Comprehensive Quantum Gate Performance Analysis: A Comparative Study of Noise and No-Noise Effects
Description
This dataset contains performance metrics for various quantum gates, both with and without noise, based on 1000 runs per condition for each gate. The dataset includes data from quantum circuits that utilize gates such as H, X, Y, Z, S, T, CNOT, Toffoli, Fredkin, SWAP, RX, RY, and RZ. Each row includes the following information: the gate type, run number, number of qubits, depth, circuit size, execution time, error rate, fidelity, energy consumption, quantum volume, depolarization rate, and noise model used. The data is split into two categories: one with noise and one without noise. Key Features: 1. Quantum gate performance metrics for a variety of gates. 2. Both noisy and noise-free scenarios. 3. Provides insights into error rates, energy consumption, quantum volume, and more. This dataset is useful for researchers and developers aiming to understand and compare the performance of quantum gates under different noise conditions.