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| schema: foundry-doc-v1 | schema: foundry-doc-v1 |
| title: "service-slm — The Institutional Small Language Model" | title: "service-slm — The Institutional Small Language Model" |
| slug: service-slm | slug: service-slm |
| category: services | category: services |
| type: concept | type: concept |
| quality: complete | quality: complete |
| status: active | status: active |
| audience: vendor-public | audience: vendor-public |
| bcsc_class: public-disclosure-safe | bcsc_class: public-disclosure-safe |
| language_protocol: PROSE-TOPIC | language_protocol: PROSE-TOPIC |
| last_edited: 2026-05-15 | last_edited: 2026-05-15 |
| editor: pointsav-engineering | editor: pointsav-engineering |
| paired_with: service-slm.es.md | paired_with: service-slm.es.md |
| short_description: "service-slm is the language-model service of the PointSav family — a quantised, narrow Small Language Model that translates institutional intent into deterministic outputs and routes every AI inference call through the Doorman audit boundary." | short_description: "service-slm is the language-model service of the PointSav family — a quantised, narrow Small Language Model that translates institutional intent into deterministic outputs and routes every AI inference call through the Doorman audit boundary." |
| cites: [] | cites: [] |
| references: | references: |
| - id: 1 | - id: 1 |
| text: "ISO/IEC 42001:2023 — Information technology — Artificial intelligence — Management system." | text: "ISO/IEC 42001:2023 — Information technology — Artificial intelligence — Management system." |
| url: "https://www.iso.org/standard/81230.html" | url: "https://www.iso.org/standard/81230.html" |
| - id: 2 | - id: 2 |
| text: "Groeneveld, D. et al. 'OLMo: Accelerating the Science of Language Models.' arXiv:2402.00838, 2024." | text: "Groeneveld, D. et al. 'OLMo: Accelerating the Science of Language Models.' arXiv:2402.00838, 2024." |
| url: "https://arxiv.org/abs/2402.00838" | url: "https://arxiv.org/abs/2402.00838" |
| --- | --- |
| `service-slm` is the language-model service of the PointSav family. It is intentionally a Small Language Model — quantised, narrow, fast — rather than a frontier-scale model. Its job is not conversation. Its job is semantic translation: turning institutional intent (English commands, document content, taxonomy queries) into deterministic outputs (binary commands, `VALID`/`REJECT` decisions, Chart-of-Accounts socket assignments). It is invisible — there is no chat window, and the operator never types into `service-slm` directly. The surface above it presents a structured workflow; `service-slm` is the silent intermediary. This article covers the four operations, the three compute tiers, the Doorman audit boundary, and why a small model is a structural choice, not a cost compromise. | `service-slm` is the language-model service of the PointSav family. It is intentionally a Small Language Model — quantised, narrow, fast — rather than a frontier-scale model. Its job is not conversation. Its job is semantic translation: turning institutional intent (English commands, document content, taxonomy queries) into deterministic outputs (binary commands, `VALID`/`REJECT` decisions, Chart-of-Accounts socket assignments). It is invisible — there is no chat window, and the operator never types into `service-slm` directly. The surface above it presents a structured workflow; `service-slm` is the silent intermediary. This article covers the four operations, the three compute tiers, the Doorman audit boundary, and why a small model is a structural choice, not a cost compromise. |
| ## What service-slm does | ## What service-slm does |
| The service performs four operations in order of increasing institutional weight: | The service performs four operations in order of increasing institutional weight: |
| | Operation | Inputs | Output | | | Operation | Inputs | Output | |
| |---|---|---| | |---|---|---| |
| | Semantic command parsing | English intent from the F8 Terminal | Binary UDP command for `service-udp` | | | Semantic command parsing | English intent from the F8 Terminal | Binary UDP command for `service-udp` | |
| | Gravity verification | 50-word Gravity Vector from `service-content` | `VALID` or `REJECT` single token | | | Gravity verification | 50-word Gravity Vector from `service-content` | `VALID` or `REJECT` single token | |
| | Socket assignment | Entity bundle from `service-extraction` + Chart of Accounts | Sovereign-ID with Chart-of-Accounts socket | | | Socket assignment | Entity bundle from `service-extraction` + Chart of Accounts | Sovereign-ID with Chart-of-Accounts socket | |
| | Theme suggestion | Recurring patterns the Gravity Engine flags | Proposed new entries to the Themes Seed Vault (for operator approval) | | | Theme suggestion | Recurring patterns the Gravity Engine flags | Proposed new entries to the Themes Seed Vault (for operator approval) | |
| The model never publishes structured data autonomously. Every output transits a human-in-the-loop verification step before it can be written to a verified ledger. | The model never publishes structured data autonomously. Every output transits a human-in-the-loop verification step before it can be written to a verified ledger. |
| ## The three compute tiers | ## The three compute tiers |
| The same `service-slm` interface adapts to the host hardware through three execution modes: | The same `service-slm` interface adapts to the host hardware through three execution modes: |
| | Tier | Where it runs | Model size | Use case | | | Tier | Where it runs | Model size | Use case | |
| |---|---|---|---| | |---|---|---|---| |
| | Local | Operator's workstation or `os-totebox` with ≥16 GB RAM | 1B–7B parameter quantised model loaded locally | Sovereign Iron Vault — institutional customers; no cloud egress | | | Local | Operator's workstation or `os-totebox` with ≥16 GB RAM | 1B–7B parameter quantised model loaded locally | Sovereign Iron Vault — institutional customers; no cloud egress | |
| | Yo-Yo | Operator-provisioned elastic GPU node | Larger model on rented hardware; data tunnelled via WireGuard | Cost-optimised heavy batch processing; node is torn down after the run | | | Yo-Yo | Operator-provisioned elastic GPU node | Larger model on rented hardware; data tunnelled via WireGuard | Cost-optimised heavy batch processing; node is torn down after the run | |
| | External API | Licensed third-party API endpoint | Frontier model | Last-resort routing for tasks where local capacity is insufficient | | | External API | Licensed third-party API endpoint | Frontier model | Last-resort routing for tasks where local capacity is insufficient | |
| All three tiers transit the Doorman audit boundary. No tier bypasses it. | All three tiers transit the Doorman audit boundary. No tier bypasses it. |
| ## The Doorman boundary | ## The Doorman boundary |
| The Doorman is the audit-routing checkpoint between `service-slm` and the rest of the system. Every prompt and every completion is captured before the response returns to the caller. The audit trail lives in the local per-tenant ledger and forms the institutional record of every AI decision. | The Doorman is the audit-routing checkpoint between `service-slm` and the rest of the system. Every prompt and every completion is captured before the response returns to the caller. The audit trail lives in the local per-tenant ledger and forms the institutional record of every AI decision. |
| The Doorman exists for three reasons: | The Doorman exists for three reasons: |
| 1. **Regulatory.** ISO/IEC 42001 (AI Management System) [^1] requires an immutable log of AI-assisted decisions. | 1. **Regulatory.** ISO/IEC 42001 (AI Management System) [^1] requires an immutable log of AI-assisted decisions. |
| 2. **Operational.** A self-healing system needs a corpus of its own past behaviour. The Doorman captures it. | 2. **Operational.** A self-healing system needs a corpus of its own past behaviour. The Doorman captures it. |
| 3. **Sovereign.** No request reaches a third-party API without passing through a local boundary the operator controls. | 3. **Sovereign.** No request reaches a third-party API without passing through a local boundary the operator controls. |
| ## Model selection | ## Model selection |
| The canonical local model is from the OLMo family (Apache 2.0 + Open Data Commons) [^2]. Two profiles are available: | The canonical local model is from the OLMo family (Apache 2.0 + Open Data Commons) [^2]. Two profiles are available: |
| | Profile | Model | RAM target | | | Profile | Model | RAM target | |
| |---|---|---| | |---|---|---| |
| | Edge | OLMo-2-0425-1B-Instruct | ~2 GB | | | Edge | OLMo-2-0425-1B-Instruct | ~2 GB | |
| | Standard | OLMo-3-1125-7B-Think-Q4_K_M | ~6 GB | | | Standard | OLMo-3-1125-7B-Think-Q4_K_M | ~6 GB | |
| OLMo is preferred because it ships with fully-open weights and training-data documentation — a prerequisite for continued pre-training on an operator's own corpus, which is the long-term path to a domain-specialised institutional model. | OLMo is preferred because it ships with fully-open weights and training-data documentation — a prerequisite for continued pre-training on an operator's own corpus, which is the long-term path to a domain-specialised institutional model. |
| ## Why a small model | ## Why a small model |
| Frontier-scale models impose three costs `service-slm` cannot accept: they require cloud egress, they consume tens of gigabytes of RAM, and they cannot be audited in any meaningful sense. A 1B-parameter quantised model is sufficient for its one narrow task — translating institutional English into deterministic outputs — and fits inside the cost envelope of a $7 cloud node alongside a Totebox. | Frontier-scale models impose three costs `service-slm` cannot accept: they require cloud egress, they consume tens of gigabytes of RAM, and they cannot be audited in any meaningful sense. A 1B-parameter quantised model is sufficient for its one narrow task — translating institutional English into deterministic outputs — and fits inside the cost envelope of a $7 cloud node alongside a Totebox. |
| Specialisation, not scale, is the design principle. | Specialisation, not scale, is the design principle. |
| ## See also | ## See also |
| - [[service-content]] — the upstream Gravity Engine; primary caller of service-slm for gravity verification | - [[service-content]] — the upstream Gravity Engine; primary caller of service-slm for gravity verification |
| - [[os-network-admin]] — the F8 Terminal where semantic command parsing originates | - [[os-network-admin]] — the F8 Terminal where semantic command parsing originates |
| - [[totebox-os]] — the Totebox that hosts service-slm in Sovereign Iron mode | - [[totebox-os]] — the Totebox that hosts service-slm in Sovereign Iron mode |
| - [[sys-adr-07]] — structured data never routes through AI; service-slm is the implementation of this boundary | - [[sys-adr-07]] — structured data never routes through AI; service-slm is the implementation of this boundary |
| - [[doorman-protocol]] — the Doorman audit-routing protocol in detail | - [[doorman-protocol]] — the Doorman audit-routing protocol in detail |