Computer chips

New chip captures power from multiple sources

System developed at MIT could combine power harvested from light, heat and vibrations to run monitoring systems.

July 9, 2012

A photo of an Xilinx field-programmable gate array, or FPGA.

Simulating tomorrow’s chips

A new system makes hardware models of multicore chips more efficient, easier to design and more reliable.

April 13, 2012

Chips as mini Internets

The data-routing techniques that undergird the Internet could increase the efficiency of multicore chips while lowering their power requirements.

April 10, 2012

The Center for Polymer Microfabrication is designing processes for manufacturing microfluidic chips. Pictured here is a chip fabricated by the center's tailor-made production machines.

Moving microfluidics from the lab bench to the factory floor

The Center for Polymer Microfabrication designs manufacturing processes for a new generation of diagnostic tools.

March 29, 2012

Testing unbuilt chips

A new software-simulation system promises much more accurate evaluation of promising — but potentially fault-ridden — multicore-chip designs.

March 9, 2012

A new approach helps researchers make tiny three-dimensional structures. Pictured are two packaged microchips, each with tiny bridges fabricated on their surfaces.

Tiny 3-D chips

MIT researchers develop a new approach to producing three-dimensional microchips.

February 28, 2012

A new test chip developed by Vladimir Stojanovic, Rajeev Ram and their colleagues, which monolithically integrates electrical and optical components and was produced on an existing IBM manufacturing line.

Microchips’ optical future

To keep energy consumption under control, future chips may need to move data using light instead of electricity — and the technical expertise to build them may reside in the United States.

February 15, 2012

Research update: Sharpening the lines

New advance could lead to even smaller features in the constant quest for more compact, faster microchips.

December 14, 2011

Caroline Ross, the Toyota Professor of Materials Science and Engineering at MIT

Important step toward computing with light

Research at MIT produces long-sought component to allow complete optical circuits on silicon chips.

November 23, 2011

Fabricated analog very-large-scale integration (VLSI) chip used to mimic neuronal processes involved in memory and learning.

Mimicking the brain, in silicon

New computer chip models how neurons communicate with each other at synapses.

November 15, 2011

Controlling the collapse of tiny pillars deposited on a silicon substrate can produce intricate patterns.

Building chips from collapsing nanopillars

By turning a common problem in chip manufacture into an advantage, MIT researchers produce structures only 30 atoms wide.

September 1, 2011

Research Laboratory of Electronics graduate students Vitor Manfrinato and Lin Lee Cheong, with the electron-beam lithography system they used in their experiments.

The future of chip manufacturing

MIT researchers show how to make e-beam lithography, commonly used to prototype computer chips, more practical as a mass-production technique.

June 30, 2011

The researchers’ experimental setup consisted of a sample of the lanthanum aluminate-strontium titanate composite, which looks like a slab of thick glass, with thin electrodes deposited on top of it.

Toward faster transistors

MIT physicists discover a new physical phenomenon that could eventually lead to the first increases in computers’ clock speed since 2002.

May 13, 2011

EECS assistant professors Tomás Palacios, left, and Jing Kong examine oscilloscope traces showing the doubling in frequency of an electromagnetic signal processed through their experimental graphene microchip.

New material could lead to faster chips

Graphene may solve communications speed limit

March 19, 2009

MIT News | Massachusetts Institute of Technology

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