<p><b>A</b>: Scatter plot of the mean outgoing synaptic weight after synaptic plasticity versus node degrees of excitatory cells for one network realization. Dashed lines denote corresponding means. <b>B</b>: Probabilities of excitatory cells to belong to the driver group, computed by sampling <i>N</i> = 1000 network realizations with fixed topology but different input. Descendingly sorted by probability. <b>C-E</b>: Statistics of connectivity of driver cells and a group of 20 randomly sampled non-driver cells. <b>C</b>: Distributions of the strengths of outgoing synapses, <b>D</b>: Inhibitory in-degree, <b>E</b>: Efficacies of incoming inhibitory synapses. Bars denote average over 1000 trials, whiskers indicate standard deviation.</p
<p><b>A</b>, The expected (black) and observed (red) frequencies of neuron groups are plotted for gi...
<p>(A) Network architecture with 21×6 inputs and 7×3 network neurons. The green, red and blue neuron...
<p>Each dot represents a synaptic weight on a linear scale such that white and black correspond to 0...
<p><b>A</b>, An example of connectivity matrix for 80 excitatory neurons containing a single cluster...
<p>Each dot represents one excitatory cell. Driver cells are shown in red, others in gray. Dashed re...
<p><b>A:</b> Schematic of an assembly <i>i</i> consisting of an excitatory (<i>E</i><sub><i>i</i></s...
<p>(<b>A</b>) TE p-value histogram for real and randomized data. Real data show many more pairs of n...
<p><b>(A)</b> Initial connectivity matrix of the random network. Each excitatory neuron is connected...
<p>Each neuron in population receives randomly drawn excitatory inputs with weight , randomly dra...
<p><b>A</b>: Illustration of the network architecture. A WTA circuit consisting of ten neurons <b>z<...
<p>(<b>A</b>) Comparison of connectivity statistics from Cx3D simulations (blue) with experimental d...
(a) The demonstration network consists of populations of excitatory (red dots), inhibitory (blue dot...
<p><b>A</b>: Distribution of firing rates of excitatory neurons. The magenta line shows a log-normal...
<p>(a) Black circles: minimum observed ISI for each active cell in network simulations of different ...
(A) An example of the rich-club connectivity among high total degree (k > 600) excitatory neurons (r...
<p><b>A</b>, The expected (black) and observed (red) frequencies of neuron groups are plotted for gi...
<p>(A) Network architecture with 21×6 inputs and 7×3 network neurons. The green, red and blue neuron...
<p>Each dot represents a synaptic weight on a linear scale such that white and black correspond to 0...
<p><b>A</b>, An example of connectivity matrix for 80 excitatory neurons containing a single cluster...
<p>Each dot represents one excitatory cell. Driver cells are shown in red, others in gray. Dashed re...
<p><b>A:</b> Schematic of an assembly <i>i</i> consisting of an excitatory (<i>E</i><sub><i>i</i></s...
<p>(<b>A</b>) TE p-value histogram for real and randomized data. Real data show many more pairs of n...
<p><b>(A)</b> Initial connectivity matrix of the random network. Each excitatory neuron is connected...
<p>Each neuron in population receives randomly drawn excitatory inputs with weight , randomly dra...
<p><b>A</b>: Illustration of the network architecture. A WTA circuit consisting of ten neurons <b>z<...
<p>(<b>A</b>) Comparison of connectivity statistics from Cx3D simulations (blue) with experimental d...
(a) The demonstration network consists of populations of excitatory (red dots), inhibitory (blue dot...
<p><b>A</b>: Distribution of firing rates of excitatory neurons. The magenta line shows a log-normal...
<p>(a) Black circles: minimum observed ISI for each active cell in network simulations of different ...
(A) An example of the rich-club connectivity among high total degree (k > 600) excitatory neurons (r...
<p><b>A</b>, The expected (black) and observed (red) frequencies of neuron groups are plotted for gi...
<p>(A) Network architecture with 21×6 inputs and 7×3 network neurons. The green, red and blue neuron...
<p>Each dot represents a synaptic weight on a linear scale such that white and black correspond to 0...