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Archive for the ‘computing’ category

Oct 30, 2024

Daniel Dennett: The Magic of Consciousness…Without the Magic

Posted by in categories: computing, education, neuroscience

Daniel C. Dennett is one of the most influential philosophers of our time, perhaps best known in cognitive science for his multiple drafts (or “fame in the brain”) model of human consciousness, and to the secular community for his 2006 book Breaking the Spell. Author and co-author of two-dozen books, he’s the Austin B. Fletcher Professor of Philosophy, and Co-Director of the Center for Cognitive Studies at Tufts University, where he taught our very own Point of Inquiry host Lindsay Beyerstein.

Beyerstein and Dennett catch up to discuss Dennett’s newest book, From Bacteria to Bach and Back: The Evolution of Minds. It’s a fresh look at Dennett’s earlier work on the subject of consciousness, taken in new directions as he seeks a “bottom-up view of creation.” Join Dennett and Beyerstein as they discuss the how’s and why’s of consciousness, not just from an evolutionary and neurological standpoint, but also through the lenses of computer science and human culture.

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Oct 30, 2024

How a classical computer beat a quantum computer at its own game

Posted by in categories: computing, mathematics, quantum physics

Researchers explore an intriguing phenomenon in quantum systems, drawing inspiration from a recent quantum computing experiment.


Earlier this year, researchers at the Flatiron Institute’s Center for Computational Quantum Physics (CCQ) announced that they had successfully used a classical computer and sophisticated mathematical models to thoroughly outperform a quantum computer on a task that some thought only quantum computers could solve.

Oct 29, 2024

Elon Musk Says Neuralink Should Make Brain Chips That Will Eliminate Neck And Back Pain

Posted by in categories: computing, Elon Musk, neuroscience

Billionaire entrepreneur Elon Musk said on Tuesday (October 29) that Neuralink, the company he co-founded, should look to develop a brain implant which would alleviate neck and back pain. Neuralink develops makes Brain-Computer Interfaces (BCIs) which can be implanted in human brain. Musk’s latest comment came in a post he made on X (formerly Twitter), the social media platform he owns.

I am increasingly convinced that @Neuralink should prioritize making an implant that can eliminate back & neck pain.

Continue reading “Elon Musk Says Neuralink Should Make Brain Chips That Will Eliminate Neck And Back Pain” »

Oct 29, 2024

Terrence Deacon — Philosophy of Biological Information

Posted by in categories: biological, computing, education, genetics, neuroscience

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What is information in biology? information is essential for analyzing data and testing hypotheses. But what is information in evolution, population genetics, levels of selection, and molecular genetics? Is computational biology transformational?

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Oct 29, 2024

$7 billion “city within a city” planned for Phoenix

Posted by in categories: computing, economics, employment, engineering

“Our vision is for chip designers and engineering students, not just suppliers and manufacturers, to co-locate here, to create a value added ecosystem beyond just what it takes to build chips, and that’s how we’re going to create more value in the Phoenix economy,” Mack said.

A further three plants are also planned for the Phoenix site, which could bring TSMC’s total investment in the area to over $120 billion. Tech giant Apple has announced it will buy semiconductors from the fabrication plants.

The plants are anticipated to create 10,000 permanent jobs, and another 80,000 are expected to be created in the surrounding development.

Oct 27, 2024

Solving computationally hard problems with 3D integrated photonics

Posted by in categories: biotech/medical, computing, transportation

As technology advances, the limitations of conventional electronic computers are becoming increasingly apparent, especially when tackling complex computational challenges. NP-complete problems, which grow exponentially with size, represent some of the toughest puzzles in computer science. These issues have significant implications across various fields, including biomedicine, transportation, and manufacturing. In the quest for more effective…

Oct 27, 2024

Computer Scientists Establish the Best Way to Traverse a Graph

Posted by in categories: computing, information science

A new proof shows that an upgraded version of the 70-year-old Dijkstra’s algorithm reigns supreme: It finds the most efficient pathways through any graph.

It doesn’t just tell you the fastest route to one destination.


In an interview toward the end of his life, Dijkstra credited his algorithm’s enduring appeal in part to its unusual origin story. “Without pencil and paper you are almost forced to avoid all avoidable complexities,” he said.

Continue reading “Computer Scientists Establish the Best Way to Traverse a Graph” »

Oct 27, 2024

Unlocking the 3D Spin Secrets of Magnetic Skyrmions To Power Future Electronics

Posted by in categories: computing, nanotechnology

Researchers at Berkeley Lab have advanced the understanding of magnetic skyrmions by developing techniques to image their 3D structures.

These nanoscale objects show promise for revolutionizing microelectronics through enhanced data storage capabilities and reduced energy consumption.

A difficult-to-describe nanoscale structure called the magnetic skyrmion holds potential for creating advanced microelectronic devices, including those with vast data storage capacities and significantly lower power requirements.

Oct 26, 2024

Researchers use magnetic fields to freeze light in its tracks

Posted by in categories: computing, particle physics

This finding, achieved independently by a team at Pennsylvania State University published in the same journal, holds immense potential for the development of nanophotonic devices.

Manipulating the flow of light in materials at small scales is crucial for creating efficient nanophotonic chips, the building blocks for future optical devices. In the realm of electronics, scientists can control the movement of electrons using magnetic fields.

The Lorentz force, exerted by the magnetic field, dictates the electron’s trajectory. However, this approach is inapplicable to photons – the fundamental particles of light – as they lack an electrical charge.

Oct 26, 2024

400 Billion Reasons To Believe In Brain-Computer Interfaces

Posted by in categories: computing, neuroscience

2024 Market Research from Morgan Stanley pegs the market for BCI at $400B in the US alone. Synchron, Neuralink, Paradromics, Precision, InBrain, ONWARD and more.

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