Manufacturing Bits: Aug. 10


EUV mask cleaning process TSMC has developed a new dry-clean technology for photomasks used in extreme ultraviolet (EUV) lithography, a move that appears to solve some major problems in the fab. TSMC and Samsung are in production with EUV lithography at advanced nodes, but there are still several challenges with the photomasks and other parts of the technology. Using 13.5nm wavelengths, EUV... » read more

Power/Performance Bits: Aug. 10


Flexible electrodes for thin films Researchers from the University of Queensland and ARC Centre of Excellence in Exciton Science (University of Melbourne) developed a material for flexible, recyclable, transparent electrodes that could be used in things like solar panels, touchscreens, and smart windows. Eser Akinoglu of the ARC Centre of Excellence in Exciton Science said, "The performance... » read more

Manufacturing Bits: Aug. 4


Advancing rheometry The National Institute of Standards and Technology (NIST) has developed a new technology that could advance the field of rheometry. More specifically, NIST has developed a new and advanced capillary rheometer. Rheometry is the study of the flow of liquids, gases or matter in systems. A capillary rheometer is an instrument, which measures the flow properties and shear vis... » read more

Power/Performance Bits: Aug. 4


Assessing code similarity Researchers from Intel, MIT, and Georgia Institute of Technology created an automated engine designed to learn what a piece of software intends to do by studying the structure of the code and analyzing syntactic differences of other code with similar behavior. The machine inferred code similarity (MISIM) program, a subset of Intel's work on machine programming, was... » read more

Manufacturing Bits: July 28


Nanoscale IR imaging The Nanooptics Group at CIC nanoGUNE has made some major advances in the emerging field of nanoscale infrared microscopy. The group’s technology, called nano-FTIR spectroscopy, is an infrared characterization technique. Infrared (IR) isn’t new. Invisible to the human eye, infrared wavelengths range between 760nm to 1,000nm. For years, infrared inspection/metrology h... » read more

Power/Performance Bits: July 28


Programmable photonics Researchers from the University of Southampton developed a method for making programmable  integrated switching units on a silicon photonics chip. By using a generic optical circuit that can be fabricated in bulk then later programmed for specific applications, the team hopes to reduce production costs. "Silicon photonics is capable of integrating optical devices and... » read more

Manufacturing Bits: July 21


Intel’s next-gen MRAM At the recent 2020 Symposia on VLSI Technology and Circuits, Intel presented a paper on a CMOS-compatible spin-orbit torque MRAM (SOT-MRAM) device. Still in R&D, SOT-MRAM is a next-generation MRAM designed to replace SRAM. Generally, processors integrate a CPU, SRAM and a variety of other functions. SRAM stores instructions that are rapidly needed by the processo... » read more

Power/Performance Bits: July 21


AI hardware Researchers at Purdue University, University of California San Diego, Argonne National Laboratory, University of Louisville, Brookhaven National Laboratory, and University of Iowa developed hardware that can learn skills, offloading some of the energy needed by AI software. "Software is taking on most of the challenges in AI. If you could incorporate intelligence into the circui... » read more

Manufacturing Bits: July 14


Complementary FETs At the recent 2020 Symposia on VLSI Technology and Circuits, Imec presented a paper on a 3D complementary field-effect transistor (CFET) made on 300mm wafers. As a demonstration vehicle, Imec showed a CFET based on a 14nm process. Ideally, though, CFETs are next-generation transistors that are targeted for the 1nm node in the future. On the transistor front, chipmaker... » read more

Power/Performance Bits: July 14


5G switches Researchers from the University of Texas at Austin and University of Lille built a new radio frequency switch that could save power in 5G devices when not actively jumping between different networks and spectrum frequencies. “It has become clear that the existing switches consume significant amounts of power, and that power consumed is useless power,” said Deji Akinwande, a ... » read more

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