Coarse wiring statistics set the dynamical regime while precise connections set activity geometry in a parameter-free model of the complete larval Drosophila connectome.
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3 Pith papers cite this work. Polarity classification is still indexing.
years
2026 3verdicts
UNVERDICTED 3representative citing papers
Analysis of 34 real networks shows real interaction strengths organize functional memory at greater hierarchical depth than random weights, collapsing onto four recurrent dynamical organizations with weight geometry as the primary driver.
Pre-registered multilayer network tests across seven substrates show betweenness-based hub persistence recovers expert-described logic structures better than degree, with confirmed correlations in ISCAS85 and Lean mathlib4.
citing papers explorer
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Separating wiring-specific from statistical control of dynamics in a complete connectome
Coarse wiring statistics set the dynamical regime while precise connections set activity geometry in a parameter-free model of the complete larval Drosophila connectome.
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Weight geometry governs functional memory in complex systems
Analysis of 34 real networks shows real interaction strengths organize functional memory at greater hierarchical depth than random weights, collapsing onto four recurrent dynamical organizations with weight geometry as the primary driver.
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Topology as Logic: Structural Role Geometry Across Formal, Software, Biological, and Prebiotic Systems
Pre-registered multilayer network tests across seven substrates show betweenness-based hub persistence recovers expert-described logic structures better than degree, with confirmed correlations in ISCAS85 and Lean mathlib4.