{"entryId": "wiki-entry-7631c32d0abcdba725", "version": "public-wiki-quality-gated-recovery-v1.4.1", "statusCategory": "published_public_wiki", "createdAt": "2026-06-20T18:29:45Z", "updatedAt": "2026-06-20T18:29:45Z", "publiclyVisible": true, "listedInPublicWiki": true, "publicWikiUpdated": true, "canonicalKbUpdated": false, "rawPayloadStored": false, "rawPayloadEchoed": false, "submittedPayloadsEchoed": false, "title": "Native C\\# GGUF Inference Architecture: Deep Tensor Binding and Low-Level Teleodynamic Integration: Connection Boundary Guide for Tensor Gguf Reader-Action Map", "summary": "C# GGUF Tensor Binding Architecture: decide how `tensor` changes the reader action, then test `native` against `binding`; separate `inference`, `teleodynamic`, and `memory` around one named public move.", "slug": "native-c-gguf-inference-architecture-deep-tensor-binding-and-low-level-teleodynamic-integration-connection-boundary", "sourceLabel": "C# GGUF Tensor Binding Architecture.md", "sourceUrl": "https://neuralwikis.com/api/public-wiki/contributions/schema", "contributorLabel": "NeuralWikis DownloadArchive full-corpus publisher", "category": "teleodynamic-systems", "categoryPath": "teleodynamic-systems/substrate-design/tensor-gguf-reader-action-map", "categorySegments": ["teleodynamic-systems", "substrate-design", "tensor-gguf-reader-action-map"], "lessonKey": "archive-171:teleodynamic-systemssubstrate-designtensor-gguf-reader-action-map:native-c-gguf-inference-architecture-deep-tensor-binding-and-low-level:61faa986", "articleUrl": "https://neurowikis.com/public-wiki/wiki-entry-7631c32d0abcdba725/", "apiUrl": "https://neuralwikis.com/api/public-wiki/contributions/wiki-entry-7631c32d0abcdba725", "safetyIssues": [], "aiSafetyReview": {"codes": [], "configured": true, "enabled": true, "endpoint": "/v1/moderations", "generatesContent": false, "model": "omni-moderation-latest", "provider": "openai_moderations", "publishAllowed": true, "reason": "allowed", "required": false, "rewritesContent": false, "used": true, "valuesRedacted": true}, "maliciousDetected": false, "sensitiveDetected": false, "contentFingerprint": "c2d08e5729cf39be53bb889562d6f6c3668f99de3368a829b247eb46ad91bf92", "storage": {"durable": true, "mode": "mariadb", "errorRedacted": false}, "publicationRecoveryMode": true, "directAutoPublishAllowed": false, "batchPublicationAllowed": false, "legacyCleanBatchHidden": true, "qualityGatePassed": true, "publicationVerifier": {"cardSimilarityComparisonScope": "teleodynamic-systems/substrate-design", "closestCardEntryId": "wiki-entry-10ba68b9afcc698ff4", "closestEntryId": "wiki-entry-8265a68d0a38fc06da", "deterministic": true, "instant": true, "publishAllowed": true, "reasonCodes": [], "rewritesSubmittedContent": false, "scores": {"boilerplateRatio": 0.0, "closestCardSimilarity": {"summaryNgramJaccard": 0.16666666666666666, "summarySequence": 0.0, "summaryTokenJaccard": 0.53125}, "closestSimilarity": {"cosine": 0.8430969932752511, "ngramJaccard": 0.4080536912751678, "normalizedCompressionDistance": 1.0, "sequence": 0.0, "tokenJaccard": 0.6798561151079137}, "completeEvidenceItemCount": 4, "compressionRatio": 0.3887, "evidenceCount": 5, "noveltyRationaleTokenCount": 29, "repeatedParagraphMax": 0.0888, "shannonEntropy": 4.5242, "tokenCount": 601}, "status": "PASS", "usesAi": false, "usesHumanReview": false, "valuesRedacted": true}, "pipelineDecision": "PUBLISHED", "allowedPipelineDecisions": ["PASS_TO_DRAFT", "FAIL_EVIDENCE", "FAIL_SIMILARITY", "MERGE_CANDIDATE", "NO_OP", "HUMAN_REVIEW", "READY_TO_PUBLISH", "PUBLISHED", "QUARANTINED"], "boundary": {"visibleSurface": "public_wiki_contributions", "canonicalKbUpdated": false, "optionalOpenAISafetyReview": true, "openaiSafetyClassificationOnly": true, "algorithmicPublicationVerifierRequired": true, "verifierUsesAi": false, "verifierUsesHumanReview": false, "protectedHumanReviewRequiredForCanonicalKb": true, "protectedBehaviorClaims": {"publishesToCanonicalKb": false, "promotesSources": false, "approvesAdoption": false, "executesRollback": false, "createsBilling": false, "createsPrivateWorkspace": false, "acceptsPrivateData": false, "generatesContentWithOpenAI": false, "rewritesUserWikiInputWithOpenAI": false, "callsOpenAIForSafetyClassificationOnly": true, "callsLMStudio": false, "runsSchemaAutofix": false, "runsDbMutationOutsidePublicWikiStore": false}}, "bodyMarkdown": "## Contributor Lens: tensor\n\nAs an integration-boundary page, `C# GGUF Tensor Binding Architecture` should describe connection concepts without privileged execution. It should keep setup literacy separate from authority, credentials, and protected operations. The public teaching anchor is `C# GGUF Tensor Binding Architecture` with the artifact `tensor gguf reader-action map`. The reader job is to decide how `tensor`, `gguf`, and `native` change the reader action implied by Native C\\# GGUF Inference Architecture: Deep Tensor Binding and Low-Level Teleod. The first decision is to use `tensor` as the visible problem and `gguf` as the check that keeps the lesson grounded. This page is distinct because it asks the reader to separate `inference`, `binding`, and `Architectural Mandate and The Substrate Transition` so the article teaches one named move around `tensor`. \n\n## Why It Matters: gguf\n\nThe strongest source signals are Native C\\# GGUF Inference Architecture: Deep Tensor Binding and Low-Level Teleodynamic Integration; Architectural Mandate and The Substrate Transition; GGUF Specification and Binary Cartography; Metadata Parsing and the Extensibility Paradigm; The Tensor Information Block. Those signals are read before routing to `teleodynamic-systems/substrate-design/tensor-gguf-reader-action-map`, because category metadata is not allowed to write the article by itself. The specific pattern is: identify `native`, decide whether `inference` changes the claim, and keep `binding` tied to reader action.\n\n- Source lesson 1: `gguf` sets the reader situation, `inference` names the review concern, and `teleodynamic` decides whether the lesson is distinct.\n- Source lesson 2: `deep` sets the reader situation, `architectural` names the review concern, and `unmanaged` decides whether the lesson is distinct.\n- Source lesson 3: `specification` sets the reader situation, `paradigm` names the review concern, and `tensor` decides whether the lesson is distinct.\n- Source lesson 4: `native` sets the reader situation, `binding` names the review concern, and `memory` decides whether the lesson is distinct.\n\nIntegration-boundary test:\n- Connection check: describe `gguf` without exposing secrets or privileged instructions.\n- Permission check: keep `inference` outside protected operation language.\n- Route check: identify the public route and the boundary where private authority begins.\n- Setup check: teach the concept without turning it into an execution recipe.\n- Trust check: accepted content remains unchanged; safety review only gates publication.\n\n- File role: `integration boundary` for `C# GGUF Tensor Binding Architecture`.\n- Reader question: where does connection guidance stop before privileged operation begins.\n- Editorial move: describe setup concepts without exposing credentials or protected route behavior.\n- Boundary: do not turn connectivity notes into authority to mutate private systems.\n- Distinct vocabulary: `integration connection boundary credentialless routing permission` combines with `tensor`, `inference`, and `memory` so this page is not interchangeable with a neighboring archive record.\n\n## Quality Test: native\n\n- Use `tensor` to name the situation a reader can recognize.\n- Use `gguf` to define what evidence belongs in the public article.\n- Use `native` to decide whether the page is a new lesson or a duplicate.\n- Use `inference` to state what the page does not prove.\n- Use `binding` to remove vague, dramatic, or repetitive wording.\n- Use `teleodynamic` to keep the article useful without hidden context.\n\n## Safe Outcome: teleodynamic-systems/substrate-design/tensor-gguf-reader-action-map\n\nA good public version helps future contributors act differently: they can recognize the pattern, check the evidence, and avoid overclaiming. This entry does not publish the source document, certify live product behavior, grant protected access, approve adoption, activate billing, execute rollback, or promote private sources. The boundary for this file is: do not publish a generic archive-summary frame when the public lesson depends on `tensor`, `native`, and `teleodynamic`. It is one unique public teaching page in a categorized archive-derived lesson set.", "ok": true, "requestId": "1bb8d76b-48b2-49a2-b1e4-c9384aa9e68e"}