tag: UC Santa Barbara

Power/Performance Bits: Dec. 8
By Jesse Allen - 08 Dec, 2015 - Comments: 0

Reducing transistor switching power One of the great challenges in electronics has been to reduce power consumption during transistor switching operation. However, engineers at University of California, Santa Barbara, and Rice University demonstrated a new transistor that switches at only 0.1 volts and reduces power dissipation by over 90% compared to state-of-the-art MOSFETs. "The steepn... » read more

Tale Of Two HLS Viewpoints
By Brian Bailey - 09 Jul, 2015 - Comments: 0

The Design Automation Conference attracts several co-located conferences, symposiums and other such gathering of people, often on more specialized topics than would appeal to the general DAC attendees. Some of them are more research-focused, but one conference is somewhat strange in that it is about a subject that has transitioned to commercial tool development and yet still remains an active a... » read more

System Bits: March 24
By Ann Mutschler - 24 Mar, 2015 - Comments: 0

A better band-aid UC Berkeley engineers are working on a bandage that can detect bedsores before they are visible - while recovery from them is still possible. Leveraging flexible electronics advancements, the researchers collaborated with colleagues at UC San Francisco to create their “smart bandage” that uses electrical currents to detect early tissue damage from pressure ulcers as th... » read more

The List Of Unknowns Grows After Silicon
By Katherine Derbyshire - 07 Feb, 2014 - Comments: 3

As discussed earlier in this series, most proposed alternative channel schemes depend on germanium channels for pMOS transistors, and InGaAs channels for nMOS transistors. Of the two materials, InGaAs poses by far the more difficult integration challenges. Germanium has been present in advanced silicon CMOS fabs for several technology generations, having been introduced used in strained silicon... » read more

Manufacturing Bits: Jan. 14
By Mark LaPedus - 14 Jan, 2014 - Comments: 0

MoS2 FETs Two-dimensional materials are gaining steam in the R&D labs. The 2D materials include graphene, boron nitride (BN) and the transition-metal dichalcogenides (TMDs). One TMD, molybdenum diselenide (MoS2), is an attractive material for use in future field-effect transistors (FETs). MoS2 has several properties, including a non-zero band gap, atomic scale thickness and pristine int... » read more

Manufacturing Bits: Jan. 7
By Mark LaPedus - 07 Jan, 2014 - Comments: 0

Climbing Terminator Robots Simon Fraser University has developed a family of climbing robots that mimic the stickiness of gecko lizard feet. Based on a “footpad terminator” adhesive technology, the robots could be used in space missions and on Earth. The climbing robot, called Abigaille, features six legs. This allows the robots to crawl on vertical and horizontal structures. The techno... » read more

Manufacturing Bits: Sept. 3
By Mark LaPedus - 03 Sep, 2013 - Comments: 0

Dancing With The Stars In telescopes, the ability to see distant stars and galaxies is driven by the light-gathering area and detectors in the system. In the last 50 years, the collecting area in large-scale telescopes has increased by only a factor of four, according to researchers from the University of California at Santa Barbara. Meanwhile, the sensitivity of CCD detectors has increased... » read more

System Bits: July 9
By Ann Mutschler - 09 Jul, 2013 - Comments: 0

New quantum computing algorithm Researchers at the University of California, San Diego, have proposed a new algorithm for quantum computing that they believe will speed a particular type of problem…but swifter calculations would come at the cost of greater physical resources devoted to precise timekeeping. The algorithm would be used to conduct a task called an unstructured search. The go... » read more

Newer posts →

  • Sponsors

About

Navigation

Connect With Us

Copyright ©2013-2024 SMG   |  Terms of Service  |  Privacy Policy