The quantum computers are an object of desire for many, given their monstrous computing speed compared to conventional computers (million times faster) and its capacity break encrypted security. Due to their computational capability, they are able to excel at cracking encryption and decryption systems, which may mean that today’s PC processors are easily cracked in the future. To deal with this, Intel he said he would make a new one secure processor that can withstand the cracking of quantum computers for 2030.
Security has been a top priority for Intel in recent years. At the recent Intel Vision conference, Greg Lavender, Intel’s Chief Technology Officer, announced a series of security protection implementations, introducing new mechanisms to improve processor security.
The first would be Amber Projectwhich would allow remote authentication Between Cloud, edge, and on-premises. This would aim to promote the confidentiality and trust using this third-party certification, i.e. in an environment TEE (Trusted Execution Environment). As part of this, CPUs can create a Trusted Execution Environment (TEE) protection area in the memory area to protect important data. According to Intel, Project Amber will be available in customer environments starting later this year, with widespread adoption starting in early 2023.
Here’s What Intel’s Current Quantum Processors Look Like
Therefore, the second improvement mechanism will be the development of Quantum Computing Resistant Processorswhere they hope to achieve encryption resistant to this one by 2030. To achieve this, they will use a Encryption algorithm resistant to quantum computing published by the National Institute of Standards and Technology, located in the United States. According to Intel, such an algorithm would ensure that the processor and secure encryption cannot be broken even in a future where quantum computing has advanced.
Intel knows how quantum computers work, having worked with them for years. That said, they know that quantum computers are the most worrisome in this regard due to their innate ability to crack current encryption techniques, so we’ll have to wait a few years to see how that plays out.
VIA: My Drivers