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Adobe PDF - 68.7 KB -
MD5: 60f2614c7fffce46d724ccc90c2e1a10
The average risk after training a 6-qubit QNN for randomly generated target unitaries using orthogonal data. For each number of training pairs t, the Schmidt rank is chosen as such that r · t = d. The lower bound for the risk for this configuration is shown as a dashed line. The... |
Unknown - 184 B -
MD5: 7d96b191470e360b62deb994ecdf808c
Array containing the average risks after training with t = 1,2,4,8,16,32,64 orthogonal entangled training samples. |
ZIP Archive - 183.6 MB -
MD5: 808a025fe107f06ba43821ed90fd3036
Raw data (losses and risks) for training QNNs using orthogonal entangled training data.
Directory t[a] contains results for QNNs trained with "a" training samples.
For analyzed results see orthogonal_exp_points.npy |
ZIP Archive - 7.3 KB -
MD5: 6068205158d0b55c221d3dffec6af2b6
Contains training data (X), the target unitary (U) and the resulting unitary (V) as Numpy-Files for training using four orthogonal training samples for a high risk QNN and a low risk QNN (see Figure 1) |
Jul 11, 2023
Bechtold, Marvin; Barzen, Johanna; Leymann, Frank; Mandl, Alexander; Obst, Julian; Truger, Felix; Weder, Benjamin, 2023, "Data repository for: Investigating the effect of circuit cutting in QAOA for the MaxCut problem on NISQ devices", https://doi.org/10.18419/darus-3124, DaRUS, V1
This dataset contains the replication code for the publication titled "Investigating the effect of circuit cutting in QAOA for the MaxCut problem on NISQ devices." The provided code represents the version utilized to generate the experimental results documented in the correspondi... |
Jul 11, 2023 -
Data repository for: Investigating the effect of circuit cutting in QAOA for the MaxCut problem on NISQ devices
ZIP Archive - 4.3 MB -
MD5: 536f99a9c5510b62642a9bb2b7ff6e07
This archive contains the calibration data of the quantum devices utilized during the time period when the experiments were conducted. |
Jul 11, 2023 -
Data repository for: Investigating the effect of circuit cutting in QAOA for the MaxCut problem on NISQ devices
ZIP Archive - 56.8 MB -
MD5: defed79127a6c2c6d1619ba9884ceeb5
This archive contains the Python code used to conduct the experiments and evaluate their results. To execute the code, please refer to the instructions provided in the readme file located within the archive. |
Jul 11, 2023 -
Data repository for: Investigating the effect of circuit cutting in QAOA for the MaxCut problem on NISQ devices
ZIP Archive - 5.5 GB -
MD5: 529f04ad1ef749254caf13216615deeb
This archive encompasses both the raw and partially processed data generated during the experiments. To analyze and evaluate the data, please utilize the code provided in the cut_qaoa_code.zip archive and refer to the instructions outlined in the accompanying readme file. |
Jul 11, 2023 -
Data repository for: Investigating the effect of circuit cutting in QAOA for the MaxCut problem on NISQ devices
Adobe PDF - 875.6 KB -
MD5: ac0d8290ee7d3aa4bf0f2f554a5ebc27
This document presents five supplementary plots that provide a comprehensive summary of the data across all graphs in all experiments. Please refer to the plots.zip archive for plots specific to each graph. |
Jul 11, 2023 -
Data repository for: Investigating the effect of circuit cutting in QAOA for the MaxCut problem on NISQ devices
ZIP Archive - 162 B -
MD5: 234e0cb67627bd2439c33df41027bf72
This archive contains supplementary plots and visualizations. Within the archive, each graph is allocated its own dedicated folder that conveniently stores all the relevant plots associated with that specific graph. |