✨ Update to latest versions

README.md

@@ -24,9 +24,9 @@ The [_Munich Quantum Toolkit (MQT)_](https://mqt.readthedocs.io) is a collection
 | GitHub Project        |                    latest version |                           forks |                           stars |
 | --------------------- | --------------------------------: | ------------------------------: | ------------------------------: |
 | [`mqt-ddsim`]         |         ![gh.mqt.ddsim.release][] |         ![gh.mqt.ddsim.forks][] |         ![gh.mqt.ddsim.stars][] |
-| [`mqt-qcec`]          |          ![gh.mqt.qcec.release][] |          ![gh.mqt.qcec.forks][] |          ![gh.mqt.qcec.stars][] |
-| [`mqt-qmap`]          |          ![gh.mqt.qmap.release][] |          ![gh.mqt.qmap.forks][] |          ![gh.mqt.qmap.stars][] |
 | [`mqt-qecc`]          |          ![gh.mqt.qecc.release][] |          ![gh.mqt.qecc.forks][] |          ![gh.mqt.qecc.stars][] |
+| [`mqt-qmap`]          |          ![gh.mqt.qmap.release][] |          ![gh.mqt.qmap.forks][] |          ![gh.mqt.qmap.stars][] |
+| [`mqt-qcec`]          |          ![gh.mqt.qcec.release][] |          ![gh.mqt.qcec.forks][] |          ![gh.mqt.qcec.stars][] |
 | [`mqt-bench`]         |         ![gh.mqt.bench.release][] |         ![gh.mqt.bench.forks][] |         ![gh.mqt.bench.stars][] |
 | [`mqt-predictor`]     |     ![gh.mqt.predictor.release][] |     ![gh.mqt.predictor.forks][] |     ![gh.mqt.predictor.stars][] |
 | [`mqt-core`]          |          ![gh.mqt.core.release][] |          ![gh.mqt.core.forks][] |          ![gh.mqt.core.stars][] |
@@ -35,9 +35,9 @@ The [_Munich Quantum Toolkit (MQT)_](https://mqt.readthedocs.io) is a collection
 | [`mqt-ddvis`]         |         ![gh.mqt.ddvis.release][] |         ![gh.mqt.ddvis.forks][] |         ![gh.mqt.ddvis.stars][] |
 | [`mqt-qusat`]         |         ![gh.mqt.qusat.release][] |         ![gh.mqt.qusat.forks][] |         ![gh.mqt.qusat.stars][] |
 | [`mqt-dasqa`]         |         ![gh.mqt.dasqa.release][] |         ![gh.mqt.dasqa.forks][] |         ![gh.mqt.dasqa.stars][] |
-| [`mqt-ionshuttler`]   |   ![gh.mqt.ionshuttler.release][] |   ![gh.mqt.ionshuttler.forks][] |   ![gh.mqt.ionshuttler.stars][] |
-| [`mqt-qubomaker`]     |     ![gh.mqt.qubomaker.release][] |     ![gh.mqt.qubomaker.forks][] |     ![gh.mqt.qubomaker.stars][] |
 | [`mqt-qudits`]        |        ![gh.mqt.qudits.release][] |        ![gh.mqt.qudits.forks][] |        ![gh.mqt.qudits.stars][] |
+| [`mqt-qubomaker`]     |     ![gh.mqt.qubomaker.release][] |     ![gh.mqt.qubomaker.forks][] |     ![gh.mqt.qubomaker.stars][] |
+| [`mqt-ionshuttler`]   |   ![gh.mqt.ionshuttler.release][] |   ![gh.mqt.ionshuttler.forks][] |   ![gh.mqt.ionshuttler.stars][] |
 
 [`mqt-ddsim`]: https://github.com/cda-tum/mqt-ddsim
 [`mqt-qcec`]: https://github.com/cda-tum/mqt-qcec
@@ -51,7 +51,6 @@ The [_Munich Quantum Toolkit (MQT)_](https://mqt.readthedocs.io) is a collection
 [`mqt-ddvis`]: https://github.com/cda-tum/mqt-ddvis
 [`mqt-qusat`]: https://github.com/cda-tum/mqt-qusat
 [`mqt-dasqa`]: https://github.com/cda-tum/mqt-dasqa
-[`mqt-qubomaker`]: https://github.com/cda-tum/mqt-qubomaker
 [`mqt-ionshuttler`]: https://github.com/cda-tum/mqt-ionshuttler
 [`mqt-qubomaker`]: https://github.com/cda-tum/mqt-qubomaker
 [`mqt-qudits`]: https://github.com/cda-tum/mqt-qudits
@@ -114,8 +113,8 @@ The [_Munich Quantum Toolkit (MQT)_](https://mqt.readthedocs.io) is a collection
 | [`mqt.qecc`][pypi.mqt.qecc.stats]                   |          ![pypi.mqt.qecc.version][] |          ![pypi.mqt.qecc.weekly][] |          ![pypi.mqt.qecc.monthly][] |                   [![pypi.mqt.qecc.total]](https://pepy.tech/project/mqt.qecc) |
 | [`mqt.bench`][pypi.mqt.bench.stats]                 |         ![pypi.mqt.bench.version][] |         ![pypi.mqt.bench.weekly][] |         ![pypi.mqt.bench.monthly][] |                 [![pypi.mqt.bench.total]](https://pepy.tech/project/mqt.bench) |
 | [`mqt.predictor`][pypi.mqt.predictor.stats]         |     ![pypi.mqt.predictor.version][] |     ![pypi.mqt.predictor.weekly][] |     ![pypi.mqt.predictor.monthly][] |         [![pypi.mqt.predictor.total]](https://pepy.tech/project/mqt.predictor) |
-| [`mqt.problemsolver`][pypi.mqt.problemsolver.stats] | ![pypi.mqt.problemsolver.version][] | ![pypi.mqt.problemsolver.weekly][] | ![pypi.mqt.problemsolver.monthly][] | [![pypi.mqt.problemsolver.total]](https://pepy.tech/project/mqt.problemsolver) |
 | [`mqt.qudits`][pypi.mqt.qudits.stats]               |        ![pypi.mqt.qudits.version][] |        ![pypi.mqt.qudits.weekly][] |        ![pypi.mqt.qudits.monthly][] |               [![pypi.mqt.qudits.total]](https://pepy.tech/project/mqt.qudits) |
+| [`mqt.problemsolver`][pypi.mqt.problemsolver.stats] | ![pypi.mqt.problemsolver.version][] | ![pypi.mqt.problemsolver.weekly][] | ![pypi.mqt.problemsolver.monthly][] | [![pypi.mqt.problemsolver.total]](https://pepy.tech/project/mqt.problemsolver) |
 
 [pypi.mqt.ddsim.stats]: https://pypistats.org/packages/mqt-ddsim
 [pypi.mqt.ddsim.version]: https://img.shields.io/pypi/v/mqt.ddsim?label=%20&style=flat-square

docs/handbook/02_simulation.md

@@ -31,14 +31,15 @@ This includes strong and weak simulation {cite:p}`zulehnerAdvancedSimulationQuan
 %config InlineBackend.figure_formats = ['svg']
 ```
 
-Consider the following listing that describes the quantum circuit for generating a three-qubit GHZ state (also shown in {numref}`fig-ghz-circuit`):
+Consider the following listing that describes the quantum circuit for generating a four-qubit GHZ state (also shown in {numref}`fig-ghz-circuit`):
 
 ```{code-cell} ipython3
 :tags: [remove-output]
 from qiskit import QuantumCircuit
 
-circ = QuantumCircuit(3)
-circ.h(2)
+circ = QuantumCircuit(4)
+circ.h(3)
+circ.cx(3, 2)
 circ.cx(2, 1)
 circ.cx(1, 0)
 circ.measure_all()
@@ -52,7 +53,7 @@ mystnb:
     width: 50%
   figure:
     align: center
-    caption: "Quantum circuit for generating a three-qubit GHZ state."
+    caption: "Quantum circuit for generating a four-qubit GHZ state."
     name: fig-ghz-circuit
 ---
 circ.draw(output="mpl", style="iqp")

docs/handbook/03_compilation.md

@@ -55,32 +55,37 @@ mystnb:
     width: 30%
   figure:
     align: center
-    caption: "Coupling map of a generic five-qubit IBM device."
+    caption: "Coupling map of a generic five-qubit device."
     name: fig-device
 ---
 %config InlineBackend.figure_formats = ['svg']
 
 from qiskit import QuantumCircuit
-from qiskit.providers.fake_provider import Fake5QV1
+from qiskit.providers.fake_provider import GenericBackendV2
 from qiskit.visualization import plot_gate_map
 
-circ = QuantumCircuit(3)
-circ.h(2)
+circ = QuantumCircuit(4)
+circ.h(3)
+circ.cx(3, 2)
 circ.cx(2, 1)
 circ.cx(1, 0)
 circ.measure_all()
 
-backend = Fake5QV1()
+backend = GenericBackendV2(num_qubits=5, coupling_map=[[0, 1], [1, 0], [0, 2], [2, 0], [0, 3], [3, 0], [0, 4], [4, 0]])
 plot_gate_map(backend)
 ```
 
 Then, mapping the circuit to that device merely requires the following lines of Python and results in the circuit shown in {numref}`fig-ghz-circuit-mapped`.
 
 ```{code-cell} ipython3
 from mqt.qmap import compile
-from qiskit.providers.fake_provider import Fake5QV1
+from qiskit.providers.fake_provider import GenericBackendV2
+
+backend = GenericBackendV2(
+    num_qubits=5,
+    coupling_map=[[0, 1], [1, 0], [0, 2], [2, 0], [0, 3], [3, 0], [0, 4], [4, 0]]
+)
 
-backend = Fake5QV1()
 circ_mapped, results = compile(circ, backend)
 ```
 

docs/handbook/04_verification.md

@@ -41,16 +41,17 @@ Verifying that the quantum circuit from {numref}`fig-ghz-circuit-mapped` has bee
 %config InlineBackend.figure_formats = ['svg']
 
 from qiskit import QuantumCircuit
-from qiskit.providers.fake_provider import Fake5QV1
+from qiskit.providers.fake_provider import GenericBackendV2
 from mqt.qmap import compile
 
-circ = QuantumCircuit(3)
-circ.h(2)
+circ = QuantumCircuit(4)
+circ.h(3)
+circ.cx(3, 2)
 circ.cx(2, 1)
 circ.cx(1, 0)
 circ.measure_all()
 
-backend = Fake5QV1()
+backend = GenericBackendV2(num_qubits=5, coupling_map=[[0, 1], [1, 0], [0, 2], [2, 0], [0, 3], [3, 0], [0, 4], [4, 0]])
 
 circ_mapped, _ = compile(circ, backend)
 ```

docs/handbook/05_benchmarking.md

@@ -28,6 +28,7 @@ To make the benchmarks as accessible as possible, MQT Bench comes as an easy-to-
 A larger version of the quantum circuit from {numref}`fig-ghz-circuit` can easily be obtained programmatically from the MQT Bench Python package as follows:
 
 ```{code-cell} ipython3
+:tags: [remove-output]
 from mqt.bench import get_benchmark
 
 circ = get_benchmark("ghz", circuit_size=8, level="alg")

docs/requirements.txt

@@ -2,10 +2,10 @@ furo
 ipykernel
 ipython
 matplotlib
-mqt-bench~=1.1.0
-mqt-ddsim~=1.21.0
-mqt-qcec~=2.5.0
-mqt-qmap~=2.5.0
+mqt-bench~=1.1.5
+mqt-ddsim~=1.23.0
+mqt-qcec~=2.7.1
+mqt-qmap~=2.6.0
 myst-nb
 myst_parser>=0.13
 pybtex>=0.24