QUANTUM HACKING COME ... WHETHER YOU ARE READY!
Why is quantum computing a threat to current encryption methods?
The RSA cryptography platform is now 40 years old. Although it has functioned well in securing Internet and digital communications, its days are calculated due to Moore's unremitting legal advancement and the emergence of quantum computing. Significant efforts and resources are employed by hackers to break RSA and other forms of encryption. The rise of quantum computing makes RSA cracking and other forms of encryption feasible in the near future. The classical computer uses binary bits, which have a value of zero or one. The string is from zero and translated into data, but the bit property means only one calculation can be done at a time. However, with quantum computing, every quantum bit (called a qubit) can both be zero and one at the same time. This difference means that quantum computers can store more data, and do more calculations per second, making it perfect for code breaking applications. With this quantum computing technology at the culmination of a breakthrough technology makes ready to solve existing encryption methods, the time to act now. Once RSA is cracked, critical mission applications such as HTTPS processing, credit and debit cards, and government systems face the risk of direct compromise. The chaos of such a hack would really disrupt the social and economic framework of everyday life. credit and debit card processing, and government systems face immediate compromise risks. The chaos of such a hack would really disrupt the social and economic framework of everyday life. credit and debit card processing, and government systems face immediate compromise risks. The chaos of such a hack would really disrupt the social and economic framework of everyday life.
Why is Bitcoin and other cryptococcal forms at risk because of quantum computing?
One of the most important aspects of this type of currency is reliability. As consumers, we are interested to know that our money will be useful to buy food, and commodities, pay our bills, and more. As a provider of products or services, you must be sure that the currency to be exchanged for what you offer actually has value And in any situation you allow customers to buy your product multiple times with the same coin or coin.
The reliability of cryptocurrency comes from the use of sophisticated encryption techniques to track transactions. This ensures the same Bitcoin (or token) is not used twice and switches from one holder to another safely.
The speed of quick calculations given by quantum computing will be as dangerous as cryptocurrency like RSA. A wrong miscreant with a quantum computer will be able to perform the calculations needed to run faster than a computer that keeps the blockchain. This will allow the use of the same number of cryptocurrencies to be used for multiple transactions. Surely this will be the end of this new technology as a reliable exchange benchmark, destroying market value and its application
How does quantum mechanics and quantum computing make the digital world safe again?
The pseudo random number generator gives only the correct randomness. In fact, they will always show correlation: there will be a pattern in the numbers it generates. With sufficient sampling of these random numbers, the pattern can be found and eventually the generator output is predicted.
Many aspects of the quantum world are essentially probabilistic: the knowledge in which the electrons are around the atoms or the polarization of photons (light) is randomly selected from the possible results achieved in the measurement. By utilizing this, we can generate a random sequence of random numbers, with no underlying pattern, to create a secure encryption key. No matter how many samples are taken from a quantum number generator, it is impossible to predict the next result.
Quantum1Net has developed new solutions for this and future issues. Quantum mechanics allows for the generation of intrinsically random sequence numbers. It lies at the heart of our Quantum Encrypted Key Generation (QEKG) technology, which enables secure storage and data transfer. This will provide the level of complexity in cryptographic key generation that is not possible in the traditional way, protecting data even from quantum computers.
Quantum1Net Mission Innovation is what drives the Quantum1Net team, They are determined to create great technology, make it accessible, relevant, and ultimately personal. The Quantum1Net mission is to create enabling and enabling technologies. They have designed a very secure product so you do not have to worry now or in the future about the security of your data. They introduce an unparalleled level of technical innovation, combined with user-connected system design to provide security, ease of use, and essential peace of mind. Every year, Quantum1Net plans to reinvest about 20% of its revenue into research and development of new network security solutions to improve transmission options for people worldwide who suffer from unsafe data transmission.
Quantum Encryption Key.
The Quantum Key Encryption Generator is at the core of the Quantum1Net encryption strategy. To review, generate a multi-digit random number from which the mathematical property is derived in case of RSA primary factorization. But there is one major problem, the random generator that is used only pseudo-random (so-called PRNGs), so the RSA key is pseudo-random. Tests show that PRNG shows a pattern of repetitive behavior when selecting "random numbers". This pattern means that with sufficient results, predictions can be made for the selection of the number in the future. Thus, PRNGs are not really random. Quantum1Net instead relies on Quantum Encryption Key Generator (QEKG). Due to the nature of the quantum computer itself, tests have shown that even in large samples, the selected number does not follow the pattern so that no predictive algorithm can be derived. The graph below shows our results for both PRNG and QEKG tests on samples of 20,000 bits 50,000 times. By using PRNG, after 50,000 tests, it is seen visually that the data is predictive even after 10,000 or more first experiments. With QEKG however it is not the case. Look at the bottom of the graph where the dots are more dispersed. Unlike PRNG graphics, the QEKG graph does not exist.
Quantum1Net Street Map.
Quantum1Net expects to continue development through the first part of 2018. Additional developer recruitment in March 2018 allowed us to complete the initial development of QEKG in the following month, supporting the limited deployment of Quantum1Net in May. The final design for a hardware-based Quantum Key Generation must be completed in July, followed by the signing of a manufacturing partner by the end of summer 2018. The fall of 2018 is when we really hope to start racing towards the global launch of Quantum1Net in January 2019. We expect 'alpha' of the Quantum1Net file transmission platform initially during September, and beta in November 2018. The release version is likely to be completed in the next month, paving the way for the global launch of Quantum1Net targeted for Q1 2019.
FOR PRESALE AND ICO.
Website: https://quantum1net.com/
WhitePaper: https://quantum1net.com/Q1N%20white%20paper.pdf
Telegram: https://t.me/Quantum1Net
ANN: https://bitcointalk.org/index.php?topic=2679451.0
AUTHOR: dean andhika
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