tag: Stanford University

What Does An AI Chip Look Like?
By Ed Sperling - 01 Mar, 2017 - Comments: 5

Depending upon your point of reference, artificial intelligence will be the next big thing or it will play a major role in all of the next big things. This explains the frenzy of activity in this sector over the past 18 months. Big companies are paying billions of dollars to acquire startup companies, and even more for R&D. In addition, governments around the globe are pouring additional... » read more

System Bits: Feb. 21
By Ann Mutschler - 21 Feb, 2017 - Comments: 0

Recreating the brain Stanford University and Sandia National Laboratories researchers have created an organic, high-performance, low-energy artificial synapse for neural network computing that aims to better recreate the way the human brain processes information, and could also lead to improvements in brain-machine technologies. Alberto Salleo, associate professor of materials science and e... » read more

Power/Performance Bits: Feb. 21
By Jesse Allen - 21 Feb, 2017 - Comments: 0

Harvesting energy from multiple sources Researchers from the University of Oulu in Finland found a particular type of perovskite, KBNNO, has the right properties to extract energy from multiple sources simultaneously. While perovskites are particularly known for their use as solar cells, certain minerals in the perovskite family show piezoelectric and pyroelectric (harvesting energy from ... » read more

System Bits: Jan. 31
By Ann Mutschler - 31 Jan, 2017 - Comments: 0

Optimizing code To address the issue of code explicitly written to take advantage of parallel computing usually losing the benefit of compilers’ optimization strategies, MIT Computer Science and Artificial Intelligence Laboratory researchers have devised a new variation on a popular open-source compiler that optimizes before adding the code necessary for parallel execution. Charles E. Lei... » read more

Power/Performance Bits: Jan. 3
By Jesse Allen - 03 Jan, 2017 - Comments: 0

Paper-based bacteria battery Researchers at Binghamton University, State University of New York have created a bacteria-powered battery on a single sheet of paper that can power disposable electronics. The manufacturing technique reduces fabrication time and cost, and the design could revolutionize the use of bio-batteries as a power source in remote, dangerous and resource-limited areas. ... » read more

Power/Performance Bits: Dec. 20
By Jesse Allen - 20 Dec, 2016 - Comments: 0

Stamping with electronic ink Engineers at MIT fabricated a stamp made from carbon nanotubes that is able to print electronic inks onto rigid and flexible surfaces. The team's stamping process should be able to print transistors small enough to control individual pixels in high-resolution displays and touchscreens, said A. John Hart, associate professor of contemporary technology and mecha... » read more

System Bits: Dec. 6
By Ann Mutschler - 06 Dec, 2016 - Comments: 0

Teaching computers to read A multidisciplinary team of UCLA researchers has built a computational model that reflects how humans think and communicate, by designing an algorithm that examined nearly two million posts from popular parenting websites, thereby teaching computers to understand structured narratives within the flow of posts on the internet. Managing large-scale data in this way ... » read more

Power/Performance Bits: Nov. 8
By Jesse Allen - 08 Nov, 2016 - Comments: 0

Scrap metal batteries A research team at Vanderbilt University used scraps of steel and brass - two of the most commonly discarded materials - to create a steel-brass battery that can store energy at levels comparable to lead-acid batteries while charging and discharging at rates comparable to ultra-fast charging supercapacitors. The researchers found that when scraps of steel and brass a... » read more

System Bits: Oct. 25
By Ann Mutschler - 25 Oct, 2016 - Comments: 0

Scalable quantum computers In what they say is a significant step towards to the realization of a scalable quantum computer, researchers from the Institute for Quantum Computing (IQC) at the University of Waterloo led the development of a new extensible wiring technique capable of controlling superconducting quantum bits. The quantum socket is a wiring method that uses 3D based on spring-lo... » read more

Power/Performance Bits: Oct. 11
By Jesse Allen - 11 Oct, 2016 - Comments: 2

Getting to 1nm Researchers at the Lawrence Berkeley National Laboratory, UC Berkeley, University of Texas at Dallas, and Stanford University created a transistor with a working 1nm gate from carbon nanotubes and molybdenum disulfide (MoS2). "The semiconductor industry has long assumed that any gate below 5 nanometers wouldn't work, so anything below that was not even considered," said fir... » read more

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