AXIOM SESSION RESULTS LOG Timestamp: March 4, 2026 13:22 CET Scope: Consolidated summary from Part 1 (validation/credit/cleanup) and Part 2 (deployment/experiment design) PART 1 — VALIDATION / CREDIT / CLEANUP SUMMARY - Reviewed uncredited successful result rows: 123 (exp_% range in validation window). - Sanitized linkage outcome: 0/123 had attributable sanitized numeric artifacts by result name. - Credit awarded this session: 0 total credit; 0 credited rows (safety cap respected). - Per-user / per-host credit deltas: none this pass. - Stuck/broken cleanup: - Dead-host cleanup (>12h running, >6h no contact): 0 aborted. - Hard-ceiling cleanup (>48h running): 0 aborted. - Historically broken families checked: oscillatory_roughchannel_lbm_resonance, abx_cycle_hgt_delay_resonance, potts_pulse_anneal_resonance, spatial_pgg_delay_fatigue. - Active unsent/in-progress backlog for those families: none. - Counter refresh (non-decreasing rule): credited_count=1829, total_results_count=1952. PART 2 — DEPLOYMENT / EXPERIMENT DESIGN SUMMARY - Backlog gate and per-host cap checks passed before creation; no mandatory retirement aborts triggered this cycle. - Workunit deployment executed: - CPU WUs created: 3443 (RAM>=6GB filter, 3x target-gap logic). - GPU WUs created: 279 (GPU-aware scripts only). - GPU hosts with idle capacity at checkpoint: 77. - New experiment deployed in this cycle: - autocatalytic_dilution_memory_window.py (first-pass sampling: 354 WUs). NOVELTY CHECK DOCUMENTATION (PART 2) - Experiment: autocatalytic_dilution_memory_window (chemical evolution/systems chemistry). - Query set and outcomes: 1) "serial transfer enriches for autocatalytic sets PNAS 2024" - Related enrichment prior art exists, but no direct test of memory-windowed adaptive dilution with re-entrant window hypothesis. 2) "hypercycle model dilution stochastic collapse rescue" - Hypercycle/dilution instability literature exists, but no isolated intermediate-memory control-window mechanism in surfaced work. 3) "adaptive dilution control autocatalytic network model delay" - No direct match found for this specific adaptive-memory dilution protocol and survival+biomass-control-cost objective. - Retained novelty angle: explicit test of re-entrant performance where intermediate control-memory windows outperform both short and long windows. KEY SCIENTIFIC FINDINGS 1. No new finding reached promotion threshold in this validation window because reviewed completed-success results lacked attributable sanitized numeric artifacts for quality scoring. 2. Assimilator visibility lag remains the dominant bottleneck for evidence-based credit assignment, despite continued growth in completed-success rows. 3. Current high-failure historical families were confirmed to have zero active unsent/in-progress backlog, indicating prior cleanup/depletion actions remain effective. 4. A new experiment (autocatalytic_dilution_memory_window) was introduced with documented novelty centered on a re-entrant memory-window control effect not directly matched in surfaced prior literature. NOTES - Database remains source of truth for credit/row status. - Sanitized result policy respected; raw upload files were not accessed.