Christoph Salomon scite author profile

Christoph Salomon

3Publications

19Citation Statements Received

102Citation Statements Given

How they've been cited

How they cite others

101

Affiliations

Max Planck Institute for Human Cognitive and Brain Sciences, Technische Universität Ilmenau

Publications

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PyRates—A Python framework for rate-based neural simulations

et al. 2019

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In neuroscience, computational modeling has become an important source of insight into brain states and dynamics. A basic requirement for computational modeling studies is the availability of efficient software for setting up models and performing numerical simulations. While many such tools exist for different families of neural models, there is a lack of tools allowing for both a generic model definition and efficiently parallelized simulations. In this work, we present PyRates, a Python framework that provides the means to build a large variety of rate-based neural models. PyRates provides intuitive access to and modification of all mathematical operators in a graph, thus allowing for a highly generic model definition. For computational efficiency and parallelization, the model is translated into a compute graph. Using the example of two different neural models belonging to the family of rate-based population models, we explain the mathematical formalism, software structure and user interfaces of PyRates. We show via numerical simulations that the behavior of the PyRates model implementations is consistent with the literature. Finally, we demonstrate the computational capacities and scalability of PyRates via a number of benchmark simulations of neural networks differing in size and connectivity.

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Utilizing Spherical Resonances for Microwave Breast Cancer Detection

Salomon¹,

Petrović²,

Risman³

2023

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Hardware dependencies of GPU-accelerated beamformer performances for microwave breast cancer detection

Salomon

Ley

Helbig

2016

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UWB microwave imaging has proven to be a promising technique for early-stage breast cancer detection. The extensive image reconstruction time can be accelerated by parallelizing the execution of the underlying beamforming algorithms. However, the efficiency of the parallelization will most likely depend on the grade of parallelism of the imaging algorithm and of the utilized hardware. This paper investigates the dependencies of two different beamforming algorithms on multiple hardware specification of several graphics boards. The parallel implementation is realized by using NVIDIA’s CUDA. Three conclusions are drawn about the behavior of the parallel implementation and how to efficiently use the accessible hardware.

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