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Our Mission

Our vision is to secure the world’s communications from the threats posed by advances in AI, computing and mathematics. At a time when technological progress has created an almost constant state of data proliferation, the need for the secure transmission of sensitive information has never been more significant. It is essential to protect and future-proof data communication now through the advancement of reliable and ultra-secure quantum cryptography solutions.

Securing Cyber Communication

Today’s cyber security measures will not stand a chance when quantum computing technology matures, leaving our online information vulnerable.

Keeping data safe and secure is one of the greatest challenges posed by the rapid development of today’s information technology.

More and more sensitive data is stored on remote computer servers, for example in the cloud, making secure access to this data a predominant concern.

Securing the transmission and retrieval relies on encryption of information sent over public networks.

Each year, cyber-attacks on businesses increase. The average time it takes for a company to detect a breach is six months, by which time valuable data has been stolen.

Encryption is one method that’s regularly used to protect and securely pass information online. This method relies on secret keys to encrypt and decrypt information as it’s passed between two parties. A key is just a series of numbers, which is shared between the sender and the receiver of the information. But if a hacker can decipher the key, they can decrypt this information.

The best line of defense against hackers is to make sure encryption keys are never stored anywhere and never exchanged with the receiving party.


While today’s computers could theoretically figure out the key, it would take an unfeasible amount of time to do so.

However, quantum computers are capable of carrying out computational operations many orders of magnitude faster than traditional computers. Regardless of their length, current encryption keys could be hacked in a matter of hours or even minutes, using a quantum computer.

To make matters worse, data encrypted today could be decrypted by future quantum computers. Here, hackers wanting to gain access to your data don’t need to decrypt the data immediately; they can just store and stockpile it until quantum computing advances.

So, how can we protect our online information communications from this threat?


The cyber security battle will take place in the quantum world and will involve a technique called QST . 

QTS cryptography will usher in a new age of secure online communication

The Quantum Threat

Quantum computing has the potential to revolutionize many fields, including cryptography. However, this potential comes with a downside: quantum computers could easily break many of the encryption systems that we use today. This means that we need to develop new quantum-resistant cryptographic technologies to keep our data secure in the age of quantum computing.

The threat that quantum computing poses to current encryption systems is based on the fact that quantum computers can perform certain calculations much faster than classical computers. This includes the ability to factor large numbers into their prime factors, which is the basis of many encryption systems. For example, the widely used RSA encryption algorithm relies on the difficulty of factoring large numbers to keep messages secure.


However, a quantum computer could break RSA encryption relatively quickly, making it useless for protecting sensitive data. To address this threat, researchers have been working on developing new encryption systems that are resistant to quantum attacks. One promising approach is the use of quantum-resistant cryptographic technologies like the QST Cipher Systems.


These systems are designed to create an encryption that is mathematically uncrackable, even by a quantum computer. The QST Cipher Systems are based on advanced mathematical concepts that make them highly resistant to attacks by both classical and quantum computers. This includes the use of mathematical functions that are hard to reverse, making it difficult for an attacker to decrypt a message even if they have access to a quantum computer.


The QST Cipher Systems also use advanced AI technologies to enhance their security and make them even more resistant to attacks. The new unbreakable QST encryption standard is a significant step forward in the field of quantum-resistant cryptography. It offers a level of security that is unmatched by any other encryption system currently available. This is because it is based on advanced mathematical concepts and cutting-edge AI technologies that make it virtually impossible to crack.

The QST Cipher Systems are designed to be used in a wide range of applications, from secure communications to secure storage of sensitive data. They offer a level of security that is essential in the age of quantum computing, where traditional encryption systems are no longer sufficient to protect our data.

In conclusion, the advent of quantum computing poses a significant threat to current encryption systems. However, the development of new quantum-resistant cryptographic technologies like the QST Cipher Systems offers hope for the future. With the QST encryption standard, we have a highly secure and virtually unbreakable encryption system that is powered by advanced AI technologies. This will ensure that our data remains secure in the age of quantum computing.

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