Peer Review of Quantum Software
Peer review plays a critical role in maintaining the credibility, accuracy, and security of quantum software, just as it does in classical computing. However, due to the novel and complex….
Tag: quantum gate fidelity
Silicon Spin Qubits
Silicon spin qubits represent one of the most promising approaches in the race to build scalable, fault-tolerant quantum computers. These qubits leverage the spin state of an electron (or hole)….
Benchmarking NISQ Devices
NISQ (Noisy Intermediate-Scale Quantum) devices represent the current generation of quantum processors, typically containing 50 to a few hundred qubits, but without full error correction. While they hold great promise….
Error Rates by Qubit Type
Error rates in quantum computing refer to the probability that a quantum operation (like a gate, readout, or qubit state preservation) fails or produces incorrect results. These errors are a….
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….
Fidelity of Quantum Operations
Fidelity in quantum computing refers to how accurately a quantum operation (or quantum process) matches its intended behavior. Since quantum systems are inherently prone to noise, fidelity is a key….
Logical Qubits
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….