This work was supported by funding from the ETH Domain for the Blue Brain Project and the Laboratory of Neural Microcircuitry. The Blue Brain Project's IBM BlueGene/Q system, BlueBrain IV, is funded by the ETH Board and hosted at the Swiss National Supercomputing Center (CSCS). MS was supported by the NCCR Synapsy grant of the Swiss National Science Foundation. Partial support for PD was provided by the GUDHI project, supported by an Advanced Investigator Grant of the European Research Council and hosted by INRIA. We thank Eilif Muller for providing input on the analysis, Magdalena Kedziorek for help with proving maximality in directed cliques, Gard Spreemann for help with the analysis of the C. elegans connectome, and Taylor H. Newton for ...
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Mapping synaptic connections and projections is crucial for understanding brain dynamics and functio...
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Mapping the brain imaging data to networks, where nodes represent anatomical brain regions and edges...
Understanding the computations that take place in neural circuits requires identifying how neurons i...
The brain is a prime example of a complex network. The nodes are comprised of neurons and linked thr...
Experimentally mapping synaptic connections, in terms of the numbers and locations of their synapses...
Brain is a part of the organism’s complex structure that performs many functions, which are responsi...
International audienceThe lack of a formal link between neural network structure and its emergent fu...
International audienceThe appropriate function of the nervous system relies on precise patterns of c...
International audienceStructure–function studies of neuronal networks have recently benefited from c...
The modular organization of networks of individual neurons interwoven through synapses has not been ...
A recent publication provides the network graph for a neocortical microcircuit comprising 8 million ...
Neural computation in biological and artificial networks relies on the nonlinear summation of many i...
If “the connectome” represents a complete map of anatomical and functional connectivity in the brain...
SummaryThe new field of connectomics aims to obtain fine-grained anatomical connectivity data for ve...
Mapping synaptic connections and projections is crucial for understanding brain dynamics and functio...
Many kinds of complex systems exhibit characteristic patterns of temporal correlations that emerge a...
Mapping the brain imaging data to networks, where nodes represent anatomical brain regions and edges...
Understanding the computations that take place in neural circuits requires identifying how neurons i...
The brain is a prime example of a complex network. The nodes are comprised of neurons and linked thr...
Experimentally mapping synaptic connections, in terms of the numbers and locations of their synapses...
Brain is a part of the organism’s complex structure that performs many functions, which are responsi...