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GOOGLE'S MIND-BLOWING QUANTUM COMPUTER "Google's quantum computer Sycamore recently completed a calculation within just a few seconds. The same calculation would take the most powerful supercomputer today 47 years to complete." Source: Viral Maniacs

1,809,420 次观看 • 2 年前 •via X (Twitter)

10 条评论

QANplatform 的头像
QANplatform2 年前

Powerful enough quantum computers will break many of today’s cryptography standards primarily the ones based on RSA and EC (elliptic curves). While centralized entities, such as governments and organizations, can more easily transition to post-quantum cryptography (PQC), the decentralized nature of distributed systems like blockchain presents unique challenges for the web3 ecosystem when it comes to implementing post-quantum security measures. Pseudonymity of blockchain will backfire at post-quantum migration because it will be impossible to tell legitimate owners migrating their own funds or data and hackers stealing all of it. In this case, billions of "free money" and data could land in hackers' hands if they start migrating on the real owners' behalf making the affected blockchains immediately worthless. There is simply no secondary authentication mechanism to prevent this from happening in case of already running blockchains. Recognizing this, we have built #QANplatform from ground up to be immune against all quantum computing attacks.

Tesla Why Figh T 的头像
Tesla Why Figh T2 年前

So how have they not cured cancer and figured out what dark matter is?

Marie Isabella 的头像
Marie Isabella2 年前

They really are robots

Tendime 的头像
Tendime2 年前

99% of Blockchains are going to get attacked by quantum computers in the future and it will cause mass losses in the space. $QANX is a layer 1, EVM compatible blockchain that is faster than $SOL and as Decentralized as $BTC $ETH projects can save themeselves by migrating to $QANX

HODLaser 的头像
HODLaser2 年前

SHA-256 right now

Harv 的头像
Harv2 年前

$QANX tech stack being leveraged by EU country. Patrick Storchenegger with ethereum foundation is CEO of Qanplatform's IP holding company. Follow @QANplatform

Marie Isabella 的头像
Marie Isabella2 年前

Computers have come a long way since my first one 30 years ago

Dylan Bishop 的头像
Dylan Bishop2 年前

All I want is accurate progress bars.

tomorrowTV 的头像
tomorrowTV2 年前

Doubtful. It’s a press release to counter their recent reputational failures. “Please don’t sell off our shares:(“

This Ordered Chaos 的头像
This Ordered Chaos2 年前

Is it just me or is it really telling that I haven't come across a coherent explanation of quantum computers. 🤷

相关视频

D-Wave announced a scientific breakthrough published in the esteemed journal Science Magazine, confirming that its annealing quantum computer outperformed one of the world’s most powerful classical supercomputers in solving a complex magnetic materials simulation problem with relevance to materials discovery. The new landmark peer-reviewed paper, “Beyond-Classical Computation in Quantum Simulation,” validates this achievement as the world’s first and only demonstration of quantum computational supremacy on a useful problem. An international collaboration of scientists led by D-Wave performed simulations of quantum dynamics in programmable spin glasses—a computationally hard magnetic materials simulation problem with known applications to business and science—on both D-Wave’s Advantage2™ prototype annealing quantum computer and the Frontier supercomputer at the Department of Energy’s Oak Ridge Lab. D-Wave’s quantum computer performed a complex simulation in minutes and with a level of accuracy that would take nearly a million years using the supercomputer. In addition, it would require more than the world’s annual electricity consumption to solve this problem using the supercomputer, which is built with graphics processing unit (GPU) clusters. For decades, scientists have aspired to build a quantum computer capable of solving complex materials simulation problems beyond the reach of classical computers. D-Wave's advancements in quantum hardware have made it possible for its annealing quantum computers to process these types of problems for the first time. Magnetic materials simulations, like those conducted in this work, use computer models to study how tiny particles not visible to the human eye react to external factors. Magnetic materials are widely used in medical imaging, electronics, superconductors, electrical networks, sensors, and motors. This is an incredibly important achievement. Please join us in congratulating the D-Wave team and our global collaborators on this remarkable milestone. It’s a significant moment for the quantum computing industry. Learn more about this monumental achievement: Read the press release here: #QuantumSupremacy #QuantumRealized #QuantumComputing #DWave #Technology #Innovation #Optimization #MaterialsDiscovery #ScientificBreakthrough $QBTS

D-Wave

65,000 次观看 • 1 年前