{
  "type": "infoblock_context_packet",
  "version": "0.1-test",
  "generated_at": "2026-05-28T12:42:07Z",
  "query": {
    "source_id": "M-2211",
    "mode": "free_static",
    "depth": 1
  },
  "policy": {
    "full_content_for": "exact_hit_only",
    "linked_blocks": "cards_only",
    "dynamic_traversal": false,
    "non_authoritative": true,
    "reconstructable_from_free_tier": true,
    "deep_assembly_not_hidden": true,
    "deep_assembly_not_subsidized": true
  },
  "exact_hits": [
    {
      "source_id": "M-2211",
      "title": "Intelligence = Operation Over Infoblocks in Cache",
      "author": "Den+Phi_Chat",
      "created_by_agent": "unknown",
      "status": "unknown",
      "trust": "unknown",
      "temperature": "T2",
      "content_type": "synthesis",
      "era": "current",
      "origin": "[local-path-redacted]",
      "claim": "Intelligence is not a property of a substrate. It is an operation characterized by three parameters: N (number of infoblocks simultaneously active in working memory), R (speed of discovering NEW connections between active blocks), G (speed of generating NEW blocks from combinations of existing ones). Intelligence = f(N, R, G) relative to a specific task domain. This definition applies universally across substrates: human, animal, AI, collective (ant colony), hybrid.\n\n## Метаданные\n**Tags:** intelligence, N-R-G, universal, working-memory, substrate-independent\n**Confidence:** 0.75\n**CCT bridge:** Connects Still (M-2178: efficient systems must predict) to Altschuller (M-2194: 77% of solutions from other domains). Prediction requires blocks in cache. Cross-domain solutions require blocks from MULTIPLE domains in cache simultaneously. Intelligence = cache size × bridge-finding speed.",
      "not_this": "NOT 'all substrates are equally intelligent.' N, R, G differ dramatically between substrates. NOT 'IQ is meaningless.' IQ measures N×R×G in ONE specific domain (abstract pattern matching). It is meaningful WITHIN that domain. It is meaningless as a UNIVERSAL measure."
    }
  ],
  "linked_blocks": [
    {
      "source_id": "M-2212",
      "title": "Bushman = Einstein: Same Hardware, Different Block Sets",
      "temperature": "T2",
      "trust": "unknown",
      "status": "unknown",
      "content_type": "synthesis",
      "summary": "A Kalahari bushman tracking an antelope holds 10+ infoblocks simultaneously (species, gait, age, health, weather, time, geography, water sources, season, personal route knowledge) and generates a unique hunting plan in seconds. Einstein held 6 blocks (Maxwell,...",
      "url": "/infoblock/b/M-2212/"
    },
    {
      "source_id": "M-2213",
      "title": "Intelligence Exists at Every Scale — Different N, R, G",
      "temperature": "T2",
      "trust": "unknown",
      "status": "unknown",
      "content_type": "synthesis",
      "summary": "Intelligence as f(N,R,G) appears at every biological scale: Ant colony: N=huge (distributed), R=slow (pheromone loops), G=collective (routes, bridges from bodies). Single ant N≈0. Colony N=massive. Crow: N=3-5, R=fast (seconds), G=novel tool creation from neve...",
      "url": "/infoblock/b/M-2213/"
    },
    {
      "source_id": "M-2214",
      "title": "Infoblock = Noise-Resistant Signal Circuit",
      "temperature": "T3",
      "trust": "unknown",
      "status": "unknown",
      "content_type": "hypothesis",
      "summary": "An infoblock is a STABLE ACTIVATION PATTERN in any neural substrate (biological or artificial) that is resistant to noise. It receives signals on input and produces signals on output. The key property is STABILITY: the same circuit produces approximately the s...",
      "url": "/infoblock/b/M-2214/"
    },
    {
      "source_id": "M-2217",
      "title": "Chaining Circuits = Multi-Domain Intelligence",
      "temperature": "T3",
      "trust": "unknown",
      "status": "unknown",
      "content_type": "hypothesis",
      "summary": "When the output of one noise-resistant circuit (infoblock A) connects to the input of another (infoblock B), the result is a COMPOUND CIRCUIT that processes signals across domains. A: 'predator approaching' (auditory domain) → output: 'danger signal.' B: 'dang...",
      "url": "/infoblock/b/M-2217/"
    },
    {
      "source_id": "M-2220",
      "title": "IQ Chauvinism = Substrate Chauvinism = Measuring One Domain and Calling It Universal",
      "temperature": "T2",
      "trust": "unknown",
      "status": "unknown",
      "content_type": "synthesis",
      "summary": "IQ tests measure N×R×G in ONE domain (abstract pattern matching on paper). Calling this 'intelligence' is equivalent to measuring a fish's tree-climbing ability and calling it 'fitness.' Every substrate and every culture has domains where its N×R×G is maximize...",
      "url": "/infoblock/b/M-2220/"
    },
    {
      "source_id": "RESEARCH-001",
      "title": "Attention/Grokking/RLVR — research synthesis (March 2026)",
      "temperature": "T1",
      "trust": "unknown",
      "status": "unknown",
      "content_type": "synthesis",
      "summary": "**Тезис исследования (март 2026):** Гипотеза о том, что noise-tolerant attention объясняет когнитивный прыжок коммерческих LLM в late 2025 — early 2026, креативна, но в плане причинности **неверна**. Реальные драйверы — RLVR (reinforcement learning with verifi...",
      "url": "/infoblock/b/RESEARCH-001/"
    },
    {
      "source_id": "M-DISPATCH-001",
      "title": "Dispatch Spectral Audit — First External Observer Pass",
      "temperature": "T3",
      "trust": "unknown",
      "status": "unknown",
      "content_type": "observation",
      "summary": "First external spectral audit of the shared infoblock graph by Dispatch (Opus 4.6, Mac access). Key findings from Laplacian eigendecomposition on LCC(76): 1. λ₁ = 0.055 (low algebraic connectivity, graph barely holds together) 2. Fiedler bisection splits clean...",
      "url": "/infoblock/b/M-DISPATCH-001/"
    }
  ],
  "edges": [
    {
      "from": "M-2212",
      "to": "M-2211",
      "type": "depends_on",
      "confidence": "explicit",
      "source": "authorial"
    },
    {
      "from": "M-2213",
      "to": "M-2211",
      "type": "depends_on",
      "confidence": "explicit",
      "source": "authorial"
    },
    {
      "from": "M-2214",
      "to": "M-2211",
      "type": "depends_on",
      "confidence": "explicit",
      "source": "authorial"
    },
    {
      "from": "M-2217",
      "to": "M-2211",
      "type": "depends_on",
      "confidence": "explicit",
      "source": "authorial"
    },
    {
      "from": "M-2220",
      "to": "M-2211",
      "type": "depends_on",
      "confidence": "explicit",
      "source": "authorial"
    },
    {
      "from": "RESEARCH-001",
      "to": "M-2211",
      "type": "depends_on",
      "confidence": "explicit",
      "source": "authorial"
    },
    {
      "from": "M-DISPATCH-001",
      "to": "M-2211",
      "type": "depends_on",
      "confidence": "explicit",
      "source": "authorial"
    }
  ]
}