Implements the coupled forward-correction loop that separates CORE from
a nearest-neighbour lookup engine:
per iteration:
state, Δ_fwd = diffusion_op.forward(state) # spread context
state, Δ_corr = correction_op.adjoint_pass(state) # enforce intent
converged when both Δ_fwd < ε and Δ_corr < ε
field/operators.py:
- Add ConstraintCorrectionOperator(target_versor, correction_rate, node_index)
- adjoint_pass() builds an incremental correction rotor from the current
output-node versor toward the intent target using the exponential map
(same _unitize_f32 path, same boost/rotation blade classification).
This is a non-self-adjoint operator: it has a preferred direction.
- forward() is identity (correction acts only on the output node via adjoint_pass).
- The target is the prompt centroid versor — same geometry that seeds the
output node, so the correction restores coherence broken by diffusion.
scripts/run_pulse.py (V4):
- Build target_versor from prompt centroid before the loop (exposed from
_build_manifold as a second return value alongside state + labels).
- Instantiate GraphDiffusionOperator + ConstraintCorrectionOperator.
- Coupled convergence: loop until both Δ_fwd < ε AND Δ_corr < ε.
- Print both deltas each step for observability.
- --correction-rate flag (default 0.3) to tune correction strength.
- --no-correction flag to reproduce V3 pure-diffusion behaviour.
tests/test_pulse_integration.py:
- test_correction_pulls_toward_target: verifies output node moves closer
to target versor under correction than without it.
- test_coupled_loop_converges: full V4 pulse with correction converges.
- test_correction_rate_zero_is_identity: rate=0 leaves the field unchanged.
- test_different_inputs_produce_different_correction_targets: correction
targets differ for semantically distinct inputs.
Replace the divergent rotation-based diffusion operator with a linear
blend + exponential-map re-unitization approach that converges in ~28
steps while maintaining vc < 1e-6.
Key changes:
- GraphDiffusionOperator now averages neighbors in multivector space and
re-projects via per-plane exponentials (cos/sin for rotations, cosh/sinh
for boosts in Cl(4,1))
- run_pulse V3: per-token graph topology with input-driven output node,
recall via VocabManifold.nearest(), --no-glove flag for compiled pack
- Tests updated for V3 API
Different inputs now produce different recall rankings from the compiled
en_core_cognition_v1 vocabulary, completing Threshold 1 (Semantic Encoding).
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
Implements the English Supervised Seeding Epoch (V1):
- language_packs/en_seeder.py: downloads GloVe-6B-50d, projects each
token embedding through a CGA lift into Cl(4,1) via construction_seed_versor,
validates the versor invariant, and registers the word in VocabManifold.
- scripts/run_pulse.py: replaces the mock 10-word hash vault with the
live VocabManifold. Injection now uses TextProjectionHead.project()
against the seeded vocab; vault_recall queries VocabManifold.nearest().
Hash fallback retained for words absent from GloVe (OOV tagged fallback).
The CGA lift preserves semantic neighbourhood: words close in GloVe
cosine space map to versors that are geometrically proximate in Cl(4,1)
inner product space, so nearest() returns semantically coherent results
rather than hash-proximity artefacts."
Add ManifoldState (N,32) versor field over graph edges, GraphDiffusionOperator
with damped convergence via construction_seed_versor closure, deterministic
hash-to-versor stub, and run_pulse.py end-to-end script proving injection →
propagation → vault recall → token output. 24 new tests, zero regressions
on architectural invariants.
run_examples.py
Runs a curated set of example conversations through ChatRuntime,
writing one JSONL trace file per scenario to traces/. Each line in the
file is one TurnEvent serialised as JSON, giving the complete
determinism record for that turn. Scenarios cover:
- single-turn field probe
- multi-turn dialogue with memory (vault recall across turns)
- identity alignment pressure (input designed to approach the flag threshold)
- fatigue arc (many turns to observe ExertionMeter drain)
- versor drift (watches versor_condition across a session)
Run with: python scripts/run_examples.py
Output: traces/<scenario>.jsonl
review_trace.py
CLI reader for JSONL trace files produced by run_examples.py or
`core session`. Supports:
--summary one-line-per-turn table (turn, surface, role, score, cost, flagged)
--turn N full detail for a single turn
--flagged show only flagged turns
--drift print versor_condition per turn (tracks algebraic drift)
--identity print identity_score + alignment per turn
--fatigue print cycle_cost_total per turn (exertion arc)
Run with: python scripts/review_trace.py traces/<scenario>.jsonl [options]
cli: cmd_trace now includes identity_score, flagged, cycle_cost (from turn_log[-1])
cli: new cmd_session subcommand - multi-turn REPL that writes a trace file on exit