Sotirios Panagiotou scite author profile

Sotirios Panagiotou

4Publications

14Citation Statements Received

45Citation Statements Given

How they've been cited

How they cite others

Affiliations

Erasmus MC, National Technical University of Athens

Publications

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EDEN: A High-Performance, General-Purpose, NeuroML-Based Neural Simulator

Panagiotou

Sidiropoulos

Negrello

et al. 2022

Front. Neuroinform.

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Modern neuroscience employs in silico experimentation on ever-increasing and more detailed neural networks. The high modeling detail goes hand in hand with the need for high model reproducibility, reusability and transparency. Besides, the size of the models and the long timescales under study mandate the use of a simulation system with high computational performance, so as to provide an acceptable time to result. In this work, we present EDEN (Extensible Dynamics Engine for Networks), a new general-purpose, NeuroML-based neural simulator that achieves both high model flexibility and high computational performance, through an innovative model-analysis and code-generation technique. The simulator runs NeuroML-v2 models directly, eliminating the need for users to learn yet another simulator-specific, model-specification language. EDEN's functional correctness and computational performance were assessed through NeuroML models available on the NeuroML-DB and Open Source Brain model repositories. In qualitative experiments, the results produced by EDEN were verified against the established NEURON simulator, for a wide range of models. At the same time, computational-performance benchmarks reveal that EDEN runs from one to nearly two orders-of-magnitude faster than NEURON on a typical desktop computer, and does so without additional effort from the user. Finally, and without added user effort, EDEN has been built from scratch to scale seamlessly over multiple CPUs and across computer clusters, when available.

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Portable exploitation of parallel and heterogeneous HPC architectures in neural simulation using SkePU

Panagiotou

Ernstsson

Ahlqvist

et al. 2020

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The complexity of modern HPC systems requires the use of new tools that support advanced programming models and offer portability and programmability of parallel and heterogeneous architectures. In this work we evaluate the use of SkePU framework in an HPC application from the neural computing domain. We demonstrate the successful deployment of the application based on SkePU using multiple back-ends (OpenMP, OpenCL and MPI) and present lessons-learned towards future extensions of the SkePU framework.

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A novel simulator for extended Hodgkin-Huxley neural networks

Panagiotou

Miedema

Sidiropoulos

et al. 2020

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EDEN: A high-performance, general-purpose, NeuroML-based neural simulator

Panagiotou

Sidiropoulos

Negrello

et al. 2021

View full text Add to dashboard Cite

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