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Options are versatile derivative instruments that give traders the right, but not the obligation, to buy (Call) or sell (Put) a digital asset at a specific strike price.Unlike futures, options offer a flexible way to hedge against "black swan" events or speculate on implied volatility. The 2026 landscape features a surge in on-chain options vaults (DOVs) and structured products that simplify complex "Greeks" for retail users. Explore this tag for insights into premium pricing, expiration cycles, and advanced strategic hedging in the decentralized derivatives market.

21018 Articles
Created: 2026/02/02 18:52
Updated: 2026/02/02 18:52
Metaplanet to Raise $1.38B for Bitcoin Purchases

Metaplanet to Raise $1.38B for Bitcoin Purchases

The post Metaplanet to Raise $1.38B for Bitcoin Purchases appeared on BitcoinEthereumNews.com. Metaplanet Inc., a Tokyo-listed investment company, announced plans to raise more than $1.38 billion (204.1 billion yen) through an overseas share offering. The firm intends to use most funds to expand its Bitcoin holdings, highlighting its continued shift toward digital assets as a treasury strategy. Share Offering and Capital Structure Sponsored Sponsored The board approved the issuance of 385 million new shares at $3.75 (553 yen) per share. This sale will increase the company’s outstanding shares from 755.9 million to 1.14 billion, and it expects net proceeds of $1.38 billion. The payment date is September 16, and delivery will follow on September 17. By choosing an international placement, Metaplanet seeks to broaden its investor base and reduce reliance on domestic capital. Of the proceeds, $1.24 billion will go toward Bitcoin purchases in September and October 2025. The company has said that building Bitcoin reserves shields its balance sheet from yen depreciation and inflation risks. As of September 1, 2025, Metaplanet held 20,000 BTC, worth about $2.06 billion. Executives argue that Bitcoin provides long-term value growth while protecting assets from negative real interest rates in Japan. Expanding Bitcoin Income Business The firm will also allocate $138 million to its Bitcoin income business, mainly through options trading. This unit reported sales of $8.34 million in the second quarter of fiscal 2025. With the new capital, Metaplanet aims to achieve full-year profitability in the segment by December. These moves strengthen the company’s position as Japan’s largest corporate Bitcoin holder. Moreover, they mirror strategies of several US-listed companies that use Bitcoin as a reserve asset. On the other hand, crypto treasury firms show signs of strain as mNAV drops and share prices weaken. While still active, their reliance on equity highlights risks that could slow the once-unstoppable strategy. Source: https://beincrypto.com/metaplanet-to-raise-1-38b-for-bitcoin-purchases/

Author: BitcoinEthereumNews

2025/09/10

Why Players Prefer The Softest Online Poker Sites in 2025

Why Players Prefer The Softest Online Poker Sites in 2025

The post Why Players Prefer The Softest Online Poker Sites in 2025 appeared on BitcoinEthereumNews.com. Let’s be real: not all players are equal, particularly in terms of skill level. Neither are the platforms that offer real money games.  Some prioritize an oasis of games that attract experienced players, known to many in the industry as sharks, while others focus solely on not-so-skilled individuals.  Then there are a select few with a long-standing reputation for providing a hub where both lesser skilled players and pros can spontaneously find their sweet spot, show off their skills, and even dominate the opposition. So how do you figure out which platform truly offers the softest online poker competition? This article provides answers to that question while also recommending one of the softest online poker sites suitable for both newbies and professionals alike. What Are Soft Online Poker Sites?  The term “soft online poker sites” is often used to describe platforms with either not-so-skilled or casual player pools. They serve as a cool spot for recreational grinders who play mainly for fun, not real money. This makes the environment more forgiving and, in many cases, a more profitable one for those with a stronger grasp of poker fundamentals. However, what truly defines the softest online poker sites is not only the presence of weaker players but also the lower pressure at the tables. Registration is simple, games feel more relaxed, and bonuses are easy to claim.   Considering these factors, industry analysts often point to reputable poker rooms like CoinPoker, BetOnline, and Bovada Poker as sites where games are typically juicy and soft.  This is no surprise, as these sites often see more hobbyists and fewer professionals, particularly at micro-stakes and low-stakes tables. They further distinguish themselves with multiple player-centric features, including easy-to-meet bonuses, no-KYC onboarding procedures, secure payment options, and fair gameplay standards.  Why Players Seek the Softest Online Poker…

Author: BitcoinEthereumNews

2025/09/10

JPMorgan Product Head Joins GSR Trading MD to Build Institutional Staking Markets

JPMorgan Product Head Joins GSR Trading MD to Build Institutional Staking Markets

London, United Kingdom, 9th September 2025, Chainwire

Author: CryptoPotato

2025/09/10

Apple iPhone 17 Introduces Hardware-Level Security to Protect Crypto Wallets

Apple iPhone 17 Introduces Hardware-Level Security to Protect Crypto Wallets

The post Apple iPhone 17 Introduces Hardware-Level Security to Protect Crypto Wallets appeared first on Coinpedia Fintech News The iPhone 17 introduces Memory Integrity Enforcement (MIE), a groundbreaking hardware-level security feature designed to counter one of the most exploited vulnerabilities in cybersecurity: memory corruption.  By working in tandem with Apple’s Enhanced Memory Tagging Extension (EMTE), MIE validates memory usage in real time, preventing zero-day exploits such as out-of-bounds writes and use-after-free attacks.  With …

Author: CoinPedia

2025/09/10

Cboe plans 10-year-dated Bitcoin and Ethereum futures for US

Cboe plans 10-year-dated Bitcoin and Ethereum futures for US

                                                                               Cboe Global Markets plans to launch futures for Bitcoin and Ether with a 10-year expiry on Nov. 10, pending regulatory approval.                     Cboe Global Markets plans to launch “continuous futures” contracts for Bitcoin and Ether, bringing a popular trading product from decentralized finance onto US markets. Cboe Global Markets, a derivatives exchange under the Chicago Board Options Exchange, said on Tuesday that it will launch the product on Nov. 10, pending regulatory review.The continuous futures in Bitcoin (BTC) and Ether (ETH) will offer US traders “single, long-dated contracts with a 10-year expiration, reducing the need to roll positions over time and simplifying position management.”Read more

Author: Coinstats

2025/09/10

Stablecoin Giants Battle for Control of Hyperliquid's USDH Ticker in Unprecedented Vote

Stablecoin Giants Battle for Control of Hyperliquid's USDH Ticker in Unprecedented Vote

Ethena, Paxos, Frax, Sky and others compete for $220M annual revenue stream in validator-decided contest

Author: Blockhead

2025/09/10

SEC Delays Decision on Bitwise Dogecoin ETF

SEC Delays Decision on Bitwise Dogecoin ETF

The post SEC Delays Decision on Bitwise Dogecoin ETF appeared on BitcoinEthereumNews.com. The U.S. Securities and Exchange Commission has delayed its decision on whether to approve the Bitwise Dogecoin ETF. The agency announced it will take until November 12, 2025, to make a final ruling. SEC Extends Review of Bitwise Dogecoin ETF Amid Investor Concerns According to the SEC document, the proposal was first filed by NYSE Arca in March. The exchange wants approval to list and trade shares of the fund under its commodity-based trust rules. The SEC had an initial deadline of June to either approve or reject the application after Bitwise amended its s-1 filing for this proposal. Instead, it launched formal proceedings in June to examine the filing more closely. That decision triggered a 180-day review process, with the original deadline falling on September 13. The Commission has now extended that timeline by another 60 days. Officials said the delay allows more time to review the proposal and comments received from the public. Several responses were filed on the SEC’s website earlier this year, echoing concerns also raised when Grayscale filed for a Dogecoin ETF. Those comments addressed issues of market manipulation, liquidity, and whether Dogecoin is suitable for an exchange-traded product. Bitwise, a leading digital asset company, has marketed the ETF as a means to increase investor options. The company asserts that Dogecoin possesses profound liquidity and has a substantial community, which favors its contribution to crypto markets. The advocates are of the view that the ETF may make Dogecoin a legal investment vehicle. SEC May Approve DOGE ETF Regardless of Skepticism Skeptics say approval could place retail investors in danger. They argue the SEC should apply the same scrutiny to Dogecoin-ETF filings as it did to Ethereum and Bitcoin submissions. The Commission has traditionally been highly conservative with crypto ETFs. Years of rejections happened before spot…

Author: BitcoinEthereumNews

2025/09/10

BlockDAG $0.0013 Entry & Dashboard V4 Presale Outshines Polygon & Cardano

BlockDAG $0.0013 Entry & Dashboard V4 Presale Outshines Polygon & Cardano

The post BlockDAG $0.0013 Entry & Dashboard V4 Presale Outshines Polygon & Cardano appeared on BitcoinEthereumNews.com. The cryptocurrency market remains a competitive space where projects constantly fight for relevance and trader trust. Polygon (POL) has captured attention through a steady rise in on-chain activity, strengthening its case for long-term adoption. Cardano (ADA) has sparked interest with a notable surge in trading volume, suggesting momentum could return to the network. Both projects continue to generate discussions around adoption, ecosystem stability, and growth prospects, showing their influence among the top crypto projects. Yet, despite these developments, it is BlockDAG that is capturing the strongest traction. The project has not only offered a significant presale price reduction, from $0.03 down to $0.0013, but it has also sold more than 26.1 billion coins while raising over $403 million. With its presale success combined with new infrastructure like Dashboard V4, BlockDAG (BDAG) is shaping an outlook that feels more grounded and sustainable than its rivals. Polygon’s Network Expansion Keeps It in the Spotlight Polygon’s consistent technical progress has positioned it as a noteworthy competitor in the scalability race. The latest Polygon (POL) price forecast highlights stronger network usage, with an increase in wallet activity and on-chain transactions fueling cautious optimism. This renewed engagement suggests Polygon’s ecosystem is far from stagnant, and its adaptability continues to help it compete among top crypto projects. Still, the outlook is not without challenges. Analysts warn that broader market volatility could quickly disrupt gains. Even with improvements in throughput and scaling, Polygon must continue to deliver adoption at the application level to ensure its growth is more than temporary. For long-term relevance, the project must show that it can maintain utility beyond speculative trading cycles. Polygon’s foundation is stronger than many competitors, but its future success depends on whether it can balance momentum with consistent innovation. That balance will determine whether its current positive signals translate…

Author: BitcoinEthereumNews

2025/09/10

Quantum-Resistant Blockchain Infrastructure

Quantum-Resistant Blockchain Infrastructure

Quantum-resistant blockchain is a new idea in the world of digital money and technology. It means building blockchains that cannot be broken by quantum computers. Today, normal blockchains use cryptography that is safe against normal computers. But quantum computers are much stronger. They can solve math problems much faster. This makes old cryptography weak. The reason this matters is very clear. Blockchains are built on trust. If someone can break the cryptography, then digital wallets, smart contracts, and transactions can all be stolen or changed. This could destroy trust in the system. That is why many experts say it is important to work now on quantum-resistant blockchain infrastructure before quantum machines grow stronger. This kind of infrastructure is not just about security. It is also about the future of finance, banking, and data. Governments, businesses, and even normal users want to know that blockchain will be safe in 10 or 20 years. The change will not happen in one night, but planning is already starting across the industry. How Quantum Computing Threatens Blockchain Security To understand why quantum computing is a risk, it helps to know how blockchain security works today. Two things are actually used in every wallet and transaction. One is a secret key that is the private key. The other one is a public key that is accessible to anyone. The transaction is signed by the private key and verified by the public key to ensure it is right. Ordinary computers are unable to obtain the secret key from the open one. Thousands of years would be needed to guess it. Quantum computers are otherwise. Their qubits are not normal bits. This gives them the strength to address colossal issues in a much quicker manner. Shor’s algorithm is one of the well-known quantum approaches. This algorithm has the capability of breaking the type of cryptography employed in Bitcoin, Ethereum, and most blockchains. It does not take thousands of years to get the private keys of the public ones, but a period of hours or days. Should this occur, it implies that one may access wallets, swipe coins, or even alter smart contracts. Both proof-of-work blockchains, such as Bitcoin, and proof-of-stake blockchains, such as Ethereum, use the same form of cryptography. Both are at risk. The threat is not money alone. It is also on other systems such as supply chain records, medical data, and government IDs, which might be supported by blockchain in the future. That is why the discussion of quantum-resistant systems is becoming more and more powerful. It has nothing to do with fear these days, but it has nothing to do with what may be coming right before our eyes when a quantum computer is made. What is Quantum-Resistant Blockchain Infrastructure Quantum-resistant blockchain infrastructure denotes constructing an entire infrastructure of a system that is resistant to quantum algorithms. The term infrastructure is significant. It does not all rely on wallets or smart contracts. It consists of nodes, validators, consensus, and the cryptography itself. The chain should be updated in everything. Simply put, such an infrastructure relies on a new type of cryptography that is hard even for a quantum computer to solve. These are lattice-based, hash-based, and multivariate systems. They are referred to as post-quantum cryptography. Researchers are experimenting with these approaches to determine which one is the best to use in blockchains. This kind of infrastructure is different from normal blockchain networks. A normal blockchain today might use elliptic curve cryptography. A quantum-resistant blockchain will replace that with stronger systems. It may even use hybrid setups where old and new cryptography are mixed during the transition. The idea is not only to protect against future hackers. It is also to give confidence to banks, governments, and big companies that blockchains are safe to use for decades. Without this trust, adoption of blockchain in serious fields like healthcare and defense may slow down. Quantum-Resistant Cryptography for Blockchain Quantum-resistant cryptography is the main tool that makes this type of blockchain possible. Researchers are experimenting with new systems that remain safe even when powered by a quantum computer, instead of the old methods that can be broken by quantum computers. They are referred to as post-quantum cryptography. There are three common examples: lattice-based, hash-based, and multivariate systems. Lattice-Based Cryptography Lattice-based cryptography is one of the strongest and most studied. It works by using complex math problems in grids, also called lattices. Quantum computers cannot easily solve these problems. That makes them very useful for blockchain security. Blockchains need digital signatures, encryption, and key exchanges. Lattice-based methods can do all of these in a quantum-safe way. Another good thing is that lattice systems can run fast and scale well. This makes them more practical than some other options. Hash-Based Signatures Hash-based systems are another option. These use hash functions, which are already common in blockchains. The idea is to create digital signatures that cannot be reversed, even with quantum help. One advantage is that hash functions are simple and proven. Bitcoin mining already uses hashing. But one issue is that hash-based signatures can be large in size. This can make storage and speed a little more difficult for blockchain networks. Still, many experts see them as strong and safe. Multivariate Cryptography Multivariate cryptography uses math problems with many variables. These are hard to solve for both normal and quantum computers. Multivariate methods are not as common as lattice or hash-based, but they are still being studied for post-quantum use. Some blockchains may choose multivariate systems for digital signatures, especially if they want flexible and lightweight options. The challenge is making sure they are safe from future discoveries, since some designs have already been broken in tests. Building Quantum-Safe Blockchain Networks Creating a full blockchain that is quantum-safe is not just about cryptography. It is about the whole network. Validators, miners, nodes, and smart contracts all must support the new system. One step is upgrading the cryptographic algorithms in wallets and transactions. This means replacing elliptic curve cryptography with lattice or hash-based systems. Another step is updating consensus rules. If validators cannot process quantum-safe signatures, then the chain will fail. Some experts suggest using hybrid systems for a while. Hybrid systems mix both old and new cryptography. This way, even if one part is broken, the other keeps the network safe. This gives more time for testing and adoption. Community adoption is also important. If only a few users upgrade, the system will stay weak. Full migration across all nodes and users is needed. This will take time and resources. For businesses and governments, upgrading to quantum-safe networks means more cost. But the cost of not upgrading may be much bigger if future hacks destroy trust in the blockchain. Real-World Projects Working on Quantum-Resistant Blockchain There are already some projects and research programs trying to build or test quantum-resistant blockchains. Some universities are working with governments to design post-quantum cryptography standards. In the United States, NIST (National Institute of Standards and Technology) has been leading a project to pick the best algorithms for quantum safety. Many of these can later be used in blockchain. On the private side, some startups are already building test networks with lattice-based or hash-based systems. They aim to prove that blockchains can still run fast and handle large transactions even with quantum-safe tools. Even larger firms such as IBM and Google, which are engaged in quantum computing, contribute to quantum-safe cryptography research, as well. Not only the construction of quantum computers, but the preparation of the world to receive them is the subject of their work. European and Asia governments are also spending funds on post-quantum cryptography. As an example, European Union research initiatives have begun investigating ways blockchains in banking and supply chain can migrate to quantum-resistant infrastructure. Comparing Traditional Blockchain vs Quantum-Resistant Blockchain Traditional blockchain and quantum-resistant blockchain may look the same to normal users. Both allow digital money, smart contracts, and data storage. But inside the system, they are very different. The main change is the type of cryptography. Below is a simple comparison. Feature Traditional Blockchain Quantum-Resistant Blockchain Cryptography Elliptic curve, RSA Lattice-based, Hash-based, Multivariate Safety against quantum Weak Strong Speed High today May be slightly lower but improving Storage size Small signatures Larger signatures possible Adoption Already global Still in research and testing This table shows why change is needed. Traditional blockchains work fine now, but once quantum computers grow, they may no longer be safe. Quantum-resistant systems prepare for that future. Key Benefits of Quantum-Resistant Blockchain Infrastructure The main benefit is security for the future. But there are many other reasons why industries and governments care about this upgrade. One benefit is long-term trust. If people believe blockchains will survive the quantum era, they will keep using them. Another benefit is safer DeFi and banking. Billions of dollars are locked in blockchain networks. Losing them to a quantum hack would be a disaster. Another strong benefit is that governments and companies will be more open to using blockchain for identity, supply chain, and healthcare if it is quantum-resistant. This will speed up adoption. Benefit Why it matters Risk if ignored Long-term security Protects against quantum hacks Loss of trust and stolen assets Safer finance Protects banks and DeFi Collapse of blockchain finance Global trust Attracts government use Governments avoid blockchain Wider adoption More industries join Slow adoption and lost growth Quantum-resistant systems are not just about protecting money. They are about making sure blockchain grows into every part of digital life. Challenges in Making Blockchains Quantum-Resistant Even with benefits, there are many challenges in building quantum-resistant blockchains. The first challenge is technical complexity. New cryptography is harder to design and integrate. Many algorithms are still being tested. Some could fail in the future. The second challenge is cost. Upgrading millions of wallets, nodes, and validators is not cheap. For small blockchains, the cost may be too high. The third challenge is migration. Moving from old cryptography to new one requires all users to adopt. If some stay behind, the system stays weak. Future of Quantum-Resistant Blockchain Infrastructure The future of blockchain depends on how fast the world can prepare for quantum threats. Right now, quantum computers are still in labs. They are not yet strong enough to break Bitcoin or Ethereum. But many experts believe that in the next 10 to 20 years, quantum computers will be much stronger. Timeline for Adoption The timeline for quantum-safe adoption will not be the same for every chain. Some blockchains will move early, testing hybrid systems in the next few years. Others will wait until governments set clear rules. Research from NIST shows that post-quantum cryptography standards may be ready soon, and blockchains can use them after that. Year Range Expected Progress 2025 – 2030 Testing of hybrid blockchains 2030 – 2035 First full quantum-safe blockchains go live 2035 – 2040 Governments and banks adopt for digital money 2040 and beyond Global use of quantum-resistant blockchains Role in Global Finance Global finance will depend a lot on trust. Banks, payment systems, and central banks are moving toward digital money. Without quantum resistance, they will not risk building on blockchains. A safe infrastructure means cross-border transactions, settlements, and stablecoins will be secure in the long run. Future Research and Innovation Future innovation will not stop at cryptography. New systems may combine AI with quantum-safe blockchains. Networks may use multi-chain systems to spread risk. More research is needed to make sure that every part of the chain, from smart contracts to storage, can survive in a quantum world. Why Quantum-Resistant Blockchain Matters for the Future Quantum-resistant blockchain infrastructure is not just another upgrade. It is a must for the survival of blockchain. Normal cryptography may look safe today, but quantum computers are coming. They can break the very core of how blockchains work. By moving early, the blockchain world can avoid future disasters. Governments, banks, and industries will also trust blockchain more if they see it is safe for decades to come. The cost and effort may be high, but the price of not preparing is much higher. The future of money, identity, and data may all depend on quantum-resistant systems. This is why research, testing, and adoption must begin today. FAQs on Quantum-Resistant Blockchain What is quantum-resistant blockchain in simple words It is a blockchain that uses new types of cryptography so even quantum computers cannot break it. Can quantum computers really hack Bitcoin Yes in theory. If quantum computers become strong enough, they can break the cryptography behind Bitcoin and other blockchains. Is quantum-resistant blockchain already available today Some projects are testing it, but most big blockchains are not yet quantum-safe. Research is still going on. Will all blockchains need to upgrade to quantum-safe Yes, if they want to survive in the long term. Any blockchain that stays with old cryptography may be at risk when quantum computers grow stronger. Glossary of Terms Blockchain – A digital system that records transactions in blocks and links them together in a chain. Quantum Computer – A powerful new type of computer that uses qubits instead of normal bits. It can solve very hard math problems faster than normal computers. Cryptography – The science of keeping information safe using codes and math. Private Key – A secret code that allows the owner to access their digital wallet or sign a transaction. Public Key – A code that is open to everyone and is used to check if a transaction is valid. Post-Quantum Cryptography – New types of cryptography made to stay safe even when quantum computers arrive. Lattice-Based Cryptography – A type of quantum-safe cryptography that uses complex math grids, called lattices, to protect data. Hash Function – A one-way math function that changes data into a fixed code. Used in mining and digital signatures. Hash-Based Signature – A digital signature made using hash functions that cannot be broken even by quantum computers. Multivariate Cryptography – A system that uses equations with many variables to make it hard for hackers or quantum computers to solve. Validator Node – A computer in a blockchain network that checks and approves new transactions or blocks. Consensus – The process by which blockchain participants agree on which transactions are valid. Hybrid System – A blockchain that uses both old cryptography and new quantum-safe cryptography during the transition period. NIST – National Institute of Standards and Technology, a U.S. body working on post-quantum cryptography standards. Summary Quantum-resistant blockchain infrastructure is about preparing for the future of computing. Today, blockchains like Bitcoin and Ethereum use cryptography that is safe against normal computers but weak against future quantum machines. Quantum computers, using algorithms like Shor’s, could one day break wallets, steal coins, and destroy trust in blockchains. To stop this risk, researchers are testing post-quantum cryptography, such as lattice-based, hash-based, and multivariate systems. These methods make blockchains secure even if quantum computers become powerful. Building quantum-safe networks is not just about cryptography. It also requires updating nodes, validators, and community adoption. Several real-world projects, from startups to governments, are already testing quantum-resistant solutions. The benefits are clear: long-term safety, trust from banks and governments, and secure DeFi. But there are also challenges, like technical complexity, high costs, and migration problems. Looking ahead, quantum-resistant systems may start with hybrid solutions in the next decade. By 2040, full adoption across global finance could be possible. For the future of digital money, IDs, and secure data, quantum-resistant blockchain is not optional. It is a necessity.   Read More: Quantum-Resistant Blockchain Infrastructure">Quantum-Resistant Blockchain Infrastructure

Author: Coinstats

2025/09/10

Comparing Spartans, Stake.com, and Betfair: The Search for the Top Crypto Casino Affiliate Program 2025

Comparing Spartans, Stake.com, and Betfair: The Search for the Top Crypto Casino Affiliate Program 2025

Affiliate programs remain one of the strongest drivers of digital growth in gambling. For creators, streamers, and online influencers, the right deal can turn followers into steady income. Yet programs differ. Some limit commissions, others lock partners into rigid terms, and many give little support to smaller creators trying to scale. By 2025, competition will […] The post Comparing Spartans, Stake.com, and Betfair: The Search for the Top Crypto Casino Affiliate Program 2025 appeared first on Live Bitcoin News.

Author: LiveBitcoinNews

2025/09/10

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