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30 research outcomes, page 1 of 3
  • software . 2017
    Open Source
    Authors:
    Wierstorf, Hagen; Winter, Fiete; Rettberg, Till; Erbes, Vera; Hahn, Nara; Schultz, Frank; Hold, Christoph; Spors, Sascha;
    Publisher: Zenodo
    Project: EC | TWO!EARS (618075)

    <p>The Sound Field Synthesis Toolbox (SFS) for Matlab/Octave gives you the possibility to play around with sound field synthesis methods like Wave Field Synthesis (WFS) or near-field compensated Higher Order Ambisonics (NFC-HOA). There are functions to simulate monochro...

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  • software . 2015
    Open Source
    Authors:
    Winter, Fiete; May, Tobias; Wierstorf, Hagen;
    Persistent Identifiers
    Publisher: Zenodo
    Project: EC | TWO!EARS (618075)

    <p>Binaural Simulator module of the Two!Ears Auditory Model.<br /> It can be used as the ear signal generation stage of the Two!Ears Auditory Model or as a standalone application allowing you to create binaural signals for complex acoustic scenes.</p>

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  • software . 2017
    Open Source
    Authors:
    A G D Rowley; A B Stokes; J Knight; D R Lester; M Hopkins; S Davies; A Rast; P Bogdan; S Davidson; D K Fellows; ...
    Publisher: Zenodo
    Project: EC | HBP (604102)

    <p>A release of the software which enables the execution of general applications through the use of&nbsp;python scripts on the SpiNNaker Neuromorphic hardware platform.</p>

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  • software . 2014
    Open Source
    Authors:
    Plana, L.A.; Heathcote, J.; Pepper, J.S.; Davidson, S.; Garside, J.; Temple, S.; Furber, S.B.;
    Publisher: Zenodo
    Project: EC | BRAINSCALES (269921), EC | BIMPC (320689), EC | HBP (604102)

    <p><strong>SpiNNaker</strong> is a massively-parallel machine designed for very-large scale neural net simulation in real time. SpiNNaker systems are based on multi-core SpiNNaker chips, which contain 18 energy-efficient ARM cores and a bespoke communications infrastruc...

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  • software . 2015
    Open Source
    Authors:
    Shen, Mao-Lin;
    Publisher: Zenodo
    Project: EC | STERCP (648982), EC | SUMO (266722), EC | STEPS (304243)

    <p>Training software for building supermodel by using Nelder&ndash;Mead method.</p> <p>(This version has been frozen long time ago. Here we use paper submitted date as the publication date of this release)</p>

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  • software . 2020
    Open Source English
    Authors:
    Schmidt, Maximilian; Jordan, Jakob;
    Publisher: Zenodo
    Project: EC | HBP SGA2 (785907), EC | HBP SGA1 (720270), EC | HBP (604102)

    <p>This library implements Cartesian genetic programming (e.g, Miller and Thomson, 2000; Miller, 2011) for symbolic regression in pure Python, targeting applications with expensive fitness evaluations. It provides Python data structures to represent and evolve two-dimen...

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  • software . 2017
    Open Source
    Authors:
    Bart Jacobs (editor);
    Persistent Identifiers
    Publisher: Zenodo
    Project: EC | STANCE (317753), EC | VESSEDIA (731453), EC | ADVENT (308830)

    <p>Research prototype tool for modular formal verification of C and Java programs</p> <p>By Bart Jacobs*, Jan Smans*, and Frank Piessens*, with contributions by Pieter Agten*, Cedric Cuypers*, Lieven Desmet*, Jan Tobias Muehlberg*, Willem Penninckx*, Pieter Philippaerts...

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  • software . 2020
    Open Source
    Authors:
    Anonymous;
    Persistent Identifiers
    Publisher: Zenodo
    Project: EC | PLANTOID (293431)

    <p>The work provides a computational model to reproduce the behavior of plant roots to shed light on the conditions for the emergence of oscillatory growth patterns followed by the root tip. To date, the role and mechanisms responsible for such movements are still uncle...

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  • software . 2020
    Open Source
    Authors:
    Jordan, Jakob; Helias, Moritz; Diesmann, Markus; Kunkel, Susanne;
    Publisher: Zenodo
    Project: EC | HBP SGA2 (785907), EC | HBP SGA1 (720270), EC | DEEP-EST (754304), EC | HBP (604102)

    <p>This repository contains simulation and analysis scripts, recorded data and source files for the corresponding NEST versions used in Jordan J, Helias M, Diesmann M and Kunkel S (2020) Efficient Communication in Distributed Simulations of Spiking Neuronal Networks Wit...

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  • software . 2019
    Open Access English
    Authors:
    Lazaar, Nadjib; Bessière, Christian; C. Tsouros, Dimosthenis; Lee, Teddy;
    Publisher: HAL CCSD
    Project: EC | ICON (284715)
30 research outcomes, page 1 of 3