![Securing Data with Quantum Resistant Algorithms: An Introduction to Post-Quantum Resistant Encryption Securing Data with Quantum Resistant Algorithms: An Introduction to Post-Quantum Resistant Encryption](/sites/default/files/styles/cards_listing_mobile/public/2023-06/Trusted-Security-brochure.jpg?itok=CQmabGkz)
Securing Data with Quantum Resistant Algorithms: An Introduction to Post-Quantum Resistant Encryption
The goal of post-quantum cryptography (PQC), also called quantum-resistant cryptography (QRC), is to develop cryptographic systems that are secure against both quantum and classical computers and can interoperate with existing communications protocols and networks.
![Securing Data with Quantum Resistant Algorithms: Implementing Data-at-Rest and Data-in-Transit Encryption Solutions Securing Data with Quantum Resistant Algorithms: Implementing Data-at-Rest and Data-in-Transit Encryption Solutions](/sites/default/files/styles/cards_listing_mobile/public/2024-05/technologies-security3-roller.jpg?itok=3D_qCheE)
Securing Data with Quantum Resistant Algorithms: Implementing Data-at-Rest and Data-in-Transit Encryption Solutions
In this second paper, we cover challenges for deploying QR encryption, including pre-shared key (PSK) management, RFC 8784 - an extension of Internet Key Exchange (IKE) v2 that allows it to be resistant to a quantum computer by using PSKs, and how to implement data-at-rest (DAR) and data-in-transit (DIT) QR encryption solutions today using commercial FPGA devices and off-the-shelf hardware.
![Certifying Multi-Core Processing Following AMC 20-193/AC 20-193 Objectives Certifying Multi-Core Processing Following AMC 20-193/AC 20-193 Objectives](/sites/default/files/styles/cards_listing_mobile/public/2021-12/si-fifty-landing-airplane.png?itok=__hzcoWu)
Certifying Multi-Core Processing Following AMC 20-193/AC 20-193 Objectives
This white paper examines the key challenges multi-core processors present in safety-certifiable systems, and the traditional and newer, more effective techniques for alleviating them to ensure MCP-based systems will safely perform their intended functions.
![Cores & Threads: Hybrid Processors for Today's Multitasking World (Part 1) Cores & Threads: Hybrid Processors for Today's Multitasking World (Part 1)](/sites/default/files/styles/cards_listing_mobile/public/2021-12/family-fifty-processor-cards.png?itok=OV-Zqpal)
Cores & Threads (Part 1): Hybrid Processors for Today's Multitasking World
Systems designers must understand the latest enhancements in processing architectures to realize their multiple benefits. The newest multi-core and hybrid-core processors offer enhanced capabilities, including increased processing power and efficiency.