Chip off the old block: Intel’s Tunnel Falls chip is based on silicon spin qubits, which are about a million times smaller than other qubit types. (Courtesy: Intel Corporation) Topics: Applied Physics, Chemistry, Electrical Engineering, Quantum Computer, Quantum Mechanics Intel – the world’s biggest computer-chip maker – has released its newest quantum chip and has begun shippingContinue reading “Tunnel Falls…”
Category Archives: Electrical Engineering
Straining Moore…
Topics: Applied Physics, Chemistry, Computer Science, Electrical Engineering, Materials Science, Nanotechnology, Quantum Mechanics, Semiconductor Technology Gordon Moore, the co-founder of Intel who died earlier this year, is famous for forecasting a continuous rise in the density of transistors that we can pack onto semiconductor chips. James McKenzie looks at how “Moore’s law” is still going strong afterContinue reading “Straining Moore…”
Chiplets…
Source: Semiengineering dot com – Chiplets Topics: Computer Science, Electrical Engineering, Materials Science, Semiconductor Technology, Solid-State Physics Depending on who you’re speaking with at the time, the industry’s adoption of chiplet technology to extend the reach of Moore’s Law is either continuing to roll along or is facing the absence of a commercial market. However,Continue reading “Chiplets…”
Balsa Chips…
Modified wood modulates electrical current: researchers at Linköping University, together with colleagues from the KTH Royal Institute of Technology, have developed the world’s first electrical transistor made of wood. (Courtesy: Thor Balkhed) Topics: Applied Physics, Biomimetics, Electrical Engineering, Materials Science, Research Researchers in Sweden have built a transistor out of a plank of wood byContinue reading “Balsa Chips…”
CHIPS for America…
Topics: Economics, Electrical Engineering, Materials Science, Semiconductor Technology WASHINGTON — The Biden-Harris administration, through the U.S. Department of Commerce’s National Institute of Standards and Technology, today launched the first CHIPS for America funding opportunity for manufacturing incentives to restore U.S. leadership in semiconductor manufacturing, support good-paying jobs across the semiconductor supply chain, and advance U.S.Continue reading “CHIPS for America…”
Chip Act and Wave Surfing…
Massive subsidies to regain the edge of the US semiconductor industry will not likely succeed unless progress is made in winning the global race of idea flow and monetization. Topics: Applied Physics, Chemistry, Computer Science, Electrical Engineering, Semiconductor Technology Intelligent use of subsidies for winning the global idea race is a must for gaining andContinue reading “Chip Act and Wave Surfing…”
Pushing Beyond Moore…
Clean-room technicians at the AIM Photonics NanoTech chip fabrication facility in Albany, New York. Credit: SUNY Polytechnic Institute Topics: Computer Science, Electrical Engineering, Materials Science, Nanotechnology, Semiconductor Technology Over 50 Years of Moore’s Law – Intel GAITHERSBURG, Md. — The U.S. Department of Commerce’s National Institute of Standards and Technology (NIST) has entered into a cooperativeContinue reading “Pushing Beyond Moore…”
Thermo Limits…
Topics: Climate Change, Computer Science, Electrical Engineering, Global Warming, Semiconductor Technology, Thermodynamics In case you had not noticed, computers are hot—literally. A laptop can pump out thigh-baking heat, while data centers consume an estimated 200 terawatt-hours each year—comparable to the energy consumption of some medium-sized countries. The carbon footprint of information and communication technologies asContinue reading “Thermo Limits…”
Strain and Flow…
Topics: Applied Physics, Condensed Matter Physics, Electrical Engineering Using a technique known as strain engineering, researchers in the US and Germany have constructed an “excitonic wire” – a one-dimensional channel through which electron-hole pairs (excitons) can flow in a two-dimensional semiconductor like water through a pipe. The work could aid the development of a newContinue reading “Strain and Flow…”
Stop-Motion Efficiency…
Topics: Applied Physics, Electrical Engineering, Nanotechnology, Semiconductor Technology A new ultrafast imaging technique that captures the motion of atoms in nanoscale electronic devices has revealed the existence of a short-lived electronic state that could make it possible to develop faster and more energy-efficient computers. The imaging technique, which involves switching the devices on and offContinue reading “Stop-Motion Efficiency…”
Physics and Nano 