tag: MIT

Technical Paper Round-Up: March 29
By Linda Christensen - 29 Mar, 2022 - Comments: 0

Improving batteries, ultra low-power photonic edge computing, SLAM, Tellurium for 2D semiconductors, and reservoir computing top the past week's technical papers. The focus on energy is critical as the edge buildout continues and more devices are connected to a battery, while research into new architectures and materials that will continue scaling and improve performance per watt continue at th... » read more

Wavelength Multiplexed Ultralow-Power Photonic Edge Computing
By Technical Paper Link - 25 Mar, 2022 - Comments: 0

Abstract "Advances in deep neural networks (DNNs) are transforming science and technology. However, the increasing computational demands of the most powerful DNNs limit deployment on low-power devices, such as smartphones and sensors -- and this trend is accelerated by the simultaneous move towards Internet-of-Things (IoT) devices. Numerous efforts are underway to lower power consumption, but ... » read more

Planning EDA’s Next Steps
By Ed Sperling - 24 Mar, 2022 - Comments: 0

Anirudh Devgan, Cadence's new CEO, and the recipient of the Phil Kaufman Award in December, sat down with Semiconductor Engineering to talk about what's next in EDA, the underlying technology and business challenges and changes, and new markets that are unfolding for floor-planning, verification, CFD, and advanced packaging. SE: Where does EDA need to improve? Devgan: We have made it much... » read more

Research Bits: Feb. 22
By Jesse Allen - 22 Feb, 2022 - Comments: 0

Dense optical data storage Researchers from the University of Southampton developed a laser writing method for producing high-density nanostructures in silica glass, which could be used for long-term, dense data storage. “Individuals and organizations are generating ever-larger datasets, creating the desperate need for more efficient forms of data storage with a high capacity, low energy ... » read more

A Low-Power BLS12-381 Pairing Cryptoprocessor for Internet-of-Things Security Applications
By Technical Paper Link - 21 Feb, 2022 - Comments: 0

Abstract: "We present the first BLS12-381 elliptic-curve pairing cryptoprocessor for Internet-of-Things (IoT) security applications. Efficient finite-field arithmetic and algorithm-architecture co-optimizations together enable two orders of magnitude energy savings. We implement several countermeasures against timing and power side-channel attacks. Our cryptoprocessor is programmable to provid... » read more

Manufacturing Bits: Feb. 15
By Mark LaPedus - 15 Feb, 2022 - Comments: 0

Strong plastics The Massachusetts Institute of Technology has developed a new material that is stronger than steel but is light as plastic. The new material, which can be made in large quantities, involves a two-dimensional polymer that self-assembles into sheets. The material’s Young modulus—or a measure of how much force it takes to deform a material—is between four and six times gr... » read more

Manufacturing Bits: Feb. 7
By Mark LaPedus - 07 Feb, 2022 - Comments: 0

Design tools for solid-state batteries Oak Ridge National Laboratory has devised a new tool designed to accelerate the development of energy-dense solid-state batteries. The tool, called the Solid-State Battery Performance Analyzer and Calculator (SolidPAC), enables researchers to assess the impact of battery designs and choice of cell components for solid-state batteries. It can be used to... » read more

Reasserting U.S. Leadership in Microelectronics (MIT)
By Technical Paper Link - 19 Jan, 2022 - Comments: 0

In this new paper, MIT researchers lay out a vision and approach for how universities can help the U.S. regain leadership as a semiconductor superpower. The paper looks at education and workforce development, research, technology translation, startups, intellectual property, academic infrastructure and regional network efficiencies. Find the paper here and the MIT news writeup from 1/19/2022... » read more

Manufacturing Bits: Jan. 10
By Mark LaPedus - 10 Jan, 2022 - Comments: 2

Finding new materials with inverse design The Singapore-MIT Alliance for Research and Technology (SMART) has found a new way to perform general inverse design, a technique that can accelerate the discovery of new materials. The concept of inverse design is simple. Let’s say you want to develop products with select materials. In a computer, you input the desired materials and the propertie... » read more

Light-Emitting V-Pits: An Alternative Approach toward Luminescent Indium-Rich InGaN Quantum Dots
By Technical Paper Link - 21 Dec, 2021 - Comments: 0

Abstract: "Realization of fully solid-state white light emitting devices requires high efficiency blue, green, and red emitters. However, challenges remain in boosting the low quantum efficiency of long wavelength group-III-nitride light emitters through conventional quantum well growth. Here, we demonstrate a new direct metal–organic chemical vapor deposition approach to grow In-rich InGa... » read more

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