Thales Predicts Post-Quantum Cryptography Will Transform Digital Safety, Shaping the Future of Cybersecurity
In a significant stride towards securing the future of digital communications, Thales, a global leader in advanced technology solutions, is at the forefront of the transition to Post-Quantum Cryptography (PQC). This undertaking, requiring careful preparation, is set to revolutionise the way organisations protect their data and infrastructure.
Thales stresses the importance of proactive engagement with quantum advancements. By being prepared for the quantum leap, organisations can ensure a smooth transition to the post-quantum world. The new encryption algorithms that are part of the PQC field offer a low-cost, practical path to maintaining secure communications.
Quantum communications, as researched by Thales, are poised to transform digital communications by securing them with quantum-safe cryptographic keys. This technology will enable secure communications across large-scale networks and the future internet, offering unprecedented levels of security.
The research by Thales can be grouped into three categories: quantum sensors, quantum communications, and post-quantum cryptography. Quantum sensors, developed by Thales, offer more efficient and accurate sensing capabilities, impacting various fields such as medical devices and defense systems.
Thales' post-quantum cryptography research focuses on ensuring a smooth transition from current algorithms to quantum-resistant ones. The focus is on developing flexible, upgradeable solutions that support both classic and emerging quantum-resistant crypto standards. This approach allows for a seamless integration of new technologies as they become available.
Organisations are encouraged to begin securing their data and infrastructure with these new standards. There is a risk of Harvest Now, Decrypt Later attacks, where cybercriminals steal and store data in preparation for quantum computing capabilities. Adopting crypto agile solutions that support these new quantum-safe algorithms is crucial to prepare for this cryptographic transformation.
Thales Global Vice President for Encryption, Todd Moore, stated that this transition is a watershed moment in the history of cryptography. He emphasised the importance of organisations taking action now to secure their data and infrastructure for the future.
The National Institute of Standards and Technology (NIST) has finalised a principal set of encryption algorithms designed to withstand cyberattacks from quantum computers. These algorithms, once adopted, will provide a secure foundation for digital communications in the post-quantum era.
Quantum Computing Inc. (QCI) has played a central role in preparing for the quantum revolution and is currently conducting research to develop the next generation of quantum solutions that will shape the post-quantum world. Thales' researchers have been at the heart of this work, contributing significantly to the advancements in quantum communications technology.
In conclusion, Thales is leading the charge in the transition to quantum-safe cryptography and communications. By focusing on practical, flexible solutions, Thales is ensuring a secure future for digital communications, regardless of quantum computing capabilities. Organisations would do well to follow Thales' lead and begin preparing for the post-quantum world now.
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