The Nobel Prize in Physics 2025 The Nobel Prize in Physics: Awarded to John Clarke, Michel H. Devoret, and John M. Martinis for Their Work on Macroscopic Quantum Tunneling in Electric Circuits. In this edition of "The Bleeding Edge" we look at the 2025 [read more]
Artificial Intelligence Neural Networks & Transformers Neural Networks AI Neural Network showing pathways being triggered during calculations An artificial neural network is a type of machine learning model inspired by the way biological brains process information. It’s built from layers of interconnected [read more]
Artificial Intelligence & Quantum Artificial Intelligence - Hybrid Quantum-Classical AI We continue in this installment of The Bleeding Edge to go into further detail on quantum computing and AI. Much of what we talk about here is a projection of the possible. What actually happens [read more]
Artificial Intelligence and Quantum Artificial Intelligence Quantum Artificial Intelligence (Quantum AI) is the fusion of quantum computing and artificial intelligence— using the principles of quantum mechanics to design algorithms and models that can outperform or enhance classical AI systems. Quantum Artificial Intelligence (Quantum AI) [read more]
Quantum Computing: 2D Toric Codes and Surface Codes The 2D toric code is a foundational model in quantum error correction and topological quantum computing. It was introduced by Alexei Kitaev in 1997 as a way to protect quantum information from local noise by [read more]
Quantum Computing: Using Surface Codes for Error Correction - Surface & 2D Toric Codes Surface & 2D Toric Codes I received a comment from Danny Wall, who also provided his paper on surface codes. His paper is titled “Quantum Error Correction Integration in ACNN [read more]
Quantum Mechanics Applied to Quantum Computing - Quantum Chips Quantum Mechanics Applied to Quantum Computing Quantum computing chips are specialized processors designed for quantum computers, utilizing qubits. This capability allows quantum chips to tackle complex problems beyond the reach of classical computers. Several companies [read more]
Quantum Mechanics Applied to Quantum Computing - Type of Quantum Gates In the last article, we briefly touched on fault tolerance and two types of gates used in quantum computing. This article goes deeper to explore in depth types of quantum gates used [read more]
Quantum Mechanics Applied to Quantum Computing - Quantum Processing, Error Correction & Fault tolerance Quantum Processing, Error Correction & Fault Tolerance Error correction and fault-tolerance are areas of intensive development for quantum computing right now. These areas are necessary to get a quantum [read more]
Quantum Mechanics Applied to Quantum Computing - Quantum Algorithms Quantum Algorithms Many problems are impossible to solve on a classical computer, not because they are insoluble, but because of the astronomical resources required to solve realistic cases of the problems. The promise of [read more]
