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36	36	Elephant is an open-source Python library for the analysis of neurophysiology data, using Neo data structures.|**[[HBP Validation Framework - Python Client>>url:http://hbp-validation-client.readthedocs.io/]]**
37	37	A Python package for working with the Human Brain Project Model Validation Framework.|**[[Neo>>url:https://neo.readthedocs.io/en/stable/]]**
38	38	an object model for handling electrophysiology data in multiple formats.|
	39	+
39	39	|**[[Neo Viewer>>url:https://neo-viewer.brainsimulation.eu/]]**
40	40	Django/Angular software for graphing neural activity data (analog signals, spike trains etc.) read from Neo files.|**[[NeuroScheme>>url:https://neuroscheme-documentation.readthedocs.io/en/latest/]]**
41	41	NeuroScheme is a tool for navigating, exploring, creating and interacting with NeuroScience data using abstract, schematic or expressive representations.|**[[NeuroTessMesh>>url:https://neurotessmesh-documentation.readthedocs.io/en/latest/]]**
42	42	A Tool for the Generation and Visualization of Neuron Meshes and Adaptive On-the-Fly Refinement|
	44	+
43	43	|**[[Nutil>>url:https://wiki.ebrains.eu/bin/view/Collabs/quint]]**
44	44	Nutil aims to both simplify and streamline the mechanism of pre-and-post processing 2D brain image data from mouse and rat.|**[[ViSimpl>>url:https://visimpl-documentation.readthedocs.io/en/latest/]]**
45	45	ViSimpl integrates a set of visualization and interaction tools that provide a multi-view visual analysis of brain simultation data.|**[[ilastik>>url:http://ilastik.org/documentation/index.html]]**
46	46	ilastik is a simple, user-friendly tool for interactive image classification, segmentation and analysis.|
	49	+
47	47	|**[[Brain-cockpit>>url:https://alexisthual.github.io/brain-cockpit/]]**
48		-Web-based application to explore large fMRI datasets and inter-subject alignments.
	51	+Web-based application to explore large fMRI datasets and inter-subject alignments.|**[[Cobrawap>>url:https://cobrawap.readthedocs.io/]]**
	52	+Cobrawap is a Python-based, adaptable, and reusable pipeline for analyzing cortical wave activity.|**[[Viziphant>>url:https://viziphant.readthedocs.io/en/latest/index.html]]**
	53	+Viziphant provides an easy way to generate plots and interactive visualizations of neuroscientific data and analysis results|
49	49
50	50	=== Simulation ===
51	51
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75	75	"The Virtual Brain" Project (TVB Project) has the purpose of offering modern tools to the Neurosciences community, for computing, simulating and analyzing functional and structural data of human brains, brains modeled at the level of population of neurons.|
76	76
77	77	|**[[The Virtual Brain Web-App>>url:http://docs.thevirtualbrain.org/]]**
78		-The Virtual Brain Web App at HBP.|**[[NeuroR>>url:https://elephant.readthedocs.io/en/latest/index.html]]**
79		-NeuroR is a collection of tools to repair morphologies.|**[[Local Field Potentials in Python>>url:https://lfpy.readthedocs.io/]]**
	83	+The Virtual Brain Web App at HBP.|**[[NeuroR>>url:https://neuror.readthedocs.io/]]**
	84	+NeuroR is a collection of tools to repair morphologies.|**[[LFPy>>url:https://lfpy.readthedocs.io/]]**
80	80	LFPy is a Python module for the calculation of extracellular potentials and magnetic signals from activity in multicompartment neuron and network models.|
81	81
82	82	|**[[Snudda>>url:https://github.com/Hjorthmedh/Snudda/wiki]]**
83		-Snudda is a tool that allows the user to place neurons within multiple volumes, then performs touch detection to infer where putative synapses are based on reconstructed neuron morphologies.
	88	+Snudda is a tool that allows the user to place neurons within multiple volumes, then performs touch detection to infer where putative synapses are based on reconstructed neuron morphologies.|**[[BlueNaaS-Subcellular>>url:https://subcellular-bsp-epfl.apps.hbp.eu/static/docs.html]]**
	89	+BlueNaaS-Subcellular is designed as a web based environment for the creation and simulation of reaction-diffusion models.|
84	84
	91	+|**[[libsonata>>url:https://libsonata.readthedocs.io/en/stable/]]**
	92	+A C++ / Python API for reading SONATA circuit files.| | |
	93	+
85	85	=== Neurorobotics ===
86	86
87	87	|**[[Neurorobotics Platform>>url:https://www.neurorobotics.net/Documentation/nrp/user_manual/index.html]]**
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97	97
98	98	|**[[ImaGIN>>url:https://wiki.ebrains.eu/bin/view/Collabs/quicknii-and-visualign]]**
99	99	SPM-based Matlab toolbox for processing intracranial EEG recordings (SEEG and ECOG).|**[[IntranAt Electrodes>>url:https://intranat.readthedocs.io/]]**
100		-A software to visualize electrodes implantation on image data and prepare database for group studies.
	109	+A software to visualize electrodes implantation on image data and prepare database for group studies.|**[[Medical Informatics Platform (MIP)>>url:https://github.com/HBPMedical/mip-docs]]**
	110	+The MIP is an open-source platform enabling federated data analysis in a secure environment for centers interested in initiating or joining disease-oriented federations with the aim of analyzing large-scale distributed clinical datasets.|
101	101
	112	+|**[[Human Intracerebral EEG Platform (HIP)>>url:https://hip-infrastructure.github.io/build/html/index.html]]**
	113	+The HIP is a state-of-the-art open-source platform, offering integrated tools and workflows for optimized collection, storage, sharing, processing and analysis of multiscale Human intracerebral EEG data.
	114	+
102	102	=== Neuromorphic computing ===
103	103
104	104	|**[[BrainScaleS>>url:https://wiki.ebrains.eu/bin/view/Collabs/neuromorphic/BrainScaleS/]]**