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4	4	=== Collaboratory ===
5	5
6	6	|(% style="width:30%" %)**[[Collaboratory>>url:https://wiki.ebrains.eu/bin/view/Collabs/the-collaboratory/]]**
7		-Workspaces in the Cloud for your research, development, documentation, and collaboration.
	7	+Workspaces in the Cloud for your research, development, documentation, and collaboration. |
8	8
9	9	=== Find data ===
10	10
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66	66	BluePyEfe eases the process of reading and extracting electircal features from experimental recordings.|
67	67
68	68	|(% style="width:33%" %)**[[eFEL: Electrophys Feature Extraction Library>>url:https://efel.readthedocs.io/en/latest]]**
69		-Automatically extract eFeatures from time series data recorded from neurons, both in vitro and in silico.|(% style="width:33%" %) |
	69	+Automatically extract eFeatures from time series data recorded from neurons, both in vitro and in silico.|(% style="width:33%" %)**[[Model Validation API>>https://validation.brainsimulation.eu/docs]]**
	70	+The EBRAINS Model Validation Service is a web service to support the structured validation of neuroscience models. | (% style="width:33%" %)**[[Frites>>https://brainets.github.io/frites/overview/index.html]]**(%%)
	71	+(% style="width:33%" %)Frtes is an open-source Python software to analyze neurophysiological data using information theoretical (IT) measures|
70	70
71	71	=== Simulation ===
72	72
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110	110	Insite provides a middleware that enables users to acquire data from NEST, Abror and TVB via the in-transit paradigm.|(% style="width:33%" %)**[[Subcellular model building and calibration toolset>>url:https://github.com/icpm-kth]]**
111	111	Tools for data-driven building of subcellular biochemical signaling pathway models, including interoperable modules for model building, calibration, and model analysis.|
112	112
	115	+|(% style="width:33%" %)**[[Arbor GUI>>https://github.com/arbor-sim/gui]]**
	116	+Arbor GUI is a comprehensive tool for building single cell models using Arbor. It strives to be self-contained, fast, and easy to use. |(% style="width:33%" %)**[[SSBtoolkit>>https://ssbtoolkit.readthedocs.io/en/latest/]]**
	117	+The SSB computational toolkit was developed to easily predict classical pharmacodynamic models of drug-GPCR (class A) interactions given just as input structural information of the receptor and the ligand. |(% style="width:33%" %) |(% style="width:33%" %) |
	118	+
113	113	=== Neurorobotics ===
114	114
115	115	|(% style="width:33%" %)**[[Neurorobotics Platform>>url:https://www.neurorobotics.net/Documentation/nrp/user_manual/index.html]]**
116		-The NRP supports closed-loop neuroscience and embodied AI by connecting brains and bodies in simulation.
	122	+The NRP supports closed-loop neuroscience and embodied AI by connecting brains and bodies in simulation.|
117	117
118	118	=== Medical data analytics ===
119	119
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129	129	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.|
130	130
131	131	|(% style="width:33%" %)**[[Human Intracerebral EEG Platform (HIP)>>url:https://hip-infrastructure.github.io/build/html/index.html]]**
132		-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.
	138	+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. |
133	133
134	134	=== Neuromorphic computing ===
135	135