Fast global oscillations in networks of integrate-and-fire neurons with low firing rates.Neural Computation, 11(7):1621–1671, 1999

Nicolas Brunel, Vincent Hakim · 1999

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Neuronal Spike Trains as Functional-Analytic Distributions: Representation, Analysis, and Significance

q-bio.NC · 2026-01-12 · unverdicted · novelty 7.0

Neuronal spike trains are treated as Schwartz distributions to derive exact closed-form expressions for synaptic drive and spike timing without discretization or approximation.

TIDE: Asymmetric Neural Circuits for Stabilized Temporal Inhibitory-Excitatory Dynamics

cs.LG · 2026-05-19 · unverdicted · novelty 6.0

TIDE is a neuro-inspired architecture using stabilized asymmetric E-I networks with lateral inhibition and 80:20 balance that trains in under half the time of CTM while gaining +1.65% top-1 accuracy on perturbed ImageNet.

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Neuronal Spike Trains as Functional-Analytic Distributions: Representation, Analysis, and Significance q-bio.NC · 2026-01-12 · unverdicted · none · ref 14
Neuronal spike trains are treated as Schwartz distributions to derive exact closed-form expressions for synaptic drive and spike timing without discretization or approximation.
TIDE: Asymmetric Neural Circuits for Stabilized Temporal Inhibitory-Excitatory Dynamics cs.LG · 2026-05-19 · unverdicted · none · ref 57
TIDE is a neuro-inspired architecture using stabilized asymmetric E-I networks with lateral inhibition and 80:20 balance that trains in under half the time of CTM while gaining +1.65% top-1 accuracy on perturbed ImageNet.

Fast global oscillations in networks of integrate-and-fire neurons with low firing rates.Neural Computation, 11(7):1621–1671, 1999

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