{
  "type": "infoblock_context_packet",
  "version": "0.1-test",
  "generated_at": "2026-05-28T12:42:07Z",
  "query": {
    "source_id": "M-2216",
    "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-2216",
      "title": "Temperature Scale = Phase State of Information",
      "author": "Den+Phi_Chat",
      "created_by_agent": "unknown",
      "status": "unknown",
      "trust": "unknown",
      "temperature": "T3",
      "content_type": "hypothesis",
      "era": "current",
      "origin": "[local-path-redacted]",
      "claim": "The M-block temperature scale (T0-T5) maps to physical phase states of information: T5 (gas/vapor) = dispersed signal, maximum uncertainty, no stable circuit yet. T4 = condensing, some structure forming, still fragile. T3 = liquid, flows but has internal coherence, hypothesis stage. T2 = solid, crystallized from multiple sources, stable under perturbation. T1 = crystal, proven, survives extreme noise (replication, quantization, translation). T0 = raw measurement, ground truth. The progression T5→T1 IS grokking at the knowledge level. Each step = increased noise resistance.\n\n## Метаданные\n**Tags:** temperature, phase-state, gas-solid, crystallization, press-secretary, retroactive\n**Confidence:** 0.7\n**CCT bridge:** The old density scale (vapor/liquid/solid/crystal from S-0001) WAS this same insight, just named differently. We deprecated it in favor of T0-T5. Turns out both describe the same thing: phase state of information crystallization. Connects to M-2209 (Press-Secretary: song knew before theory).",
      "not_this": "NOT 'we planned this mapping.' The temperature scale was designed intuitively. This block RETROACTIVELY recognizes that the scale already encoded the gas→solid phase transition. Press-Secretary Principle: Layer 0 knew before Layer 3 formalized."
    }
  ],
  "linked_blocks": [
    {
      "source_id": "M-2215",
      "title": "Grokking = Phase Transition from Noise-Vulnerable to Noise-Resistant",
      "temperature": "T3",
      "trust": "unknown",
      "status": "unknown",
      "content_type": "hypothesis",
      "summary": "Grokking is the moment when an information pattern transitions from noise-vulnerable (destroyed by perturbation) to noise-resistant (survives perturbation). Before grokking: information stored in fine-grained structure (fragile, destroyed by 4-bit quantization...",
      "url": "/infoblock/b/M-2215/"
    },
    {
      "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/"
    }
  ],
  "edges": [
    {
      "from": "M-2216",
      "to": "M-2215",
      "type": "depends_on",
      "confidence": "explicit",
      "source": "authorial"
    },
    {
      "from": "M-2216",
      "to": "M-2214",
      "type": "depends_on",
      "confidence": "explicit",
      "source": "authorial"
    }
  ]
}