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Did you know quantum processors must be kept near absolute zero, colder than deep space? These temperatures reduce noise and maintain quantum coherence, making quantum computing possible.

27,175 görüntüleme • 5 ay önce •via X (Twitter)

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🚨 QUANTUM COMPUTING: THE NEXT TECH GOLD RUSH Quantum computing (QC) is about to blow up the tech world. Think of it as AI on steroids—but here’s the kicker: the entire U.S. quantum sector is worth less than Dogecoin. Imagine buying Bitcoin at $500. That’s where QC is today. Regular computers process in 1s and 0s. QCs use qubits, which can be 1, 0, or both at the same time (superposition). Translation? They solve ridiculously complex problems insanely fast. Google recently ran a calculation on its quantum chip in 5 minutes that would take the world’s fastest supercomputer 10 septillion years to complete. Yes, that’s older than the universe. Why it matters: QC isn’t just a cool science project—it’s a game-changer: Medicine: Design drugs in weeks, not years. Finance: Smarter investments, faster decisions. AI: Supercharges AI, making today’s breakthroughs look tiny. McKinsey predicts QC will add trillions to the economy in the next decade. Entire industries will be rewritten. We are closer than most people think. Quantum startups are already hitting 10 qubits, aiming for 100 in 2 years and thousands in 5 years. QC is already solving real problems in medicine, defense, and finance, and platforms like AWS and Google let you rent quantum power right now. Here’s the wild part: the entire U.S. quantum sector is trading for less than a meme coin. Meanwhile, China is outspending the U.S. 5 to 1 in quantum development. Legislation like the Quantum Leadership Act is injecting billions into R&D, but QC’s “ChatGPT moment”—where its potential becomes undeniable—is just 2-3 years away. The upside here is massive. QC isn’t just going to change industries—it’s going to flip them on their heads. When its moment comes, the repricing will be fast and brutal. The clock is ticking. Source: Charles Edwards

Mario Nawfal

1,870,630 görüntüleme • 1 yıl önce

.Sui has a massive headstart and the most flexible architecture for the post-quantum and AI era. This conversation with Kostas Kryptos tells you exactly why, and what every other chain still has to figure out. If you hold anything onchain, watch this pod. Timestamps: 0:00 Intro 6:00 What a quantum computer actually is (the 10-year-old version) 10:00 Quantum will be used for trading before it ever breaks Bitcoin? 13:00 Post-quantum algorithms (solved) vs hardware (decades out) 17:00 "If you think quantum breaks crypto by 2030, you can make free money" 19:00 Everyone missed this: AI is now researching quantum alongside humans 25:00 The post-quantum-algorithm debate: Falcon, Dilithium, Sphincs and why each chain picks differently 27:00 Why Bitcoin will ONLY adopt hash-based post-quantum algorithms 31:00 This is why Sui's architecture wins: 128KB transactions, native multi-sig, flexible authenticator 36:00 How Sui can natively support any signature scheme 40:00 The Sui-only algorithm: protect existing EdDSA addresses without moving a coin 44:00 Design philosophy: what Sui kept from Libra, and what it threw out 47:00 Why Sui can keep gas low even with post-quantum signatures 49:00 How Kostas first started working on this in 2016 at R3 Corda 51:00 Attending tech conference one day after his son was born: meeting Sam Blackshear , joining Libra 55:00 The bigger near-term threat: AI-aided attacks, not quantum 58:00 Why Mysten Labs is now sharing its security tooling with the community 1:02:00 Sui's $100K post-quantum bounty: break it, keep it

Sooraj

13,284 görüntüleme • 1 ay önce

𝗦𝘂𝗽𝗲𝗿𝗿𝗮𝗱𝗶𝗮𝗻𝗰𝗲 𝗶𝗻 𝗠𝗶𝗰𝗿𝗼𝘁𝘂𝗯𝘂𝗹𝗲𝘀: 𝗔 𝗚𝗹𝗶𝗺𝗽𝘀𝗲 𝗜𝗻𝘁𝗼 𝗤𝘂𝗮𝗻𝘁𝘂𝗺 𝗕𝗶𝗼𝗹𝗼𝗴𝘆? Researchers may have just found quantum superpowers in microtubules. Yes, you read that right—quantum *superradiance* in the brain! Superradiance is a phenomenon where excited particles behave like a team, emitting photons collectively in a bright, ultra-fast burst. This is different from normal fluorescence, where photons are emitted slowly and individually. Imagine a synchronized light show on a quantum scale. The key ingredient? Quantum entanglement. If particles are spaced closer than the wavelength of incoming light, they form a collective quantum state. This allows them to act as one entity, amplifying energy release, just like a laser—but smaller in scale. The study zeroed in on tryptophan molecules inside microtubules. When hit with UV light, they emitted much more energy than regular fluorescence could explain—100 times more, to be exact. The researchers believe this can only happen through superradiance, implying large-scale quantum entanglement. If true, this discovery could be huge. It may hint that quantum effects play a bigger role in biology—and even in brain function—than we ever imagined. Could Penrose and the quantum brain theory be right after all? This clip is from "𝗪𝗮𝘀 𝗣𝗲𝗻𝗿𝗼𝘀𝗲 𝗥𝗶𝗴𝗵𝘁? 𝗡𝗘𝗪 𝗘𝗩𝗜𝗗𝗘𝗡𝗖𝗘 𝗙𝗼𝗿 𝗤𝘂𝗮𝗻𝘁𝘂𝗺 𝗘𝗳𝗳𝗲𝗰𝘁𝘀 𝗜𝗻 𝗧𝗵𝗲 𝗕𝗿𝗮𝗶𝗻" (PBS Space Time, YouTube, Jul 25, 2024)

Ultra Skool 🧠

18,781 görüntüleme • 1 yıl önce

BITCOIN RAILS EPISODE #18: MAKE BITCOIN QUANTUM RESISTANT | with BIP360 author Hunter Beast Hunter Beast 🕯️ Quantum computing is a complicated topic—one that incites equal amounts of fear and skepticism depending on who you talk to… especially in Bitcoin. In this episode, BIP360 author Hunter Beast wisely shares why the “truth is likely somewhere in the middle,” citing incremental advancements in quantum computing that may eventually pose a legitimate threat to some Bitcoin addresses—as well as steps we can take to protect ourselves in the short, medium and long term. The correct posture is to “be prepared, not scared,” says Hunter Beast 🕯️ Ultimately, the introduction of quantum resistant cryptography—via proposals like BIP360—will be needed for higher degrees of security. That said, individuals can mitigate personal risk substantially through proper address-use hygiene. This episode breaks down the specific challenges Bitcoin will face in the event of a quantum attack, the likelihood of an attack over time, and the steps we’ll need to take at the individual and communal level to ensure Bitcoin’s safety. This episode includes detailed discussion of: 1) How quantum computing could potentially affect Bitcoin public/private key cryptography—and technologies built on vulnerable addresses (e.g. Taproot) 2) Best practices for protecting yourself against quantum in the short and long term 3) Implications of vulnerable address types—e.g. what about Satoshi’s coins? 4) Deep Dive into BIP360 + proposed long-term solutions 5) Industry roadmaps for quantum computing + how banks and governments are preparing for “Q Day” As always, this episode can be viewed on Spotify or YouTuve—full episode in the comments or linktree in my bio. This episode is powered by Best In Slot—the leading API for Ordinals and BRC20 data aggregation and indexing. TIMESTAMPS: 00:00 Intro 02:05 What is quantum computing? 04:30 How could quantum threaten your Bitcoin wallet? 06:50 Addresses that are safe from quantum 09:13 Satoshi’s coins are in danger! 11:25 What happens if Satoshi’s coins are touched? 14:45 Do we softfork to shield Satoshi’s coins? 16:38 “Transitory inflation” for bitcoin after quantum 21:05 Why Taproot addresses are vulnerable 23:50 Do NOT reuse your Bitcoin addresses! 26:03 When will Quantum become a threat? 28:34 The long/short exposure attack; explained 31:45 Protection using private mempools 33:20 Why all the new Bitcoin L2s are in danger 37:45 Quantum is 5 to 10 years away, governments fear 40:34 Non-Bitcoin systems threatened by quantum 42:26 Centralized systems can adapt to quantum 43:50 Hunter’s BIP: Post quantum cryptography in Bitcoin 47:40 Hunter’s three new signature algorithms 53:48 Is new cryptography on Bitcoin risky? 56:33 Why not just stick to hash-based cryptography? 58:49 A 16X discount for quantum resistant addresses? 01:02:30 Creating quantum resistant multisig addresses 01:04:00 What is Frost? 01:06:50 The long process of approving a BIP 01:08:30 What developers think of Hunter’s BIP 01:10:00 Matt Corallo’s concerns with Hunter’s approach 01:11:00 Steps to implementing the BIP 360 01:17:00 Where to learn more about BIP 360 01:17:50 Who can push the button to change Bitcoin?

Isabel Foxen Duke⚡️

31,130 görüntüleme • 1 yıl önce

6,100-Qubit Processor Shatters Quantum Computing Record | David Nield, ScienceAlert Another major quantum computing record has been broken, and by a considerable margin: physicists have now built an array containing 6,100 qubits, the largest of its type and way above the thousand or so qubits previous systems contained. It's the work of scientists from the California Institute of Technology, who used cesium atoms as their qubits, trapping them in place with a complex system of lasers that acted as tweezers to keep the atoms as stable as possible. Qubits differ from the classical bits of traditional computers by exploiting what's known as a superposition: not just binary states of 1 or 0, but a spread of probabilities that allows for algorithms that can solve problems considered out of reach of conventional computing methods. Related: Quantum Advantage: A Physicist Explains The Future of Computers A lot of qubits will be needed to make quantum algorithms practical, however. One reason for these large arrays is error correction, which helps overcome the inherent fragility of the qubit by providing a surplus to double-check the machine's operation. "This is an exciting moment for neutral-atom quantum computing," says physicist Manuel Endres. "We can now see a pathway to large error-corrected quantum computers. The building blocks are in place." There was no single breakthrough that enabled this jump in qubit numbers, but rather a series of engineering advancements in many key areas – from the laser tweezers to the ultra-high (very low pressure) vacuum chamber. Stability has also been a problem for quantum computing systems. The innovations in this latest array kept qubits in a superposition state for almost 13 seconds – almost ten times longer than previous configurations had managed. What's more, individual qubits could be manipulated with 99.98 percent accuracy, establishing a significant benchmark in the programmability of quantum technology. "Large scale, with more atoms, is often thought to come at the expense of accuracy, but our results show that we can do both," says physicist Gyohei Nomura. "Qubits aren't useful without quality. Now we have quantity and quality." To make quantum computers a practical alternative to modern supercomputers, more qubits and even greater levels of stability will be required. Experts are tackling the problem from several different angles, which is why records for some types of quantum computer don't necessarily apply to others. Next, the researchers need to work on exploiting entanglement, which will enable the system to make the leap from storing information to actually processing it. Not too far in the future, we could be using these computers to discover new materials, matter, and fundamental laws of physics. "It's exciting that we are creating machines to help us learn about the Universe in ways that only quantum mechanics can teach us," says physicist Hannah Manetsch. Read more:

Owen Gregorian

43,078 görüntüleme • 9 ay önce

My 10x stock idea from GTC isn't photonics?! But it does involve lasers. Say hello to $INFQ. It's a newly IPO'd quantum stock generating tens of millions in revenue in space + defense applications with very unique technology. Infleqtion went public last month but it's trading 40% below its IPO price with a sub $2B market cap. $INFQ trades at roughly 70x trailing sales on $29M in revenue. Compare that to $RGTI at $6B market cap on just $7M in revenue, that's 860x sales. I chatted with $INFQ's Chief Administrative Officer, Julie McGee, to dig in further but here's the TLDR. Most quantum companies need to cool their chips to near absolute zero temps just to operate. Infleqtion uses "neutral atom" technology that traps individual atoms inside a glass cell using lasers and runs them at room temperature. It takes the power of a few hairdryers. No giant refrigerators. Way cheaper and way easier to scale. And unlike most quantum names they're actually shipping products NOW. Quantum clocks for GPS-denied navigation, RF sensors, inertial navigation systems. Selling to NASA, the DoD, and the UK government. Their quantum clock is being qualified by SpaceX for satellite systems. Quantum brings a whole new level of precision that works on the ground, in the sky, and underwater. Their technology can enable submarines to navigate without ever linking up to a satellite. GPS jamming is also becoming a huge problem on the battlefield, showing up in Ukraine and Iran. Quantum timing is inherently unjammable and unspoofable. They also had a dedicated spot inside the Nvidia booth at GTC. $INFQ partnered with Nvidia to demo the first commercial materials science application running on logical qubits and are working with Nvidia's NVQLink to scale quantum-classical hybrid computing. What's next: 30 logical qubits targeted this year, one of the most important milestones in the race to fault tolerant quantum computing by 2028. Plus a new NASA contract to measure Earth's gravity from space. Infleqtion combines an attractive valuation with extremely unique technology (they're the only neutral atom quantum company publicly listed). Could easily see this re-rating fast, I just think the IPO timing was poor with Iran. Could be adding this as a lottery ticket to my Asymmetrical Bets portfolio soon... This post was not sponsored or influenced in any way by $INFQ. All thoughts are my own, NFA / DYOR.

Michael Sikand

321,848 görüntüleme • 3 ay önce

$HBAR is launching into the future January 14, 2025 via SpaceX!! 🚀 SpaceX will deploy next-generation WISeSat satellites, featuring SEALSQ's post-quantum chips and WISeKey's Root of Trust for enhanced security against quantum threats. Here are some key takeaways I found interesting: 🔥 SEALSQ: - Focuses on the development and sale of semiconductors, PKI, and post-quantum tech products. - Hedera Hashgraph Integration: Utilizes Hedera for the SEALCOIN initiative, a token for DePIN, enabling secure, quantum-resistant transactions for IoT devices. - Innovation: Provides semiconductors that are resistant to quantum computing attacks, enhancing security in IoT and blockchain networks. WiseSat: - Part of WISeKey, specializing in secure satellite IoT communications. - Hedera Utilization: Integrates Hedera for secure, decentralized IoT connectivity, enhancing global coverage and security for IoT devices. - Technology: Aims to provide robust digital infrastructure for secure data transmission from space, leveraging post-quantum cryptography. Final thoughts: This launch will mark a significant advancement in secure IoT communications, combining cybersecurity with satellite technology to offer global, real-time connectivity for various industries. Elon is very aware of Hedera and I wouldn’t be surprised if we hear more about these two juggernauts working together on more projects in the near future. 🤔 Another milestone for Hedera that demonstrats the versatility and uniqueness of this incredible technology!! The future is built on Hedera! 🚀 🔥 💵 If you found this interesting, repost for others to see and give me a follow for more. 🙏 😉

Mark

37,250 görüntüleme • 1 yıl önce