Hello all,
Introduction
That's where Quantum1Net comes in to create a new encryption system. I will provide some information about Quantum1Net below. For more information, please visit the official website: https://quantum1net.com/
The RSA cryptography platform is now 40 years old. There has been good serve in the success of securing Internet skills and facilitating communication facilitating the sharing of information between people within the company for its commercial benefits, it can be calculated due to the hard progress of Moore's Law and the emergence of quantum computing. Significant effort and resources are employed by RSA Crack hackers and other forms of encryption. The emergence of computational quantum makes the crack
RSA and various other decent encryption forms in the near future. Classic computers use binary bits, which have a value of zero or one. This string is zero and that translates to data, but the slightest trait means only one calculation can be done at once. However, with quantum computing, the quantum of each bit (called a qubit) can both be zero and one at the same time. This difference means quantum computers can store much more data, and do a lot more calculations per second, making them perfect for code breaking applications.
With this quantum computing technology at the culmination of a breakthrough that makes the technology ready to solve existing encryption methods, the time to act now. After RSA cracks, mission critical applications such as HTTPS, credit and debit card processing, and government systems are at immediate risk of compromise. The resulting chaos of a hack will be really disturbing for the social and economic framework of everyday life.
This is why we developed a quantum-generated, secure key data transmission platform called Quantum1Net. Utilizing quantum computing, we are able to provide a degree of complexity in the generation of cryptographic keys that is not possible in the traditional way. We expect quantum computing to play a key role in future encryption.
Traditional computers are units called bits. Quantum computers have data units called qubits. Advanced technology can be created for data storage. Develop a thinking algorithm that can produce artificial intelligence that you can decide on. Quantum bits, called Qubits, store large amounts of information and require less energy to do so at the same time. As a result, computers from conventional computers can operate more can perform complex calculations very quickly than others.
Quantum1net.com also points out that quantum computers are more efficient than traditional computers. Quantum computers are quantum mechanical meters such as data processing and communication. This usually means doing a very long job in minutes or hours and is the best tool for the next few years. Process data (text or binary) is encrypted using a combination of encryption keys.
Quantum1Net; time encryption and decryption of random system unique random numbers. It aims to provide more secure and fast storage and data transmission. Protect important information from hackers.
Quantum1Net's Mission
Innovation is what drives the Quantum1Net team, we are determined to create a very powerful technology, make it accessible, relevant, and ultimately personal. Quantum1Net's mission is to create technology that enables and empowers. We have designed the product so safe that you do not have to worry now or in the future about the security of your data. We introduce an unparalleled level of technical innovation, combined with system design that connects with users to provide critical security, ease of use, and peace of mind. Every year, Quantum1Net plans to reinvest about 20% of revenue into research and development of new network security solutions to improve transmission of choice for people worldwide suffering from unsafe data transmission. This will make Quantum1Net a significantly research-intensive company.
Company Overview
Quantum1Net and its affiliates included were created in 2017 for design; produce, and market, secure data communications for personal computing, mobile, and satellite transmissions. The Company provides various network security services and solutions related to third-party digital content and applications.
Most recent attempts have focused on quantum encryption, and worked on Quantum encryption keys, the next described
The Quantum Key encryption
The key generator of quantum encryption is the heart of Quantum1Net's encryption strategy. To review, produces a multi-random number of mathematical properties derived in the case of the primary RSA factorization. There is one major problem however, The random generator used is only pseudo-random (usually referred to as PRNGs), so the RSA Key is pseudo-random. Tests have proven that PRNGs show repetitive patterns of behavior when choosing so-called "random numbers." This pattern means that with sufficient results, predictions can be made for future preferred numbers. Thus, PRNGs are not really random. Quantum1Net instead relies on Quantum Key Generator encryption (QEKG). Due to the nature of the quantum computers themselves, tests have shown that even in large samples, the selected numbers follow the pattern there so no predictive algorithm can be derived. The graph below shows our results for both PRNG and QEKG tests on a 20,000 sample slightly 50,000 times long. Using a PRNG, after 50,000 tests this is clearly visual data predictive even after the first attempt of 10,000 or so. With QEKG it does not happen. Look at the bottom of the chart where the points are more dispersed. Unlike PRNG charts, in the QEKG graph there is no clear pattern for their location.
This is possible with one-qubit quantum optical device; Very large quantum computers (and expensive) meanings are not necessary to generate quantum encryption keys. We use a process known as quantum entanglement in such a way that it produces multiple sets of randomly correlated numbers so that combining two or more sets can only obtain the entire encryption key. While the wider discussion of this process is beyond the scope of this paper, this behavior makes random numbers completely random. Behaviors such as PRNGs patterns make quantum computing attacks against not only RSA, but also other public key algorithms such as Diffie-Hellman and elliptical curve cryptography that utilize shirt's or algorithms or their derivatives effectively. Because the QEKG key is produced nonalgorithmic at random, the system using this generator will withstand the attack. Therefore, the race is to ensure that real-world systems are practically in place using QEKG, which is exactly what Quantum1Net is currently working to achieve.
Roadmap
For more information:
WEBSITE || WHITEPAPER || FACEBOOK || TWITTER || TELEGRAM ||
The bitcointalk name: monyong
No comments:
Post a Comment