6th, 2015

Harris & Harris Group Announces Receipt of Milestone Payment From Acquisition of Molecular Imprints by Canon October 5th, 2015

Accelerator Corporation Completes $62.8 Million Oversubscribed Financing September 30th, 2015

Nanometrics to Participate in the Citi 2015 Global Technology Conference August 26th, 2015


First circularly polarized light detector on a silicon chip: Promises to expand use of polarized light for drug screening, surveillance, optical communications September 24th, 2015

Nanoelectronics could get a boost from carbon research: The smallest of electronics could one day have the ability to turn on and off on an atomic scale September 17th, 2015

Nanotech expertise earns Virginia Tech a spot in National Science Foundation network: New center's focus will be on earth, environmental nanotechnology September 16th, 2015

UT researchers give nanosheets local magnetic properties September 11th, 2015


Observing the unobservable: Researchers measure electron orbitals of molecules in 3-D October 6th, 2015

Superconductivity trained to promote magnetization: Russian scientist and her colleagues discovered the superconductivity effect, which will help to create future supercomputers October 6th, 2015

Nanoscale photodetector shows promise to improve the capacity of photonic circuits: Researchers at the University of Rochester have fabricated a device in which light can induce a current using a silver nanowire -- an important step toward harnessing light to speed up the next ge October 6th, 2015

Big range of behaviors for tiny graphene pores: Like biological channels, graphene pores are selective for certain types of ions October 6th, 2015

The latest news from around the world, FREE

  Premium Products
Only the news you want to read!
 Learn More
University Technology Transfer & Patents
 Learn More
Full-service, expert consulting
 Learn More

Nanotechnology Now Featured Books


The Hunger Project

Car Brands
Buy website traffic