Defining security in quantum key distribution with Carla Ferradini, Martin Sandfuchs, and Renato Renner The security of quantum key distribution (QKD) is quantified by a parameter ε >0, which—under ...

Quantum computing has been projected to enable market-defining and life-changing capabilities since its inception more than three decades ago. From financial portfolio optimization and improved ...

Quantum computers promise advantages in solving computationally complex problems that today’s classical computers cannot solve. Up until now, classical computers—like the one you’re reading this ...

Members can download this article in PDF format. In our day-to-day lives, the use of cryptography is everywhere. For example, we use it to securely send passwords over vast networks for online ...

Join our daily and weekly newsletters for the latest updates and exclusive content on industry-leading AI coverage. Learn More Lost in the debate over if, or when, a quantum computer will decipher ...

No longer relegated to post-doctorate physics academia and sad Schrödinger's cat thought experiments, post-quantum computing remediation has arrived in the real world. Quantum computing is expected to ...

Members can download this article in PDF format. The security of cryptographic applications critically relies on symmetric keys and private keys that are continually kept secret. The method used to ...

To understand the difference between quantum cryptography and post-quantum cryptography, it’s helpful to go back in time: In the early 1990s, Peter Shor of AT&T Bell Laboratories discovered an ...

In the previous blog post, “Securing Offload Engines for a Robust Secure SoC System,” we briefly looked at some of the methods employed for achieving embedded security, i.e., cryptography, hardware ...