quantum gate - Reducing an ansatz to a shallower circuit - Quantum Computing Stack Exchange
Parallelizing Simulations of Large Quantum Circuits
PDF] On the practical usefulness of the Hardware Efficient Ansatz | Semantic Scholar
Single Layer Hardware Efficient Ansatz for 3 qubits. | Download Scientific Diagram
Entropy | Special Issue : Quantum Computing for Complex Dynamics
Expressibility of the alternating layered ansatz for quantum computation – Quantum
Entropy | Free Full-Text | Variational Quantum Algorithm Applied to Collision Avoidance of Unmanned Aerial Vehicles
Fixed-structure layered Hardware-Eficient Ansatz for V (α). As... | Download Scientific Diagram
Arthur Pesah on Twitter: "At each layer of the QCNN, half of the qubits are discarded (pooling layer), limiting the number of layers to log(n). And it was shown in (https://t.co/ek2QoNeeoQ) that
Single Layer Hardware Efficient Ansatz for 3 qubits. | Download Scientific Diagram
Efficient symmetry-preserving state preparation circuits for the variational quantum eigensolver algorithm | npj Quantum Information
Expressibility of the alternating layered ansatz for quantum computation
On the Expressibility and Overfitting of Quantum Circuit Learning
Molecular Energy Landscapes of Hardware-Efficient Ansätze in Quantum Computing | Journal of Chemical Theory and Computation
Molecular Energy Landscapes of Hardware-Efficient Ansätze in Quantum Computing | Journal of Chemical Theory and Computation
Hardware-efficient Variational Quantum Eigensolver for Small Molecules and Quantum Magnets – arXiv Vanity
Quantum circuit for the hardware-efficient-type ansatz. Each of the R Y... | Download Scientific Diagram
Ansatz | Quantaggle
Hardware-efficient variational quantum eigensolver for small molecules and quantum magnets | Nature
Arthur Pesah on Twitter: "At each layer of the QCNN, half of the qubits are discarded (pooling layer), limiting the number of layers to log(n). And it was shown in (https://t.co/ek2QoNeeoQ) that