Recently, Intel The company announced an innovative security service called Project Amber and proposed a quantum-resistant encryption strategy and safe and effective AI deployment by 2030.
Image via IntelFor now, Intel is turning its focus to how to meet the growing security demands of today’s world and prepare for possible future security threats, including potential quantum attacks. With the rapid development of quantum computing, quantum computers may break existing encryption technology in the future.
To improve security, Intel announced a new Intel service, Project Amber, that provides trusted remote authentication in cloud, edge and on-premises environments for organizations of all types. The company plans to launch a user pilot of the Amber project in the second half of 2022, with general availability in the first half of 2023.
“As organizations continue to leverage the value of the cloud, security has never been more of a priority. Trust and security go hand-in-hand, which is what our customers expect and demand when delivering Intel technologies,” said CTO, Intel Software and Advanced Technology Group Greg Lavender, senior vice president and general manager, said, “With the launch of the Amber program, Intel is taking confidential computing to the next level with a commitment to computing asset verification and zero-trust approaches across the network, edge and cloud.”
Zero trust is an approach to security in the information technology industry that assumes that there are no trusted network boundaries and that every network transaction must be authenticated before it can occur.
Image via IntelAt the same time, Intel launched a quantum-resistant encryption strategy to 2030, which will start with the third-generation Intel Xeon Scalable platform to address the threat posed by quantum computers.
Intel takes a phased approach to addressing the quantum threat: first, by increasing the key and digest size of symmetric encryption algorithms to address data acquisition; then, improving the robustness of code-signing applications, such as using quantum-resistant quantum Algorithm authenticates firmware and software, helps prevent quantum attacks that break classical encryption to run malicious code; ultimately secures the Internet using post-quantum encryption algorithms standardized by the National Institute of Standards and Technology (NIST), which includes key encapsulation and digital signature algorithms to protect the basic technology of network transactions.
In addition, Intel announced a partnership with the University of Pennsylvania Perelman School of Medicine (CDHI) and BeeKeeperAI to accelerate the deployment of safe and effective artificial intelligence. BeeKeeperAI, a company founded by CDHI, aims to solve the problem of medical data access.
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