The RSA encryption platform is now 40 years old. Despite the fact that it has proven itself in providing the Internet and digital communications, its days are numbered due to the development of Moore's law and the emergence of quantum computing. Significant efforts and resources are used by hackers to crack RSA and other forms of encryption.
The emergence of quantum computing makes it possible to split RSA and various other forms of encryption in the near future. Classic computers use binary bits whose values are zero or one. The lines of these zeros and ones are converted to data, but the character of the bits means that only one clock cycle can be executed at a time. However, in quantum computing, each quantum bit (called a qubit) can be simultaneously equal to zero and one. This difference means that quantum computers can store much more data and do more calculations per second, which makes them ideal for applications that break code.
Thanks to these quantum computing technologies, we are on the verge of a breakthrough when technology is ready to crack existing encryption methods. After RSA is hacked, critical applications such as HTTPS, processing credit and debit cards and government systems will face a direct risk of compromise. Chaos, which has arisen as a result of such hacking, will be completely destructive for the social and economic conditions of everyday life.
That's why we are developing a quantum-generated, protected data transfer platform called Quantum1Net. Using quantum computation, we can provide such a level of complexity of generating cryptographic keys, which is impossible with the help of traditional means. We expect that quantum computing will play a key role in the future of encryption.
Project website: https://quantum1net.com/
Thanks to these quantum computing technologies, we are on the verge of a breakthrough when technology is ready to crack existing encryption methods. After RSA is hacked, critical applications such as HTTPS, processing credit and debit cards and government systems will face a direct risk of compromise. Chaos, which has arisen as a result of such hacking, will be completely destructive for the social and economic conditions of everyday life.
That's why we are developing a quantum-generated, protected data transfer platform called Quantum1Net. Using quantum computation, we can provide such a level of complexity of generating cryptographic keys, which is impossible with the help of traditional means. We expect that quantum computing will play a key role in the future of encryption.
Project website: https://quantum1net.com/
Quantum1Net and its affiliated branches were established in 2017 for design; production and market development of secure data transmission for personal computing, mobile and satellite transmissions. The company provides a number of services and related solutions for the network security of third-party digital content and applications.
To support our efforts, Quantum1Net launches two types of tokens: the first convertible Silver Token in February 2018 without encryption with a quantum key and the later with a limited release, Gold Token in July 2018. Holders of primary tokens will be able to convert their tokens into a new format at a discount. The full deployment of Gold and Quantum1Net tokens is currently scheduled for January 2019.
Quantum encryption key
A quantum encryption key generator is the basis of the Quantum1Net encryption strategy. For example, generating a random multivalued number from which mathematical properties are obtained in the case of RSA, its simple factorization. However, there is one basic problem: the random oscillators used are only pseudo-random (usually called PRNG), so the RSA key is pseudo-random. Tests have shown that PRNG demonstrate a recurring pattern of behavior when choosing so-called "random numbers". This template means that with enough results you can make a prediction for future elections. Therefore, PRNGs are not really random. Quantum1Net instead uses the Quantum Encryption Key Generator (QEKG). Because of the properties of the quantum computers themselves,
The graph below shows our results for the test both PRNG and QEKG on a sample of 20,000 bits with a length of 50,000. Using PRNG, after 50,000 tests, it is visually evident that the data are prognostic even after the first 10,000 attempts. However, with QEKG this is not so. Look at the bottom of the chart, where the points are more scattered. Unlike the PRNG schedule, in the QEKG column there is no explicit template for their location.
A quantum encryption key generator is the basis of the Quantum1Net encryption strategy. For example, generating a random multivalued number from which mathematical properties are obtained in the case of RSA, its simple factorization. However, there is one basic problem: the random oscillators used are only pseudo-random (usually called PRNG), so the RSA key is pseudo-random. Tests have shown that PRNG demonstrate a recurring pattern of behavior when choosing so-called "random numbers". This template means that with enough results you can make a prediction for future elections. Therefore, PRNGs are not really random. Quantum1Net instead uses the Quantum Encryption Key Generator (QEKG). Because of the properties of the quantum computers themselves,
The graph below shows our results for the test both PRNG and QEKG on a sample of 20,000 bits with a length of 50,000. Using PRNG, after 50,000 tests, it is visually evident that the data are prognostic even after the first 10,000 attempts. However, with QEKG this is not so. Look at the bottom of the chart, where the points are more scattered. Unlike the PRNG schedule, in the QEKG column there is no explicit template for their location.
Prototype Quantum1Net The Quantum1 Quantum1Net
laboratory prototype, developed in 2014, is based on a single-digit optical device that uses four photon detectors and a time converter (TDC) to generate sets of perfect random numbers with timestamps. A quantum device consists of an intricate source of photons and linear optical elements, which sets the quantum system to the desired state. To create sets of 4 and 6 elements, two configurations were developed. The result of TDC is a temporary queue from which you can request a set of unique random numbers or encryption keys, creating a real-time encryption and decryption system.
laboratory prototype, developed in 2014, is based on a single-digit optical device that uses four photon detectors and a time converter (TDC) to generate sets of perfect random numbers with timestamps. A quantum device consists of an intricate source of photons and linear optical elements, which sets the quantum system to the desired state. To create sets of 4 and 6 elements, two configurations were developed. The result of TDC is a temporary queue from which you can request a set of unique random numbers or encryption keys, creating a real-time encryption and decryption system.
ICO Quantum1Net
Initial Sale: Silver Convertible Token (February 2018)
Our first sale of tokens is aimed at providing Quantum1Net with the necessary financing necessary for the full release of our platform in January 2019. We need both a transition to new offices, and centralized development, as well as the involvement of additional developers to achieve the goal in May 2018 for a limited release of Quantum1Net.
We will initiate the sale of tokens worth 15 million euros and base this initial sale on Ethereum. These tokens will not ship with our quantum encryption; but they will be convertible at a 20% discount during the second sale of tokens in July 2018.
Second sale: sale of the gold token (July 2018)
As mentioned earlier, the initial investors of our first token sale will be able to convert their silver tokens into Gold tokens during this second sale. We will also provide our previous investors with the possibility of converting to a public sale, which will be limited to an amount of 18 million euros. Unlike the first token, Gold Token will be based on bitcoin and include the QEK on which Quantum1Net is based.
Third sale: sale of the gold token (January 2019)
Our third sale is scheduled for January 2019 and will occur shortly after the planned global public release of Quantum1Net in late 2018. This sale of Quantum1Net tokens for the long term, as we expand and sell the use of Quantum1Net outside of the crypto currency for parties that are most vulnerable due to the failure of public key encryption.
In acknowledgment of the investors who held the Silver Token and converted it into the Gold Token during our initial placement in July, a 5% discount will be offered to those who want to participate in this offer. This round of financing is limited to 200 million euros.
Within these three rounds of funding and related activities, Quantum1Net is confident that our ambitious goals are truly achievable. Although quantum computing is still in its infancy and problems remain, which in the past few years has led to significant progress, to the extent that it is now possible to create such a network.
The team Quantum1Net
Quantum1Net is headed by a team that has more than half a century of experience in the field of science, technology and information science. The team successfully worked together on several start-ups and deployed global products.
Quantum1Net is headed by:
• CEO Mattias Bergstrom, inventor and technical manager with 20 years of experience in the industry. Over the past 20 years, he has developed several Internet protocols and made more than 60 patent applications in the field of network technologies. He personally invented and founded Voddler, a revolutionary solution for video on demand, and System73 is a live broadcast system for the Internet. A native of Stockholm, Sweden, Matthias, currently resides in Tenerife, Spain.
• CTO Stan Miasnikov, is working on the encryption of Quantum1Net. Stan's experience spanned 25 years, including work in Corel, Flex and OpenTV. Stan's experience also includes working with Project 1701A, LLC, a company that worked on the implementation of quantum computing. Originally from St. Petersburg, Russia, he currently resides in Palo Alto, California.
• Mats Jagmalm, expert on crypto and finance of the company. His experience as a research assistant makes him unique for working in the crypto currency, and his understanding of how cryptology works will guide our ICO process and ensure its success for both the company and its investors. Mats, was born in Linkoping, Sweden, and currently resides in Stockholm.
• Thomas Olofsson, our security expert. Thomas has almost two decades of security experience, and most recently he worked for Threat Finder, a company that works on using AI and machine learning to identify threats to organizations. Currently he lives in London.
• Joseph Fernandez, an astrophysicist and computational physicist. Joseph helps Quantum1Net understand the complexity of quantum computing. He currently teaches in astrophysics at Liverpool John Moores University. He currently resides in Wallasey, United Kingdom.
And our marketing team:
• Andreas Tibblin, whose experience in the video will help explain Quantum1Net to stakeholders in video form. He is the director of Tibblin Film, a producer house created in Stockholm, which works in television commercials and shows, as well as own content, videos and music videos. He lives in Stockholm.
• Michael Johnson was the director / producer of films, television, and an innovator of very successful media distribution, branding and convergence projects in the world for more than 30 years. He is a nominee of three New York One Show Awards and currently resides in Hong Kong.
Initial Sale: Silver Convertible Token (February 2018)
Our first sale of tokens is aimed at providing Quantum1Net with the necessary financing necessary for the full release of our platform in January 2019. We need both a transition to new offices, and centralized development, as well as the involvement of additional developers to achieve the goal in May 2018 for a limited release of Quantum1Net.
We will initiate the sale of tokens worth 15 million euros and base this initial sale on Ethereum. These tokens will not ship with our quantum encryption; but they will be convertible at a 20% discount during the second sale of tokens in July 2018.
Second sale: sale of the gold token (July 2018)
As mentioned earlier, the initial investors of our first token sale will be able to convert their silver tokens into Gold tokens during this second sale. We will also provide our previous investors with the possibility of converting to a public sale, which will be limited to an amount of 18 million euros. Unlike the first token, Gold Token will be based on bitcoin and include the QEK on which Quantum1Net is based.
Third sale: sale of the gold token (January 2019)
Our third sale is scheduled for January 2019 and will occur shortly after the planned global public release of Quantum1Net in late 2018. This sale of Quantum1Net tokens for the long term, as we expand and sell the use of Quantum1Net outside of the crypto currency for parties that are most vulnerable due to the failure of public key encryption.
In acknowledgment of the investors who held the Silver Token and converted it into the Gold Token during our initial placement in July, a 5% discount will be offered to those who want to participate in this offer. This round of financing is limited to 200 million euros.
Within these three rounds of funding and related activities, Quantum1Net is confident that our ambitious goals are truly achievable. Although quantum computing is still in its infancy and problems remain, which in the past few years has led to significant progress, to the extent that it is now possible to create such a network.
The team Quantum1Net
Quantum1Net is headed by a team that has more than half a century of experience in the field of science, technology and information science. The team successfully worked together on several start-ups and deployed global products.
Quantum1Net is headed by:
• CEO Mattias Bergstrom, inventor and technical manager with 20 years of experience in the industry. Over the past 20 years, he has developed several Internet protocols and made more than 60 patent applications in the field of network technologies. He personally invented and founded Voddler, a revolutionary solution for video on demand, and System73 is a live broadcast system for the Internet. A native of Stockholm, Sweden, Matthias, currently resides in Tenerife, Spain.
• CTO Stan Miasnikov, is working on the encryption of Quantum1Net. Stan's experience spanned 25 years, including work in Corel, Flex and OpenTV. Stan's experience also includes working with Project 1701A, LLC, a company that worked on the implementation of quantum computing. Originally from St. Petersburg, Russia, he currently resides in Palo Alto, California.
• Mats Jagmalm, expert on crypto and finance of the company. His experience as a research assistant makes him unique for working in the crypto currency, and his understanding of how cryptology works will guide our ICO process and ensure its success for both the company and its investors. Mats, was born in Linkoping, Sweden, and currently resides in Stockholm.
• Thomas Olofsson, our security expert. Thomas has almost two decades of security experience, and most recently he worked for Threat Finder, a company that works on using AI and machine learning to identify threats to organizations. Currently he lives in London.
• Joseph Fernandez, an astrophysicist and computational physicist. Joseph helps Quantum1Net understand the complexity of quantum computing. He currently teaches in astrophysics at Liverpool John Moores University. He currently resides in Wallasey, United Kingdom.
And our marketing team:
• Andreas Tibblin, whose experience in the video will help explain Quantum1Net to stakeholders in video form. He is the director of Tibblin Film, a producer house created in Stockholm, which works in television commercials and shows, as well as own content, videos and music videos. He lives in Stockholm.
• Michael Johnson was the director / producer of films, television, and an innovator of very successful media distribution, branding and convergence projects in the world for more than 30 years. He is a nominee of three New York One Show Awards and currently resides in Hong Kong.
Contact Information:
General information: info@Quantum1Net.com
Information for press: press@Quantum1Net.com
Project website: https://quantum1net.com/
Information for press: press@Quantum1Net.com
Project website: https://quantum1net.com/
Author by: Hellokitty6
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