Elbestan
10 Following
18 Followers
17 Liked
0 Shared
Posts
Quotes
BREAKING: Trump Media announces $2.5 billion Bitcoin Treasury deal.
Trump Media says this is "one of the largest Bitcoin treasury deals of any public company."
Trump Media says this is "one of the largest Bitcoin treasury deals of any public company."
Science can advance human knowledge, it cannot make humanity cherish truth.
Like the Christians of former times, scientists are caught up in the web of power; they struggle for survival and success; their view of the world is a patchwork of conventional beliefs.
Science cannot bring ‘miracle, mystery and authority’ to humankind, if only because – like those who served the Church in the past – its servants are all too human."
-- John Gray, Straw Dogs: Thoughts on Humans and Other Animals
Like the Christians of former times, scientists are caught up in the web of power; they struggle for survival and success; their view of the world is a patchwork of conventional beliefs.
Science cannot bring ‘miracle, mystery and authority’ to humankind, if only because – like those who served the Church in the past – its servants are all too human."
-- John Gray, Straw Dogs: Thoughts on Humans and Other Animals
BTC
Cumulative PNL
+458.69
+4.00%
Should All In launch an All In Fund of Funds that allows retail investors to leverage our collective access to startups, venture funds, hedge funds and PE funds?
If the size was big enough, we could negotiate some great access AND fee discounts.
Please leave your response at comments
If the size was big enough, we could negotiate some great access AND fee discounts.
Please leave your response at comments
#BinanceAlphaAlert
The importance of working the system on Binance Alpha Alert deterministic functions will depend on more critical balance sheet of any given project. Therefore keeping development of that system needs definitely more user and their feedbacks as well.
The importance of working the system on Binance Alpha Alert deterministic functions will depend on more critical balance sheet of any given project. Therefore keeping development of that system needs definitely more user and their feedbacks as well.
Bitcoin is Just Getting Started! #Bitcoin #Wealth #Finance
They told you Bitcoin is too big… but look at the real numbers.
$2T vs. a $900T world.
Still think it has no room to grow?
Change your perspective, change your future. #Decentralization #BitcoinFixesThis
They told you Bitcoin is too big… but look at the real numbers.
$2T vs. a $900T world.
Still think it has no room to grow?
Change your perspective, change your future. #Decentralization #BitcoinFixesThis
A New Suite of Quantum‑Resistant Signature Schemes
Quantum-Resistant Innovations: Securing Bitcoin for the Post‑Quantum Era
As quantum computing steadily advances, the crypto community—especially savvy investors on platforms like Binance—must look to the future with both scientific rigor and practical foresight. Recent developments in quantum‑resistant signature schemes promise to bolster Bitcoin’s security in a world where classical cryptographic defenses may no longer suffice. This post dives into the technical specifics behind these advancements, using scientific terms and quantitative comparisons designed for an audience with a high logical acuity—traits we know are common among Binance’s investor community.
The Emerging Quantum Threat
Traditional cryptography in Bitcoin relies on elliptic curve digital signatures (like those defined by secp256k1) and SHA‑256 for mining. While these have been robust against conventional computational attacks, the advent of quantum computing poses a future risk: quantum algorithms (such as Shor’s and Grover’s) could potentially undermine these mechanisms. Although current quantum devices—measured in a few hundred qubits—remain far from this capability, proactive steps are being taken to “future‑proof” our cryptographic systems.
Recent proposals introduce three novel signature schemes designed to resist quantum attacks. Let’s examine these methods:
1. ML‑DSA‑44
• Technical Specifications:
• Compliance: FIPS 204
• Public Key (PK): 1,312 bytes
• Signature (SIG): 2,420 bytes
• Total footprint: 3,732 bytes
• Performance:
• Verification speed is 2.5× faster than secp256k1.
• Insight:
• Its compact structure and improved speed make ML‑DSA‑44 attractive for high‑value transactions, where speed and security are both paramount.
2. SLH‑DSA‑SHAKE‑128s
• Technical Specifications:
• Compliance: FIPS 205
• Public Key (PK): 32 bytes
• Signature (SIG): 7,856 bytes
• Total footprint: 7,888 bytes
• Performance:
• Verification is approximately 15.8× slower than secp256k1.
• Insight:
• Although the verification process is slower, its design prioritizes robust security—ideal for scenarios where transaction throughput can be balanced against enhanced cryptographic guarantees.
3. FN‑DSA‑512
• Technical Specifications:
• Compliance: FIPS 206
• Public Key (PK): 897 bytes
• Signature (SIG): 667 bytes
• Total footprint: 1,564 bytes
• Performance:
• Verification is 4× faster than secp256k1.
• Insight:
• FN‑DSA‑512 offers a compelling mix of speed and reduced size, making it a promising candidate for scalable security upgrades.
A combined “16× attestation discount” applied across these schemes means that—even when high‑value transactions become up to 17× larger than those using taproot—the enhanced security budget is well justified. In essence, investors can anticipate that paying a slight premium in transaction size today could safeguard their assets from tomorrow’s quantum threats.
Implications for Crypto Finance Investors
Investors on Binance are not only accustomed to navigating market volatility—they are also familiar with the importance of rigorous, scientific analysis in making informed decisions. Let’s break down the implications:
• Enhanced Security:
Transitioning to quantum‑resistant signatures represents a proactive upgrade. Even though the implementation may require adjustments (such as accommodating larger transaction sizes), the potential for future‑proof security is immense.
• Transaction Efficiency:
While ML‑DSA‑44 and FN‑DSA‑512 provide faster verification speeds (2.5× and 4× faster, respectively), the SLH‑DSA‑SHAKE‑128s variant, despite its slower speed, offers a different security profile. This diversity enables developers to choose the right balance based on the risk profile and throughput requirements of specific transactions.
• Economic Trade‑Offs:
From a financial standpoint, the extra bytes in a quantum‑resistant transaction can be viewed as an “insurance premium.” Given the average logical aptitude of Binance’s community—whose investors routinely analyze complex data and optimize risk/reward ratios—this upgrade can be seen as a calculated investment in long‑term security.
• Market Impact and Adaptation:
As these quantum‑resistant schemes get integrated into the Bitcoin protocol, we can expect adjustments in transaction fees and block sizes. This evolution will reflect a broader trend of the crypto market adapting to emerging threats through scientifically validated innovations.
Conclusion
The transition to quantum‑resistant cryptography is not an immediate concern but a necessary evolution. For Binance investors—who already possess a high average logical reasoning level and a deep understanding of both finance and technology—the technical nuances of ML‑DSA‑44, SLH‑DSA‑SHAKE‑128s, and FN‑DSA‑512 provide a compelling narrative: robust security today ensures resilience tomorrow.
By embracing these advancements, the crypto industry can maintain investor confidence, optimize transaction integrity, and prepare for a future where quantum computing is no longer a theoretical threat, but a reality addressed with scientific precision.
Stay tuned for further updates and in‑depth analyses on how these innovations will shape the future of crypto finance.
As quantum computing steadily advances, the crypto community—especially savvy investors on platforms like Binance—must look to the future with both scientific rigor and practical foresight. Recent developments in quantum‑resistant signature schemes promise to bolster Bitcoin’s security in a world where classical cryptographic defenses may no longer suffice. This post dives into the technical specifics behind these advancements, using scientific terms and quantitative comparisons designed for an audience with a high logical acuity—traits we know are common among Binance’s investor community.
The Emerging Quantum Threat
Traditional cryptography in Bitcoin relies on elliptic curve digital signatures (like those defined by secp256k1) and SHA‑256 for mining. While these have been robust against conventional computational attacks, the advent of quantum computing poses a future risk: quantum algorithms (such as Shor’s and Grover’s) could potentially undermine these mechanisms. Although current quantum devices—measured in a few hundred qubits—remain far from this capability, proactive steps are being taken to “future‑proof” our cryptographic systems.
Recent proposals introduce three novel signature schemes designed to resist quantum attacks. Let’s examine these methods:
1. ML‑DSA‑44
• Technical Specifications:
• Compliance: FIPS 204
• Public Key (PK): 1,312 bytes
• Signature (SIG): 2,420 bytes
• Total footprint: 3,732 bytes
• Performance:
• Verification speed is 2.5× faster than secp256k1.
• Insight:
• Its compact structure and improved speed make ML‑DSA‑44 attractive for high‑value transactions, where speed and security are both paramount.
2. SLH‑DSA‑SHAKE‑128s
• Technical Specifications:
• Compliance: FIPS 205
• Public Key (PK): 32 bytes
• Signature (SIG): 7,856 bytes
• Total footprint: 7,888 bytes
• Performance:
• Verification is approximately 15.8× slower than secp256k1.
• Insight:
• Although the verification process is slower, its design prioritizes robust security—ideal for scenarios where transaction throughput can be balanced against enhanced cryptographic guarantees.
3. FN‑DSA‑512
• Technical Specifications:
• Compliance: FIPS 206
• Public Key (PK): 897 bytes
• Signature (SIG): 667 bytes
• Total footprint: 1,564 bytes
• Performance:
• Verification is 4× faster than secp256k1.
• Insight:
• FN‑DSA‑512 offers a compelling mix of speed and reduced size, making it a promising candidate for scalable security upgrades.
A combined “16× attestation discount” applied across these schemes means that—even when high‑value transactions become up to 17× larger than those using taproot—the enhanced security budget is well justified. In essence, investors can anticipate that paying a slight premium in transaction size today could safeguard their assets from tomorrow’s quantum threats.
Implications for Crypto Finance Investors
Investors on Binance are not only accustomed to navigating market volatility—they are also familiar with the importance of rigorous, scientific analysis in making informed decisions. Let’s break down the implications:
• Enhanced Security:
Transitioning to quantum‑resistant signatures represents a proactive upgrade. Even though the implementation may require adjustments (such as accommodating larger transaction sizes), the potential for future‑proof security is immense.
• Transaction Efficiency:
While ML‑DSA‑44 and FN‑DSA‑512 provide faster verification speeds (2.5× and 4× faster, respectively), the SLH‑DSA‑SHAKE‑128s variant, despite its slower speed, offers a different security profile. This diversity enables developers to choose the right balance based on the risk profile and throughput requirements of specific transactions.
• Economic Trade‑Offs:
From a financial standpoint, the extra bytes in a quantum‑resistant transaction can be viewed as an “insurance premium.” Given the average logical aptitude of Binance’s community—whose investors routinely analyze complex data and optimize risk/reward ratios—this upgrade can be seen as a calculated investment in long‑term security.
• Market Impact and Adaptation:
As these quantum‑resistant schemes get integrated into the Bitcoin protocol, we can expect adjustments in transaction fees and block sizes. This evolution will reflect a broader trend of the crypto market adapting to emerging threats through scientifically validated innovations.
Conclusion
The transition to quantum‑resistant cryptography is not an immediate concern but a necessary evolution. For Binance investors—who already possess a high average logical reasoning level and a deep understanding of both finance and technology—the technical nuances of ML‑DSA‑44, SLH‑DSA‑SHAKE‑128s, and FN‑DSA‑512 provide a compelling narrative: robust security today ensures resilience tomorrow.
By embracing these advancements, the crypto industry can maintain investor confidence, optimize transaction integrity, and prepare for a future where quantum computing is no longer a theoretical threat, but a reality addressed with scientific precision.
Stay tuned for further updates and in‑depth analyses on how these innovations will shape the future of crypto finance.
#EOSProject
Supporting Text for EOS Project on Binance:
EOS is a high-performance blockchain platform designed to support scalable decentralized applications (dApps) with minimal transaction fees and fast confirmation times. Built for developers and enterprises, EOS offers a powerful infrastructure that combines flexibility, security, and speed, making it ideal for large-scale applications.
On Binance, EOS provides users with an opportunity to invest in a blockchain ecosystem that focuses on usability and innovation in sectors like DeFi, gaming, and supply chain management. Its unique Delegated Proof-of-Stake (DPoS) consensus mechanism ensures decentralization while maintaining energy efficiency and network scalability.
By supporting EOS on Binance, users can be part of a growing ecosystem that prioritizes decentralized governance, real-world applications, and long-term sustainability in the crypto space.
Supporting Text for EOS Project on Binance:
EOS is a high-performance blockchain platform designed to support scalable decentralized applications (dApps) with minimal transaction fees and fast confirmation times. Built for developers and enterprises, EOS offers a powerful infrastructure that combines flexibility, security, and speed, making it ideal for large-scale applications.
On Binance, EOS provides users with an opportunity to invest in a blockchain ecosystem that focuses on usability and innovation in sectors like DeFi, gaming, and supply chain management. Its unique Delegated Proof-of-Stake (DPoS) consensus mechanism ensures decentralization while maintaining energy efficiency and network scalability.
By supporting EOS on Binance, users can be part of a growing ecosystem that prioritizes decentralized governance, real-world applications, and long-term sustainability in the crypto space.
Login to explore more contents