This set of files contains two python scripts and three input files (in addition to an example of an D-Wave result output file) for creating the embedding of a Penrose quasicrystal on the Pegasus topology of an Advantage4.1 DWave quantum processing unit (QPU), as well as the visualization of the result of a series of annealings. The list of files is: - coordinates_201.txt : 201 x,y coordinates of a Penrose P3 quasicrystal. - graph_201.txt : Connectivity of the quasicrystal graph. Pair of numbers in each row defines the edge connecting two vertices in the graph defined in coordinates_201.txt. - embeddings_201.txt : Eight possible different embeddings of a same quasicrystal. Each row contains a list of 201 qubit numbers defining each embedding. The eight graphs can be embedded simultaneously on the Pegasus topology of an Advantage4.1 DWave QPU. - result_J_1.0.pickle: Example of an output file (pickle python format) containing 100 x 8 annealed samples. The post-processing.py file reads and plots the result. - penrose_quasicrystal.py : Python script for embedding a Penrose P3 quasicrystal on Advantange4.1 DWave QPU. As a result of a call to the quantum processing unit a SampleSet object is obtained and dumped in a python serialized file for post-processing upon deserialization. -post-processing.py : Python script that reads an output file of penrose_quasicrystal.py script and plot a spin density diagram.