1 to 10 of 15 Results
Python Source Code - 2.3 KB -
MD5: 036a4b11c59ddedcf7cd58d159b52f72
Utility functions for the experiments. |
Python Source Code - 4.8 KB -
MD5: 894906f22dbd93ef4e3308dae176b06d
Functions to perform quantum teleportation. |
Plain Text - 2.2 KB -
MD5: f74ff9705432d88bf78f186c1d8a26ed
Python requirements for reproduction. |
Markdown Text - 2.7 KB -
MD5: 14c26b62957d6d0d54a3bb8c129ef11a
Readme file with additional information on the data and code. |
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. |
Jupyter Notebook - 41.7 KB -
MD5: 1e4cd09824803ddcc107348c88583166
The main entry point to plot generated data. Requires the data as CSV file. |
Jupyter Notebook - 14.1 KB -
MD5: ae52057f8c26b99ebe6441530afee887
The main entry point to run new experiments. |
Python Source Code - 2.0 KB -
MD5: 1fc9a5bf680067c551ab1383bf284237
Functions for generating non-maximally entangled states. |
Adobe PDF - 196.7 KB -
MD5: 01650ac972958f9fe0687708d2fb0990
Figure 6: Plot from the generated data. |