quantum

🇯🇵 JAPAN REACHES A HISTORIC MILESTONE IN HYBRID QUANTUM COMPUTING 🇯🇵

Japan has just achieved an epoch-making milestone in the field of hybrid quantum computing. RIKEN, in collaboration with international partners, has successfully integrated two distinct quantum systems – Quantinuum's Reimei ion trap machine and IBM Quantum System Two – with the Fugaku supercomputer, capable of peak performance at 442 petaflops.

This achievement is part of an ambitious five-year national project (2023–2028), led by Director Mitsuhisa Sato of RIKEN's Quantum-HPC Hybrid Platform Division. The initiative, funded by NEDO and METI, aims to create a unified platform where quantum processors and Fugaku work together on tasks through innovative hybrid software such as the SQC Interface.

Reimei, installed at RIKEN's Wako campus in February 2025, leverages high-fidelity qubits with all-to-all connectivity, while ibm_kobe (IBM Quantum System Two with the 156-qubit Heron processor) has been operational since June 2025 in Kobe, directly connected to Fugaku via high-speed networks.

The primary goal is to demonstrate that a tightly integrated quantum-HPC system outperforms pure classical supercomputing, particularly in materials science, quantum chemistry, drug discovery, and complex optimization.

This marks the first functional integration in Japan—and among the first worldwide—of heterogeneous quantum technologies (ions and superconductors) with a leading-edge supercomputer within the same hybrid environment.

Researchers predict that, with 10x–100x improvements in quantum hardware over the coming years, demands for control, error correction, and communication will explode, making supercomputer-level support essential.

This pioneering step positions Japan as a global leader in quantum-centric supercomputing, opening computational frontiers inaccessible to traditional HPC.
#Japan #quantum #quantumcomputers

🇯🇵🖥️ QUANTUM COMPUTING: TOKYO PROTOCOL FOR SCALABLE MACHINES 🖥️🇯🇵

For the first time, researchers from the University of Tokyo have demonstrated a protocol for fault-tolerant quantum computers that avoids absurd numbers of physical qubits or extreme slowdowns. Published in Nature Physics, it combines Quantum Low-Density Parity-Check (QLDPC) codes with concatenated Steane codes, dramatically reducing error correction costs – the main obstacle for scalable machines.

Quantum computers are fragile: to protect a useful logical qubit, many physical qubits are needed, making large systems impractical.
So far, greater reliability meant more qubits or much slower computations. This hybrid study achieves both benefits: constant spatial overhead (limited physical qubits for logical) and polylogarithmic temporal overhead (minimal slowdown with system growth).
They use teleportation gates with auxiliary QLDPC states prepared fault-tolerant via concatenated Steane.

Key innovation: "partial circuit reduction" method, which analyzes errors on local segments (gadget rectangles + EC), proving reliability below a defined error threshold, without complex global correlations. This completes the proof of the threshold theorem for constant-space QLDPC protocols, resolving previous logical gaps.

Why does it matter?
Fault tolerance separates experimental demos from real quantum computers.
This theoretical work proves efficient and fast scalability, without hardware explosion. QLDPC (e.g., quantum expander codes) + Steane – both in experimental research on neutral atoms, superconductors – pave the way for practical FTQC. Related research confirms: QLDPC reduce spatial overhead, Steane enable parallel universal gates.

Tokyo resolves the hardware scale vs. computational speed dilemma, with negligible overhead.
A step towards real quantum.
#quantum #quantumcomputers #Japan

CMC Spotlight _ Let’s look at what’s coming in 2026.

Regulation: Crypto Finally Gets a Rulebook _ #US Digital Asset Market Structure Bill, Stablecoin rules go live

#Infrastructure Over Narratives _ Ethereum (Glamsterdam & Hegota), Solana (Firedancer & Alpenglow), Polkadot JAM (Polkadot 3.0)

Bitcoin Crosses a Line _ 20 million BTC mined, #quantum debate (without the panic)

The Quiet Winner _ #Stablecoins

The Big Picture

Source: Binance News / Bitdegree / Coindesk / #CoinMarketCap / Cointelegraph / Decrypt

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$ETH $SOL $DOT

Emerge's 2025 Tech Trend of The Year: #Quantum Computing Stopped Being Background Noise

Advances in #quantum computing this year clarified timelines and forced a reassessment of #bitcion ’s future security

🔒🎯 XRPL GUIDE TO QUANTUM-RESISTANT SECURITY WITH DILITHIUM 🎯🔒

The XRP Ledger (XRPL) is revolutionizing blockchain security, becoming one of the first public networks to introduce quantum-resistant transactions through Dilithium cryptography.

Imagine a world dominated by quantum computers capable of solving mathematical problems in minutes that today take millennia, such as factoring huge numbers with Shor's algorithm.
Elliptic curve signatures (ECDSA), the cornerstone of almost all blockchains, would be broken, exposing private keys and transactional histories to massive thefts.

This "quantum risk" is not science fiction: global experts warn that billions in digital assets could vanish.
To counter it, NIST has standardized CRYSTALS-Dilithium (renamed ML-DSA), a robust lattice-based algorithm for digital signatures immune to quantum attacks.
XRPL seized the opportunity first, integrating Dilithium into its core protocol. On the AlphaNet, the test network, these signatures are already active for transactions, account management, and validator consensus, gradually replacing ECDSA with a quantum-safe system.

Dilithium ensures proven mathematical security, with optimal efficiency for XRPL, which processes thousands of transactions per second without sacrificing speed.
There are challenges: Dilithium signatures weigh about 2,420 bytes compared to 64 bytes of ECDSA, inflating bandwidth, latency, and storage. However, tests on AlphaNet are refining these trade-offs, paving the way for the mainnet.

Result?

Transactions locked against "store-now, decrypt-later" attacks, where enemies accumulate data today to decrypt it tomorrow.
This pioneering vision makes XRPL perfect for enterprises, CBDCs, and critical infrastructures, needing decade-long guarantees.
While rivals struggle in theory, XRPL tests "Quantum Transactions" and "Quantum Consensus," setting the post-quantum standard and solidifying XRP as the king of secure global payments.
#xrp #Ripple #XRPL #quantum #QuantumCrypto $XRP

🇺🇸 NEW:

A framework has been submitted to the SEC’s Crypto Assets Task Force to make digital assets quantum-safe. ⚡️🔐

👀 Post-quantum security is becoming a serious conversation in U.S. regulation.

#Crypto #Blockchain #Quantum

⚠️ Local Bitcoin growth to $68,000 caused FOMO in the market. Santiment records a sharp increase in optimistic sentiment. Unfortunately, this has previously led to a correction and more than once. 📉

‼️ Another unpleasant news related to Bitcoin. Open interest in futures on leading exchanges continues to update historical highs (CryptoQuant).

Even visually, it is easy to understand why this can be bad news. The last time open interest was so high, the uptrend changed.

What are we waiting for?

👍 — growth will continue, however
🔥 — we are waiting for a correction

$USDC $SLP #quantum #Signal $LUNC

According to an X post by @deanmlittle, a developer on #solana , the Solana Winternitz Vault is a #quantum resistant cryptocurrency vault designed to enhance security against potential quantum computing threats. Leveraging Winternitz One-Time Signatures (WOTS) and a truncated Keccak256 hash, the vault ensures cryptographic resilience while adhering to Solana’s computational and instruction size constraints.

The program offers three core functionalities: opening a vault, splitting a vault, and closing a vault, each designed to maintain an unbroken chain of quantum-resistant cryptography. Security considerations highlight its ability to offer 224-bit preimage resistance and 112-bit quantum collision resistance, ensuring robustness against advanced threats.

This innovative implementation underscores Solana's commitment to future-proofing blockchain technology while providing practical tools for developers and users.
$SOL
$JUP

🖥️🇨🇳 CHINA UNLEASHES THE FUTURE: THE FIRST ATOMIC QUANTUM COMPUTER GOES ON SALE! ⚛️🚀

China has officially launched the world’s first atomic-based quantum computer for commercial sale — a technology that until now existed only inside elite research labs and secret projects 😱💥

Unlike traditional superconducting or ion-trap quantum systems, this machine uses individual atoms trapped in optical lattices, where each atom acts as an ultra-stable qubit with record-breaking coherence times ⚡🧬

🔥 What it can already do: — Simulate complex molecules
— Power next-gen quantum cryptography 🔐
— Solve extreme optimization problems that push classical supercomputers to their limits 💻⚡

Thanks to ultra-precision lasers controlling single atoms, developers have achieved unprecedented accuracy, making atomic qubits reliable enough for real-world scientific and industrial use 🔬✨

For the first time ever, universities, companies and research centers can buy a full atomic quantum computer without relying on cloud access 🤯🚀

🚀 This changes everything: — Breakthrough drug discovery 💊
— New super-materials 🧪
— Massive acceleration in AI 🤖
— Quantum-level cybersecurity 🛡️⚡

The global quantum race has officially begun — and the future is arriving faster than expected… 🌍💥

#quantum #quantumcomputing #china #ai #future ⚡🚀 $AI $FET

🧠🚀 $ICP ISN’T JUST A COIN — IT’S A FUTURE SOLUTION 🚀🧠

While most crypto is busy chasing hype…
#ICP. is quietly preparing for real problems the future WILL face 👇

⚡ #quantumcomputing is coming
When it does, today’s cryptography becomes obsolete.
Wallets. Keys. Security. Entire chains — at risk.

And that’s where #icp stands different 🔥

🛠️ Why #ICPCoin matters ♾️

Built with Chain-Key Cryptography (not your average blockchain tech)

Designed to upgrade cryptography at the protocol level

Can adapt to post-quantum security without breaking apps or forcing users to migrate

Backed by serious research, not memes

Most chains will panic-upgrade later.
ICP is architected to evolve.

💡 Think about it: When #quantum threat becomes real…

Weak chains will collapse ❌

Strong, adaptable chains will dominate ✅

And money will flow to problem-solvers, not noise.

📉 ICP is still massively undervalued compared to its tech.
📈 The market always rewards vision — late, but aggressively.

This isn’t about tomorrow’s pump.
This is about owning infrastructure for the next decade.

🧩 Smart money buys solutions early.
Retail buys headlines later.

Do your research.
Think long-term.
And ask yourself: Which chain survives the future? 👀

🇨🇳🖥️ TIANYAN-287: THE CHINESE QUANTUM COMPUTER ACCESSIBLE WORLDWIDE 🖥️🇨🇳

China has launched Tianyan-287, a superconducting quantum computer consisting of 105 "data qubits" and 182 "coupling qubits," for a total of 287 qubits.

This machine offers revolutionary performance, with speeds up to 450 million times greater than a traditional supercomputer for specialized tasks.
It is not a laboratory prototype, but a system specifically designed for commercial and scientific use.

One of the most innovative features of Tianyan-287 is its global accessibility: it is available through a cloud platform, the "Tianyan" quantum computing cloud platform, which allows researchers and companies worldwide to take advantage of quantum computing power remotely.

The platform, active since 2023, has already seen over 37 million visits and over 2.7 million experiments conducted by users in more than 60 countries.
The system has been developed with completely domestic technology through a collaboration between China Telecom Quantum Group and QuantumCTek.

An important engineering challenge has been to ensure the stability and reliability of the dilution refrigerator that keeps the qubits in an ultra-low temperature environment, functional for the continuous delivery of cloud services.

This quantum computer opens new frontiers in scientific simulations, optimization, and advanced research, marking a significant step forward for both China and the global scientific community in the field of quantum computing, with potential impact on strategic sectors such as cryptography, materials design, and complex analyses.
#quantum #quantumcomputers #china

1 Minute Letter _ “We can buy more BTC" - Michael Saylor

#US bank regulator clears national banks to facilitate crypto transactions _ The guidance confirms that facilitating customer crypto trades falls within the “business of banking,” expanding the range of activities that national banks may offer under existing law.

#quantum attacking Bitcoin would be a waste of time: Kevin O’Leary _ Kevin O’Leary aka “Mr Wonderful” is skeptical of quantum computing being used to crack Bitcoin’s security features.

Bitcoin’s back above $94K: Is the BTC #Bullrun back on? _ Bitcoin bulls recaptured the $94,000 level, but BTC volume data raises doubts about the duration of the upmove. Will bulls provide the necessary momentum?

Ethereum network sees 62% drop in #fees : Is ETH price at risk? _ Ethereum’s base layer demand softened in November, but ETH’s underlying price supports and strong layer-2 growth show the network still has momentum despite a drop in fees and TVL.

Source: Binance News / Bitdegree / Coindesk / Coinmarketcap / #Cointelegraph / Decrypt

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$BTC $ETH

Analysts warn that #BTC☀️ quantum risk is political, and dormant $BTC on old addresses could be exposed to future attacks.

#Bitcoin #Quantum #Computing

#quantum Threat to Bitcoin Delayed Decades

Adam Back says quantum computers won't threaten bitcoin for at least 20 to 40 years.

The cryptographer cited in #Satoshi 's white paper was pushing back against claims that SHA-256 could be cracked within two to five years. Current quantum systems aren't even close. 

What makes #AdamBack so confident quantum computers won't crack bitcoin for decades?

"Disclaimer _ Source: Binance News / Bitdegree / Coindesk / #CoinMarketCap / Cointelegraph / Decrypt & do support by follow, like, comment, share, repost to reach maximum audience, more such informative content ahead"

$BTC

CMC Spotlight _ Latest News

#defi Just Became Wall Street's New Infrastructure _ What's driving Powell's prediction that DeFi market cap could hit a trillion?

Bitcoin Demand Just Fell Off a Cliff _ What's the lowest price #CryptoQuant sees for Bitcoin?

#Brazil Quietly Became a Crypto Powerhouse _ What's behind Brazil's sudden shift to multi-asset crypto portfolios?

Bitcoin Needs More Panic Before It Bottoms _ What retail behavior is preventing Bitcoin from bottoming?

Bitcoin's #quantum Problem Has No Quick Fix _ Why do quantum upgrades take so long for Bitcoin?

Source: Binance News / Bitdegree / Coindesk / #CoinMarketCap / Cointelegraph / Decrypt

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$BTC

QUANTUM COMPUTERS MIGHT BREAK ETHEREUM AND BITCOIN BY 2028.

Yes, you read that right.

Vitalik Butterin just warned that Quantum machines could crack the elliptic curve cryptography securing $BTC BTC & $ETH ETH in as little as 4 years.

That means:
🔻 Private keys = vulnerable
🔻 Wallets = exposed
🔻 Billions in assets = at risk
🔻 Entire L1 security models = outdated

And here’s the part CT keeps ignoring:

Blockchains aren’t ready for quantum. But Web3 is finally getting its quantum-native defense layer.

@QbitCompute the quantum layer for Web3.

$QBIT is actually shipping quantum-resilient infrastructure:

☑️ Quantum-accelerated execution layer
Quantum-inspired compute running on-chain, built for next-gen cryptography.
☑️ Programmable quantum circuits
Dev tools for building quantum logic applications directly inside smart contracts.
☑️ Permissionless quantum compute
Open access to quantum-style algorithms, randomness, simulation engines, and next-gen security primitives.
☑️ Hybrid quantum + classical workflows
Bringing quantum logic into existing blockchain systems — without breaking them.

And here’s the real alpha nobody is talking about:

The promising Quantum Wallet is coming.

Quantum-ready. Quantum-secure.
Designed for the era when classical cryptography finally breaks.

If quantum really can crack BTC & ETH by 2028…the projects preparing now will own the next cycle.

Most people think “quantum risk” is sci-fi. But quantum doesn’t care what people believe.
it cares about math.

And the math says:
2028 is closer than anyone thinks.

If you’re not paying attention to QbitCompute , you’re already behind the curve.

#Quantum #Qbit

1 Minute Letter _ Can BTC miners survive 2026’s margin squeeze?

Bitcoin mining’s 2026 reckoning: AI pivots, margin pressure and a fight to survive _ Post-halving stress is reshaping Bitcoin mining. As margins compress, miners turn to AI, HPC and consolidation to survive heading into 2026.

Bitcoin treasury crackdown, Asia embraces stablecoins: #AsiaExpress 2025 _ China stands firm on crypto ban despite rising adoption, regional governments revisit stablecoin laws after US pivot: Asia Express Year in Review

Pudgy Penguins brings NFT characters to Las Vegas Sphere during Christmas _ The non-fungible token project owned by Luca Netz appeared on the Sphere’s exterior screens, with the animated display going live on Christmas Eve.

#quantum computing in 2026: No crypto doomsday, but time to prepare _ Quantum computing won’t break Bitcoin in 2026, but the growing practice of “harvest now, decrypt later” is pushing the crypto industry to prepare sooner rather than later.

Ethereum in 2026: Glamsterdam and Hegota forks, L1 scaling and more _ The coming year will see perfect parallel processing, big increases in the gas limit and number of data blobs, and 10% of Ethereum’s network switching to ZK.

Source: Binance News / Bitdegree / Coindesk / Coinmarketcap / #Cointelegraph / Decrypt

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$BTC $PENGU $ETH