diff --git a/domains/ai-alignment/ai-deterrence-fails-structurally-where-nuclear-mad-succeeds-due-to-continuous-opaque-milestones.md b/domains/ai-alignment/ai-deterrence-fails-structurally-where-nuclear-mad-succeeds-due-to-continuous-opaque-milestones.md
index 48264938a..121ca25da 100644
--- a/domains/ai-alignment/ai-deterrence-fails-structurally-where-nuclear-mad-succeeds-due-to-continuous-opaque-milestones.md
+++ b/domains/ai-alignment/ai-deterrence-fails-structurally-where-nuclear-mad-succeeds-due-to-continuous-opaque-milestones.md
@@ -17,3 +17,10 @@ related: ["technology-advances-exponentially-but-coordination-mechanisms-evolve-
 # AI deterrence fails structurally where nuclear MAD succeeds because AI development milestones are continuous and algorithmically opaque rather than discrete and physically observable making reliable trigger-point identification impossible
 
 Arnold identifies four structural observability failures that distinguish AI deterrence from nuclear MAD. First, infrastructure metrics (compute, chips, datacenters) systematically miss algorithmic breakthroughs—DeepSeek-R1 achieved frontier-equivalent capability with dramatically fewer resources through architectural innovation that intelligence agencies failed to anticipate. Second, rapid breakthroughs create dangerous windows where deployment or loss of control happens faster than the intelligence cycle can respond. Third, decentralized R&D across multiple labs with distributed methods creates an enormous surveillance surface that Western labs' 'shockingly lax' security and international talent flows make nearly impossible to monitor comprehensively. Fourth, espionage designed to detect threats also enables technology theft, creating incidents that trigger false positives while uncertainty itself becomes destabilizing. Nuclear MAD works because strikes are discrete, observable, attributable physical events. AI progress is continuous, algorithmic, and opaque—the monitoring infrastructure required for MAIM to function doesn't exist and may be fundamentally harder to build than nuclear verification regimes.
+
+
+## Extending Evidence
+
+**Source:** Wildeford 2025-03-01, MAD comparison analysis
+
+Wildeford identifies three specific structural differences between MAIM and MAD: (1) Limited visibility of rival AI progress makes trigger-point assessment uncertain, (2) Doubts about whether sabotage would actually prevent dangerous AI from being rebuilt quickly (reliability uncertainty), (3) MAD's red line (nuclear strike) is discrete and unambiguous while MAIM's red line (approaching ASI) is continuous and ambiguous. However, he also notes MAIM has one stabilizing advantage critics often miss: kinetic strikes on datacenters are attributable, making retaliation credible. This is 'physically attributable in a way that makes it somewhat similar to conventional military deterrence, not unattributable covert action.' Wildeford concludes MAIM is less stable than MAD but acknowledges 'he may be overstating the challenges,' suggesting the stability gap is real but uncertain in magnitude.
diff --git a/inbox/queue/2026-05-03-wildeford-mutual-sabotage-ai-wont-work.md b/inbox/archive/ai-alignment/2026-05-03-wildeford-mutual-sabotage-ai-wont-work.md
similarity index 97%
rename from inbox/queue/2026-05-03-wildeford-mutual-sabotage-ai-wont-work.md
rename to inbox/archive/ai-alignment/2026-05-03-wildeford-mutual-sabotage-ai-wont-work.md
index 8699c571c..baab24d46 100644
--- a/inbox/queue/2026-05-03-wildeford-mutual-sabotage-ai-wont-work.md
+++ b/inbox/archive/ai-alignment/2026-05-03-wildeford-mutual-sabotage-ai-wont-work.md
@@ -7,10 +7,13 @@ date: 2025-03-01
 domain: ai-alignment
 secondary_domains: [grand-strategy]
 format: article
-status: unprocessed
+status: processed
+processed_by: theseus
+processed_date: 2026-05-03
 priority: medium
 tags: [MAIM, deterrence, mutual-sabotage, stability, critique]
 intake_tier: research-task
+extraction_model: "anthropic/claude-sonnet-4.5"
 ---
 
 ## Content