QUUBE Exchange — First & Only Quantum Resistant Ecosystem for the Crypto World

in #quube5 years ago

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What do you know about cryptocurrencies ?! That this is a new opportunity to earn income, but in fact this world opens up even greater opportunities for the whole world! Everything is transparent, maximally honest, because the projects are based on Blockchain technology - a distributed database that conducts instant transfers, you do not need to wait for transaction confirmation, as in the case of banking operations, there are no unnecessary and unnecessary costs, and this technology also protects against various frauds - payment fraud is excluded here. Operations are anonymous. Since the development of the blockchain industry, several solutions have been developed to protect confidentiality in the technical field, such as a coin mixer, ring signature, and zero-disclosure evidence. The coin mixer is a centralized solution that requires a centralized mixing platform. Bidders first send tokens to the mixing platform to break the connection between bidders. Users must fully trust the centralized processing system.
QUUBE Exchange https://quube.exchange/ - The first and only quantum-resistant ecosystem for the crypto world.
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QRP is a blockchain of blockchains - a protocol for recording protocols of everything that happens on the STO exchange and token life cycle transactions, if it is running on the Quube platform. The blockchain is differentiated by encapsulating the details of the public key and accepting LIBOQS encoding preferences, avoiding a quantum attack. QRP Token is a guarantee and tickets for STO / IEO campaigns. QRP is the fuel for maintaining the sharing ecosystem and the dedicated STO blockchain.
Public-key cryptography is essential for securing all Internet communications. For example, the Transport Layer Security Protocol (TLS) uses public key cryptography to protect each https web page from entering passwords or credit card numbers. However, all public key algorithms used in practice are based on mathematical problems, such as factoring, discrete logarithms, or elliptic curves that can be broken by a quantum computer.
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The field of quantum-safe cryptography, also called post-quantum or quantum-resistant cryptography, is aimed at creating public-key cryptosystems that are considered to be safe even against quantum computers. Continued advances in physics indicate the possible creation of large-scale quantum computers. Such future devices will still be able to decrypt today's connection, which will allow anyone to decrypt the data transmitted today.Thus, it is important to begin the development and deployment of quantum-secure cryptography now, even before quantum computers are built.

OQS consists of two main areas of work: liboqs, the open source C library for quantum-robust cryptographic algorithms, and the integration of prototypes into protocols and applications, including the widely used OpenSSL library.
OQS is designed to prototype and evaluate quantum-proof cryptography. The security of the proposed quantum-robust algorithms can change rapidly as research progresses and may ultimately turn out to be completely unsafe with respect to classical or quantum computers.
We believe that the NIST post-quantum cryptography standardization project is currently the best way to identify potentially quantum-robust algorithms. OQS does not intend to “choose winners,” and we strongly recommend that applications and protocols rely on the results of the NIST standardization project when deploying post-quantum cryptography.
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List of liboqs contributors on GitHub:
Nicholas Allen (Amazon Web Services), Maxim Anvari, Eric Crockett (Amazon Web Services), Ben Davis (University of Waterloo), Javad Doliscani, Amazon Web Services, Vlad Georgiou (evolutionQ), Shay Heron (Amazon Web Services) , Torben Hansen (Royal Holloway, University of London), Christian Paken (Microsoft Research), Alex Parent (University of Waterloo), Tancred Lepoint (SRI International), Shravan Misra (University of Waterloo), John Underhill, Sebastian Vershour (University of Waterloo).

Website https://quube.exchange/
Whitepaper https://quube.exchange/static/assets/docs/Whitepaper-QUUBE.pdf
Blockchain protocol https://quube.exchange/static/assets/docs/Tech_Paper_Cellframe_QUUBE.pdf
Participation https://qrp.quube.exchange/users/sign_in
Exchange https://trade.quube.exchange/trade
Telegram https://t.me/QuantumWarriors
Facebook https://www.facebook.com/QuubeQuantum
Twitter https://twitter.com/quube_exchange
YouTube https://www.youtube.com/channel/UC20AlUjjnNADkd7hd-dBW7A
LinkedIn https://www.linkedin.com/company/quubesecurityexchange
GitHub https://github.com/Quube-Exchange-2019

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