Logical Qubit Performance
![]()
In the quest to build scalable and fault-tolerant quantum computers, logical qubits are central. Unlike physical qubits, which are the raw, error-prone building blocks of quantum processors, logical qubits are….
![]()
In the quest to build scalable and fault-tolerant quantum computers, logical qubits are central. Unlike physical qubits, which are the raw, error-prone building blocks of quantum processors, logical qubits are….
![]()
1. Introduction to Google Quantum AI Google Quantum AI (Artificial Intelligence) is Google’s initiative to develop quantum computing technologies that can eventually outperform classical computers in solving complex computational problems…..
![]()
A logical qubit is a virtual qubit created by using several physical qubits to protect and preserve quantum information. Logical qubits are the error-protected version of quantum bits and are….
![]()
Fault-tolerant quantum gates are quantum operations that are designed to work correctly even when some parts of the system experience small errors. In simpler terms: They are the “error-proof” buttons….
![]()
Syndrome measurement is the process of detecting which error (if any) has affected a quantum state—without destroying the quantum information itself. In simple terms: Syndrome measurement is like a quantum….
![]()
The Threshold Theorem is a fundamental principle in quantum computing that says: If we can make the error rate of our quantum operations low enough — below a certain threshold….
![]()
Magic State Distillation is a method used in fault-tolerant quantum computing to create special quantum states — called magic states — that allow us to perform quantum gates that are….
![]()
Topological codes are a class of quantum error-correcting codes that store and protect quantum information using geometric properties of surfaces, rather than relying on nested codes or repeated measurements. They’re….