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# Tripartite Synapse — Pseudocode v15
> Companion: `tripartite_synapse_v15_biology.md` · principle: `logic_principles_v3`.
> Changes from v14:
> (1) NIGHT is distributed into each component (a `NIGHT |` block per component),
> no longer a monolithic stand-alone section
> (2) NIGHT is ITERATED: a loop of cycles; each cycle every component runs the seven-group
> grammar on the slow tier with the flow REVERSED (RECEIVE material from producer,
> BEHAVE commit ceilings from own tags/needs, EMIT material to consumers)
> (3) DAY is bottom-up (evidence ascends, leaves-first); NIGHT is top-down (capacity
> descends, roots-first) — the directionality emerges from iterating local cycles
> (4) NIGHT terminates emergently: demand exhausted (no tag stands) OR supply spent
> (night energy used up); unspent tags CARRY to the next night
> (5) NIGHT produces AND spends energy+material each cycle (material recyclable, energy not);
> tags are consumed by commitment (tag-as-fuel)
> (6) genuinely cross-component NIGHT ops (coherence, homeostatic scaling) are a small shared coda
---
## Functional groups (seven-group grammar)
```
RECEIVE take in resources + signals that arrived from outside (boundary: in)
TRACE maintain the trace hierarchy — deposit fast trace; accumulate
possible_tag + endurance_need; stabilize tag on coincidence
ADJUST compute local operating parameters from structure + traces + modulators
BEHAVE the component's defining action, within both ceilings
EMIT send out — signals (messages) + resources (shipments) (boundary: out)
RECOVER refill own private pools consumed by behaving
DECAY let traces recede, closing their windows
```
EVALUATE merged into TRACE: judging a behavior is always maintaining a trace, whether or not
a trace is written. BEHAVE and EMIT stay separate — EMIT is the output half of the locality
interface (RECEIVE/EMIT are the only boundary crossings). TRACE spans all timescales: the
soma's inactivation, adaptation, and nuclear-Ca deposits are all TRACE. Order within a context
follows data dependencies; TRACE reads/writes whatever trace state is current.
EVERY FLOW HAS A TIMESCALE. Decay relaxes toward 0 over τ; creation/arrival relaxes toward a
target over τ — the same first-order operator. Within-step writes are the special case τ ≪ Δt.
Rate-limited inflows (fill/refill/flux·Δt) carry their τ implicitly; shipment carries an
explicit transit delay (see `transit`).
THE GROUPS MOVE BETWEEN TIERS (the ladder; see logic_principles "The Timescale Ladder").
Four tiers: FAST (mss) · MEDIUM (smin) · SLOW (hr) · PERSISTENT (NIGHT-written). The groups
move evidence UP the ladder and read capacity DOWN it:
```
ADJUST reads PERSISTENT ceiling + FAST trace → sets this step's operating point (down)
BEHAVE acts at FAST, bounded by the PERSISTENT ceiling (down)
TRACE deposits FAST, accumulates FAST→MEDIUM evidence, stabilizes MEDIUM→SLOW tag (up)
RECOVER refills toward the PERSISTENT ceiling (down)
DECAY relaxes FAST · MEDIUM · SLOW (PERSISTENT never decays in DAY)
NIGHT commits SLOW tag + MEDIUM endurance_need → PERSISTENT ceilings (up)
```
Capacity flows downward (slow sets the ceiling for fast); evidence flows upward (fast
accumulates toward slow). Each component's DECAY group below is banded by tier to show this.
NIGHT IS THE SAME GRAMMAR, ITERATED, WITH THE FLOW REVERSED. NIGHT is not a separate section —
each component carries a `NIGHT |` block, and a driver loops all blocks for cycle = 1,2,3…
until the night ends. DAY runs bottom-up (consumers act first, evidence ascends leaves→roots);
NIGHT runs top-down (producers act first, capacity descends roots→leaves). Per cycle, each
component:
```
RECEIVE take in the material + energy batch that arrived from my producer this cycle
TRACE read my own tag / endurance_need (the standing demand)
ADJUST size this cycle's commit from material + energy actually on hand
BEHAVE commit a BATCH: structure += Δ (from tag) ; budget_ceiling += Δ' (from need)
spend material + energy ; SPEND the tag/need by the committed amount (tag-as-fuel)
EMIT ship a batch of material + energy one hop down to my consumers (demand-weighted)
RECOVER reclaim material from any ceiling that decayed this cycle (energy is NOT recovered)
DECAY unmaintained ceilings drift down a little; tags decay a little
```
Roots (SOMA, ASTRO cell body) PRODUCE the batch each cycle (RECEIVE = production, capped by
glucose / CREB). The night ends when DEMAND is exhausted (no tag stands above tag_expiry,
system-wide) OR SUPPLY is spent (the night's energy throughput is used up) — whichever first.
Unspent tags are NOT cleared; they carry to the next DAY and compete again next NIGHT. The
top-down order needs no schedule: iterating the local cycle delivers capacity to distal sites
over successive cycles, as transport physically does.
---
## Conventions
```
SCOPE = {DAY, NIGHT} CONTEXT = {AP, NOT_AP, bAP, NOT_bAP, CONTINUOUS}
VARIABLE TIERS (timescale = meaning; see logic_principles "The Timescale Ladder")
FAST (mss) immediate response fast_trace
MEDIUM (smin) occupancy + evidence possible_tag · endurance_need · VGCC_active · AMPA_surface · RRP
SLOW (hr) consolidation bridge tag
─────────────────────────────────────────────────────────────────────────────
PERSISTENT (NIGHT) capacity (the ceilings) structure · budget_ceiling
energy (not recoverable) · material (recoverable)
DAY budget · fast_trace · possible_tag · endurance_need
BRIDGE tag (POST: CANDIDATE→STABLE)
NIGHT energy (not recoverable) · material (recoverable) · structure · budget_ceiling
LOCALITY only local state + arrived signals; no component reads another's internal state.
CLEFT MESSAGE CHANNELS SHIPMENT CHANNELS (transit-delayed)
glutamate PRE → POST, ASTRO soma_ship_dend SOMA→DEND
astro_Dserine ASTRO → POST soma_ship_axon SOMA→AXON
retro_NO POST → PRE (+) dend_ship_post DEND→POST
retro_eCB POST → PRE () axon_ship_pre AXON→PRE
```
---
## Primitives (return the increment; caller applies it)
```
sat(x, K) = x / (K + x)
fill(pool, ceiling, rate, cost, budget) -> amount: // PRIVATE reserve, rate-limited (implicit τ)
amount = min(rate, ceiling - pool)·Δt; budget -= amount·cost; return amount
refill(c from supply S) -> amount: // CONTESTED supply, gap-bounded
demand = c.budget_ceiling - c.budget
factor = min(1, S / (Σ demand over components on S + ε)); S -= demand·factor
return demand·factor
ship(from_budget, demand_sig, frac, cost) -> amount: // emit into transit (not to target directly)
amount = min(from_budget·frac, demand_sig); from_budget -= amount·(1+ship_cost); return amount
transit(channel, τ_transport) -> arrival: // delivers in-transit cargo over τ
arrival = channel·(Δt/τ_transport); channel -= arrival; return arrival
```
---
## SHARED parameters
```
dopamine NE ACh // organism broadcasts (external)
glucose geometry // physical (external)
elig dop_thr tag_thr tag_expiry // strength gates (universal)
traj_thr endur_thr // endurance gates (universal)
ship_cost // transport overhead (all shipments)
{dend,axon,pre,post}_ship_frac // DAY budget-shipment fractions
τ_transport_{dend,axon,spine,bouton} // shipment transit times (distance-dependent)
ε
```
## NIGHT parameters (consolidation only)
```
slot_batch cap_batch f_cap // per-CYCLE commit sizes / endurance fraction
night_energy_ceiling // total energy a single night can spend (supply bound)
Δt_cycle // duration of one NIGHT cycle
maint_frac cap_frac // maintenance allocation
decay_rate capacity_decay_rate recycle // passive ceiling decay + material recovery
homeostatic_ceiling coherence_factor assembly_cost biogenesis_cost maint_cost
f_dend f_axon f_spine f_bouton // per-cycle material/energy ship fractions (down the chain)
```
---
---
# DAY
---
## PRE
The presynaptic bouton releases neurotransmitter and gathers evidence about whether that
release was worth strengthening and worth sustaining. Its behavior unfolds across two DAY
contexts and the NIGHT scope.
**During DAY, during AP — the bouton releases neurotransmitter.** The amount released depends on
residual **calcium** from recent spikes (the fast trace, setting the drive), the current
**VGCC coupling occupancy** (how tightly calcium channels are coupled to docking slots right
now — filled short-term, bounded by structure), the two **retrograde messages** from the
postsynapse (`retro_eCB` brakes the drive; `retro_NO` will confirm release reached a responsive
target), and the availability of both **fuel and vesicles**. Two shortfalls are read
differently: a fuel shortfall on a succeeding release is evidence the bouton needs more
*endurance*; an empty pool with fuel to spare is ordinary short-term depression.
**During DAY, during NOT_AP — the bouton consolidates, potentiates short-term, and recovers.**
With no spike to release, it latches the retrograde messages (RECEIVE); maintains its traces —
accumulating eligibility toward a dopamine-gated tag (TRACE); transiently tightens its VGCC
coupling from accumulated eligibility, with no dopamine, a reversible short-term potentiation
bounded by the structural ceiling (BEHAVE); refills both its budget (contested supply) and its
vesicle pool (private reserve) (RECOVER); and lets its traces decay, closing the windows (DECAY).
**During NIGHT — the bouton's ceilings are rewritten.** NIGHT raises the bouton's **structure**
(active-zone capacity, including the VGCC-coupling ceiling) where a validated tag accumulated,
and its **budget capacity** (mitochondrial endurance) where fuel repeatedly interrupted a
succeeding release. Both draw on the same finite material and energy shipped down the axon, so
the two kinds of growth compete — and whatever is not maintained drifts back down.
```
// PARAMETERS K_release · release_cost · fusion_cost · vatpase_cost · spillover · brake
// stp_thr · coupling_gain · coupling_drift · VGCC_baseline
// INTERFACE
// EMIT glutamate → POST, ASTRO
// RECEIVE retro_NO, retro_eCB ← POST (signals latched; resources refill in RECOVER)
// READ glutamate (own cleft, autobrake) ; dopamine (gates tag)
// OWN pre_structure{slot_ceiling, VGCC_coupling, refill_ceiling} ; pre_budget_ceiling
// VGCC_active (occupancy: current coupling, filled toward VGCC_coupling ceiling)
// SUPPLY astro_lactate[syn] ← ASTRO ; axon_ship_pre ← AXON ; pre_material ← AXON(NIGHT) ; pre_energy ← SOMA(NIGHT)
// EMERGENCY shockwave_lockdown ← ASTRO
//
// TRACE CREATION MODES (every trace: trace += input·Δt trace·(Δt/τ_decay))
// impulse input = quantum·δ(event) — a point event; no rise time, τ = decay only (FAST)
// accumulate input = rate(condition)·Δt — ramps while a condition holds; τ = rise AND decay (MEDIUM/SLOW)
// A trace's tier is set by BOTH its creation mode and its decay: the fast trace is impulse-created
// and fast-decaying; possible_tag/endurance_need are slowly accumulated and medium-decaying.
DAY | AP:
// TRACE FAST · impulse (Ca²⁺ bolus from THIS spike — a point event; no rise time,
// decay alone sets its τ; frequency is emergent from impulse-rate vs decay)
pre_fast_trace += spike_Ca(pre_structure.VGCC_coupling)·δ(spike)
// ADJUST (release drive from residual Ca²⁺ × current coupling occupancy, + DSE brake)
drive = sat(pre_fast_trace × VGCC_active, K_release) × (1 - retro_eCB_local)
// BEHAVE (release; two distinct failure modes)
if pre_budget < release_cost:
// FUEL shortfall → endurance evidence (retro_NO-confirmed local success)
suppress(NT_flux)
// TRACE MEDIUM · accumulate (ramps while fuel keeps interrupting a succeeding release)
if pre_fast_trace > traj_thr:
pre_endurance_need += pre_fast_trace × (1 + retro_NO_local)·Δt
exit
if RRP == 0:
// OCCUPANCY shortfall → short-term depression (NOT endurance; fuel was fine)
suppress(NT_flux)
exit
NT_flux = RRP × drive; RRP -= NT_flux·Δt; pre_budget -= NT_flux·fusion_cost
// EMIT (glutamate into cleft)
glutamate += NT_flux·Δt
if glutamate > spillover: drive *= brake // own-cleft autobrake
DAY | NOT_AP:
// RECEIVE (latch backward messages — signals only)
retro_NO_local = retro_NO; retro_eCB_local = retro_eCB
// TRACE (strength pathway — evidence climbs the ladder)
// MEDIUM · accumulate (ramps while fast_trace stays eligible; rise-rate is its τ_rise)
if pre_fast_trace > elig: pre_possible_tag += pre_fast_trace·Δt
// SLOW · accumulate (ramps only on dopamine coincidence; rise gated by validation)
if dopamine > dop_thr and pre_possible_tag > tag_thr:
pre_tag += dopamine × pre_possible_tag·Δt
// BEHAVE (short-term potentiation: eligibility tightens coupling, NO dopamine; drifts back)
if pre_possible_tag > stp_thr:
VGCC_active = min(VGCC_active + coupling_gain × pre_possible_tag, pre_structure.VGCC_coupling)
else:
VGCC_active = max(VGCC_active - coupling_drift·Δt, VGCC_baseline) // STD = consequence
// RECOVER (refill BOTH pools: contested budget + private RRP)
pre_budget += refill(pre from astro_lactate[syn] + transit(axon_ship_pre, τ_transport_bouton))
RRP += fill(RRP, pre_structure.slot_ceiling, pre_structure.refill_ceiling, vatpase_cost, pre_budget)
// DECAY
// FAST (mss)
pre_fast_trace *= decay(100ms)
// MEDIUM (smin)
pre_possible_tag *= decay(s); pre_endurance_need *= decay(min)
// SLOW (hr)
pre_tag *= decay(hr)
// (signals) arrived channels fade
dopamine *= decay(ms); retro_NO *= decay(s); retro_eCB *= decay(s)
// (PERSISTENT: pre_structure, pre_budget_ceiling — no DAY decay; NIGHT only)
NIGHT | cycle: // leaf consumer (no downstream emit)
// RECEIVE batch arrived from AXON (material) + SOMA (energy) this cycle
pre_material += transit(pre_material_ship, τ_transport_bouton)
pre_energy += transit(pre_energy_ship, τ_transport_bouton)
// TRACE read standing demand
// (pre_tag → structure ; pre_endurance_need → budget_ceiling)
// ADJUST size commits from material + energy on hand
coh = coherence_signal // arrived: pre+post+astro tags aligned
// BEHAVE commit batches; spend tag/need as fuel
if pre_tag > tag_expiry:
Δ = min(slot_batch, pre_material, pre_energy·f_cap)
pre_structure += Δ × coh; pre_material -= Δ; pre_energy -= Δ·assembly_cost
pre_tag -= Δ // tag-as-fuel
if pre_endurance_need > endur_thr:
Δ' = min(cap_batch, pre_material·f_cap, pre_energy·f_cap)
pre_budget_ceiling += Δ'; pre_material -= Δ'; pre_energy -= Δ'·biogenesis_cost
pre_endurance_need -= Δ'
// EMIT (none — bouton is a leaf; nothing downstream)
// RECOVER reclaim material from any ceiling that decayed this cycle
pre_material += pre_ceiling_shrinkage·recycle // energy NOT recovered
// DECAY unmaintained ceilings + tags drift down a little
pre_structure -= decay_rate·Δt_cycle; pre_budget_ceiling -= capacity_decay_rate·Δt_cycle
pre_structure += min(pre_maint, maint_cost); pre_budget_ceiling += min(pre_cap_maint, cap_cost)
pre_tag *= decay(slow); pre_endurance_need *= decay(slow)
```
---
## POST
The postsynaptic spine is the synapse's primary memory locus: it detects coincident input,
runs the calcium dynamics that decide potentiation versus depression, and requires the most
validation (three coincidences) before committing. Its behavior unfolds across two DAY
contexts and the NIGHT scope.
**During DAY, during NOT_bAP — the spine integrates input and decides plasticity.** Three
calcium sources feed its fast trace: AMPA current (small Ca, begins ejecting the NMDA Mg block),
NMDA (large Ca, but only on the local coincidence of depolarization + astrocyte D-serine +
glutamate), and — in the bAP context — the back-propagating spike. High calcium drives AMPA
receptors to the surface (short-term potentiation, occupancy filled toward the slot ceiling, no
dopamine); when calcium falls, they drift back (short-term depression as a consequence). The
spine also emits two retrograde messages from its own state — NO when it responded, an
endocannabinoid brake when over-driven — and accumulates a dopamine-gated tag toward
consolidation. A fuel shortfall while calcium was climbing toward a tag is endurance evidence;
a surface already at its ceiling is a structural limit, not endurance.
**During DAY, during bAP — the back-propagating spike confirms coincidence.** The somatic spike
arrives at the spine, adds depolarization and calcium, and supralinearly amplifies an existing
candidate — the soma's confirmation that it fired, one of the three coincidences the spine
requires.
**During NIGHT — the spine's ceilings are rewritten.** NIGHT raises **structure** (the AMPA
slot ceiling, spine volume) where a validated tag accumulated — with a coherence bonus when pre,
post, and astro all tagged the same synapse — and **budget capacity** where fuel interrupted a
climbing calcium trajectory. Both draw the same finite pool, so they compete; unmaintained
ceilings drift down.
```
// PARAMETERS K_AMPA · AMPA_Ca · AMPA_cost · NMDA_cost · bAP_cost · pka_cost · traffic_cost
// req_cost · Mg_eject · Dserine_thr · Ca_STP · Ca_TAG · eCB_thr · drift · baseline
// NO_synth_cost · eCB_synth_cost
// INTERFACE
// EMIT retro_NO (+), retro_eCB () → PRE
// RECEIVE (signals) glutamate ← PRE ; astro_Dserine ← ASTRO ; bAP ← DEND/SOMA ; dopamine
// READ glutamate ; astro_Dserine ; bAP (dend_structure.bAP_fidelity) ; dopamine
// OWN post_structure{slot_ceiling, spine_volume, reserve_ceiling} ; post_budget_ceiling
// SUPPLY astro_lactate[syn] ← ASTRO ; dend_ship_post ← DEND ; post_material ← DEND(NIGHT) ; post_energy ← SOMA(NIGHT)
// EMERGENCY shockwave_lockdown ← ASTRO
// NOTE POST endurance is own-state only (own Ca climbing); no arrived feedback term.
DAY | NOT_bAP:
// ADJUST (AMPA drive from arrived glutamate)
a = sat(glutamate, K_AMPA)
// BEHAVE (SOURCE 1 AMPA: current + small Ca + begins Mg ejection)
AMPA_current = a × AMPA_surface; Vm += AMPA_current; post_budget -= AMPA_cost
// TRACE (Ca deposited by AMPA)
post_fast_trace += AMPA_Ca·AMPA_current
// BEHAVE (SOURCE 2 NMDA: large Ca on local coincidence)
if Vm > Mg_eject and astro_Dserine > Dserine_thr and glutamate > 0:
post_fast_trace += NMDA_Ca(glutamate)·rise_speed(); post_budget -= NMDA_cost
// EMIT (+ NO/BDNF: "release reached a responsive target")
retro_NO += NO_emit(post_fast_trace); post_budget -= NO_synth_cost
// EMIT ( endocannabinoid / DSE when over-driven)
if Vm > eCB_thr:
retro_eCB += eCB_emit(Vm); post_budget -= eCB_synth_cost
post_fast_trace *= decay(ms)
// BEHAVE (STP fill slots from private reserve ; else STD drift = consequence)
if post_fast_trace > Ca_STP:
if post_budget < traffic_cost:
// FUEL shortfall → endurance (own Ca was climbing toward a tag)
if post_fast_trace > traj_thr and post_fast_trace_rising:
post_endurance_need += post_fast_trace
else if AMPA_surface < post_structure.slot_ceiling:
AMPA_surface += Ca_insert(post_fast_trace); post_budget -= traffic_cost
// else: surface already at slot_ceiling → structure-limited (not endurance)
else:
AMPA_surface = max(AMPA_surface - drift·Δt, baseline) // STD = consequence
// TRACE (strength: CANDIDATE then STABLE via dopamine)
if post_fast_trace > Ca_TAG: post_possible_tag += post_fast_trace; post_budget -= pka_cost
if dopamine > dop_thr and post_possible_tag > tag_thr:
post_tag += dopamine × post_possible_tag
// RECOVER (refill budget from contested supply)
post_budget += refill(post from astro_lactate[syn] + transit(dend_ship_post, τ_transport_spine))
// DECAY
// FAST (mss) — post_fast_trace already decayed above (intra-step, pre-tagging)
// MEDIUM (smin)
post_possible_tag *= decay(min); post_endurance_need *= decay(min)
// SLOW (hr)
post_tag *= decay(hr)
// (signals)
dopamine *= decay(ms)
// (PERSISTENT: post_structure, post_budget_ceiling — no DAY decay; NIGHT only)
DAY | bAP:
// BEHAVE (SOURCE 3 bAP: depolarization + Ca, amplifies existing signal)
Vm += bAP_depol × dend_structure.bAP_fidelity; post_budget -= bAP_cost
// TRACE (supralinear boost only if a CANDIDATE is present)
if post_possible_tag > Ca_TAG: post_fast_trace += bAP_Ca_boost()
NIGHT | cycle: // leaf consumer (no downstream emit)
// RECEIVE batch arrived from DEND (material) + SOMA (energy) this cycle
post_material += transit(post_material_ship, τ_transport_spine)
post_energy += transit(post_energy_ship, τ_transport_spine)
// TRACE read standing demand (post_tag → structure ; post_endurance_need → budget_ceiling)
// ADJUST coherence applies to POST (synaptic component)
coh = coherence_signal
// BEHAVE commit batches; spend tag/need as fuel
if post_tag > tag_expiry:
Δ = min(slot_batch, post_material, post_energy·f_cap)
post_structure += Δ × coh; post_material -= Δ; post_energy -= Δ·assembly_cost
post_tag -= Δ
if post_endurance_need > endur_thr:
Δ' = min(cap_batch, post_material·f_cap, post_energy·f_cap)
post_budget_ceiling += Δ'; post_material -= Δ'; post_energy -= Δ'·biogenesis_cost
post_endurance_need -= Δ'
// EMIT (none — spine is a leaf)
// RECOVER reclaim material from decayed ceilings
post_material += post_ceiling_shrinkage·recycle // energy NOT recovered
// DECAY
post_structure -= decay_rate·Δt_cycle; post_budget_ceiling -= capacity_decay_rate·Δt_cycle
post_structure += min(post_maint, maint_cost); post_budget_ceiling += min(post_cap_maint, cap_cost)
post_tag *= decay(slow); post_endurance_need *= decay(slow)
```
---
## DEND
The dendritic branch is the postsynapse's supply line and the neuron's input integrator. It
carries the back-propagating spike out to its spines, integrates their voltages toward the
soma, and ships material and budget to the spines it supports. Its behavior unfolds across two
DAY contexts and the NIGHT scope.
**During DAY, during bAP — the branch propagates and integrates.** When the soma fires, the
branch propagates the back-propagating spike toward its spines, with a fidelity that attenuates
with distance (distal spines get weaker confirmation, are harder to potentiate). It deposits
branch calcium and integrates its spines' voltages into a single branch signal sent on to the
soma. A fuel shortfall that cuts propagation short while the branch was strongly active is
endurance evidence; propagation that simply attenuates with distance is a structural limit, not
endurance.
**During DAY, during NOT_bAP — the branch consolidates, supplies, and recovers.** It maintains
its tag toward consolidation, lowers its commit threshold under acetylcholine (attention),
ships budget down to its spines (demand-weighted by their tags), runs local translation if
tagged, refills its own budget from astrocytic lactate and somatic shipment, and lets its
traces decay.
**During NIGHT — the branch's ceilings are rewritten.** NIGHT raises **structure** (bAP
fidelity, translation capacity) where a validated tag accumulated and **budget capacity** where
fuel interrupted strong branch activity, both from the shared pool, both competing; unmaintained
ceilings drift down.
```
// PARAMETERS prop_cost · branch_Ca_cost · integrate_cost · translate_cost · ACh_gain
// INTERFACE
// EMIT bAP_local → POST ; branch_Vm → SOMA ; dend_ship_post → POST
// RECEIVE (signals) SOMA.fired ; POST.Vm + spine spillover ; dopamine ; ACh
// READ SOMA.fired ; POST.Vm + spine spillover ; dopamine ; ACh
// OWN dend_structure{bAP_fidelity(pos), translation_ceiling, transport_speed} ; dend_budget_ceiling
// SUPPLY astro_lactate[branch] ← ASTRO ; soma_ship_dend ← SOMA ; dend_material, dend_energy ← SOMA(NIGHT)
// NOTE DEND endurance fires only on FUEL-limited propagation, not structural attenuation;
// own-state proxy (strong branch activity); no arrived feedback term.
DAY | bAP:
// ADJUST (propagation strength from structure — inside propagate())
// BEHAVE (propagate bAP; distinguish fuel-limited vs structure-limited shortfall)
if dend_budget < prop_cost:
// FUEL shortfall → endurance (branch was strongly active)
if dend_fast_trace > traj_thr:
dend_endurance_need += dend_fast_trace
bAP_local, reached = propagate_partial(dend_budget)
else:
bAP_local, reached = propagate(SOMA.fired, dend_structure.bAP_fidelity, geometry)
// reached < full here is structural attenuation (distance), NOT endurance
dend_budget -= prop_cost × reached
// TRACE
dend_fast_trace += bAP_Ca(bAP_local) + spine_spillover(); dend_budget -= branch_Ca_cost
// EMIT (integrated voltage to soma ; propagated bAP already reached spines)
branch_Vm = integrate(POST.Vm, spines); dend_budget -= integrate_cost
DAY | NOT_bAP:
// TRACE (strength)
if dend_fast_trace > elig: dend_possible_tag += dend_fast_trace
if dopamine > dop_thr and dend_possible_tag > tag_thr:
dend_tag += dopamine × dend_possible_tag
// ADJUST (commit threshold lowered by attention)
commit_threshold *= 1/(1 + ACh·ACh_gain)
// BEHAVE (local translation if tagged — fills dend capacity faster)
if dend_tag > tag_expiry and dend_budget > translate_cost: dend_budget -= translate_cost
// EMIT (ship budget to spines; demand = post tag)
dend_ship_post = ship(dend_budget, post_demand, post_ship_frac, ship_cost)
// RECOVER (refill budget from contested supply)
dend_budget += refill(dend from astro_lactate[branch] + transit(soma_ship_dend, τ_transport_dend))
// DECAY
// FAST (mss)
dend_fast_trace *= decay(300ms)
// MEDIUM (smin)
dend_possible_tag *= decay(s); dend_endurance_need *= decay(min)
// SLOW (hr)
dend_tag *= decay(hr)
// (PERSISTENT: dend_structure, dend_budget_ceiling — no DAY decay; NIGHT only)
NIGHT | cycle: // intermediate node (relays down to POST)
// RECEIVE batch arrived from SOMA this cycle
dend_material += transit(soma_material_to_dend, τ_transport_dend)
dend_energy += transit(soma_energy_to_dend, τ_transport_dend)
// TRACE read standing demand (dend_tag → structure ; dend_endurance_need → budget_ceiling)
// ADJUST (no coherence — DEND is not a synaptic component)
// BEHAVE commit batches; spend tag/need as fuel
if dend_tag > tag_expiry:
Δ = min(slot_batch, dend_material, dend_energy·f_cap)
dend_structure += Δ; dend_material -= Δ; dend_energy -= Δ·assembly_cost; dend_tag -= Δ
if dend_endurance_need > endur_thr:
Δ' = min(cap_batch, dend_material·f_cap, dend_energy·f_cap)
dend_budget_ceiling += Δ'; dend_material -= Δ'; dend_energy -= Δ'·biogenesis_cost
dend_endurance_need -= Δ'
// EMIT ship remaining batch one hop down to POST (demand = post tag)
post_material_ship += ship(dend_material, post_demand, f_spine, ship_cost)
post_energy_ship += ship(dend_energy, post_demand, f_spine, ship_cost)
// RECOVER reclaim material from decayed ceilings
dend_material += dend_ceiling_shrinkage·recycle // energy NOT recovered
// DECAY
dend_structure -= decay_rate·Δt_cycle; dend_budget_ceiling -= capacity_decay_rate·Δt_cycle
dend_structure += min(dend_maint, maint_cost); dend_budget_ceiling += min(dend_cap_maint, cap_cost)
dend_tag *= decay(slow); dend_endurance_need *= decay(slow)
```
---
## SOMA
The soma is the neuron's integrating center and the root of its structural material. It sums
the branch inputs, fires when they exceed a threshold it sets from its own adaptation and the
neuromodulators, and ships material and budget out to the dendrites and axon. Its timing —
refractoriness, adaptation, rhythm alignment — emerges bottom-up from local traces, never from
a represented clock. Its behavior unfolds across two DAY contexts and the NIGHT scope.
**During DAY, during AP — the soma integrates and fires.** It computes its firing threshold
from its baseline (structure), its accumulated adaptation, and the neuromodulators, and checks
its refractory state; if the integrated branch input clears the threshold and fuel allows, it
fires. One spike deposits three traces at three timescales — sodium inactivation (refractory),
slow-potassium adaptation (threshold rise), and nuclear calcium (toward CREB and the tag). A
fuel shortfall while nuclear calcium was climbing is endurance evidence; being refractory or
sub-threshold is a timing limit, not endurance.
**During DAY, during NOT_AP — the soma recovers, aligns, and supplies.** It self-replenishes
from its own mitochondria (its private root), integrates the latest branch inputs, deposits a
refractory-alignment trace when suprathreshold input arrived during its refractory period (so it
aligns to its input rhythm bottom-up), ships budget to dendrites and axon (demand-weighted by
their tags), recovers from refractoriness at a rate its alignment trace speeds up, and lets its
traces decay.
**During NIGHT — the soma's ceilings are rewritten, and it gates the whole neuron's material.**
NIGHT raises **structure** (excitability, synthesis capacity) and **budget capacity** from the
shared pool; crucially the soma's own tag gates CREB-driven synthesis, so how much material all
downstream components receive depends on the soma having been tagged.
```
// PARAMETERS ap_cost · nuclear_cost · creb_cost · mito_output · inactivation · ap_amp · ap_contrib
// base_recovery · τ_Na · τ_adapt · τ_nuclear · τ_align
// INTERFACE
// EMIT fired → AXON (propagate) + DEND (bAP) ; soma_ship_dend → DEND ; soma_ship_axon → AXON
// RECEIVE (signals) branch_Vm ← DEND ; dopamine ; NE ; ACh
// READ dopamine ; NE ; ACh
// OWN soma_structure{baseline_threshold, AP_reliability, synthesis_ceiling} ; soma_budget_ceiling
// SUPPLY self (mitochondria, ROOT — private)
// NOTE SOMA endurance fires only on FUEL shortfall (budget < ap_cost);
// refractory / sub-threshold are timing limits, not endurance. Own-state proxy.
DAY | AP:
// ADJUST (threshold from structure + adaptation + neuromodulators ; refractory gate)
threshold = soma_structure.baseline_threshold × (1 + soma_adaptation) × neuromod(NE, ACh)
can_fire = soma_Na_inactivation < inactivation
// BEHAVE (fire if able)
if branch_Vm > threshold and can_fire:
if soma_budget < ap_cost:
// FUEL shortfall → endurance (firing was approaching CREB)
if soma_fast_trace > traj_thr and soma_fast_trace_rising:
soma_endurance_need += soma_fast_trace
exit
// EMIT (fired → AXON, DEND)
fired = True; soma_budget -= ap_cost
// TRACE (three traces from one AP — FAST nuclear-Ca, MEDIUM adaptation, refractory)
soma_Na_inactivation += ap_amp // → refractory (emergent)
soma_adaptation += ap_contrib // → threshold rise
soma_fast_trace += nuclear_Ca(); soma_budget -= nuclear_cost
// TRACE (strength)
if soma_fast_trace > elig: soma_possible_tag += soma_fast_trace
if dopamine > dop_thr and soma_possible_tag > tag_thr:
soma_tag += dopamine × soma_possible_tag
soma_budget -= creb_cost
DAY | NOT_AP:
// RECEIVE (integrate latest branch input — signal)
branch_Vm = integrate(DEND.branch_Vm, branches)
// TRACE (bottom-up refractory alignment: suprathreshold input during refractory)
if branch_Vm > threshold and soma_Na_inactivation > inactivation:
soma_refractory_alignment += (branch_Vm - threshold) × soma_Na_inactivation
// EMIT (ship downstream into transit; demand = propagated tags)
soma_ship_dend = ship(soma_budget, dend_demand, dend_ship_frac, ship_cost)
soma_ship_axon = ship(soma_budget, axon_demand, axon_ship_frac, ship_cost)
// RECOVER (self-replenish from private root ; inactivation recovery sped by alignment)
soma_budget += fill(soma_budget, soma_budget_ceiling, mito_output, 0, soma_budget)
recovery = base_recovery × (1 + soma_refractory_alignment)
soma_Na_inactivation *= decay(τ_Na / recovery)
// DECAY
// FAST (mss) — refractory + nuclear-Ca + alignment (sub-second to seconds)
soma_fast_trace *= decay(τ_nuclear); soma_refractory_alignment *= decay(τ_align) // self-limiting
// MEDIUM (smin) — adaptation + tagging evidence
soma_adaptation *= decay(τ_adapt)
soma_possible_tag *= decay(s); soma_endurance_need *= decay(min)
// SLOW (hr)
soma_tag *= decay(hr)
// (signals)
dopamine *= decay(ms)
// (PERSISTENT: soma_structure, soma_budget_ceiling — no DAY decay; NIGHT only)
NIGHT | cycle: // ROOT (neuronal material) — produces each cycle
// RECEIVE = PRODUCTION: synthesize this cycle's batch, gated by own tag, capped externally
soma_material += CREB_synth(soma_tag)·Δt_cycle // material — recoverable
soma_energy += mito_synth()·Δt_cycle // energy — NOT recoverable, bounded by night budget
night_energy_spent += mito_synth()·Δt_cycle // track against night supply ceiling
// TRACE read standing demand (soma_tag → structure ; soma_endurance_need → budget_ceiling)
// ADJUST (no coherence — SOMA is not a synaptic component)
// BEHAVE commit own batches
if soma_tag > tag_expiry:
Δ = min(slot_batch, soma_material, soma_energy·f_cap)
soma_structure += Δ; soma_material -= Δ; soma_energy -= Δ·assembly_cost; soma_tag -= Δ
if soma_endurance_need > endur_thr:
Δ' = min(cap_batch, soma_material·f_cap, soma_energy·f_cap)
soma_budget_ceiling += Δ'; soma_material -= Δ'; soma_energy -= Δ'·biogenesis_cost
soma_endurance_need -= Δ'
// EMIT ship batches one hop down to DEND and AXON (demand = propagated tags)
soma_material_to_dend += ship(soma_material, dend_demand, f_dend, ship_cost)
soma_material_to_axon += ship(soma_material, axon_demand, f_axon, ship_cost)
soma_energy_to_dend += ship(soma_energy, dend_demand, f_dend, ship_cost)
soma_energy_to_axon += ship(soma_energy, axon_demand, f_axon, ship_cost)
// RECOVER reclaim material from decayed ceilings (own + returned from downstream)
soma_material += soma_ceiling_shrinkage·recycle
// DECAY
soma_structure -= decay_rate·Δt_cycle; soma_budget_ceiling -= capacity_decay_rate·Δt_cycle
soma_structure += min(soma_maint, maint_cost); soma_budget_ceiling += min(soma_cap_maint, cap_cost)
soma_tag *= decay(slow); soma_endurance_need *= decay(slow)
```
---
## AXON
The axon carries the soma's spike out to its boutons and is the presynapse's supply line. It
propagates reliably or not depending on its myelination and its recent load, and ships material
and budget to the boutons. Its behavior unfolds across two DAY contexts and the NIGHT scope.
**During DAY, during AP — the axon propagates the spike.** Reliability is set by structure
(myelination) and degraded by recent high-frequency load (sodium inactivation at branch points —
axonal short-term depression). A fuel shortfall while carrying a strong train is endurance
evidence; load-driven failure is short-term depression, a consequence, not endurance.
**During DAY, during NOT_AP — the axon supplies and recovers.** It maintains its tag, ships
budget to its boutons (demand-weighted by their tags), refills its own budget from somatic
shipment and astrocytic lactate, and lets its traces decay.
**During NIGHT — the axon's ceilings are rewritten.** NIGHT raises **structure** (myelination,
transport capacity) and **budget capacity** from the shared pool, both competing; unmaintained
ceilings drift down.
```
// PARAMETERS prop_cost · budget_factor
// INTERFACE
// EMIT APs_delivered → PRE (propagation) ; axon_ship_pre → PRE
// RECEIVE (signals) SOMA.fired ; dopamine
// READ SOMA.fired ; dopamine
// OWN axon_structure{propagation, transport_ceiling, mito_density} ; axon_budget_ceiling
// SUPPLY soma_ship_axon ← SOMA ; astro_lactate[shaft] ← ASTRO ; axon_material, axon_energy ← SOMA(NIGHT)
// NOTE AXON endurance fires only on FUEL shortfall; load-driven failure fail(fast_trace)
// is axonal STD (a consequence), not endurance. Own-state proxy.
DAY | AP:
// ADJUST (reliability from structure load-driven failure)
reliability = axon_structure.propagation × (1 - fail(axon_fast_trace)) // fail() = STD, not endurance
// BEHAVE (propagate; FUEL shortfall degrades + flags endurance)
if axon_budget < prop_cost:
reliability *= budget_factor
if axon_fast_trace > traj_thr: // FUEL-limited → endurance
axon_endurance_need += axon_fast_trace
delivered = fired × reliability; axon_budget -= prop_cost × delivered
// EMIT (delivered APs reach boutons)
// TRACE
axon_fast_trace += delivered; axon_fast_trace *= decay(s)
DAY | NOT_AP:
// TRACE (strength)
if axon_fast_trace > elig: axon_possible_tag += axon_fast_trace
if dopamine > dop_thr and axon_possible_tag > tag_thr:
axon_tag += dopamine × axon_possible_tag
// EMIT (ship to boutons; demand = pre tag)
axon_ship_pre = ship(axon_budget, pre_demand, pre_ship_frac, ship_cost)
// RECOVER (refill budget from contested supply)
axon_budget += refill(axon from soma_ship_axon + astro_lactate[shaft])
// DECAY
// FAST (mss)
axon_fast_trace *= decay(s)
// MEDIUM (smin)
axon_possible_tag *= decay(s); axon_endurance_need *= decay(min)
// SLOW (hr)
axon_tag *= decay(hr)
// (PERSISTENT: axon_structure, axon_budget_ceiling — no DAY decay; NIGHT only)
NIGHT | cycle: // intermediate node (relays down to PRE)
// RECEIVE batch arrived from SOMA this cycle
axon_material += transit(soma_material_to_axon, τ_transport_dend)
axon_energy += transit(soma_energy_to_axon, τ_transport_dend)
// TRACE read standing demand (axon_tag → structure ; axon_endurance_need → budget_ceiling)
// ADJUST (no coherence — AXON is not a synaptic component)
// BEHAVE commit batches; spend tag/need as fuel
if axon_tag > tag_expiry:
Δ = min(slot_batch, axon_material, axon_energy·f_cap)
axon_structure += Δ; axon_material -= Δ; axon_energy -= Δ·assembly_cost; axon_tag -= Δ
if axon_endurance_need > endur_thr:
Δ' = min(cap_batch, axon_material·f_cap, axon_energy·f_cap)
axon_budget_ceiling += Δ'; axon_material -= Δ'; axon_energy -= Δ'·biogenesis_cost
axon_endurance_need -= Δ'
// EMIT ship remaining batch one hop down to PRE (demand = pre tag)
pre_material_ship += ship(axon_material, pre_demand, f_bouton, ship_cost)
pre_energy_ship += ship(axon_energy, pre_demand, f_bouton, ship_cost)
// RECOVER reclaim material from decayed ceilings
axon_material += axon_ceiling_shrinkage·recycle // energy NOT recovered
// DECAY
axon_structure -= decay_rate·Δt_cycle; axon_budget_ceiling -= capacity_decay_rate·Δt_cycle
axon_structure += min(axon_maint, maint_cost); axon_budget_ceiling += min(axon_cap_maint, cap_cost)
axon_tag *= decay(slow); axon_endurance_need *= decay(slow)
```
---
## ASTRO
The astrosynapse is the synapse's gatekeeper and energy hub. It clears glutamate, supplies the
D-serine that gates postsynaptic NMDA, and distributes lactate across its territory by demand.
Unlike the others it runs in a single continuous context rather than spiking, and its structure
reshapes the synapse's operating point rather than just its range.
**During DAY, continuously — the astrosynapse clears, gates, and fuels.** It produces energy at
its cell body (glycolysis from glucose, the system's energy root), then allocates lactate across
its astrosynapses weighted by each one's clearance demand. At each astrosynapse it clears
spillover glutamate (EAAT) and supplies tonic D-serine; when spillover is high it adds a
demand-driven D-serine pulse, brakes nothing of the presynapse directly (the presynaptic brake
is PRE reading its own cleft), deposits its calcium trace, and accumulates a dopamine-gated tag.
A D-serine pulse cut short by low budget while demand was high is endurance evidence; one cut
short by precursor/material exhaustion is a material limit, not endurance. Excess overflow
triggers the protective shockwave lockdown.
**During NIGHT — the astrosynapse's ceilings are rewritten.** NIGHT raises **structure**
(perisynaptic wrap, EAAT density, tonic D-serine) where a validated tag accumulated and **budget
capacity** where budget-limited synthesis recurred; astro_structure is self-reinforcing in both
directions, so it amplifies whatever trajectory the synapse is already on.
```
// PARAMETERS K_Dserine · Ds_max · Ds_frac · Ds_cost · EAAT_cost · lactate_cost · spillover · overload
// INTERFACE
// EMIT astro_lactate[i] → pre/post/dend budgets ; astro_Dserine[i] → POST (gate)
// RECEIVE (signals) glutamate ← PRE (clearance + spillover) ; dopamine
// READ glutamate ; dopamine
// OWN astro_structure{perisynaptic_distance⁻¹, EAAT, Dserine_tonic, ECM} ; astro_budget_ceiling
// SUPPLY glucose (ROOT) ; astro_material, astro_energy ← cell body (NIGHT)
// NOTE ASTRO endurance fires on BUDGET-limited synthesis (got<want via low budget);
// material/precursor-limited synthesis is a material limit, not endurance. Own-state proxy.
// EMERGENCY emits shockwave_lockdown on overload
DAY | CONTINUOUS: // per astrosynapse i
// RECEIVE (root production, capped by glucose)
astro_central_budget += glycolysis(glucose)·Δt
// ADJUST (demand weights across territory)
for each i: demand[i] = clearance_load[i] × astro_structure[i].delivery_eff
factor = min(1, astro_central_budget / (Σ demand·lactate_cost + ε))
// EMIT (demand-weighted lactate to all components)
for each i:
astro_lactate[i] = demand[i] × factor; astro_central_budget -= astro_lactate[i]·lactate_cost
// BEHAVE (clear glutamate ; supply tonic D-serine)
glutamate[i] -= astro_structure[i].EAAT × glutamate[i]·Δt; astro_central_budget -= clearance·EAAT_cost
astro_Dserine[i] += astro_structure[i].Dserine_tonic·Δt
if glutamate[i] > spillover:
// TRACE
astro_fast_trace[i] += mGluR_Ca(); astro_fast_trace[i] *= decay(s)
// ADJUST (D-serine demand from spillover)
want = sat(astro_fast_trace[i], K_Dserine) × Ds_max
got = min(want, astro_central_budget × Ds_frac)
// BEHAVE + EMIT (D-serine pulse to POST gate)
astro_Dserine[i] += got; astro_central_budget -= got·Ds_cost
// TRACE (endurance: BUDGET-limited synthesis under high own demand)
if got < want and astro_central_budget low and astro_fast_trace[i] > traj_thr:
astro_endurance_need[i] += (want - got)
// TRACE (strength)
if astro_fast_trace[i] > elig: astro_possible_tag[i] += astro_fast_trace[i]
if dopamine > dop_thr and astro_possible_tag[i] > tag_thr:
astro_tag[i] += dopamine × astro_possible_tag[i]
// DECAY
// FAST (mss) — astro_fast_trace already decayed above (intra-step)
// MEDIUM (smin)
astro_possible_tag[i] *= decay(s); astro_endurance_need[i] *= decay(min)
// SLOW (hr)
astro_tag[i] *= decay(hr)
// (PERSISTENT: astro_structure, astro_budget_ceiling — no DAY decay; NIGHT only)
// EMERGENCY
if astro_fast_trace[i] > overload: emit(shockwave_lockdown)
NIGHT | cycle: // ROOT (synaptic energy + ECM) — produces each cycle
// RECEIVE = PRODUCTION: glycolysis + ECM synthesis this cycle, capped by glucose
astro_central_energy += overnight_glycolysis(glucose)·Δt_cycle // energy — NOT recoverable
astro_central_material += astro_cellbody_synth()·Δt_cycle // material — recoverable
night_energy_spent += overnight_glycolysis(glucose)·Δt_cycle
// ADJUST tag-weighted shares across the territory
W = Σ astro_tag[i] over astro_tag[i] > tag_expiry
// EMIT distribute this cycle's batch to astrosynapses (demand = own tag)
for each i with astro_tag[i] > tag_expiry:
w = astro_tag[i]/W
astro_energy[i] += astro_central_energy·w
astro_material[i] += astro_central_material·w
// BEHAVE each astrosynapse commits; spend tag/need as fuel (coherence applies — synaptic)
for each astrosynapse i:
coh = coherence_signal[i]
if astro_tag[i] > tag_expiry:
Δ = min(slot_batch, astro_material[i], astro_energy[i]·f_cap)
astro_structure[i] += Δ × coh // self-reinforcing both directions
astro_material[i] -= Δ; astro_energy[i] -= Δ·assembly_cost; astro_tag[i] -= Δ
if astro_endurance_need[i] > endur_thr:
Δ' = min(cap_batch, astro_material[i]·f_cap, astro_energy[i]·f_cap)
astro_budget_ceiling[i] += Δ'; astro_material[i] -= Δ'
astro_energy[i] -= Δ'·biogenesis_cost; astro_endurance_need[i] -= Δ'
// RECOVER reclaim material from decayed ceilings
astro_central_material += astro_ceiling_shrinkage·recycle // energy NOT recovered
// DECAY
for each i:
astro_structure[i] -= decay_rate·Δt_cycle; astro_budget_ceiling[i] -= capacity_decay_rate·Δt_cycle
astro_structure[i] += min(astro_maint[i], maint_cost)
astro_budget_ceiling[i] += min(astro_cap_maint[i], cap_cost)
astro_tag[i] *= decay(slow); astro_endurance_need[i] *= decay(slow)
```
---
## Special — Shockwave Lockdown
```
DAY or NIGHT | OVERLOAD:
Vm = HYPERPOLARIZED; AMPA_surface = mass_internalize() → post reserve
axon_fast_trace += overdrive(); astro_central_budget -= emergency_cost
```
---
---
# NIGHT — the driver
NIGHT is not a component; it is the loop that runs every component's `NIGHT | cycle` block,
plus a small coda for the genuinely cross-component operations. The roots produce each cycle,
material+energy descend the supply chains over successive cycles, and tagged components commit
and spend their tags. The loop ends when demand is exhausted or the night's energy is spent.
```
NIGHT driver:
night_energy_spent = 0
repeat cycle = 1, 2, 3, …:
// 1. coherence signals (cross-component) computed from this cycle's standing tags
for each synapse s:
coherence_signal[s] = (pre_tag[s], post_tag[s], astro_tag[s] all > tag_expiry)
? coherence_factor : 1
// 2. run every component's NIGHT | cycle block (order-independent; flow emerges over cycles)
run PRE, POST, DEND, SOMA, AXON, ASTRO NIGHT | cycle
// 3. termination — emergent, local, OR of two conditions
demand_left = Σ all tags > tag_expiry (system-wide)
if demand_left ≈ 0: break // DEMAND exhausted — learned all it could
if night_energy_spent ≥ night_energy_ceiling: break // SUPPLY spent — ran out of night
// CODA (cross-component, once at end of night)
// homeostatic scaling: if the soma fired too much overall, scale all synapses down
if soma_tag > homeostatic_ceiling:
s = homeostatic_ceiling / soma_tag
for each synapse: post_structure.slot_ceiling *= s ; pre_structure.slot_ceiling *= s
soma_material += Σ reduction·recycle
// clear DAY traces; tags PERSIST (carry to next night), only fast/medium DAY traces reset
all fast_trace, possible_tag, endurance_need = 0
soma_Na_inactivation = soma_adaptation = soma_refractory_alignment = 0
// tags are NOT cleared here — unspent tags carry forward, decaying on their slow τ
// structure and budget_ceiling PERSIST as the next DAY's ceilings
```
Notes. (1) The cycle order of components does not matter: a consumer that has not yet received
this cycle simply commits less and tries again next cycle, so capacity reaches distal sites over
iterations rather than by schedule. (2) `coherence_signal` is treated as an arrived signal (like
a tag propagating), preserving locality — no component reads another's tag directly; the driver
computes the coincidence and broadcasts it. (3) A heavy-learning DAY deposits more tags, so the
night runs more cycles (or exhausts its energy first) — night length is emergent from the day.
---
## One-view summary
```
SEVEN-GROUP GRAMMAR, TWO SCOPES, ONE LADDER
RECEIVE · TRACE · ADJUST · BEHAVE · EMIT · RECOVER · DECAY
DAY grammar on OCCUPANCY within two ceilings (structure=strength, budget_ceiling=endurance)
bottom-up: consumers act, evidence ascends leaves→roots
TRACE yields two evidence streams from local state + arrived signals:
fast_trace + dopamine → tag (strength)
FUEL shortfall + interrupted LOCAL success → endurance_need (endurance)
OCCUPANCY/structure/timing shortfalls → short-term depression (NOT endurance)
NIGHT same grammar on the CEILINGS, ITERATED as a loop of cycles:
top-down: roots produce, capacity descends roots→leaves over successive cycles
each cycle: RECEIVE batch · BEHAVE commit (tag→structure, need→budget_ceiling, spend tag) ·
EMIT batch downstream · RECOVER material · DECAY ceilings
ends when DEMAND exhausted (no tag stands) OR SUPPLY spent (night energy used)
unspent tags CARRY to next night; material recycles, ENERGY does not (the arrow of time)
FLOWS every flow has a timescale; shipment is transit-delayed (distal fills over cycles)
LOCAL every group uses only own state + arrived signals; RECEIVE/EMIT are the only crossings
```