WBAN / HBCUnveiling the Magic of Signal Processing: Transforming Data into Insights | LinkedIn
Introduction: In the realm of modern technology, where data is king, signal processing emerges as the unsung hero that transforms raw data into valuable insights. From the subtle rhythms of heartbeats captured by medical devices to the intricate details of audio and image files, signal processing is
Quantum Realm
NIST to Standardize Encryption Algorithms That Can Resist Attack by Quantum Computers | NIST
Change Management And The Great Cryptographic Migration Ahead
The Case Against Quantum Computing
The proposed strategy relies on manipulating with high precision an unimaginably huge number of variables
The Princeton Companion to Mathematics
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Can an ancient board game solve quantum problems?
Can a solitaire version of the ancient game mancala lead to a breakthrough in quantum physics? Researchers think it may be possible.
Jeroen van der Most on LinkedIn: Wave structure of 8000 beads with strings. Neko's Nebula is a work by… | 21 comments
Wave structure of 8000 beads with strings. Neko's Nebula is a work by artist Reuben Margolin. No AI, no AR, but a combination of old school analog engineering… | 21 comments on LinkedIn
ULTRARAM may be a silly name but it's the holy grail for memory tech and means your PC could hibernate for over 1,000 years
Close your laptop lid and open it 1,000 years later to carry on your Baldur's Gate 3 save as if nothing had happened.
"ULTRARAM is a charge-based memory that stores data by moving electrons into or out of a so-called 'floating gate'. The charge state of the floating gate is read non-destructively by measuring the conductance of an underlying 'channel'. The final component of the memory is the barrier that acts like a 'lock' to retain electrons in the floating gate during data retention. The barrier is unlocked to allow charge to flow when the memory is being written or erased."
The Superconductor Sensation Has Fizzled, and That’s Fine
All of LK-99’s bizarre behavior that hinted at superconductivity—such as its partial levitation over a magnet—can apparently be explained away by odd but distinctly nonsuperconductive properties, such as ferromagnetism, the same structural quirk that allows magnetic fields to permeate iron and reconfigure the metal’s electrons.
The Bitcoin's cryptographic labyrinth
Join us as we delve into the foundations and vulnerabilities of Bitcoin, showcasing the power of cryptography in shaping the future of finance. Utilize
Using quantum computing to protect AI from attack
Machine learning is a field of artificial intelligence (AI) where computer models become experts in various tasks by consuming large amounts of data. This is instead of a human explicitly programming this level of expertise.
Move Over, Silicon; Here Come Quantum Bismuth Chips
Bismuth Telluride Valley doesn't quite have the same ring to it, but a new discovery may mean the end of silicon chips. After decades of using Bi2Te3 for its thermoelectric properties, researchers have discovered new properties of the material that paves the way for bismuth telluride chips constructed to power quantum computers.
What’s next for the chip industry
Aggressive new US policies will be put to the test in 2023. They could ultimately fragment the global semiconductor industry.
Scientists may be on brink of discovering fifth force of nature
Experts closing in on potentially identifying new force after surprise wobble of subatomic particle
How Would Room-Temperature Superconductors Change Quantum Computing?
While scientists are still trying to verify the advance, let's daydream out loud on how this potential breakthrough would shake up quantum.
Impossible Science: MIT Scientists Successfully Demonstrate First-Ever Control over Quantum Randomness - The Debrief
In a breakthrough achievement, MIT researchers say they have successfully demonstrated control over quantum randomness for the first time.
Ancient Graphite Reveals a Quantum Surprise: Scientists Discover Hofstadter’s Butterfly
Scientists at The University of Manchester's National Graphene Institute have discovered new physics in graphite through the application of twistronics, revealing a 2.5-dimensional mixing of surface and bulk states. The research opens new possibilities in controlling electronic properties in both 2D
Google adds post-quantum encryption key protection to Chrome
QC crypto-cracking coming in 5, 10, maybe 50 years, so act … now?
My current LK99 questions — LessWrong
So this morning I thought to myself, "Okay, now I will actually try to study the LK99 question, instead of betting based on nontechnical priors and m…
Pioneering Quantum Simulations on Photonic Chips: A New Era in Quantum Computing
A system using photonics-based synthetic dimensions could be used to help explain complex natural phenomena. Researchers at the University of Rochester have developed a chip-scale optical quantum simulation system using controlled photon frequency to simulate complex natural phenomena at the quan
Who's afraid of quantum computing?
The road to a quantum future may be longer and more winding than some expect, but the potential it holds is profound, writes UTS Associate Professor Chris Ferrie.
Toward ternary quantum information processing: Success generating two-qutrit entangling gates with high fidelity
An interdisciplinary team at the Advanced Quantum Testbed (AQT) at Lawrence Berkeley National Laboratory (Berkeley Lab) and the University of California, Berkeley's Quantum Nanoelectronics Laboratory ...
To Move Fast, Quantum Maze Solvers Must Forget the Past | Quanta Magazine
Quantum algorithms can find their way out of mazes exponentially faster than classical ones, at the cost of forgetting the path they took. A new result suggests that the trade-off may be inevitable.
How splitting sound might lead to a new kind of quantum computer
When you turn on a lamp to brighten a room, you are experiencing light energy transmitted as photons, which are small, discrete quantum packets of energy. These photons must obey the sometimes strange ...