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Military & Aerospace Electronics
June 2005
John McHale |
Purdue Researchers Create Miniature Cooling Device Mechanical engineers have developed techniques for modifying household refrigeration technology with small devices to cool future weapons systems and computer chips.   |
Technology Research News
May 19, 2004 |
Nanotube Sparks Could Cool Chips Researchers from Purdue University and have found a way to use carbon nanotubes to ionize air and generate minuscule air currents that can be used to cool computer chips. |
Military & Aerospace Electronics
August 2006
John McHale |
Purdue Researchers Look at Nanotechnology to Reduce Computer-Chip Heating University researchers are looking to mitigate electronic systems heating problems through the use of carbon nanotubes. They have created carpets of microscopic nanotubes to enhance the performance of heat sinks to help keep future chips from overheating. |
InternetNews
August 15, 2007
Andy Patrizio |
A Mighty Wind's a Blowin' at Purdue Researchers at Purdue University have developed a new method of semiconductor cooling that could improve the cooling rate inside computers by as much as 250 percent. |
BusinessWeek
October 4, 2004
Stephen H. Wildstrom |
Those Superfast Chips: Too Darn Hot Cooling today's fastest chips is becoming a challenge in even the biggest desktop towers. |
Military & Aerospace Electronics
November 2007
John McHale |
Purdue Researchers Demonstrate New Chip-Cooling Technology Researchers are taking a new approach with a new technology that uses tiny ionic wind engines that they say might dramatically improve computer chip cooling-a constant challenge for military and commercial electronics designers. |
IndustryWeek
February 1, 2004
John Teresko |
Helping Electronics Keep Their Cool New thermal-management technology doesn't need cooling fans, say Georgia Tech researchers. |
The Motley Fool
October 30, 2006
Jack Uldrich |
IBM to Chips: Cool It! Big Blue's new chip-cooling technique could keep Moore's Law on track. IBM's system, while not yet ready for commercial production, is reportedly so efficient that officials expect it will double cooling efficiency. |
IEEE Spectrum
December 2007
Joshua J. Romero |
Carbon Nanotubes Take the Heat Off Chips Purdue scientists find flexible filaments best. |
Military & Aerospace Electronics
March 2006 |
Heat Sinks Deliver High Performance in Low-Airflow Conditions Advanced Thermal Solutions is offering maxiFLOW heat sinks for cooling ball grid arrays (BGAs) and other hot components in restricted air-flow conditions. |
Military & Aerospace Electronics
April 2006 |
Heat Sinks for Low-Airflow Conditions Advanced Thermal Solutions has introduced maxiFLOW heat sinks for cooling ball grid arrays and other hot components in the restricted air flow conditions typical of today's condensed electronic packages. |
CIO
March 1, 2003
Christopher Lindquist |
Low-Heat Laptops You won't be able to use your laptop as a portable coffee warmer anymore, if technology from Sandia National Laboratories goes mainstream. |
Military & Aerospace Electronics
May 2006
J.R. Wilson |
The great cooling dilemma: conduction, convection, or liquid Today's most advanced cooling technologies are starting to take center stage. |
Fast Company
Daniel Terdiman |
IBM: Data Centers Could Cool Themselves With Their Own Waste Heat The centers, which use tremendous amounts of energy, will become far more efficient if "waste heat" generated by churning data centers can be converted into cool air. |
Chemistry World
July 10, 2012 |
Coolant to put electric cars in the fast lane Battery temperature is critical for performance and safety, but it's a tricky business cooling the large batteries needed for electric vehicles. Now, scientists in Germany have developed a new coolant which promises to cool batteries on hot days. |
IndustryWeek
December 1, 2005
Traci Purdum |
Technologies Of The Year -- MEMS The Word Siemens' Micro-Electro Mechanical Systems is nanotechnology that will drive sensing, communicating, processing and power management in tiny silicon chips. |
PC World
March 12, 2002
James Niccolai |
Intel Shrinks Chip, Hits Milestone Prototypes of high-density chips support nearly eight times as many transistors as today's Pentium 4... |
Technology Research News
September 22, 2004
Eric Smalley |
Flexible Sensors Make Robot Skin Researchers have devised pressure-sensor arrays that promise to give objects like rugs and robots the equivalent of one aspect of skin -- pressure sensitivity. |
Military & Aerospace Electronics
July 2005
John Keller |
Is cooling the central design issue of our time? The pace of improvements in integrated circuitry is outstripping our ability to remove unwanted heat. And engineers are starting to quip about some of the dilemmas that new cooling approaches may create. |
The Motley Fool
August 30, 2004
Rich Duprey |
Profiting From Moore's Law Intel develops a new chip that roughly doubles the number of transistors on a chip. Whether it's in the chip makers themselves, or in the picks and shovels of the industry, investors stand to make big profits from tiny chips. |
The Motley Fool
September 16, 2005
Cliff Malings |
Nerds' Best-Kept Investment Secret Analog Devices stands to benefit from a surging product that few others can make. With a P/E of 29.5 against an industry average of 25.8, Analog is not exactly cheap. |
PC World
September 12, 2002
James Niccolai |
Tomorrow's CPU: Wireless Link Inside Intel finds new ways to shrink, speed chips, plus build in radio functions. |
The Motley Fool
January 27, 2006
Jack Uldrich |
Intel: Smaller Is Better A new 45-nanometer chip could give Intel a big technical advantage. The news won't immediately stem Intel's market-share losses or ignite a rally in its stock price, but it will certainly keep the heat on AMD. |
BusinessWeek
June 6, 2005
Otis Port |
Mighty Morphing Power Processors IBM and others are racing to create chameleon chips that change to suit the job. |
CIO
October 15, 2003
Tom Krazit |
Xerox Minds Its MEMS If you think your data center is too crowded, pay attention to researchers at Xerox, who hope to make optical switches much smaller than today's devices. The secret lies in a technology called optical MEMS, or micro-electrical-mechanical systems. |
IEEE Spectrum
March 2007
Philip E. Ross |
Benedetto Vigna: The Man Behind the Chip Behind the Wii The designer of the MEMS motion sensor in Nintendo's fabulous game tells how he got into micro-machining and where he's taking it next. |
