Home > Press > UAlbany NanoCollege Launches New Research Platform
 |
Abstract:
The College of Nanoscale Science and Engineering (CNSE) of the University at Albany today announced the introduction of an innovative 28nm technology platform to build fully-enabled, industry-compatible integrated devices at the NanoCollege, further expanding the most advanced nanoelectronics research and development (R&D) capabilities at any university or industry consortium in the world.
UAlbany NanoCollege Launches New Research Platform
Albany, NY | Posted on March 9th, 2011The UAlbany NanoCollege has acquired from IBM the rights to low power, 28nm high-k metal gate (HKMG) bulk CMOS technology expected to be deployed at CNSE's world-class Albany NanoTech Complex this year. The presence of these innovative capabilities will provide new technology resources for existing global collaboration partners, and offer opportunities to attract new companies to the nanotech research being done at CNSE, where a 65nm R&D process line is already successfully installed.
HKMG technology is seen as a key enabler for scaling of advanced CMOS technologies and devices, offering improved performance and reduced power consumption. These advantages will help accelerate commercialization of nanoelectronics innovations for a host of products and sectors utilizing advanced silicon technology driving exciting next-generation applications in computation, communication, health care, energy and other critical areas.
"The addition of IBM's 28nm platform provides the UAlbany NanoCollege with enhanced capabilities to support and enable novel technology solutions that target the critical challenges facing industry," said Richard Brilla, CNSE Vice President for Strategy, Alliances and Consortia. "We look forward to utilizing these advanced resources to drive innovative technologies while continuing to build a world-class ecosystem for research, development and commercialization."
"IBM is enabling CNSE to offer advanced research capability by licensing our state-of-the-art 28nm technology," said Paul Farrar, Vice President, IBM Microelectronics. "High-k metal gate is the fundamental game changer in CMOS technology needed for advanced research."
The enhanced performance and reduced power consumption using HKMG technology for 28nm circuits have been significant as compared to previous technology generations, with performance improvements of 40 percent and power reduction of 30 percent over 45nm technology circuits.
####
About CNSE
The UAlbany CNSE is the first college in the world dedicated to education, research, development, and deployment in the emerging disciplines of nanoscience, nanoengineering, nanobioscience, and nanoeconomics. CNSE’s Albany NanoTech Complex is the most advanced research enterprise of its kind at any university in the world. With over $7 billion in high-tech investments, the 800,000-square-foot complex attracts corporate partners from around the world and offers students a one-of-a-kind academic experience. The UAlbany NanoCollege houses the only fully-integrated, 300mm wafer, computer chip pilot prototyping and demonstration line within 80,000 square feet of Class 1 capable cleanrooms. More than 2,500 scientists, researchers, engineers, students, and faculty work on site, from companies including IBM, GlobalFoundries, SEMATECH, Toshiba, Samsung, Applied Materials, Tokyo Electron, ASML, Novellus Systems, Vistec Lithography and Atotech. An expansion currently in the planning stages is projected to increase the size of CNSE’s Albany NanoTech Complex to over 1,250,000 square feet of next-generation infrastructure housing over 105,000 square feet of Class 1 capable cleanrooms and more than 3,750 scientists, researchers and engineers from CNSE and global corporations.
For more information, please click here
Contacts:
Steve Janack
CNSE
Vice President
Marketing and Communications
(phone) 518-956-7322
(cell) 518-312-5009
Copyright © CNSE
If you have a comment, please Contact us.Issuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.
Bookmark:
| Related News Press |
News and information
Electrifying results shed light on graphene foam as a potential material for lab grown cartilage June 6th, 2025
Quantum computers simulate fundamental physics: shedding light on the building blocks of nature June 6th, 2025
A 1960s idea inspires NBI researchers to study hitherto inaccessible quantum states June 6th, 2025
Academic/Education
Rice University launches Rice Synthetic Biology Institute to improve lives January 12th, 2024
Multi-institution, $4.6 million NSF grant to fund nanotechnology training September 9th, 2022
Chip Technology
A 1960s idea inspires NBI researchers to study hitherto inaccessible quantum states June 6th, 2025
Programmable electron-induced color router array May 14th, 2025
Enhancing power factor of p- and n-type single-walled carbon nanotubes April 25th, 2025
Ultrafast plasmon-enhanced magnetic bit switching at the nanoscale April 25th, 2025
Nanoelectronics
Interdisciplinary: Rice team tackles the future of semiconductors Multiferroics could be the key to ultralow-energy computing October 6th, 2023
Key element for a scalable quantum computer: Physicists from Forschungszentrum Jülich and RWTH Aachen University demonstrate electron transport on a quantum chip September 23rd, 2022
Reduced power consumption in semiconductor devices September 23rd, 2022
Atomic level deposition to extend Moore’s law and beyond July 15th, 2022
Announcements
Electrifying results shed light on graphene foam as a potential material for lab grown cartilage June 6th, 2025
Quantum computers simulate fundamental physics: shedding light on the building blocks of nature June 6th, 2025
A 1960s idea inspires NBI researchers to study hitherto inaccessible quantum states June 6th, 2025
Alliances/Trade associations/Partnerships/Distributorships
Chicago Quantum Exchange welcomes six new partners highlighting quantum technology solutions, from Chicago and beyond September 23rd, 2022
University of Illinois Chicago joins Brookhaven Lab's Quantum Center June 10th, 2022
Research partnerships
HKU physicists uncover hidden order in the quantum world through deconfined quantum critical points April 25th, 2025
SMART researchers pioneer first-of-its-kind nanosensor for real-time iron detection in plants February 28th, 2025
 |
||
 |
||
| The latest news from around the world, FREE | ||
 |
||
|
|
||
| Premium Products | ||
 |
||
|
Only the news you want to read!
Learn More |
||
 |
||
|
Full-service, expert consulting
Learn More |
||
|
|
||