Explore projects
-
-
Source code and data corresponding to the publication 'Reliability and subject specificity of personalized whole-brain dynamical models'
Updated -
-
Updated
-
Schiffer, Christian / bb3d
Apache License 2.0Updated -
Updated
-
Updated
-
Updated
-
Updated
-
Updated
-
Our team consists of researches in the field of Communication Networks and Computation Engineering, Physics, and Quantum Computing. Within in this collaboration, we aim at investigating if the new D-Wave Advantage solver in Jülich can be used as an incredibly fast quantum heuristic to reconfigure wide-area networks, in tandem with the current classical implementation.
Here you can find software and data associate with our projects.
Updated -
Code related to the CHRRT (Coordinate Hit-and-Run with Rounding and Thinning) project.
Contains scripts for sampling & evaluating performance. Also contains ESS and RHAT data for the runs used in the manuscript.
Updated -
aoberstrass / bda / HDF5 Chunk Cache
MIT LicenseUpdated -
How do you encode combinatorial optimization problems when they have inequality constraints on quantum computers? well, the usual approach is using slack variables. But, this approach is quite expensive and makes the search for possible solutions even harder. In this work, https://arxiv.org/abs/2211.13914, we present “unbalanced penalization” a new approach to encode the inequality constraints of combinatorial optimization problems.
Updated