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Opening the world of quantum computing to the permissionless, incentivized innovation on Bittensor SN63 :: Quantum Innovation by qBitTensor Labs SN48 :: Quantum Compute Quantum Rings (Announced Live) Bittensor :: Incentivizing Intelligence Feat. Bob Wold + const + crux Full episode :: YT / X Openτensor Foundaτion #Subnet63 #SN63...

11,582 просмотров • 11 месяцев назад •via X (Twitter)

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🚀 SEALSQ $LAES at Times Square — Leading the Future of Quantum & AI Security! We’re proud to share that SEALSQ was featured today on the Nasdaq Tower in Times Square, announcing that our CEO Carlos Moreira will deliver the Opening Keynote at IQT Quantum + AI 2025, taking place October 19–21 in New York City. 🎤 Keynote: “AI Meets Quantum: Building Unbreakable Post-Quantum Security” Carlos will explore how AI and Quantum Computing are converging to redefine cybersecurity and shape the next era of digital trust. He will also join Panel 8: CEO Roundtable, alongside top executives from Rigetti, ORCA, SEEQC, and Arqit, to discuss the business and technology strategies driving the quantum revolution. 🔐 During the event, SEALSQ will present updates on its groundbreaking Quantum Shield “QS7001” — a RISC-V-based post-quantum secure hardware platform — and the progress of its Common Criteria EAL5+ certification with Serma Labs. The QS7001 platform integrates Kyber and Dilithium (NIST-standardized post-quantum algorithms) with advanced hardware accelerators for low-latency, high-throughput encryption, ensuring robust protection for IoT, automotive, healthcare, and critical infrastructure systems. 🌐 With this innovation, SEALSQ enables partners to future-proof devices against both classical and quantum attacks, ensuring compliance, efficiency, and trust in a rapidly evolving digital landscape. 💬 “Quantum and AI represent both opportunity and risk. With the Quantum Shield QS7001 platform and our broader post-quantum roadmap, SEALSQ is building the security foundation required to protect critical infrastructure, connected devices, and human data against the threats of tomorrow.” — Carlos Moreira, CEO, SEALSQ 📍 Event Details: 🗓️ October 19–21, 2025 📍 New York City 🎤 Opening Keynote: “AI Meets Quantum: Building Unbreakable Post-Quantum Security” 👤 Speaker: Carlos Moreira, CEO, SEALSQ 💼 Panel 8: CEO Roundtable featuring Rigetti, ORCA, SEEQC, Arqit, and SEALSQ #SEALSQ #PostQuantum #AI #QuantumComputing #Cybersecurity #TimesSquare #Nasdaq #IQT2025 #Innovation #RISC-V #Kyber #Dilithium #FutureOfSecurity

Carlos Creus Moreira

12,991 просмотров • 9 месяцев назад

For anyone trying to understand Bittensor from first principles, this lecture is a useful place to start. Presented by Bittensor co-founder const. Learn Bittensor > Start with Bitcoin, distributed systems, incentives, > How Bitcoin leads to Bittensor Subnets coordinating AI infrastructure. Topics: // Start - Bitcoin as more than a digital currency // Risks of AI centralization + closed systems // "The incentive computer" // How Bittensor subnets work (mining, validating) // How distributed AI infrastructure could scale globally // Impact on students, builders & future founders Recorded at the National University of Singapore Computer Science Club. NUS Computing Chapters - Bitcoin, AI, and Bittensor - Bitcoin history and decentralization - AI changes how engineers work - The danger of centralized AI power - Why most crypto visions fail - Bitcoin as the world’s largest compute network - Bitcoin as a market for compute - The idea of an “incentive computer” - Bitcoin compared to Bittensor - Classroom example of decentralized scoring - A simple subnet example - SN62 :: Ridges AI | SN62 SWE agents - SN3 templar :: Distributed AI Training - SN52 lium.io :: GPU rentals on Bittensor 128 subnets, some examples Why this matters for the future of work Q&A Subnet examples mentioned @ SN64 - Serverless + TEE Compute :: Chutes SN8 - Prop firm Vanta Trading SN52 - AutoML :: Gradients SN62 - SWE agents :: Ridges AI | SN62 SN51 - Compute / GPU rental lium.io SN4 - TEE compute for enterprise :: Targon SN3 - 72B Distributed Training run :: templar SN41 - Prediction markets :: Almanac SN44 - Computer Vision Score - Subnet 44 SN68 - Drug discovery :: METANOVA SN18 - Weather Forecasting Zeus | SN 18 SN50 - Bitcoin prediction data :: Synthdata SN61 - Quantum computing :: qBitTensor Labs SN14 - Bitcoin mining pool :: TaoHash SN34 - Perp Dex :: 0xMarkets SN17 - 3D model generation :: 404 SN33 - Data analytics :: ReadyAI SN19 - [Since relaunched] RPC infrastructure :

Openτensor Foundaτion

1,173,117 просмотров • 4 месяцев назад

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 просмотров • 1 год назад

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 просмотров • 1 год назад

✨ Lookback at Techsauce Global Summit 2025 — Bangkok At this year’s techsauce Summit 2025, Southeast Asia’s leading technology conference with +20.000 attendees in Bangkok, which took place 4-6 August, Daniela Herrmann, Co-Founder of Dynex and Mission Leader of Dynex Moonshots, took the stage with her keynote “The Greatest Technological Disruption of Our Time: Quantum Computing Is Here.” 🎥 Watch the recap video below for highlights from Daniela’s session, capturing the key moments, announcements, and amazing energy from Techsauce Global Summit 2025. Daniela shared how Dynex is taking quantum computing mainstream, addressing real-world challenges at industrial scale and presented latest Use Cases; our Quantum Powered Solutions, which includes the application of 1M qubit emulation on our enterprise-ready QaaS platform. She also introduced the upcoming launch of the Apollo chip and the Quantum Diffusion LLM. As a quantum Use Case, she presented the groundbreaking innovation of the World4ALL Monitor for Regeneration & Project Finance in collaboration with ALOHAS Regenerative Foundation (Marc Buckley 🌍, Dina Baenninger). As a completion of the formed Dynex Ecosystem, Q:EDU, the educational arm of Dynex and Dynex Moonshots, was launched. A self learning digital educational platform transitioning Quantum Computing from niche to mainstream. A heartfelt thank you to Techsauce Global Summit and Oranuch (Mimee) L. for bringing together innovators and changemakers shaping the future of deep tech and a deep thank you to Marc Buckley, Dina Baeninnger, Maks Giordano, and all present members.

Dynex

13,928 просмотров • 8 месяцев назад

BITCOIN RAILS #61: QUANTUM CRYPTOGRAPHY FOR BITCOIN | with Dan Boneh Dan Boneh 🔗 YOUTUBE: 🌿 SPOTIFY: One of the most prolific and influential cryptographers in the world, it’s difficult to fully quantify the impact that Dan Boneh has had on Bitcoin and digital assets more broadly. Through both his own research and his mentorship of some of the space’s most important contributors — e.g. Andrew Poelstra, Benedikt Bünz ☕️, and Robin Linus — few people have done more to shape the cryptographic foundations underlying modern blockchains and digital finance. More recently, Dan co-authored Google's widely discussed paper, “Securing Elliptic Curve Cryptocurrencies against Quantum Vulnerabilities,” which reduced prior estimates of the resources required to run Shor’s algorithm against the elliptic-curve cryptography used by Bitcoin. The paper reignited debate around quantum computing timelines and the long-term security assumptions behind modern cryptocurrencies. In this episode of Bitcoin Rails, Dan and I discuss the current state of quantum computing, its potential implications for Bitcoin, and how he believes the Bitcoin community should think about preparing for a post-quantum future over the coming decade and beyond. And yes, Dan shares his take on the “when quantum” question in the interview, among other key perspectives. This episode of Bitcoin Rails is brought to you by my NEW sponsors: LayerTwo Labs LayerTwo Labs — developing research, software, and technologies for scaling Bitcoin via the integration of Drivechains (BIP 300/301) Hashi on Sui — a primitive for executing Bitcoin Defi transactions, without having to trust a federated bridge or other centralized entity BitBox BitBox — an open-source Bitcoin-only hardware wallet, with smooth UX and no compromises on security. Check out Bitbox [dot] swiss and use code BITCOINRAILS to get a discount TIMESTAMPS: 00:00 — Intro and Dan’s history with cryptography and Bitcoin 11:44 — Shor's algorithm: how a 1994 paper became cryptography's most important threat 16:39 — Building a quantum computer: superconducting qubits vs neutral atoms 25:37 — When should we start worrying about quantum computers? The timeline debate 31:51 — Have we already reached quantum computing's “ahá” moment? 39:09 — Inside the Google paper: how Shor's algorithm was optimized 49:57 — The Bitcoin mempool attack and the 10-minute window 59:21 — Mitigation: what should Bitcoin do to prepare for quantum? 1:11:54 — Hash-based vs lattice-based signatures: Dan's case for lattice 1:23:15 — ZK proofs, BIP361, and what to do with Satoshi's coins 1:31:52 — Encrypted mempools and MEV 1:38:29 — Why Bitcoin will survive quantum and Dan's message to Bitcoin builders

Isabel Foxen Duke⚡️

112,906 просмотров • 2 месяцев назад

BITCOIN RAILS #38: Two Forces That Could Break Bitcoin: AI vs Quantum I with Martin Shkreli 🔗 YOUTUBE: 🌿 SPOTIFY: A couple months ago, I co-hosted an X space with LayerTwo Labs re: “Should Bitcoiners care about quantum computing?” You can imagine our surprise when (in?)famous tech investor Martin Shkreli arrived to share that he’s been researching this very question for years… and dropped that he’s been personally considering raising funds to hire a team of mathematicians to hack Satoshi’s Coins. In this episode, Martin and I explore the limits of Bitcoin’s security model and the two forces he believes could potentially challenge it: a computational path driven by advances in quantum hardware, and/or a mathematical path fueled by AI-assisted discovery. This interview additionally shares takes on: - Why hacking Bitcoin would be the "ultimate" mathematical achievement—and why hacking Satoshi’s coins should be considered a “bug bounty” for Bitcoin - Why quantum may be more problematic for Bitcoin than for the traditional tech world (e.g. why quantum doesn’t likely threaten NVIDIA) - The little known history of Bitcoin’s “overflow bug” (yup, Bitcoin *has* been hacked before… an exploit corrected by hard fork). - And of course, why mathematicians do their deepest work in prison 😉 As always, this episode of Bitcoin Rails can be viewed on YouTube or Spotify via the link available in my bio—and is brought to you with the help of my incredible partners: - Best In Slot (Best in Slot | BRC2.0 🧑‍🍳) – the leading API for Ordinals and BRC20 data aggregation and indexing - Spark (Lightspark) – a statechains implementation leading the path towards institutional adoption of Bitcoin-powered payments - Citrea (Citrea) – the leading Bitcoin rollup technology and contributor to the BitVM alliance 📷 Timestamps 00:00 Intro 02:57 Quantum Supremacy and Google’s Breakthroughs 05:02 Bitcoin’s Cryptographic Vulnerabilities 08:24 Studying Math and Cryptography Behind Bars 20:04 Governance and the Culture of Bitcoin Development 26:29 The Future of Quantum and AI in Cryptography 37:42 Hardware Challenges and Fidelity in Quantum 47:57 Game Theory and the Quantum Race 01:04:08 Bitcoin Recovery and the Quantum Security Question 01:08:38 Mathematical Challenges in Breaking Cryptography 01:15:08 The Role of AI in Future Mathematical Breakthroughs

Isabel Foxen Duke⚡️

62,881 просмотров • 9 месяцев назад

People are losing their minds over the idea of quantum computing breaking Bitcoin, but the panic is largely detached from reality. If you listen to Eric Yakes, the fear-mongering is completely off base. The theoretical threat relies on quantum computers factoring large prime numbers fast enough to crack current cryptography. To date, the largest number a quantum computer has successfully factored is 15. "Neven's Law" says quantum power grows at a doubly exponential rate. It's a projection people are using to raise money for their projects, rather than a measurement we are seeing in real life. Compare that to Moore's Law, which we actually watched happen in real time. While physical qubits are increasing and error rates are slowly declining, there is a massive technical hurdle: error rates scale exponentially with qubit count. Adding more power creates more "noise," making the machine harder to stabilize. "But institutional capital is worried!" That's fine. Institutional capital has been wrong about Bitcoin for a decade. If they're selling on quantum FUD, that's cheap sats for the rest of us. Bitcoin devs have been on this for years and are taking steps to mitigate the risk. BIP-360 was just merged into the Bitcoin GitHub repository and Chaincode Labs has published plenty of serious research. If a real threat emerges, every stakeholder is incentivized to adopt quantum-resistant signatures and consensus won't be the obstacle people think it is. Start paying attention to what's actually being built and take your finger off the panic button. Full breakdown 👇

Bitcoin News

15,241 просмотров • 5 месяцев назад