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The recent use of £ 121 million of the British government to promote the quantum technology sector is an exciting milestone for both innovation and economic growth. As part of its ‘Plan for Change’, the investment is the goal of strengthening the position of the UK in quantum research and technology and to provide a look in the future of fraud detection, diagnostics in health care and beyond.
Although the potential of quantum technology to transform industries around the world, cannot be denied, this potential leap comes forward with reservations. We must ensure that our striving for innovation does not surpass our ability to secure sensitive data today and in the coming years.
As Quantum Computing comes closer to the practical application, it not only offers unprecedented technological opportunities, but also cyber security Risks because the coding mechanisms that have always described sensitive information are vulnerable. The challenge now lies in building networks that are not only faster and more agile, but also more resilient against the future threats of Quantum Computer Enabled attacks.
Senior adviser of Portfolio Marketing at Ciena.
Quantum’s two -edged sword
Quantum Computing has the potential to offer enormous benefits, from making breakthroughs in areas such as artificial intelligence, health care and logistics to offering faster, more efficient solutions for problems that exceed today’s capacities.
But with these progress, the risk of quantum-compatible cyber attacks comes. Quantum computers, once fully realized, will be able to break the standard of today coding Algorithms, uncovering data that is currently considered safe. This creates a challenge for governments and companies that handle sensitive information to make their networks future -proof before the quantum computer’s threats are on us.
A growing concern in the cyber security community is the threat that is mentioned as “now harvest, later decrypt”. In this scenario, critical -coding data is intercepted and stored today by malignant actors, with the intention of decoding it in the future with the help of quantum opportunities to break the coding. This is particularly worrying for sensitive information such as electronic health filesIntellectual property, patents or national security information, which can be exposed as soon as quantum computers are sufficiently advanced.
The most important technologies for protection
To tackle these risks, there are two emerging solutions: Quantum Key Distribution (QKD) and cryptography after Quantum (PQC). QKD uses quantum mechanics to safely exchange coding keys. This technology uses the fundamental principles of quantum physics, making it impossible for hackers to intercept or mess the most important exchange process without being detected. This is why combining coding technologies that are available today with QKD delivers what has been mathematically proven that the unconditional security of critical data is.
In the meantime, PQC is focusing on developing a new generation of cryptographic algorithms that are designed to protect data and systems against quantum computer attacks. Combining these techniques with existing coding methods is crucial for protecting critical data against future threats from Kwantum Computing. It is clear that quantum willingness requires both innovation and caution and that industry must move quickly to integrate quantum -safe technologies into the structure of global networks.
Futureproofing starts with cooperation, not complacency
Securing today’s networks in the quantum era is not a small task. Governments, network providers and technical innovators take steps to continue to create robust security frames, so that the global The infrastructure Can resist quantum driven attacks. Transition to a quantum -safe future requires industrial cooperation and proactive taking steps to get there.
The investment of the UK in quantum technologies goes hand in hand with a progressive approach to cyber security. It is important that the public and private sectors work together to develop national and international frameworks that give priority to both innovation and security. Because the industry continues to develop and use quantum technologies, guaranteeing our digital ecosystem should be paramount in our efforts.
Although QKD and PQC offer promising solutions, integrating these technologies in existing infrastructure will take time. Protecting sensitive data during the flight nowadays to be top of mind, especially when Quantum Computing continues
Inactivity could make networks vulnerable, so that the confidentiality of sensitive data, harmful trust and the enormous potential of quantum innovations can be affected. Cooperation Under governments, companies and the technical community, the key to building the right security measures for the future is.
While we navigate this new Quantum era, it is time to free the digital landscape of the future. We must act decisively and carefully to ensure that we are prepared for the threats that it entails. The question is no longer if Quantum will change our world, but how we will adapt to ensure that critical data remains safe.
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This article is produced as part of the TechRadarpro expert insight channel, where today we have the best and smartest spirits in the technology industry. The views expressed here are those of the author and are not necessarily those of TechRadarpro or Future PLC. If you are interested in contributing to find out more here: https://www.techradar.com/news/submit-your-story-techradar-pro
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