Microsystems Technology Laboratories

MIT researchers have developed a chip that leverages sub-terahertz wavelengths for object recognition, which could be combined with light-based image sensors to help steer driverless cars through fog.

Giving keener “electric eyesight” to autonomous vehicles

On-chip system that detects signals at sub-terahertz wavelengths could help steer driverless cars through fog and dust.

February 14, 2019

Researchers from MIT and elsewhere have designed the first fully flexible, battery-free “rectenna” — a device that converts energy from Wi-Fi signals into electricity — that could be used to power flexible and wearable electronics, medical devices, and sensors for the “internet of things.”

Converting Wi-Fi signals to electricity with new 2-D materials

Device made from flexible, inexpensive materials could power large-area electronics, wearables, medical devices, and more.

January 28, 2019

MIT researchers have 3-D printed a novel microfluidic device that simulates cancer treatments on biopsied tumor tissue — and keeps the tissue alive for days — so clinicians can better examine how individual patients will respond to different therapeutics.

To guide cancer therapy, device quickly tests drugs on tumor tissue

Inexpensive 3-D-printed microfluidics device could be used to personalize cancer treatment.

December 12, 2018

Using a new manufacturing technique, MIT researchers fabricated a 3-D transistor less than half the width of today’s slimmest commercial models, which could help cram far more transistors onto a single computer chip. Pictured is a cross-section of one of the researchers’ transistors that measures only 3 nanometers wide.

Engineers produce smallest 3-D transistor yet

Process that modifies semiconductor material atom by atom could enable higher-performance electronics.

December 7, 2018

Left to right: Catherine Kim, Mary Ellen Sinkus, Rachel Kemper, Adam Shervanian, Anantha Chandrakasan, Daniel Darling, Kyle Keane, Paul Barone and Tia Giurleo. Seated, left to right: Kiley Clapper, Angela Mickunas, Sheren Aram, Caitlin Vinci, Tricia Campbell, and Eileen Ng.

Spotlight on engineering staff

The School of Engineering gives its 2018 Infinite Mile Awards for exceptional service and support.

May 30, 2018

MIT researchers have developed a special-purpose chip that increases the speed of neural-network computations by three to seven times over its predecessors, while reducing power consumption 93 to 96 percent. That could make it practical to run neural networks locally on smartphones or even to embed them in household appliances.

Neural networks everywhere

New chip reduces neural networks’ power consumption by up to 95 percent, making them practical for battery-powered devices.

February 13, 2018

MIT researchers have built a new chip, hardwired to perform public-key encryption, that consumes only 1/400 as much power as software execution of the same protocols would. It also uses about 1/10 as much memory and executes 500 times faster.

Energy-efficient encryption for the internet of things

Special-purpose chip reduces power consumption of public-key encryption by 99.75 percent, increases speed 500-fold.

February 12, 2018

Three EECS professors join leadership team

Saman Amarasinghe and Joel Voldman are named associate department heads; Nancy Lynch is associate department head for strategic directions, a new post.

January 12, 2018

MIT postdoc Yuhao Zhang, handles a wafer with hundreds of vertical gallium nitride power devices fabricated from the Microsystems Technology Laboratories production line.

Device makes power conversion more efficient

New design could dramatically cut energy waste in electric vehicles, data centers, and the power grid.

December 6, 2017

A 3-D-printed manufacturing device can extrude fibers that are only 75 nanometers in diameter, or one-thousandth the width of a human hair.

3-D-printed device builds better nanofibers

Printed nozzle system could make uniform, versatile fibers at much lower cost.

October 30, 2017

Instead of relying on silicon-based devices, a new chip uses carbon nanotubes and resistive random-access memory (RRAM) cells. The two are built vertically over one another, making a new, dense 3-D computer architecture with interleaving layers of logic and memory.

New 3-D chip combines computing and data storage

Advance points toward new generation of computers for coming superstorm of data.

July 5, 2017

Dean Ian Waitz stands with the School of Engineering's 2017 Infinite Mile Award Winners. Standing, left to right: Waitz, Rachel Batista, Lisa Bella, Michelle Morrison, Beth Milnes, and Bill Litant. Seated, left to right: Stacy Springs, Melinda Lyman-Wright, and Ludmila Leoparde.

Spotlight on engineering staff

The School of Engineering gives its 2017 Infinite Mile Awards for exceptional service and support.

May 22, 2017

Researchers from MIT’s Microsystems Technologies Laboratories (MTL) have designed a new power converter that maintains its efficiency at currents ranging from 100 picoamps to 1 milliamp, a span that encompasses a millionfold increase in current levels.

Researchers devise efficient power converter for internet of things

Design reduces converter’s resting power consumption by 50 percent.

February 17, 2017

Researchers at MIT’s Microsystems Technology Laboratories have built a low-power chip specialized for automatic speech recognition. With power savings of 90 to 99 percent, it could make voice control practical for relatively simple electronic devices.

Voice control everywhere

Low-power special-purpose chip could make speech recognition ubiquitous in electronics.

February 13, 2017

In an effort to get ahead of the problem of counterfeit wireless chargers, MIT researchers have built a chip that blocks attempts to wirelessly charge a device’s battery unless the charger first provides cryptographic authentication.

Secure wireless chargers

New chip would thwart the counterfeiting that plagues the market for wired device chargers.

February 9, 2017

MIT News | Massachusetts Institute of Technology

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Giving keener “electric eyesight” to autonomous vehicles

Converting Wi-Fi signals to electricity with new 2-D materials

To guide cancer therapy, device quickly tests drugs on tumor tissue

Engineers produce smallest 3-D transistor yet

Spotlight on engineering staff

Neural networks everywhere

Energy-efficient encryption for the internet of things

Three EECS professors join leadership team

Device makes power conversion more efficient

3-D-printed device builds better nanofibers

New 3-D chip combines computing and data storage

Spotlight on engineering staff

Researchers devise efficient power converter for internet of things

Voice control everywhere

Secure wireless chargers

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Microsystems Technology Laboratories