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25 Mar 2026, 22:25

Trump names Huang, Zuckerberg in star-studded American tech leadership council

President Donald Trump has enlisted 13 top executives in the technology industry, including Mark Zuckerberg, Jensen Huang, Larry Ellison, Sergey Brin, and Lisa Su, to advise on science and technology. With Chinese companies rapidly advancing their AI capabilities, the Trump administration has appointed private industry leaders to help make creating regulations easier and accelerate American innovation. Trump administration assembles council for technological development President Donald Trump has appointed a group of America’s most powerful technology executives to serve on his President’s Council of Advisors on Science and Technology (PCAST). The council will be in charge of shaping policy on artificial intelligence, cryptocurrency, and emerging technologies. The list includes Meta’s CEO Mark Zuckerberg, Nvidia’s CEO Jensen Huang , Oracle executive chairman Larry Ellison, Google’s co-founder Sergey Brin, and AMD’s CEO Lisa Su. Venture capitalist Marc Andreessen as well as Dell’s CEO Michael Dell, and Oracle’s CEO Safra Catz are also on the list. The council will be co-chaired by David Sacks, the White House AI and crypto czar, and Michael Kratsios, the Director of the Office of Science and Technology Policy. Meanwhile, during Trump’s first term, his similar advisory council faced resistance from the tech sector, and fewer high-profile executives were included. The Trump administration believes that the council is critical to its strategy of securing American dominance in leading technologies. Per the White House’s announcement, PCAST will focus on “the opportunities and challenges that emerging technologies present to the American workforce, and ensuring all Americans thrive in the Golden Age of Innovation.” Zuckerberg stated that he is “honored to join the President’s council and work with other industry leaders.” The Department of Energy recently announced a $293 million funding opportunity to support the Genesis Mission, launched by President Trump to double the productivity and impact of American research and innovation within a decade. Kratsios, who serves as both PCAST co-chair and Director of the White House Office of Science and Technology Policy, stated in February 2026 that the Genesis Mission challenges are “a direct call to action to America’s researchers and innovators to deliver science and technology breakthroughs that will benefit the American people.” What will the PCAST council actually do? PCAST will advise the president on matters involving science, technology, education, and innovation policy. The council is authorized to provide scientific and technical information required to create public policy relating to the American economy, the American worker, and national and homeland security. The council’s functions include responding to requests from the president or co-chairs for information and analysis, and asking for advice from relevant stakeholders, including the research community and the private sector. The council will also serve as the advisory committee for high-performance computing and nanotechnology programs under existing federal law. The body is expected to meet regularly and may create standing subcommittees and ad hoc groups to assist its work. Members will serve without compensation, but they may receive travel expenses while the Department of Energy provides administrative and technical support for the council. The council’s first meeting date has not yet been announced, and additional members will be added in the coming months to reach the maximum of 24 members authorized by the President. Don’t just read crypto news. Understand it. Subscribe to our newsletter. It's free .

25 Mar 2026, 22:20

XRP Sees $315M Volume Rebound On Binance, Leverage Ratio Hits Lows

XRP metrics on Binance point to renewed activity with $315M CVD recovery. Stable open interest and a lower leverage ratio mark a changed market structure. Continue Reading: XRP Sees $315M Volume Rebound On Binance, Leverage Ratio Hits Lows The post XRP Sees $315M Volume Rebound On Binance, Leverage Ratio Hits Lows appeared first on COINTURK NEWS .

25 Mar 2026, 22:19

Ripple CTO flags what’s behind XRP fee jumps

Ripple’s XRP Ledger (XRPL) has been dealing with high transactions and fees lately. David Schwartz tried to settle the debate around why transaction costs can escalate even without a clear trigger. This comes in when the global digital assets market is trying to recover in phases amid the geopolitical chaos. The cumulative crypto market cap jumped marginally over the last day to stand around $2.44 trillion. XRP price also posted a recovery rally as Bitcoin managed to trade above $71,500. Data shared by an XRPL dUNL Validator shows that the activity is pushing close to 200 transactions per ledger. It is a level that has rarely been sustained in its history. The market conditions suggest that the traders are on the move. Shuffling in the market has easily pushed the demand up, which has resulted in a fee spike. Even a marginal overflow can push fees higher until demand drops back within limits. It remains high until transaction volume returns to a manageable rate. 200 TPS limit might be the trigger There is no fixed fee on XRPL. It adjusts in real-time conditions based on the demand. Ripple’s CTO highlighted two key drivers of a spike in an X post. If the network can handle 200 TPS, anything above that forces fees up. However, validator coordination is important for smooth processing. They collectively decide how many transactions fit in each ledger. Validators don’t aim for maximum speed as they go for balance and stability. In several situations, they need at least a majority to agree. It also depends on how the network’s Unique Node List (UNL) is configured. Only a few times in history of XRP did we had sustained > 200 transactions per ledger. We getting there again. 🌊 pic.twitter.com/OKCZFcg6v3 — Vet (@Vet_X0) March 24, 2026 Each validator independently estimates how many transactions can safely be processed. It’s based on recent performance. From there, they apply an exponential fee curve. This means fees don’t rise gradually and they accelerate quickly once limits are hit. Schwartz noted that this balancing act is critical in this situation. If fee escalation starts too early, the network underutilizes capacity. Meanwhile, if it starts too late, nodes can fall behind or even become non-functional during transaction spikes. AI tools flood XRPL Vet, XRPL dUNL Validator, in post mentioned that AI coding is all over XRPL right now. It can be seen clearly on the chain, too. The validator added that he has never seen so many dashboards, apps, tools and even XRPL Rust clients running validators. He added that the bar is raised, as what in 2022 got a $200k grant is now done in 10 minutes and a $20 Claude sub. Vijay Khanna, Director of Engineering at RippleXDev, reacted to the post. He 100% agreed to it and pointed towards a strong momentum on the XRPL tooling . The executive mentioned a CLI tool. It is pending Infosec review before publishing to the XRPLF GitHub for community use. It can spin up a sandbox with pre-funded accounts, run scripts, manage snapshots, and interact with testnet/devnet from a single tool. He believes that the XRPL community can benefit from this. Don’t just read crypto news. Understand it. Subscribe to our newsletter. It's free .

25 Mar 2026, 22:19

Are Traders Getting Ahead of Reality? War Pause Hype Fuels Risky Crypto Bets

Bitcoin continues to trade around the $71,000 level, as it showed steady performance amid mounting geopolitical uncertainty affecting broader financial markets. Its trajectory has contrasted with gold, which has weakened significantly despite its reputation as a traditional store of value. New research found that its recent gains are largely influenced by changing expectations of conflict resolution rather than fundamentals. As a result, prices may be vulnerable to rapid changes if the geopolitical outlook deteriorates. Peace Talks or Market Trap? Santiment’s latest data shows a clear rise in online discussions, suggesting the geopolitical conflict could be nearing an end. Conversations have been increasing rapidly across platforms like X, Reddit, and Telegram, which reflects growing expectations of de-escalation among traders and investors. The analytics firm identified two distinct spikes in crowd optimism since the conflict began. The first occurred on March 9, when sentiment strengthened after US messaging described the situation as likely short-lived, accompanied by early diplomatic signals that pointed to possible de-escalation pathways. This narrative coincided with an initial pullback in oil prices, as traders increasingly positioned for a faster easing of tensions than previously anticipated. A second, more pronounced surge in optimism was recorded on March 23, right after confirmation from Donald Trump of a temporary pause in strikes and the introduction of a structured US proposal to Iran, which indicated that formal negotiations may be underway. Financial markets reacted swiftly to these developments. Both equities and cryptocurrencies moved higher as participants began pricing in an increased probability of de-escalation. Santiment explained that recent gains in crypto markets have been closely tied to this growing expectation of conflict resolution, and sentiment-driven momentum continues to influence short-term price action. All Eyes on the Clock The firm added that speculative volatility is likely to continue over the current five-day pause period, and two primary scenarios are in focus. A successful resolution could trigger a broad market breakout, although high enthusiasm may also increase the chance of a “buy the rumor, sell the news” reaction. On the other hand, a breakdown in negotiations could complicate crypto market predictability and place a temporary cap on overall market growth until both whales and retail investors gain more clarity on the conflict’s direction. However, Santiment stated that it does not necessarily mean a sharp decline, as prices have remained relatively stable throughout the war so far. The post Are Traders Getting Ahead of Reality? War Pause Hype Fuels Risky Crypto Bets appeared first on CryptoPotato .

25 Mar 2026, 22:15

Post-Quantum Cryptography: Google’s Critical 2029 Deadline to Protect Bitcoin and Global Infrastructure

BitcoinWorld Post-Quantum Cryptography: Google’s Critical 2029 Deadline to Protect Bitcoin and Global Infrastructure In a landmark announcement from Mountain View, California, Google has established a definitive 2029 deadline to transition its entire infrastructure to post-quantum cryptography, directly addressing what security experts call the “quantum threat” to global digital security. This strategic move, revealed by Google’s top security executives, represents one of the most significant cryptographic transitions in computing history. The announcement follows concerning projections about quantum computing’s potential to break current encryption standards, with estimates suggesting over 6.8 million Bitcoin could become vulnerable. Consequently, this timeline sets a new benchmark for the entire technology industry. Understanding Google’s Post-Quantum Cryptography Timeline Google’s Vice President of Security Engineering, Heather Adkins, and Lead Cryptography Engineer, Sophie Schmieg, detailed the company’s comprehensive strategy during a recent security briefing. The 2029 deadline represents the culmination of years of research and development in quantum-resistant algorithms. This timeline specifically addresses rapid advancements in quantum hardware capabilities and improved error correction techniques. According to industry analysts, this five-year window allows sufficient time for testing, implementation, and industry-wide adoption of new standards. The National Institute of Standards and Technology (NIST) has already selected several candidate algorithms for standardization, which Google plans to implement across its services. The transition will occur in multiple phases, beginning with internal systems and gradually expanding to consumer-facing products. Google’s approach includes hybrid cryptographic systems that combine traditional and post-quantum algorithms during the transition period. This method ensures backward compatibility while building quantum resistance into the infrastructure. The company has already begun testing post-quantum cryptography in Chrome browser communications and internal data centers. Furthermore, Google plans to share its implementation frameworks with the broader technology community to accelerate industry-wide adoption. The Quantum Threat to Bitcoin and Digital Assets Project Eleven’s research highlights the specific vulnerability of cryptocurrency assets to quantum attacks, estimating that approximately 6.8 million Bitcoin could be at risk. This represents about 32% of all mined Bitcoin currently in circulation. The vulnerability stems from how Bitcoin addresses and transactions utilize elliptic curve cryptography, which quantum computers could potentially break using Shor’s algorithm. Specifically, Bitcoin addresses that have been reused or have exposed public keys present the most immediate risk. Once quantum computers reach sufficient scale and stability, they could theoretically derive private keys from public addresses, enabling unauthorized access to funds. The Bitcoin developer community has been actively discussing quantum-resistant solutions through proposals like BIP 360. This Bitcoin Improvement Proposal outlines methods for implementing quantum-resistant addresses and transaction formats. Several key considerations guide these discussions: Backward compatibility: Ensuring new quantum-resistant addresses work with existing infrastructure Performance impact: Maintaining reasonable transaction processing times with more complex cryptography Adoption incentives: Encouraging users and services to transition to quantum-resistant addresses Graceful migration: Providing clear pathways for moving funds from vulnerable to secure addresses Cryptocurrency exchanges and wallet providers have already begun evaluating their security postures in light of quantum advancements. Major exchanges are conducting security audits to identify potential vulnerabilities in their current systems. Meanwhile, several blockchain projects have started implementing quantum-resistant features in their protocols, though Bitcoin’s size and decentralization present unique challenges for coordinated upgrades. Technical Foundations of Quantum Vulnerability Current cryptographic systems rely on mathematical problems that classical computers find difficult to solve within practical timeframes. However, quantum computers utilize quantum bits (qubits) that can exist in multiple states simultaneously through superposition. This capability allows quantum algorithms to solve certain mathematical problems exponentially faster than classical computers. Shor’s algorithm, developed in 1994, demonstrates how a sufficiently powerful quantum computer could factor large integers efficiently, breaking RSA encryption. Similarly, it could solve the elliptic curve discrete logarithm problem, compromising ECDSA signatures used in Bitcoin. Quantum Computing Progress and Realistic Timelines Recent advancements in quantum hardware have accelerated concerns within the security community. Companies like IBM, Google Quantum AI, and Rigetti Computing have made significant progress in increasing qubit counts and improving error rates. Google’s 2019 demonstration of quantum supremacy marked a milestone in practical quantum computing. Since then, error correction techniques have advanced substantially, bringing fault-tolerant quantum computers closer to reality. Current estimates suggest cryptographically relevant quantum computers (CRQCs) capable of breaking existing encryption could emerge within 10-15 years, though some experts believe this timeline could be shorter. The following table compares current cryptographic vulnerabilities with post-quantum solutions: Current Algorithm Quantum Vulnerability Post-Quantum Candidate Security Basis RSA-2048 Broken by Shor’s algorithm CRYSTALS-Kyber Lattice-based cryptography ECDSA (Bitcoin) Broken by Shor’s algorithm SPHINCS+ Hash-based signatures AES-256 Weakened by Grover’s algorithm Increased key sizes Symmetric key adjustment NIST’s post-quantum cryptography standardization process, now in its fourth round, has identified several promising algorithms. These include lattice-based, code-based, and multivariate cryptographic approaches. Each offers different trade-offs between security, performance, and key sizes. The selected standards will form the foundation for Google’s implementation and likely influence global cryptographic standards for decades. Industry-Wide Implications and Preparedness Google’s announcement has triggered increased attention to quantum readiness across multiple sectors. Financial institutions, healthcare organizations, and government agencies are now evaluating their own migration timelines. The financial sector faces particular urgency due to the long lifespan of financial instruments and the need to protect sensitive data for decades. Similarly, critical infrastructure operators must consider the extended lifecycle of industrial control systems and the potential consequences of quantum attacks on power grids, transportation networks, and communication systems. Several key industries have begun their quantum preparedness initiatives: Banking and Finance: Implementing quantum-resistant encryption for transaction systems and customer data Healthcare: Protecting patient records and medical research data with forward-secure cryptography Government: Developing migration strategies for classified communications and citizen data protection Manufacturing: Securing intellectual property and supply chain communications against future threats The transition to post-quantum cryptography presents significant challenges for legacy systems and embedded devices with limited computational resources. Many Internet of Things (IoT) devices have hardware constraints that make implementing resource-intensive post-quantum algorithms difficult. Consequently, industry groups are developing lightweight cryptographic solutions and hybrid approaches that balance security with practical limitations. Global Cryptographic Standards and Collaboration International standards organizations play a crucial role in coordinating the global transition to post-quantum cryptography. The International Organization for Standardization (ISO) and the International Telecommunication Union (ITU) are working alongside NIST to develop interoperable standards. These efforts ensure that cryptographic systems from different vendors and countries can communicate securely in a post-quantum world. Additionally, academic institutions and research organizations continue to analyze the security of proposed algorithms, identifying potential vulnerabilities before widespread deployment. Several countries have established national quantum initiatives with significant funding for both quantum computing development and quantum-safe cryptography research. The European Union’s Quantum Flagship program, China’s quantum research investments, and the United States’ National Quantum Initiative all include components focused on cryptographic transition. This global attention reflects the universal recognition of quantum computing’s potential impact on digital security. Conclusion Google’s 2029 deadline for post-quantum cryptography implementation represents a critical milestone in digital security preparedness. This timeline acknowledges both the accelerating progress in quantum computing and the substantial work required to protect global infrastructure. The transition affects not only Google’s services but also sets expectations for the entire technology ecosystem, particularly for vulnerable systems like Bitcoin. As quantum computing capabilities continue to advance, proactive migration to quantum-resistant cryptography becomes increasingly urgent for protecting sensitive data, financial assets, and critical infrastructure against future threats. FAQs Q1: What is post-quantum cryptography? Post-quantum cryptography refers to cryptographic algorithms designed to be secure against attacks by both classical and quantum computers. These algorithms rely on mathematical problems that remain difficult for quantum computers to solve efficiently. Q2: Why is Bitcoin vulnerable to quantum attacks? Bitcoin uses elliptic curve cryptography for digital signatures. Quantum computers running Shor’s algorithm could potentially derive private keys from public addresses, especially for addresses that have been reused or have exposed public keys through transactions. Q3: When will quantum computers be able to break current encryption? Estimates vary, but most experts believe cryptographically relevant quantum computers capable of breaking current public-key encryption could emerge within 10-15 years. However, the exact timeline depends on continued progress in quantum hardware and error correction. Q4: What happens if we don’t transition to post-quantum cryptography in time? Without timely transition, encrypted data intercepted today could be decrypted in the future when quantum computers become powerful enough. This includes sensitive communications, financial transactions, and stored encrypted data. Q5: How will the transition to post-quantum cryptography affect everyday internet users? Most users will experience minimal direct impact as the transition occurs transparently in background systems. However, some services may require software updates, and certain older devices might need replacement to support new cryptographic standards. This post Post-Quantum Cryptography: Google’s Critical 2029 Deadline to Protect Bitcoin and Global Infrastructure first appeared on BitcoinWorld .

25 Mar 2026, 22:15

Altcoin ETFs Attract Inflows as Bitcoin ETFs See $75 Million Exit

Bitcoin and ether exchange-traded funds (ETFs) returned to outflows on Tuesday, reflecting renewed caution. In contrast, solana and XRP ETFs posted modest gains, signaling selective investor interest. Bitcoin, Ether ETFs Slide While Solana and XRP Gain Momentum in crypto ETFs remains fragile. Just as quickly as inflows return, they fade again, leaving markets searching for