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PC Magazine
January 1, 2008 |
The Next 25 Years in Tech We've enlisted industry leaders as well as our own analysts and editors to share their fascinating visions of tomorrow's computing technology.   |
PC World
January 2002
Daniel Tynan |
20/20 Foresight Here are the 20 products, trends, and technologies that will change PCs in 2002 -- and beyond... |
Technology Research News
December 29, 2004 |
TRN's Top Picks: Technology Research Advances of 2004 Biotechnology... Communications... Computer chips... Computer interfaces... Engineering... etc. |
PC World
January 2004
Tynan & Captain |
What's in Store for 2004 -- and Beyond How will the PC change during the coming year? The next five years? We consult the experts and come up with answers. |
PC World
September 26, 2007
Robert Strohmeyer |
Your PC in 2008 and Beyond Blindingly fast chips, flexible displays, nanotube cooling, and more: Tomorrow's technologies will change everything about computing, whether you're at home, at work, or on the road. |
IEEE Spectrum
May 2009
Brian R. Santo |
25 Microchips That Shook the World A list of some of the most innovative, intriguing, and inspiring integrated circuits |
BusinessWeek
May 10, 2004
Otis Por |
Just Two Words: Plastic Chips They can endow just about anything with computer smarts -- and they'll be cheap |
PC World
January 30, 2008
Dan Tynan |
The Next 25 Years in Tech PCs may disappear from your desk by 2033. But with digital technology showing up everywhere else -- including inside your body -- computing will only get more personal. |
IEEE Spectrum
February 2013
Andrew J. Steckl |
Electronics on Paper Paper electronics could pave the way to a new generation of cheap, flexible gadgets |
IEEE Spectrum
October 2005
Paniccia & Koehl |
The Silicon Solution In the future, ordinary silicon chips will move data using light rather than electrons, unleashing nearly limitless bandwidth and revolutionizing computing |
IEEE Spectrum
April 2009
Bill Arnold |
Shrinking Possibilities Lithography will need multiple strategies to keep up with the evolution of memory and logic |
PC Magazine
July 13, 2004
Jim Akin |
Nanotechnology Size Matters Incubating inside this tiny world are some big ideas that could improve everything from manufacturing to health care. |
Wired
July 2005 |
A Step Closer to Human The Rabbit, a new robot, moves like a human... The open source movement will change news, fashion, and retail... A way for SUV drivers to help the environment... Towards a quieter workplace... Experimenting with Google Maps... etc. |
PC Magazine
February 17, 2004
Bill Howard |
What's New With Notebooks Notebook technology is about to get better, cooler, faster. |
PC Magazine
June 20, 2007
Cade Metz |
Five Ideas That Will Reinvent Modern Computing We go behind the scenes at the biggest names in high-tech research, uncovering five projects clever enough to reinvent modern computing. |
National Defense
November 2011
Beidel et al. |
10 Technologies the U.S. Military Will Need For the Next War Examples are faster and quieter helicopters, advanced crowd-control weapons, lighter infantry equipment that doesn't overburden troops, ultra-light trucks and better battlefield communications. |
Wired
July 2000
Rick Overton |
Molecular Electronics Will Change Everything The Next Big Thing is very, very small. Picture trillions of transistors, processors so fast their speed is measured in terahertz, infinite capacity, zero cost. It's the dawn of a new technological revolution - and the death of silicon. Can you say Thiophene Ethynylene Valley? |
IEEE Spectrum
May 2009
Guizzo & Santo |
The Runners-up: More Earthshaking Chips These 13 great little chips didn't make our list -- mainly because we ran out of space in print. And, well, one isn't even a chip |
Wired
October 2001
Wil McCarthy |
Ultimate Alchemy Research into artificial atoms could lead to one startling endpoint: programmable matter that changes its makeup at the flip of a switch... |
Chemistry World
December 19, 2012 |
Overcoming small obstacles What if photolithography hits a barrier it cannot breach? That question has motivated scientists to recruit chemistry to a series of printing methods with the power to engineer nanometre-scale materials. |
Military & Aerospace Electronics
June 2009
Courtney E. Howard |
Electronics miniaturization Nanotechnology and MEMS are ideal for mil-aero applications, given the increasing need for small, light weight, and low-power solutions. |
IEEE Spectrum
March 2005
DeBlois et al. |
Star-Crossed Should the United States, or any nation for that matter, weaponize space? From orbiting lasers to metal rods that strike from the heavens, the potential to wage war from space raises startling possibilities---and serious problems. |
PC World
October 2, 2006
Christopher Null |
The Future of Your PC With breakthroughs such as faster multicore processors on the way, raw PC muscle is about to return with a vengeance. And it will come in more shapes and sizes than ever. |
IndustryWeek
November 16, 2011
David Drickhamer |
Future Now Five technology developments changing industry as we know it. |
IEEE Spectrum
October 2005
Stephen Forrest |
The Dawn of Organic Electronics Organic semiconductors are strong candidates for creating flexible, full-color displays and circuits on plastic. |
Military & Aerospace Electronics
January 2005
Stevens & Shmulovich |
Planar lightwave circuits will be a key technology for next-generation military systems Optoelectronics, or photonics, is now becoming crucial to communications systems on a variety of military platforms and sensor applications. |
Popular Mechanics
January 2008
Alex Hutchinson |
10 Tech Concepts You Need to Know for 2008 EEG game controllers... Self-healing materials... High-k transistors... Real-world web... Clear-pixel cameras... Pay-per-glance ads... Flexible displays... Embedded voice recognition... Self-defending bots... Nano cancer therapy... |
PC World
October 1, 2000
Dylan Tweney |
2010: A PC Odyssey Where will technology take you next? We peer into the labs and take a thought-provoking look at the next generation of computing. |
IEEE Spectrum
August 2011
Lora G. Weiss |
Autonomous Robots in the Fog of War Networks of autonomous robots will someday transform warfare, but significant hurdles remain. |
IEEE Spectrum
November 2010
Bedair et al. |
Spintronic Memories to Revolutionize Data Storage Superdense MRAM chips based on the bizarre property of electron spin could replace all other forms of data storage |
IEEE Spectrum
March 2011
Apte et al. |
Advanced Chip Packaging Satisfies Smartphone Needs Clever chip packaging means mobile devices can be smaller and smarter |
IEEE Spectrum
February 2006
Holonyak & Feng |
The Transistor Laser Ultrafast transistors that output optical and electrical signals open a new computing frontier. |
IEEE Spectrum
October 2006
Brian R. Santo |
Acronym Addiction When you live on the cutting edge of technology, there are, literally, no words to describe it. Instead we have acronyms. Lots and lots of acronyms. ABT... BEOL... CSP... etc. |
BusinessWeek
April 18, 2005
Adam Aston |
The Coming Chip Revolution Facing the limits of silicon, scientists are turning to carbon nanotubes. But even with a reliable supply of tubes, scaling up production to supply a vast global industry will take years. |
IndustryWeek
December 1, 2001
Vivian Pospisil |
R&D Stars To Watch IW celebrates the contributions of individuals who drive innovation and provide the initial spark to economic growth... |
IEEE Spectrum
January 2008
Sarah Adee |
Winner: The Ultimate Dielectric Is...Nothing IBM packs wires in vacuum to speed chips and save power. |
Wired
August 2002
Dan Baum |
GM's Billion-Dollar Bet The hydrogen car has been a long time coming. GM is betting $1 billion that the end of internal combustion is near. |
PC Magazine
November 28, 2007
Domingo & Cheng |
CPU Road Map 2008: Maxing Out Moore's Law 2007's big stories were Intel's move from dual-core to multicore processors and AMD's move to 65 nm. We look ahead to see what's next for the dueling chip manufacturers. |
IEEE Spectrum
February 2010
Edward H. Sargent |
Infrared Optoelectronics You Can Apply With a Brush Infrared quantum dots will lead to cheaper photovoltaic cells. When the fabrication of optoelectronic devices becomes almost as easy as splashing paint on a canvas, our assumptions about the high cost of high-performance optoelectronic devices will be turned on its head. |
PC Magazine
November 29, 2006
Jeremy A. Kaplan |
Technology Breakthroughs! Our awards for the best technology achievements of the year. Nintendo Wii... Philips Nexperia CSS 6100... nVidia GeForce 8800 GTX... Intel Core Architecture... Microsoft DirectX 10... Kodak Retina Dual-Lens Design... etc. |
IEEE Spectrum
August 2007
Stick et al. |
The Trap Technique In this first part of a two-part series, the authors discuss how today's computers are running out of room for classical physics to work and how working with the quantum nature of things instead of against it will open up vast new frontiers for computing. |
Military & Aerospace Electronics
May 2005
Ben Ames |
Nanotechnology delivers military power The Army is looking for a 21st century battlesuit, one that stops bullets, detects chemical and biological agents, monitors a wounded soldier's vital signs, administers basic first aid, and communicates with headquarters. Nanotechnology could provide the answer. |
IEEE Spectrum
November 2008
Chris A. Mack |
Seeing Double Someday, chips might be made with X-rays. Until then, double-patterning lithography will be the only game in town. |
IEEE Spectrum
May 2011
Wager & Hoffman |
Thin, Fast, and Flexible Semiconductors Amorphous oxide semiconductors promise to make flat-panel displays faster and sharper than today's silicon standby. |
PC World
October 2, 2006
Eric Bender |
The Future of Nanotech Ultra-small technology, revolutionary impact. |
IEEE Spectrum
October 2005
Salvatore Coffa |
Light From Silicon For decades, silicon was a semiconducting dim bulb, but now we can make it into LEDs that match the best made from more exotic materials |
Popular Mechanics
November 2006
Wise & Hutchinson |
The Truth About Hydrogen Can the simplest element in the universe really power our homes, fuel our cars and reduce our contribution to global warming? PM crunches the numbers on the real hydrogen economy. |
IEEE Spectrum
September 2010
Schow et al. |
Get on the Optical Bus IBM's light-powered links overcome the greatest speed bump in supercomputing: interconnect bandwidth |
Wired
April 2000
David Voss |
Instant Access Memory He's already set off one computer storage revolution. Now Stuart Parkin is reengineering RAM so we'll never have to boot up again. |
PC Magazine
June 25, 2003
Michael J. Miller |
Rejecting the Tech Doomsayers The mainstream press is declaring that the technology boom is over for good... PC games are back and better than ever... |
