Tag Archives: quantum-resistant

BMIC.ai: A convergence of AI, blockchain, and quantum computing

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BMIC is an ecosystem that is building an end-to-end solution for securing assets and acting as a merging point for blockchain, artificial intelligence, and quantum computing. These 3 core pillars are the driving force behind the BMIC platform, solving the pain points for each other. As AI workloads surpass their classic limits, quantum systems can be useful in enabling faster training, improved optimization, and entirely new algorithmic capabilities. On the other hand, machine learning helps to enhance quantum hardware by strengthening qubit stability, improving error correction, and aiding in the discovery of quantum algorithms. Protecting assets, transactions, and identities requires secure wallet layers, signature-hiding smart accounts, and post-quantum cryptography, especially as current cryptographic foundations become weaker. What is BMIC. ai? BMIC. ai or Blockchain Micro-Ion Compute is a decentralised quantum cloud ecosystem developing the world’s first quantum-resistant wallet and a full Quantum security-as-a-service (QSaaS) platform. The platform is built on micro-ion compute modelling and advanced cryptographic research. It provides the core infrastructure designed to protect users’ digital assets and fortify the strength of decentralised applications (dApps). BMIC. ai aims to secure the digital future in the quantum era by delivering the first signature-hiding, quantum-resistant wallet and security ecosystem while establishing the foundation for decentralized compute and AI orchestration. BMIC Tokenomics The BMIC token is at the core of the platform’s ecosystem. It is designed as the economic engine and performs various functions. It is required to unlock wallet capabilities, enterprise services, and compute workloads. It is also useful for enhancing network reliability and security while rewarding participants, including those involved in quantum-secure validator operations. The token can also be burned to generate BMIC Compute Credits that are used for quantum workloads. The BMIC token has a limited supply of 1. 5 billion, with 50% of it allocated for the presale. Another 12% is allocated for rewards and staking, and a 10% share is reserved for the private sale, liquidity, and exchanges, respectively. A 9% share is kept aside for the ecosystem reserve, and a 6% share is for marketing. The remaining 3% is allocated for the team. Final word BMIC is currently moving to the first phase of its roadmap with the start of its presale. This also includes validating its quantum-resistant wallet architecture, onboarding early validators into its decentralized quantum cloud network, and ramping up the micro-ion compute engine that underpins its QSaaS offering. The proceeds from the presale are intended to be used for expanding engineering capacity, accelerating patent-level cryptographic research, and forging strategic partnerships to integrate quantum-secure solutions across DeFi and Web3 ecosystems. Commenting on the presale, the BMIC team stated that they are looking forward to unlocking a new paradigm of blockchain security and building the infrastructure for a quantum-native future, as institutions and developers would be ready in time to rely on their next-gen security powered by immutable blockchain technology. For more information on BMIC. ai, please check out their official website.
https://bitcoinethereumnews.com/blockchain/bmic-ai-a-convergence-of-ai-blockchain-and-quantum-computing/

Abelian Partners with MEXC to Advance Quantum-Resistant Crypto

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**Abelian and MEXC Collaborate for Post-Quantum Blockchain Day 2025**

Abelian, the world’s first post-quantum Layer-1 blockchain, has partnered with the global crypto exchange MEXC to host Post-Quantum Blockchain Day 2025 (PQBD 2025). This collaboration integrates Abelian’s quantum-resistant protocol with MEXC’s expansive network of over 40 million users across 170 countries.

Quantum computers pose a significant threat to the cryptographic foundations securing digital assets. Our partnership represents a proactive industry effort to safeguard the integrity of the Bitcoin infrastructure against emerging quantum risks.

### Leading the Quantum-Resistant Revolution

Abelian pioneered the trend of post-quantum blockchain technology in April 2022. The project was founded by a consortium of world-class cryptographers, including Professors Duncan Wong, Huaxiong Wang, Khoa Nguyen, and Guomin Yang.

Abelian’s approach is transforming security engineering within the blockchain space. The core team brings extensive combined experience in cryptography and blockchain research from prestigious universities worldwide. With this rich expertise, Abelian has positioned itself as a trusted authority on quantum-resilient solutions for digital asset ecosystems.

The platform leverages lattice-based cryptography to deliver quantum resistance alongside privacy-preserving functionality. Abelian debuted “Digital Gold 2.0,” which combines quantum resistance, privacy, auditability, and decentralization—all while maintaining regulatory compliance and transparency.

### The Expanding Quantum Threat to Cryptocurrency

This collaboration highlights the shifting landscape of quantum computing—from a hypothetical concern to an imminent threat. Research from the Federal Reserve warns that quantum computers could compromise Bitcoin’s privacy through “harvest now, decrypt later” attacks.

Malicious actors are already collecting encrypted blockchain data, anticipating the day when sufficiently powerful quantum machines can break existing protocols. Experts predict that cryptographically relevant quantum computers could emerge between 2028 and 2030.

Analysts caution that these quantum machines might be capable of cracking the encryption protecting up to 25% of Bitcoin, particularly legacy wallets with exposed public keys. The risk stems from algorithms like Shor’s algorithm, which threaten widely used cryptographic systems including RSA and Elliptic Curve Cryptography.

In response, the National Institute of Standards and Technology (NIST) has begun approving lattice-based cryptography algorithms as standards for quantum-resistant encryption.

### MEXC’s Strategic Role in the Quantum Era

MEXC’s involvement in PQBD 2025 reflects its forward-thinking approach to security challenges. Founded in 2018, MEXC ranks among the top 10 global exchanges based on average trading volume, handling nearly $5 billion daily.

The exchange offers rapid token verification for new projects alongside a competitive fee structure compared to other platforms. MEXC underscores its commitment to security through bi-monthly Proof of Reserves audits and regular third-party assessments.

Additionally, MEXC’s $100 million Guardian Fund serves as an insurance policy protecting users engaged in high-volume trading, providing assurance against future security threats.

This partnership with Abelian demonstrates MEXC’s dedication to evolving its security infrastructure in line with advancing technologies, benefiting its community of over 40 million users.

### Conclusion

As threats from quantum computing accelerate, the urgency to deploy quantum-resistant systems becomes increasingly critical. The alliance between Abelian’s cutting-edge cryptographic technology and MEXC’s extensive user base forms a powerful foundation for developing a secure and resilient blockchain infrastructure.

The upcoming event in Phuket this November promises vital innovations in quantum-safe blockchain technology—setting the stage for lasting advancements in the security of digital assets in the quantum era.
https://bitcoinethereumnews.com/crypto/abelian-partners-with-mexc-to-advance-quantum-resistant-crypto/

The quantum computing threat Bitcoin can’t ignore

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**Quantum Computing: The Biggest Threat to Bitcoin’s Future**

Quantum computing is no longer just science fiction or the stuff of cypherpunk paranoia—it’s officially a front-page threat to the world’s first stateless money. If you ever thought Satoshi Nakamoto’s creation was immune to existential risk, think again. The latest report from the Human Rights Foundation (HRF) brings this critical issue into sharp focus.

### Quantum Computing Is the ‘Biggest Risk’ to Bitcoin

The HRF’s detailed breakdown highlights that Bitcoin represents far more than a speculative asset. It serves as a lifeline for activists, journalists, and dissidents who face financial repression under authoritarian regimes. Bitcoin’s decentralization, privacy features, and permissionless access keep donation flows alive and protect savings from government seizures.

However, all this magic relies on solid cryptography. Quantum computing is the only technological leap that threatens to shatter those invisible shields.

### The Scale of the Threat: Nearly $700 Billion at Risk

According to the HRF report, nearly $700 billion worth of Bitcoin is at risk due to quantum computing. About 6.5 million BTC—almost one-third of all Bitcoin—are vulnerable to so-called “long-range” quantum attacks. These attacks target older or reused address types by exploiting exposed public keys.

Of these, owners could theoretically secure 4.49 million BTC by migrating their balances to quantum-resistant addresses. The problem? Roughly 1.7 million BTC—including Satoshi’s legendary 1.1 million coins—are frozen in time and wide open to quantum bandits when that day arrives.

### Understanding the Quantum Attack Vectors

The quantum threat mainly revolves around two attack types:

– **Long-Range Attacks:** These exploit dormant and reused addresses by targeting exposed public keys.
– **Short-Range Attacks:** These exploit the transaction window by attempting to calculate private keys in real time and steal funds before confirmation.

### ‘Burn’ or Be Burned: Protocol Politics

Bitcoin’s decentralized upgrade process, its greatest strength, is also a significant challenge here. Unlike centralized systems with automatic updates, Bitcoin’s consensus-driven changes can take years—measured in years, not weeks.

This delay has sparked intense debate:

– Should developers try to **burn** quantum-vulnerable coins, effectively freezing them?
– Or should they accept the risk of quantum thieves draining these wallets when the time comes?

Unsurprisingly, there’s little consensus. The Bitcoin community values property rights, censorship resistance, and anti-governance principles, making any agreement difficult.

As the HRF report concludes:
> “Upgrading Bitcoin to withstand quantum threats is as much a human challenge as a cryptographic one. Any successful soft fork integrating quantum-resistant signature schemes will necessitate user education, thoughtful user interface design, and coordination across a global ecosystem that includes users, developers, hardware manufacturers, node operators, and civil society.”

### Brave New Algorithms, Larger Blocks, and New Headaches

Moving to quantum-proof algorithms is far from a simple technical fix. The HRF outlines two primary classes of quantum-resistant solutions:

– **Lattice-Based Signature Schemes**
– **Hash-Based Signature Schemes**

Both options introduce trade-offs. Larger key sizes mean bulkier transactions, fewer transactions per block, heavier full nodes, and could escalate Bitcoin’s ongoing scaling challenges from a mild headache to a severe migraine.

For context:
– Lattice-based signatures are approximately **10 times larger** than current signatures.
– The most compact hash-based alternatives are **38 times bigger**.

Implementing these fixes requires extensive changes—from wallet redesigns and hardware upgrades to node operator retraining and global user education.

### Community Coordination Is Critical

The Bitcoin ecosystem must coordinate efforts among coders, wallet developers, advocates, and millions of skeptical holders—many of whom may be unaware that their coins are vulnerable.

History shows that even friendly upgrades can take years to gain acceptance. Meanwhile, the timelines for practical quantum computing continue to shrink, making the window for action narrower than many expect.

### What’s Next: Resilience or Ruin?

Any durable solution will demand grassroots support—not just technical patches on GitHub. The fate of dormant Bitcoins, and possibly Bitcoin’s broader legitimacy, hinges on how the network manages these intertwined political, technical, and social battles in the coming decade.

For Bitcoin’s rebels, cypherpunks, and involuntary exiles, the message is clear: keep educating, keep upgrading, and never assume Satoshi’s armor is permanently bulletproof.

As Bitcoin security expert, core developer, and Casa cofounder Jameson Lopp warns,
> “Even more than quantum computing, the biggest threat to Bitcoin is apathy.”

Stay informed and proactive—because the future of Bitcoin depends on it.
https://bitcoinethereumnews.com/bitcoin/the-quantum-computing-threat-bitcoin-cant-ignore/?utm_source=rss&utm_medium=rss&utm_campaign=the-quantum-computing-threat-bitcoin-cant-ignore

North Korea’s AI Hackers Redefine Crypto Crime in 2025

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North Korea’s Hackers Have Found a New Weapon—and It’s Not Quantum Computing

In 2025 alone, state-sponsored groups like the Lazarus Group have stolen more than $2 billion in cryptocurrency, using artificial intelligence (AI) to supercharge every stage of their operations. AI now scans thousands of smart contracts within minutes, identifies exploitable code, and automates multi-chain attacks that were once limited to elite cyber teams.

AI at the Core of Modern Crypto Heists

The record-breaking $1.5 billion Bybit hack in February 2025 marked a turning point. Investigators from Elliptic and TRM Labs revealed that North Korean hackers employed AI-driven reconnaissance tools and deepfake recruiter profiles to infiltrate internal systems.

Once inside, AI algorithms detected weaknesses, executed exploits, and routed stolen funds through Tron-based mixers and over-the-counter brokers—masking their trail with near-machine precision.

Cybersecurity experts note that AI now handles the entire attack lifecycle, from writing malicious code to generating phishing lures and managing laundering paths. As one analyst from Mysten Labs put it, “Large language models have made cybercrime scalable; even small teams can now operate like industrial-scale hackers.”

Quantum Computing Isn’t the Immediate Threat

While quantum computing remains a long-term risk, no existing system can yet break Bitcoin’s ECDSA encryption. Experts estimate it will take a decade or more before quantum decryption becomes realistic.

The immediate challenge, they say, is defending against adaptive AI models that evolve faster than traditional security protocols.

Industry Adapts to AI-Driven Threats

Exchanges and DeFi projects are now urged to run continuous, AI-aware security audits that scan for vulnerabilities as quickly as attackers do. Firms like Elliptic, Chainalysis, and Mandiant are integrating AI-based monitoring tools to track suspicious fund flows and detect AI-generated phishing campaigns.

Some blockchain projects, including Mysten Labs and Algorand, are already preparing for quantum threats by developing quantum-resistant cryptography—ensuring long-term resilience while addressing today’s AI risks.

The Bottom Line

As North Korea’s hackers weaponize AI, the global crypto industry faces a new reality: machine-driven crime that learns, adapts, and scales at lightning speed. Defending against it will require the same technology that made it possible—AI fighting AI.

FAQs

  • How have North Korean hackers used AI in cryptocurrency thefts?
    They use AI to scan smart contracts for vulnerabilities, automate attacks, create phishing lures, and manage laundering processes.
  • Is quantum computing currently a threat to Bitcoin’s encryption?
    No, quantum decryption is estimated to be at least a decade away from being practical.
  • What measures are being taken to combat AI-driven cyber threats?
    Continuous AI-aware security audits, AI-based monitoring of transaction flows, and development of quantum-resistant cryptography.
  • Why is AI making cybercrime more scalable?
    Because AI automates many complex tasks, allowing even small hacker teams to carry out large-scale operations.
  • What role do blockchain projects play in future-proofing crypto security?
    They are developing quantum-resistant algorithms and incorporating advanced AI tools to detect and prevent attacks.

https://coinpedia.org/news/north-koreas-ai-hackers-redefine-crypto-crime-in-2025/