Welcome to QMAP’s documentation!¶
QMAP is a tool for quantum circuit compilation developed as part of the Munich Quantum Toolkit (MQT) by the Chair for Design Automation at the Technical University of Munich. It builds upon MQT Core, which forms the backbone of the MQT.
We recommend you to start with the installation instructions or by reading our overview paper [1]. Then proceed to the mapping page or the synthesis/optimization page and read the reference documentation. If you are interested in the theory behind QMAP, have a look at the publications in the publication list.
We appreciate any feedback and contributions to the project. If you want to contribute, you can find more information in the Contribution guide. If you are having trouble with the installation or the usage of QMAP, please let us know at our Support page or by reaching out to us at quantum.cda@xcit.tum.de.
- Library
- Quantum Circuit Compilation
- Architecture
- Constructing an Architecture
- Full API of the Architecture class
Architecture
Architecture.Properties
Architecture.Properties.__init__()
Architecture.Properties.get_calibration_date()
Architecture.Properties.get_frequency()
Architecture.Properties.get_readout_error()
Architecture.Properties.get_single_qubit_error()
Architecture.Properties.get_t1()
Architecture.Properties.get_t2()
Architecture.Properties.get_two_qubit_error()
Architecture.Properties.json()
Architecture.Properties.name
Architecture.Properties.num_qubits
Architecture.Properties.set_calibration_date()
Architecture.Properties.set_frequency()
Architecture.Properties.set_readout_error()
Architecture.Properties.set_single_qubit_error()
Architecture.Properties.set_t1()
Architecture.Properties.set_t2()
Architecture.Properties.set_two_qubit_error()
Architecture.__init__()
Architecture.coupling_map
Architecture.load_coupling_map()
Architecture.load_properties()
Architecture.name
Architecture.num_qubits
Architecture.properties
Arch
- Results
- Optimal Subarchitectures
SubarchitectureOrder
SubarchitectureOrder.covering()
SubarchitectureOrder.draw_subarchitecture()
SubarchitectureOrder.draw_subarchitectures()
SubarchitectureOrder.from_backend()
SubarchitectureOrder.from_backend_v2()
SubarchitectureOrder.from_coupling_map()
SubarchitectureOrder.from_library()
SubarchitectureOrder.from_qmap_architecture()
SubarchitectureOrder.from_retworkx_graph()
SubarchitectureOrder.from_string()
SubarchitectureOrder.optimal_candidates()
SubarchitectureOrder.store_library()
subarchitectures.precomputed_backends
subarchitectures.ibm_guadalupe_subarchitectures()
subarchitectures.rigetti_16_subarchitectures()
- Quantum Circuit Synthesis
synthesize_clifford()
optimize_clifford()
- Synthesis Configuration
TargetMetric
Verbosity
SynthesisConfiguration
SynthesisConfiguration.dump_intermediate_results
SynthesisConfiguration.gate_limit_factor
SynthesisConfiguration.heuristic
SynthesisConfiguration.initial_timestep_limit
SynthesisConfiguration.intermediate_results_path
SynthesisConfiguration.json()
SynthesisConfiguration.linear_search
SynthesisConfiguration.minimal_timesteps
SynthesisConfiguration.minimize_gates_after_depth_optimization
SynthesisConfiguration.minimize_gates_after_two_qubit_gate_optimization
SynthesisConfiguration.n_threads_heuristic
SynthesisConfiguration.solver_parameters
SynthesisConfiguration.split_size
SynthesisConfiguration.target_metric
SynthesisConfiguration.try_higher_gate_limit_for_two_qubit_gate_optimization
SynthesisConfiguration.use_maxsat
SynthesisConfiguration.use_symmetry_breaking
SynthesisConfiguration.verbosity
- Synthesis Results
- Visualization
- Neutral Atom Logical State Preparation