Nanotechnology Now

Our NanoNews Digest Sponsors


Heifer International

Wikipedia Affiliate Button


DHgate

Home > Press > Enhaced transcoding for ultra high speed codecs and analogue optical computing

Abstract:
New enhanced transcoding is proposed for modelling nano engineered optical, Thz-PHz, geometric based hardware.

Enhaced transcoding for ultra high speed codecs and analogue optical computing

UK | Posted on March 4th, 2014

Recent progress into understanding transcoding parameter selection is generating designs showing enhanced geometric abstraction, periodicity and multiplicity of primitive forms. These are required characteristics for metamaterial and photonic based hardware. Some sample high definition renderings can be linked from the www.transcoderesearch.com home page.

Comments Transcode Research founder, Stefan Samociuk, "At a recent presentation on signature geometries to the SPIE convention in San Diego, I was pleasantly surprised to meet a number of young photonic engineers eager to embrace transcoding as a design methodology to translate optical functional characteristics to nano scale geometric hardware primitives. The obvious advantage is that device function can be maintained whilst increasing operating frequency by downscaling physical design metrics. It would provide a smooth manufacturing path as smaller production nodes become available."

Enhanced transcode data, in GDSII/OASIS format, will be migrated to the TRANSFORM metamaterial database later in 2014 and is aimed at researches with lithography resources in the sub micron region for experimentation in high THz spectrum. Possible areas of interest are ultra high speed codecs and optical analogue computing. To aid researches understand the complexity of these enhanced designs and to aid experimental planning, a UHDTV video animation is currently being produced.

####

For more information, please click here

Contacts:
Stefan Samociuk
Phone: 44 1545 580022

Copyright © Transcode Research

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:
Delicious Digg Newsvine Google Yahoo Reddit Magnoliacom Furl Facebook

Related News Press

News and information

Oxford Instruments and Dresden High Magnetic Field Laboratory collaborate to develop HTS magnet technology components for high field superconducting magnet systems June 29th, 2016

Texas A&M Chemist Says Trapped Electrons To Blame For Lack Of Battery Efficiency: Forget mousetraps — today’s scientists will get the cheese if they manage to build a better battery June 28th, 2016

Building a smart cardiac patch: 'Bionic' cardiac patch could one day monitor and respond to cardiac problems June 28th, 2016

New, better way to build circuits for world's first useful quantum computers June 28th, 2016

Chip Technology

New, better way to build circuits for world's first useful quantum computers June 28th, 2016

GraphExeter illuminates bright new future for flexible lighting devices June 23rd, 2016

Soft decoupling of organic molecules on metal June 23rd, 2016

Particle zoo in a quantum computer: First experimental quantum simulation of particle physics phenomena June 23rd, 2016

Optical computing/Photonic computing

Superheroes are real: Ultrasensitive nonlinear metamaterials for data transfer June 25th, 2016

A new trick for controlling emission direction in microlasers June 20th, 2016

A new form of hybrid photodetectors with quantum dots and graphene June 19th, 2016

New approach to microlasers: Technique for 'phase locking' arrays of tiny lasers could lead to terahertz security scanners June 17th, 2016

Discoveries

Texas A&M Chemist Says Trapped Electrons To Blame For Lack Of Battery Efficiency: Forget mousetraps — today’s scientists will get the cheese if they manage to build a better battery June 28th, 2016

Building a smart cardiac patch: 'Bionic' cardiac patch could one day monitor and respond to cardiac problems June 28th, 2016

New, better way to build circuits for world's first useful quantum computers June 28th, 2016

Yale researchers’ technology turns wasted heat into power June 27th, 2016

Announcements

Oxford Instruments and Dresden High Magnetic Field Laboratory collaborate to develop HTS magnet technology components for high field superconducting magnet systems June 29th, 2016

Texas A&M Chemist Says Trapped Electrons To Blame For Lack Of Battery Efficiency: Forget mousetraps — today’s scientists will get the cheese if they manage to build a better battery June 28th, 2016

Building a smart cardiac patch: 'Bionic' cardiac patch could one day monitor and respond to cardiac problems June 28th, 2016

New, better way to build circuits for world's first useful quantum computers June 28th, 2016

Photonics/Optics/Lasers

Superheroes are real: Ultrasensitive nonlinear metamaterials for data transfer June 25th, 2016

Russian physicists create a high-precision 'quantum ruler': Physicists have devised a method for creating a special quantum entangled state June 25th, 2016

Marrying superconductors, lasers, and Bose-Einstein condensates: Chapman University Institute for Quantum Studies (IQS) member Yutaka Shikano, Ph.D., recently had research published in Scientific Reports June 20th, 2016

A new trick for controlling emission direction in microlasers June 20th, 2016

NanoNews-Digest
The latest news from around the world, FREE




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











ASP
Nanotechnology Now Featured Books




NNN

The Hunger Project







Car Brands
Buy website traffic