[Home]  [Headlines]  [Latest Articles]  [Latest Comments]  [Post]  [Sign-in]  [Mail]  [Setup]  [Help] 

Status: Not Logged In; Sign In

Israel's Most Advanced Tank Shredded To Pieces In Gaza

Chinese Killer Robo Dog

Israeli Officials Belatedly Claim Secret Nuclear Site Destroyed In Last Month's Iran Strikes

Lake County California Has Counted Just 30 Percent of Votes – Ten Days After Polls Closed!

Real Monetary Reform

More Young Men Are Now Religious Than Women In The US

0,000+ online influencers, journalists, drive-by media, TV stars and writers work for State Department

"Why Are We Hiding It From The Public?" - Five Takeaways From Congressional UFO Hearing

Food Additives Exposed: What Lies Beneath America's Food Supply

Scott Ritter: Hezbollah OBLITERATES IDF, Netanyahu in deep legal trouble

Vivek Ramaswamy says he and Elon Musk are set up for 'mass deportations' of millions of 'unelected bureaucrats'

Evidence Points to Voter Fraud in 2024 Wisconsin Senate Race

Rickards: Your Trump Investment Guide

Pentagon 'Shocked' By Houthi Arsenal, Sophistication Is 'Getting Scary'

Cancer Starves When You Eat These Surprising Foods | Dr. William Li

Megyn Kelly Gets Fiery About Trump's Choice of Matt Gaetz for Attorney General

Over 100 leftist groups organize coalition to rebuild morale and resist MAGA after Trump win

Mainstream Media Cries Foul Over Musk Meeting With Iran Ambassador...On Peace

Vaccine Stocks Slide Further After Trump Taps RFK Jr. To Lead HHS; CNN Outraged

Do Trump’s picks Rubio, Huckabee signal his approval of West Bank annexation?

Pac-Man

Barron Trump

Big Pharma-Sponsored Vaccinologist Finally Admits mRNA Shots Are Killing Millions

US fiscal year 2025 opens with a staggering $257 billion October deficit$3 trillion annual pace.

His brain has been damaged by American processed food.

Iran willing to resolve doubts about its atomic programme with IAEA

FBI Official Who Oversaw J6 Pipe Bomb Probe Lied About Receiving 'Corrupted' Evidence “We have complete data. Not complete, because there’s some data that was corrupted by one of the providers—not purposely by them, right,” former FBI official Steven D’Antuono told the House Judiciary Committee in a

Musk’s DOGE Takes To X To Crowdsource Talent: ‘80+ Hours Per Week,’

Female Bodybuilders vs. 16 Year Old Farmers

Whoopi Goldberg announces she is joining women in their sex abstinence


Science/Tech
See other Science/Tech Articles

Title: Beyond 1 and 0: Successor to Transistors?
Source: [None]
URL Source: http://en.farsnews.com/newstext.aspx?nn=13980311000214
Published: Jun 1, 2019
Author: staff
Post Date: 2019-06-01 21:06:50 by Tatarewicz
Keywords: None
Views: 269
Comments: 1

TEHRAN (FNA)- Scientists offer a solution to the fast-approaching physical minimum for transistor size: a multi-value logic transistor based on zinc oxide, capable of two stable intermediate states between 0 and 1.

Computers and similar electronic devices have gotten faster and smaller over the decades as computer-chip makers have learned how to shrink individual transistors, the tiny electrical switches that convey digital information.

Scientists' pursuit of the smallest possible transistor has allowed more of them to be packed onto each chip. But that race to the bottom is almost over: Researchers are fast approaching the physical minimum for transistor size, with recent models down to about 10 nanometers -- or just 30 atoms -- wide.

"The processing power of electronic devices comes from the hundreds of millions, or billions, of transistors that are interconnected on a single computer chip," said Dr. Kyeongjae Cho, professor of materials science and engineering at The University of Texas at Dallas. "But we are rapidly approaching the lower limits of scale."

To extend the quest for faster processing speed, the microelectronics industry is looking for alternative technologies. Cho's research, published online April 30 in the journal Nature Communications, might offer a solution by expanding the vocabulary of the transistor.

Conventional transistors can convey just two values of information: As a switch, a transistor is either on or off, which translates into the 1s and 0s of binary language.

One way to increase processing capacity without adding more transistors would be to increase how much information each transistor conveys by introducing intermediate states between the on and off states of binary devices. A so-called multi-value logic transistor based on this principle would allow more operations and a larger amount of information to be processed in a single device.

"The concept of multi-value logic transistors is not new, and there have been many attempts to make such devices," Cho said. "We have done it."

Through theory, design and simulations, Cho's group at UT Dallas developed the fundamental physics of a multi-value logic transistor based on zinc oxide. Their collaborators in South Korea successfully fabricated and evaluated the performance of a prototype device.

Cho's device is capable of two electronically stable and reliable intermediate states between 0 and 1, boosting the number of logic values per transistor from two to three or four.

Cho said the new research is significant not only because the technology is compatible with existing computer-chip configurations, but also because it could bridge a gap between today's computers and quantum computers, the potential next landmark in computing power.

While a conventional computer uses the precise values of 1s and 0s to make calculations, the fundamental logic units of a quantum computer are more fluid, with values that can exist as a combination of 1s and 0s at the same time or anywhere in between. Although they have yet to be realized commercially, large-scale quantum computers are theorized to be able to store more information and solve certain problems much faster than current computers.

"A device incorporating multi-level logic would be faster than a conventional computer because it would operate with more than just binary logic units. With quantum units, you have continuous values," Cho said.

"The transistor is a very mature technology, and quantum computers are nowhere close to being commercialized," he continued. "There is a huge gap. So how do we move from one to the other? We need some kind of evolutionary pathway, a bridging technology between binary and infinite degrees of freedom. Our work is still based on existing device technology, so it is not as revolutionary as quantum computing, but it is evolving toward that direction."

The technology Cho and his colleagues developed uses a novel configuration of two forms of zinc oxide combined to form a composite nanolayer, which is then incorporated with layers of other materials in a superlattice.

The researchers discovered they could achieve the physics needed for multi-value logic by embedding zinc oxide crystals, called quantum dots, into amorphous zinc oxide. The atoms comprising an amorphous solid are not as rigidly ordered as they are in crystalline solids.

"By engineering this material, we found that we could create a new electronic structure that enabled this multi-level logic behavior," said Cho, who has applied for a patent. "Zinc oxide is a well-known material that tends to form both crystalline solids and amorphous solids, so it was an obvious choice to start with, but it may not be the best material. Our next step will look at how universal this behavior is among other materials as we try to optimize the technology.

"Moving forward, I also want to see how we might interface this technology with a quantum device."

Dr. Jiyoung Kim, professor of materials science and engineering at UT Dallas, and Dr. Jeongwoon Hwang, a former postdoctoral researcher in Cho's lab currently at Chonnam National University in South Korea, are co-authors of the Nature Communicationsarticle, along with researchers at South Korean universities: Hanyang University, Gwangju Institute of Science and Technology, Yonsei University, Kookmin University, and Ulsan National Institute of Science and Technology.

The research was supported by the National Research Foundation of Korea.

Post Comment   Private Reply   Ignore Thread  


TopPage UpFull ThreadPage DownBottom/Latest

#1. To: Tatarewicz (#0)

The researchers discovered they could achieve the physics needed for multi-value logic by embedding zinc oxide crystals, called quantum dots, into amorphous zinc oxide. The atoms comprising an amorphous solid are not as rigidly ordered as they are in crystalline solids.

Uhhh...that is so far over my head I cannot say.

Good luck with it guys.

“The most dangerous man to any government is the man who is able to think things out... without regard to the prevailing superstitions and taboos. Almost inevitably he comes to the conclusion that the government he lives under is dishonest, insane, intolerable.” ~ H. L. Mencken

Lod  posted on  2019-06-01   22:39:34 ET  Reply   Trace   Private Reply  


TopPage UpFull ThreadPage DownBottom/Latest


[Home]  [Headlines]  [Latest Articles]  [Latest Comments]  [Post]  [Sign-in]  [Mail]  [Setup]  [Help]