Julian Göltz

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Citazioni	311	310
Indice H	6	6
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Sebastian BillaudelleEmail verificata su kip.uni-heidelberg.de
Johannes SchemmelHeidelberg UniversityEmail verificata su kip.uni-heidelberg.de
Laura KrienerPostdoctoral Researcher, University of BernEmail verificata su unibe.ch
Oliver BreitwieserDr. rer. nat., Heidelberg UniversityEmail verificata su kip.uni-heidelberg.de
Akos F. KunglCarl Zeiss SMTEmail verificata su zeiss.com
Dominik DoldResearch Fellow, ESA ESTECEmail verificata su esa.int
Walter SennUniversität BernEmail verificata su unibe.ch
Eric MüllerRuprecht-Karls-Universität HeidelbergEmail verificata su kip.uni-heidelberg.de
Christian PehleNeuroAI Scholar, Cold Spring Harbor LaboratoryEmail verificata su cshl.edu
Yannik StradmannKirchhoff-Institute for Physics, Heidelberg UniversityEmail verificata su kip.uni-heidelberg.de
Mihai A. PetroviciGroup Leader, NeuroTMA Lab, University of BernEmail verificata su unibe.ch

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Julian Göltz

PhD Student, Heidelberg University and University of Bern

Email verificata su kip.uni-heidelberg.de - Home page

Computational Neuroscience Machine Learning Brain-Inspired Computing Deep Learning Theoretical Neuroscience


Titolo Ordina per citazioni Ordina per anno Ordina per titolo	Citata da Citata da	Anno
Fast and energy-efficient neuromorphic deep learning with first-spike times J Göltz, L Kriener, A Baumbach, S Billaudelle, O Breitwieser, B Cramer, ... Nature Machine Intelligence 3 (9), 823-835, 2021	96	2021
Visualizing a joint future of neuroscience and neuromorphic engineering F Zenke, SM Bohté, C Clopath, IM Comşa, J Göltz, W Maass, ... Neuron 109 (4), 571-575, 2021	69	2021
Versatile emulation of spiking neural networks on an accelerated neuromorphic substrate S Billaudelle, Y Stradmann, K Schreiber, B Cramer, A Baumbach, D Dold, ... 2020 IEEE International Symposium on Circuits and Systems (ISCAS), 1-5, 2020	53	2020
Fast and deep: energy-efficient neuromorphic learning with first-spike times J Göltz, L Kriener, A Baumbach, S Billaudelle, O Breitwieser, B Cramer, ... arXiv preprint arXiv:1912.11443, 2019	50*	2019
A scalable approach to modeling on accelerated neuromorphic hardware E Müller, E Arnold, O Breitwieser, M Czierlinski, A Emmel, J Kaiser, ... Frontiers in neuroscience 16, 884128, 2022	19	2022
The yin-yang dataset L Kriener, J Göltz, MA Petrovici Proceedings of the 2022 Annual Neuro-Inspired Computational Elements …, 2022	18	2022
Training deep networks with time-to-first-spike coding on the brainscales wafer-scale system J Göltz Masterarbeit, Universität Heidelberg, April, 2019	5	2019
Fast and Energy-efficient deep Neuromorphic Learning J Göltz, L Kriener, V Sabado, MA Petrovici ERCIM News, 17, 2021	1	2021
Lu. i--A low-cost electronic neuron for education and outreach Y Stradmann, J Göltz, MA Petrovici, J Schemmel, S Billaudelle arXiv preprint arXiv:2404.16664, 2024		2024
Gradient-based methods for spiking physical systems J Göltz, S Billaudelle, L Kriener, L Blessing, C Pehle, E Müller, ... arXiv preprint arXiv:2309.10823, 2023		2023

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