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Stories related to "A time-value proposition for using Google’s Go Lang" across the full archive.
A team of researchers including ones from Stanford and Google have created and observed a new phase of matter, popularly known as a time crystal. There is a huge global effort to engineer a computer capable of harnessing the power of quantum physics to carry out computations of unprecedented complex...
slides http://llvm.org/devmtg/2014-04/PDFs/Talks/drejhammar.pdf from the [2014 european llvm conference](https://lobste.rs/s/igbm8q/2014_european_llvm_conference_videos_and_slides_now_available)
This is an incredibly detailed resource on the erlang runtime system, even though its partially complete.
Abstract: "During its lifetime, a program suffers several changes thatseek to improve or to augment some parts of its functionality. However,these modifications usually also introduce errors that affect the already-working code. There are several approaches and tools that help to spotand find the so...
A new computational simulator can help predict whether changes to materials or design will improve performance in new photovoltaic cells. In the ongoing race to develop ever-better materials and configurations for solar cells, there are many variables that can be adjusted to try to improve performan...
It Is Easy for People To Mistake Fluent Speech for Fluent Thought When you read a sentence like this one, your past experience leads you to believe that it’s written by a thinking, feeling human. And, in this instance, there is indeed a human typing these words: [Hi, there!] But these days, some sen...
Google Quantum AI Reveals Bound States of Photons Hold Strong Even in the Midst of Chaos
(scitechdaily.com)
Scientists demonstrated that microwave photons can form resilient bound states within a quantum processor. Using a quantum processor, researchers made microwave photons uncharacteristically sticky. After coaxing them to clump together into bound states, they discovered that these photon clusters sur...
Google Quantum AI Braids Non-Abelian Anyons – A Breakthrough That Could Revolutionize Quantum Computing
(scitechdaily.com)
Google Quantum AI has observed non-Abelian anyons for the first time, a breakthrough that could revolutionize quantum computing by making it more robust to noise and leading to topological quantum computation. Our intuition tells us that it should be impossible to see whether two identical objects h...
Measurements can dramatically change the behavior of a quantum system. Scientists are investigating this phenomenon to understand its implications for the distribution and organization of data in quantum computers. Quantum mechanics is full of weird phenomena, but perhaps none as weird as the role m...
The expansion of the open-access resource is instrumental for scientists in developing novel materials for future technologies. New advancements in technology frequently necessitate the development of novel materials – and thanks to supercomputers and advanced simulations, researchers can bypa...
Quantum simulators are revealing new insights into 1D quantum magnets, comparing their dynamics to phenomena like snow clumping. Quantum simulators are advancing quickly and can now tackle issues previously confined to theoretical physics and numerical simulation. Researchers at Google Quantum AI an...
Researchers have achieved a major leap in quantum computing by simulating Google’s 53-qubit Sycamore circuit using over 1,400 GPUs and groundbreaking algorithmic techniques. Their efficient tensor network methods and clever “top-k” sampling approach drastically reduce the memory and computational lo...