ACnet23 primary auditory cortex model (Beeman et al 2019)


Beeman D, Yu A, Crone J. (2019). Studying evoked potentials in large cortical networks with PGENESIS 2.4 BMC Neuroscience. 20 Suppl 1

See more from authors: Beeman D · Yu A · Crone J

References and models cited by this paper

Kudela P, Boatman-Reich D, Beeman D, Anderson WS. (2018). Modeling Neural Adaptation in Auditory Cortex. Frontiers in neural circuits. 12 [PubMed]

Sivagnanam S et al. (2015). Early experiences in developing and managing the neuroscience gateway. Concurrency and computation : practice & experience. 27 [PubMed]

Yu A, Crone J, Boothe D, Olie K, Franaszczuk P. (2018). Time step sensitivity in large scale compartmental models of the neocortex BMC Neurosci. 19 Suppl 2

References and models that cite this paper

Crone JC et al. (2019). Enabling Large-Scale Simulations With the GENESIS Neuronal Simulator Frontiers in Neuroinformatics. 13

See more from authors: Crone JC · Vindiola MM · Yu AB · Boothe DL · Beeman D · Oie KS · Franaszczuk PJ

References and models cited by this paper

Arkhipov A et al. (2018). Visual physiology of the layer 4 cortical circuit in silico. PLoS computational biology. 14 [PubMed]

Bhalla US, Bilitch DH, Bower JM. (1992). Rallpacks: a set of benchmarks for neuronal simulators. Trends in neurosciences. 15 [PubMed]

Boothe DL et al. (2017). Impact of Neuronal Membrane Damage on the Local Field Potential in a Large-Scale Simulation of Cerebral Cortex. Frontiers in neurology. 8 [PubMed]

Bower JM, Beeman D. (1998). The Book Of Genesis: Exploring Realistic Neural Models With The General Neural Simulation System.

Casali S, Marenzi E, Medini C, Casellato C, D'Angelo E. (2019). Reconstruction and Simulation of a Scaffold Model of the Cerebellar Network. Frontiers in neuroinformatics. 13 [PubMed]

De Schutter E, Bower JM. (1994). An active membrane model of the cerebellar Purkinje cell. I. Simulation of current clamps in slice. Journal of neurophysiology. 71 [PubMed]

Denker M, Timme M, Diesmann M, Wolf F, Geisel T. (2004). Breaking synchrony by heterogeneity in complex networks. Physical review letters. 92 [PubMed]

Diesmann M, Gewaltig M-O. (2007). NEST (Neural Simulation Tool) Scholarpedia. 2

Eliasmith C et al. (2012). A large-scale model of the functioning brain. Science (New York, N.Y.). 338 [PubMed]

Eppler JM, Helias M, Muller E, Diesmann M, Gewaltig MO. (2008). PyNEST: A Convenient Interface to the NEST Simulator. Frontiers in neuroinformatics. 2 [PubMed]

Et AL et al. (2012). Compass: a scalable simulator for an architecture for cognitive computing International Conference for High Performance Computing, Networking, Storage and Analysis (SC12) (Salt Lake City, UT).

Et AL et al. (2012). 1014. IBM Research Report.

Fan X, Markram H. (2019). A Brief History of Simulation Neuroscience. Frontiers in neuroinformatics. 13 [PubMed]

Gleeson P et al. (2010). NeuroML: a language for describing data driven models of neurons and networks with a high degree of biological detail. PLoS computational biology. 6 [PubMed]

Golomb D, Hansel D. (2000). The number of synaptic inputs and the synchrony of large, sparse neuronal networks. Neural computation. 12 [PubMed]

Golomb D, Rinzel J. (1993). Dynamics of globally coupled inhibitory neurons with heterogeneity. Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics. 48 [PubMed]

Greengard L, Rokhlin V, Carrier J. (1988). A fast adaptive multipole algorithm for particle simulations SIAM J. Sci. Statist. Comput.. 9

Hines M. (1984). Efficient computation of branched nerve equations. International journal of bio-medical computing. 15 [PubMed]

Hines ML, Carnevale NT. (1997). The NEURON simulation environment. Neural computation. 9 [PubMed]

Hines ML, Davison AP, Muller E. (2009). NEURON and Python. Frontiers in neuroinformatics. 3 [PubMed]

Izhikevich EM, Edelman GM. (2008). Large-scale model of mammalian thalamocortical systems. Proceedings of the National Academy of Sciences of the United States of America. 105 [PubMed]

Jordan J et al. (2018). Extremely Scalable Spiking Neuronal Network Simulation Code: From Laptops to Exascale Computers. Frontiers in neuroinformatics. 12 [PubMed]

Kudela P, Anderson WS. (2015). Computational Modeling of Subdural Cortical Stimulation: A Quantitative Spatiotemporal Analysis of Action Potential Initiation in a High-Density Multicompartment Model. Neuromodulation : journal of the International Neuromodulation Society. 18 [PubMed]

Kudela P, Boatman-Reich D, Beeman D, Anderson WS. (2018). Modeling Neural Adaptation in Auditory Cortex. Frontiers in neural circuits. 12 [PubMed]

Kumbhar P et al. (2019). CoreNEURON : An Optimized Compute Engine for the NEURON Simulator. Frontiers in neuroinformatics. 13 [PubMed]

Lengler J, Jug F, Steger A. (2013). Reliable neuronal systems: the importance of heterogeneity. PloS one. 8 [PubMed]

London M, Roth A, Beeren L, Häusser M, Latham PE. (2010). Sensitivity to perturbations in vivo implies high noise and suggests rate coding in cortex. Nature. 466 [PubMed]

Lytton WW et al. (2016). Simulation Neurotechnologies for Advancing Brain Research: Parallelizing Large Networks in NEURON. Neural computation. 28 [PubMed]

Markram H et al. (2015). Reconstruction and Simulation of Neocortical Microcircuitry. Cell. 163 [PubMed]

McDougal RA, Bulanova AS, Lytton WW. (2016). Reproducibility in Computational Neuroscience Models and Simulations. IEEE transactions on bio-medical engineering. 63 [PubMed]

McDougal RA et al. (2017). Twenty years of ModelDB and beyond: building essential modeling tools for the future of neuroscience. Journal of computational neuroscience. 42 [PubMed]

Shuo C, Goertzel B, Ruiting L, Degaris H. (2010). A world survey of artificial brain projects, Part I: Large-scale brain simulations Neurocomputing. 74

Sporns O, Betzel RF. (2016). Modular Brain Networks. Annual review of psychology. 67 [PubMed]

Traub RD et al. (2005). Single-column thalamocortical network model exhibiting gamma oscillations, sleep spindles, and epileptogenic bursts. Journal of neurophysiology. 93 [PubMed]

Tsodyks M, Mitkov I, Sompolinsky H. (1993). Pattern of synchrony in inhomogeneous networks of oscillators with pulse interactions. Physical review letters. 71 [PubMed]

Zhang Y, Nishikawa T, Motter AE. (2017). Asymmetry-induced synchronization in oscillator networks. Physical review. E. 95 [PubMed]

References and models that cite this paper
This website requires cookies and limited processing of your personal data in order to function. By continuing to browse or otherwise use this site, you are agreeing to this use. See our Privacy policy and how to cite and terms of use.