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#Quantumcomputers

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China advances in the #QuantumComputing race. The intensely political competition between #China and the USA for technological superiority continues. #QuantumComputers will soon be able to crack the most powerful encryption, mandating new approaches to #InfoSec and #NationalSecurity. It will, of course, also help cure diseases and advance scientific research; giving any country who masters the technology a significant advantage on the global stage. China also announced today a new, #OpenSource LLM model with powerful capabilities. So the race is well and truly on… and the future of the world and the human race will be impacted by its outcome. #LLM #technology

Source: Interesting Engineering search.app/YbotJbQ1zWTBmTJn6

Interesting EngineeringQuantum race tightens as China unleashes 1,000-qubit rival to IBMChina’s QuantumCTek has claimed to have developed a 1,000-qubit self-developed superconducting quantum measurement and control system.

Researchers find we’ll need 20 times fewer qubits to break conventional encryption than previously believed.

A new paper puts a fire under DevOps, IT teams and anyone else using modern RSA—or similar public-key cryptosystems. Factoring big primes now seems much, much easier for #QuantumComputers than we thought even a few years ago.

Of course, the Devil is in the details. In #SBBlogwatch, we never shy away from detail.

@TheFuturumGroup @TechstrongGroup @SecurityBlvd: securityboulevard.com/2025/05/

Security Boulevard · RSA and Bitcoin at BIG Risk from Quantum ComputePQC PDQ: Researchers find we’ll need 20 times fewer qubits to break conventional encryption than previously believed.

Certain #QuantumPhysics problems are regarded to be too difficult for classic computers. However, #QuantumComputers are expected to be able to handle them as they utilizes the mathematics of probability behind unobserved particles existing in an undecided blur of states instead of binary.

Except researches have been able to outperform a quantum computer with a classic one.

sciencealert.com/computers-fin

ScienceAlert · Computers Find Impossible Solution, Beating Quantum Tech at Own GameEarlier this year, experiments shattered expectations by pushing the limits of what classical computing was believed to be capable of.

Would like to hear from #progressivescientists and activists about #quantumcomputing

Companies, countries battle to develop #quantumcomputers | 60 Minutes
youtube.com/watch?v=K4ssT6Dzmn

#tech #Qbit

Often, there s alot of starry eyed shit before the dose of reality which usually includes some corporation. We're in the starry-eyed phase of media coverage, but what's the reality?

Beautifully explained in simple terms - which is good because I'm having a hard time understanding quantum computing 😖

"#QuantumComputers aren’t the next generation of #supercomputers—they’re something else entirely. Before we can even begin to talk about their potential applications, we need to understand the fundamental #physics that drives the theory of #QuantumComputing. "

Quantum Computers, Explained With Quantum Physics - YouTube
m.youtube.com/watch?time_conti

Continued thread

"#Chatterjee, #Hayakawa and #Takada now plan to look at possible connections between their findings and #quantum speed limits, which stem from the uncertainty principle and place restrictions on how fast a quantum system can change from one state to another. Though no-one has yet pinned down this connection, both quantum speed limits and relaxation rates may impact the operation of #QuantumComputers, which need to reach their relaxed states quickly to process information in a timely manner."

Quantum computers will replace digital computers, according to Michio Kaku. He explains how quantum computers use the principles of quantum mechanics to perform calculations that are impossible for classical computers. Kaku predicts how quantum computers will revolutionize various fields, such as cryptography, artificial intelligence, medicine, and cosmology.

#QuantumComputers #Kaku

edition.cnn.com/2023/08/13/bus