Transverse-Field Ising Model Benchmark
Benchmark for quantum simulation of the transverse-field Ising model (TFIM), a paradigmatic model for studying quantum phase transitions. Implementations range from VQE ground-state calculations on NISQ hardware (tested on IQM Garnet, IBM Quantum) to Hamiltonian simulation of dynamics on trapped-ion platforms. Studies cover 1D chains up to 25 qubits and 2D lattices up to 6x6 sites.[1]
- Algorithm: VQE / Hamiltonian Simulation / Exact Diagonalisation
- Category: simulation
- Qubits: 36
- Framework: Qiskit, Cirq, PennyLane
- Hardware: IBM Quantum, IQM Garnet, Quantinuum, simulators
- Reproducible: Yes
- Published:
- Ising-model
- phase-transition
- VQE
- simulation
- condensed-matter
What algorithm does Transverse-Field Ising Model Benchmark use?
Transverse-Field Ising Model Benchmark uses the VQE / Hamiltonian Simulation / Exact Diagonalisation algorithm, categorized under simulation.
Frequently Asked Questions
What is the Transverse-Field Ising Model Benchmark benchmark?
Benchmark for quantum simulation of the transverse-field Ising model (TFIM), a paradigmatic model for studying quantum phase transitions. Implementations range from VQE ground-state calculations on NISQ hardware (tested on IQM Garnet, IBM Quantum) to Hamiltonian simulation of dynamics on trapped-ion platforms. Studies cover 1D chains up to 25 qubits and 2D lattices up to 6x6 sites.
Is Transverse-Field Ising Model Benchmark reproducible?
Yes, this benchmark is reproducible.