EEJournal

fresh bytes
Subscribe Now
September 30, 2015

“Designless” brain-like chips created through artificial evolution

by Larra Morris

designless-electronic-circuits-4.jpg

A research team led by professors Wilfried van der Wiel and Hajo Broersma is walking a different path. Remarkably, their device takes people out of the the circuit design equation altogether and leaves it to the chip itself to figure out how to best manipulate its inputs into the desired output through artificial evolution.

Their proof-of-principle device consists of a network of up to 100 densely interconnected gold nanoparticles, 20 nanometers in size, each acting as a tiny transistor. The researchers call it a natural computer, because the way in which the particles are interlinked is reminiscent of neural networks in the brain. Unlike in a standard circuit, the scientists themselves don’t exactly know how the transistors in a natural computer connect with each other  but this doesn’t stop the circuit from working as intended.
via Gizmag

Continue reading 

Image: University of Twente

Leave a Reply

featured blogs
DEI at Cadence: Celebrating Women's History Month
Apr 24, 2024
Diversity, equity, and inclusion (DEI) are not just words but values that are exemplified through our culture at Cadence. In the DEI@Cadence blog series, you'll find a community where employees share their perspectives and experiences. By providing a glimpse of their personal...
More from Cadence...
SLM Solutions for Mission-Critical Aerospace and Government Chip Designs
Apr 23, 2024
We explore Aerospace and Government (A&G) chip design and explain how Silicon Lifecycle Management (SLM) ensures semiconductor reliability for A&G applications.The post SLM Solutions for Mission-Critical Aerospace and Government Chip Designs appeared first on Chip ...
More from Synopsys...
One Robotic Step Closer to Humanoid Robots in the Home
Apr 18, 2024
Are you ready for a revolution in robotic technology (as opposed to a robotic revolution, of course)?...
More from Max's Cool Beans...

featured video

MaxLinear Integrates Analog & Digital Design in One Chip with Cadence 3D Solvers

Sponsored by Cadence Design Systems

MaxLinear has the unique capability of integrating analog and digital design on the same chip. Because of this, the team developed some interesting technology in the communication space. In the optical infrastructure domain, they created the first fully integrated 5nm CMOS PAM4 DSP. All their products solve critical communication and high-frequency analysis challenges.

Learn more about how MaxLinear is using Cadence’s Clarity 3D Solver and EMX Planar 3D Solver in their design process.

featured paper

Designing Robust 5G Power Amplifiers for the Real World

Sponsored by Keysight

Simulating 5G power amplifier (PA) designs at the component and system levels with authentic modulation and high-fidelity behavioral models increases predictability, lowers risk, and shrinks schedules. Simulation software enables multi-technology layout and multi-domain analysis, evaluating the impacts of 5G PA design choices while delivering accurate results in a single virtual workspace. This application note delves into how authentic modulation enhances predictability and performance in 5G millimeter-wave systems.

Download now to revolutionize your design process.

featured chalk talk

Designing for Functional Safety with Infineon Memory
Sponsored by Mouser Electronics and Infineon
In this episode of Chalk Talk, Amelia Dalton and Alex Bahm from Infineon investigate the benefits of Infineon’s SEMPER NOR Flash and how the reliability, long-term data retention, and functional safety compliance make this memory solution a great choice for a variety of mission critical applications. They also examine how SEMPER NOR Flash has been architected and designed for functional safety and how Infineon’s Solutions Hub can help you get started using SEMPER NOR Flash in your next design.
Click here for more information about Infineon Technologies SEMPER™ NOR Flash Memory
Apr 22, 2024
420 views