[CITATION][C] Energy-efficient neuronal computation via quantal synaptic failures
WB Levy, RA Baxter - The Journal of Neuroscience, 2002 - Soc Neuroscience
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[PDF][PDF] Energy-Efficient Neuronal Computation via Quantal Synaptic Failures
WB Levy, RA Baxter - The Journal of Neuroscience, 2002 - researchgate.net
Organisms evolve as compromises, and many of these compromises can be expressed in
terms of energy efficiency. For example, a compromise between rate of information
processing and the energy consumed might explain certain neurophysiological and ...
terms of energy efficiency. For example, a compromise between rate of information
processing and the energy consumed might explain certain neurophysiological and ...
[PDF][PDF] Energy-Efficient Neuronal Computation via Quantal Synaptic Failures
WB Levy, RA Baxter - The Journal of Neuroscience, 2002 - faculty.virginia.edu
Organisms evolve as compromises, and many of these compromises can be expressed in
terms of energy efficiency. For example, a compromise between rate of information
processing and the energy consumed might explain certain neurophysiological and ...
terms of energy efficiency. For example, a compromise between rate of information
processing and the energy consumed might explain certain neurophysiological and ...
[PDF][PDF] Energy-Efficient Neuronal Computation via Quantal Synaptic Failures
WB Levy, RA Baxter - The Journal of Neuroscience, 2002 - pdfs.semanticscholar.org
Organisms evolve as compromises, and many of these compromises can be expressed in
terms of energy efficiency. For example, a compromise between rate of information
processing and the energy consumed might explain certain neurophysiological and ...
terms of energy efficiency. For example, a compromise between rate of information
processing and the energy consumed might explain certain neurophysiological and ...
Energy-efficient neuronal computation via quantal synaptic failures.
WB Levy, RA Baxter - The Journal of neuroscience: the official …, 2002 - europepmc.org
Organisms evolve as compromises, and many of these compromises can be expressed in
terms of energy efficiency. For example, a compromise between rate of information
processing and the energy consumed might explain certain neurophysiological and ...
terms of energy efficiency. For example, a compromise between rate of information
processing and the energy consumed might explain certain neurophysiological and ...
Energy-Efficient Neuronal Computation via Quantal Synaptic Failures
WB Levy, RA Baxter - The Journal of Neuroscience, 2002 - Soc Neuroscience
Abstract Organisms evolve as compromises, and many of these compromises can be
expressed in terms of energy efficiency. For example, a compromise between rate of
information processing and the energy consumed might explain certain ...
expressed in terms of energy efficiency. For example, a compromise between rate of
information processing and the energy consumed might explain certain ...
Energy-efficient neuronal computation via quantal synaptic failures
WB LEVY, RA BAXTER - The Journal of neuroscience, 2002 - cat.inist.fr
Résumé/Abstract Organisms evolve as compromises, and many of these compromises can
be expressed in terms of energy efficiency. For example, a compromise between rate of
information processing and the energy consumed might explain ...
be expressed in terms of energy efficiency. For example, a compromise between rate of
information processing and the energy consumed might explain ...
Energy-efficient neuronal computation via quantal synaptic failures.
WB Levy, RA Baxter - The Journal of neuroscience: the official …, 2002 - ncbi.nlm.nih.gov
Organisms evolve as compromises, and many of these compromises can be expressed in
terms of energy efficiency. For example, a compromise between rate of information
processing and the energy consumed might explain certain neurophysiological and ...
terms of energy efficiency. For example, a compromise between rate of information
processing and the energy consumed might explain certain neurophysiological and ...
