Do Superconducting Processors Really Need Cryogenic Memories?


Cryogenic, superconducting digital processors offer the promise of greatly reduced operating power for server-class computing systems. This is due to the exceptionally low energy per operation of Single Flux Quantum circuits built from Josephson junction devices operating at the temperature of 4 Kelvin. Unfortunately, no suitable same-temperature memory technology yet exists to complement these... » read more

System Bits: April 3


Investigating the human brain for quantum computation potential While much has been made of quantum computing processes using ultracold atoms and ions, superconducting junctions and defects in diamonds, researchers are questioning if this could be performed in human brains. In fact, UC Santa Barbara theoretical physicist Matthew Fisher has been asking this question for years. And now as scient... » read more

System Bits: March 13


Wiring quantum computers According to MIT researchers, when we talk about “information technology,” we generally mean the technology part, like computers, networks, and software. But they reminded that the information itself, and its behavior in quantum systems, is a central focus for MIT’s interdisciplinary Quantum Engineering Group (QEG) as it seeks to develop quantum computing and oth... » read more

System Bits: March 6


Printed graphene biosensors According to researchers at the Fraunhofer Institute for Biomedical Engineering IBMT in St. Ingbert (in Germany’s Saarland region), cell-based biosensors can simulate the effect of various substances, such as drugs, on the human body in the laboratory but depending on the measuring principle, producing them can be expensive. As such, they aren’t used very often.... » read more

Who’s Responsible For Security?


Semiconductor Engineering sat down to discuss security issues and how to fix them with Mark Schaeffer, senior product marketing manager for secure solutions at Renesas Electronics; Haydn Povey, CTO of Secure Thingz; Marc Canel, vice president of security systems and technologies at [getentity id="22186" comment="Arm"]; Richard Hayton, CTO of Trustonic; Anders Holmberg, director of corporate dev... » read more

Who Will Regulate Technology?


Outside regulation and technological innovation don't mix well, particularly when it comes to modern electronics, but the potential for that kind of oversight is rising. In the past, most of the problems involving regulation stemmed from a lack of understanding about technology and science. This is hardly a new phenomenon. It literally dates back centuries. Galileo was forced to recant helio... » read more

System Bits: Feb. 20


An evolution in electronics Restoring some semblance to those who have lost the sensation of touch has been a driving force behind Stanford University chemical engineer Zhenan Bao’s decades-long quest to create stretchable, electronically-sensitive synthetic materials. [caption id="attachment_24131783" align="aligncenter" width="300"] Zhenan Bao, the K.K. Lee professor of chemical engineer... » read more

The Week in Review: IoT


Finance Hysolate, an endpoint cybersecurity startup, came out of stealth mode this week to announce receiving $8 million in private funding from Team8 and Innovation Endeavors. The Israeli company, which has an office in New York City, was founded by Tal Zamir and Dan Dinnar. Hysolate touts its hybrid endpoint architecture, which enables multiple operating systems to run side-by-side on a work... » read more

The Future Of AI Is In Materials


I had the pleasure of hosting an eye-opening presentation and Q&A with Dr. Jeff Welser of IBM at a recent Applied Materials technical event in San Francisco. Dr. Welser is Vice President and Director of IBM Research's Almaden lab in San Jose. He made the case that the future of hardware is AI. At Applied Materials we believe that advanced materials engineering holds the keys to unlocking... » read more

System Bits: Dec. 19


Controlling qubits for quantum computing In a major step toward making a quantum computer using everyday materials, a team led by researchers at Princeton University has reported they’ve constructed a key piece of silicon hardware capable of controlling quantum behavior between two electrons with extremely high precision. The team said they have constructed a gate that controls interactio... » read more

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