# synthadoc **Repository Path**: istop/synthadoc ## Basic Information - **Project Name**: synthadoc - **Description**: tongbu - **Primary Language**: Unknown - **License**: AGPL-3.0 - **Default Branch**: main - **Homepage**: None - **GVP Project**: No ## Statistics - **Stars**: 0 - **Forks**: 0 - **Created**: 2026-05-25 - **Last Updated**: 2026-05-25 ## Categories & Tags **Categories**: Uncategorized **Tags**: None ## README # Synthadoc ``` .-+###############+-. .## ##. ## .----. .----. ## ## /######\ /######\ ## ## |######| |######| ## ## | [SD] | | wiki | ## ## |######| |######| ## ## \######/ \######/ ## ## '----' '----' ## '## ##' '-+###############+-' S Y N T H A D O C Community Edition v0.5.0 ──────────────────────────────── Domain-agnostic LLM wiki engine ``` [![CI](https://github.com/axoviq-ai/synthadoc/actions/workflows/ci.yml/badge.svg)](https://github.com/axoviq-ai/synthadoc/actions/workflows/ci.yml) [![Coverage](https://img.shields.io/badge/dynamic/json?url=https%3A%2F%2Fraw.githubusercontent.com%2Faxoviq-ai%2Fsynthadoc%2Fbadges%2Fdocs%2Fbadges.json&query=%24.coverage&label=Coverage&suffix=%25&color=brightgreen)](https://github.com/axoviq-ai/synthadoc/actions/workflows/ci.yml) [![License](https://img.shields.io/badge/License-AGPL--3.0-blue.svg)](https://github.com/axoviq-ai/synthadoc/blob/main/LICENSE) [![Python](https://img.shields.io/badge/Python-3.11%2B-yellow.svg)](https://www.python.org/) [![Skills](https://img.shields.io/badge/dynamic/json?url=https%3A%2F%2Fraw.githubusercontent.com%2Faxoviq-ai%2Fsynthadoc%2Fbadges%2Fdocs%2Fbadges.json&query=%24.skills&label=Skills&color=purple)](https://github.com/axoviq-ai/synthadoc/tree/main/synthadoc/skills) [![Hooks](https://img.shields.io/badge/dynamic/json?url=https%3A%2F%2Fraw.githubusercontent.com%2Faxoviq-ai%2Fsynthadoc%2Fbadges%2Fdocs%2Fbadges.json&query=%24.hooks&label=Hook%20events&color=teal)](https://github.com/axoviq-ai/synthadoc/tree/main/hooks) [![CLI](https://img.shields.io/badge/dynamic/json?url=https%3A%2F%2Fraw.githubusercontent.com%2Faxoviq-ai%2Fsynthadoc%2Fbadges%2Fdocs%2Fbadges.json&query=%24.cli_commands&label=CLI%20commands&color=darkblue)](https://github.com/axoviq-ai/synthadoc) [![Obsidian](https://img.shields.io/badge/dynamic/json?url=https%3A%2F%2Fraw.githubusercontent.com%2Faxoviq-ai%2Fsynthadoc%2Fbadges%2Fdocs%2Fbadges.json&query=%24.obsidian_commands&label=Obsidian%20commands&color=blueviolet)](https://github.com/axoviq-ai/synthadoc/tree/main/obsidian-plugin) [![Version](https://img.shields.io/badge/Community%20Edition-v0.5.0-brightgreen.svg)](https://github.com/axoviq-ai/synthadoc) **Document version: v0.5.0** **Engineered for solo users and enterprises alike, providing a domain-specific knowledge base that scales seamlessly while maintaining accuracy through autonomous self-optimization.** > Built for individuals, small teams, and large organizations who need a knowledge base that stays accurate as documents accumulate. Synthadoc reads your raw source documents — PDFs, spreadsheets, PPTs, web pages, images, videos, Word files, TXTs — and uses an LLM to synthesize them into a persistent, structured wiki. Cross-references are built automatically, contradictions are detected and surfaced, orphan pages are flagged, and every answer cites its sources. Outputs are stored as local Markdown files, ensuring seamless integration and autonomous management within [Obsidian](https://obsidian.md) or any wiki-compliant ecosystem. --- [![Watch the Synthadoc demo](https://img.youtube.com/vi/rIGO6zi9XQE/maxresdefault.jpg)](https://www.youtube.com/watch?v=rIGO6zi9XQE) ▶ [Watch the demo on YouTube](https://www.youtube.com/watch?v=rIGO6zi9XQE) --- ## Table of Contents - [Who Is It For?](#who-is-it-for) - [Inspiration and Vision](#inspiration-and-vision) - [Problems Addressed](#problems-addressed) - [Why Synthadoc?](#why-synthadoc) - [Architecture](#architecture) - [What's Included](#whats-included) - [Installation](#installation) - [Quick-Start Guide](#quick-start-guide) - [Creating Your Own Wiki](#creating-your-own-wiki) - [Configuration](#configuration) - [Command Reference by Use Case](#command-reference-by-use-case) - [Administrative Reference](#administrative-reference) - [Understanding Logs and the Audit Trail](#understanding-logs-and-the-audit-trail) - [Customization](#customization) - [Links](#links) --- ## Who Is It For? Synthadoc scales from a single researcher to a company-wide knowledge platform: | Team size | Typical use case | | ----------------------- | --------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- | | **Solo / 1–2 people** | Personal research wiki, freelance knowledge base, indie hacker documentation - run it free on Gemini Flash or a local Ollama model with zero ongoing cost | | **Small team (3–20)** | Centralized internal knowledge base for startups and departments that aggregates diverse individual data sources into a unified, high-integrity wiki. The system automatically resolves contradictions and scales autonomously, ensuring organizational intelligence grows in tandem with your team | | **Medium / enterprise** | Compliance-sensitive knowledge bases that must stay local; per-department wikis on separate ports; audit trail for every ingest and cost event; hook system for CI/CD integration; OpenTelemetry for ops dashboards | No cloud account. No vendor lock-in. The wiki is plain Markdown — open it in any editor, back it up with git, sync it with any cloud drive. --- ## Inspiration and Vision > *"The LLM should be able to maintain a wiki for you."* > — Andrej Karpathy, [LLM Wiki gist](https://gist.github.com/karpathy/442a6bf555914893e9891c11519de94f) Most knowledge-management tools retrieve and summarize at query time. Synthadoc inverts this: it **compiles knowledge at ingest time**. Every new source enriches and cross-links the entire corpus, not just appends a new chunk. The wiki is the artifact — readable, editable, and browsable without any tool running. **Long-term alignment:** | Direction | How Synthadoc moves there | | ------------------------ | ----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- | | Agent orchestration | Orchestrator dispatches parallel IngestAgent, QueryAgent, LintAgent sub-agents with cost guards and retry backoff | | Sub-agent skills/plugins | Featuring a 3-tier lazy-load capability system, the platform allows for the injection of custom skills and hooks via a plug-and-play interface, ensuring core stability is never compromised during extension | | LLM wiki vs. RAG | Pre-compiled structured knowledge beats query-time synthesis for contradiction detection, graph traversal, and offline access | | CLI / HTTP | A unified interface via CLI and RESTful endpoints, the system streamlines full-spectrum integration: from data ingestion and querying to automated linting, security auditing, and job orchestration | | Local-first | All data stays on your machine; localhost-only network binding; no cloud dependency except the LLM API itself | | Provider choice | LLM backends including free-tier Gemini and Groq, paid Anthropic/OpenAI/DeepSeek/MiniMax, local Ollama, and coding-tool CLI providers (Claude Code, Opencode) — no API key required if you already have a subscription | --- ## Problems Addressed ### 1. RAG conflates contradictions; Synthadoc surfaces them When two sources disagree, vector search returns both and the LLM silently blends them. Synthadoc detects the conflict during ingest, flags the page with `status: contradicted`, preserves both claims with citations, and either auto-resolves (if confidence ≥ threshold) or queues the conflict for human review. ### 2. Knowledge fragments; Synthadoc links it RAG chunks are isolated. Synthadoc builds `[[wikilinks]]` between related pages during every ingest pass. The resulting graph is visible in Obsidian's Graph view and queryable with Dataview. ### 3. Orphan knowledge has no address; Synthadoc finds it Pages that exist but are referenced by nothing are surfaced by the lint system, with ready-to-paste index entries so you can quickly integrate them. ### 4. LLM-compiled content can be overconfident; Synthadoc audits it An LLM synthesising source documents naturally produces confident prose — but may overstate claims, omit caveats, or accept a source's framing uncritically. The **adversarial lint pass** runs a concurrent second-LLM review of every page: it plays devil's advocate to surface issues the primary model accepted too readily — contested estimates, unsupported superlatives, and claims that contradict well-established facts. Warnings are stored in page frontmatter and surfaced in both the CLI report and the Obsidian lint modal. The reviewer is calibrated to flag only high-confidence issues, producing a useful signal without noise. For the strongest signal, point the adversarial pass at a *different* model family: a distinct model is far more likely to challenge assumptions than the same model reviewing its own output. ### Claim-Level Provenance Every substantive claim in the wiki is annotated with `^[filename:L-L]` — a citation pointing to the exact line range in the source file it came from. Click the citation chip in Obsidian to open a Source Viewer showing the highlighted passage; for PDF sources, Synthadoc resolves the PDF page number automatically via a pagemap sidecar. A global Provenance modal shows all citations across the wiki, sortable and filterable. Broken citations are caught by the lint system and logged in the audit trail. Run `synthadoc audit citations` to query citations from the CLI. ### 5-State Lifecycle Machine Every compiled wiki page moves through a **5-state lifecycle** (`draft | active | contradicted | stale | archived`) with a full audit trail — every state change recorded with who triggered it and why. New pages start as `draft`; lint automatically promotes clean pages to `active`, marks pages `stale` when their source file changes on disk, and archives pages whose source file disappears. Manual transitions (`activate`, `archive`, `restore`) and the full event log are available from both the CLI and the Obsidian plugin. ### 5. Re-synthesis is expensive; Synthadoc caches it A 3-layer cache (embedding, LLM response, provider prompt cache) means repeated lint runs on unchanged pages cost near-zero tokens. ### 6. Knowledge is locked in tools; Synthadoc escapes it Every page is a plain Markdown file with YAML frontmatter. No proprietary format. Open the folder in any editor, put it in git, sync it with any cloud drive. ### 7. Wiki structure decays as content grows; Synthadoc regenerates it As the wiki accumulates pages the `index.md` table of contents, domain scope (`purpose.md`), and LLM behaviour guidelines (`AGENTS.md`) can drift out of sync with actual content. The `scaffold` command re-generates all three from the current wiki state using the LLM — creating category-aware index entries, refreshed scope boundaries, and updated terminology guidelines — without touching pages already linked in the index. Run it once after initial install to get a rich scaffold, then schedule it weekly as the wiki grows. ### Business values | Value | How | | --------------------- | ----------------------------------------------------------------------------------- | | **Faster onboarding** | New team members query the wiki instead of digging through documents | | **Audit trail** | Every ingest recorded in`audit.db` with source hash, token count, and timestamp | | **Cost control** | Configurable soft-warn and hard-gate thresholds; 3-layer cache reduces repeat spend | | **Compliance** | Local-first — source documents and compiled knowledge never leave your machine | | **Extensibility** | Hooks fire on every event; custom skills load without a server restart | --- ## Why Synthadoc? ### Competitive advantages | Capability | Synthadoc | Typical RAG | NotebookLM | Notion AI | | ---------------------------- | --------------------------------------------------------------------- | ----------- | ---------- | --------- | | Ingest-time synthesis | **Yes** | No | Partial | No | | Contradiction detection | **Yes** | No | No | No | | Orphan page detection | **Yes** | No | No | No | | Adversarial claim review | **Yes** (concurrent second-LLM pass — flags overstated claims and unsupported assertions per page) | No | No | No | | Claim-level provenance | **Yes** (`^[file:L-L]` citations on every claim; Source Viewer in Obsidian; PDF page resolution; global provenance table; broken-citation lint) | No | No | No | | 5-state lifecycle machine | **Yes** (`draft / active / contradicted / stale / archived`; auto-transitions via lint; manual CLI + Obsidian; immutable audit trail per transition) | No | No | No | | Persistent wikilink graph | **Yes** | No | No | No | | Local-first (no cloud data) | **Yes** | Varies | No | No | | Custom skill plugins | **Yes** | Limited | No | No | | Obsidian integration | **Yes** | No | No | No | | Cost guard + audit trail | **Yes** (per-job token + cost log; claim citations DB; `audit citations` CLI; ingest/lint/citation event types; full audit history API) | No | No | No | | Hook / CI integration | **Yes** (2 events) | No | No | No | | Offline browsable artifact | **Yes** | No | No | No | | Multi-wiki isolation | **Yes** | No | No | No | | Web search → wiki pages | **Yes** | No | No | No | | Multiple LLMs support | **Yes** (Gemini, Groq, MiniMax, DeepSeek, Anthropic, OpenAI, Ollama) | No | No | No | | Auto wiki overview page | **Yes** | No | No | No | | Resumable job queue + retry | **Yes** | No | No | No | | Query decomposition | **Yes** (parallel sub-queries) | No | No | No | | Knowledge gap detection | **Yes** | No | No | No | | Web search decomposition | **Yes** (parallel Tavily) | No | No | No | | Semantic re-ranking (vector) | **Yes** (optional fastembed) | Varies | No | No | | Scaffold automation | **Yes** | No | No | No | | Coding tool as LLM provider | **Yes** (Claude Code, Opencode — no API key) | No | No | No | | YouTube transcript ingest | **Yes** (standard + Shorts, no API key, timestamped) | No | No | No | | Multilingual / CJK queries | **Yes** (Chinese, Japanese, Korean — no false gaps) | Limited | No | No | | Query-scoped routing | **Yes** (ROUTING.md — branch-scoped BM25, query auto-selects branch) | No | No | No | | Candidates staging | **Yes** (ingest to staging area, promote or discard) | No | No | No | | Context packs | **Yes** (goal → sub-questions → token-budget evidence pack) | No | No | No | ### Key differentiators vs. RAG RAG chunks documents and retrieves them at query time. Synthadoc **compiles** knowledge: every new source is synthesized into the existing wiki graph at ingest time. - **Contradictions are caught, not blended.** When two sources disagree, Synthadoc flags the page — RAG silently averages both claims. - **Knowledge is linked, not scattered.** `[[wikilinks]]` connect related pages into a navigable graph visible in Obsidian and queryable with Dataview. - **The artifact outlives the tool.** Close the server, open the wiki folder in any Markdown editor — the knowledge is all there, human-readable, no proprietary format. - **Cost-efficient at scale.** Two-step ingest with cached analysis means repeated ingest of similar sources costs near-zero tokens. Three cache layers stack for lint and query too. - **Ingest is durable, not fragile.** Every ingest request becomes a queued job with automatic retry and a persistent audit record. Batch a hundred documents and resume after a crash — no work is lost. --- ## Architecture ![Synthadoc Architecture](docs/png/architecture.png) For full architecture details, data models, API reference, and plugin development guide see **[docs/design.md](docs/design.md)**. --- ## What's Included See [docs/design.md — Appendix A: Release Feature Index](docs/design.md#appendix-a--release-feature-index) for a full feature list by version. --- ## Installation ### Prerequisites | Requirement | Version | Notes | | -------------- | ------- | ------------------------------------------------------------------------- | | Python | 3.11+ | | | Node.js | 18+ | Obsidian plugin build only | | Git | any | | | LLM API key | — | At least one required — unless using Claude Code or Opencode (see below) | | Tavily API key | — | Optional — web search feature only | **LLM API key — at least one required** (unless using Claude Code or Opencode — see the last two rows below): | Provider | Free tier | Vision | Get key | | ---------------- | --------------------------------------------- | --------------- | --------------------------------------------------------------- | | **Gemini Flash** | Yes — 15 RPM / 1M tokens/day, no credit card | Yes | [aistudio.google.com](https://aistudio.google.com/app/apikey) | | Groq | Yes — rate-limited | No | [console.groq.com](https://console.groq.com/keys) | | Ollama | Yes — runs locally, no key | Model-dependent | [ollama.com](https://ollama.com) | | MiniMax | No — pay-per-token | Yes | [platform.minimax.io](https://platform.minimax.io/) | | DeepSeek | No — pay-per-token (very cheap text rates) | No | [platform.deepseek.com](https://platform.deepseek.com/api_keys) | | Anthropic | No | Yes | [console.anthropic.com](https://console.anthropic.com/) | | OpenAI | No | Yes | [platform.openai.com](https://platform.openai.com/api-keys) | | **Claude Code** | Included with subscription — no API key | No | Set`provider = "claude-code"` in config.toml | | **Opencode** | Included with subscription — no API key | No | Set`provider = "opencode"` in config.toml | **Tavily API key (optional — enables web search):** Get a free key at [tavily.com](https://tavily.com). Without it, web search jobs will fail but all other features work normally. --- ### Step 1 — Clone and install ```bash git clone https://github.com/paulmchen/synthadoc.git cd synthadoc pip3 install -e ".[dev]" ``` If you already have Synthadoc wikis installed, upgrade the Obsidian plugin in all registered wikis to keep them in sync: ```bash synthadoc plugin upgrade ``` ### Step 2 — Run the Python test suite Validate that the Python engine builds and all tests pass before proceeding: ```bash pytest --ignore=tests/performance/ -q ``` Expected: all tests pass, 0 failures. If any fail, check the error output before continuing. Performance benchmarks (optional — Linux/macOS, measures SLOs): ```bash pytest tests/performance/ -v --benchmark-disable ``` ### Step 3 — Test the Obsidian plugin The pre-built `main.js` is committed to the repo — you do not need to rebuild it unless you modify the plugin source code. To run the plugin unit tests: ```bash cd obsidian-plugin npm install npm test # runs Vitest unit tests ``` If you modify `src/main.ts`, rebuild the bundle before installing: ```bash npm run build # produces main.js ``` ### Step 4 — Set your API keys **At least one LLM API key is required** — unless you use Claude Code or Opencode as your provider, in which case no separate API key is needed (see [Coding tool CLI providers](docs/design.md#coding-tool-cli-providers--no-api-key-needed)). Synthadoc defaults to **Gemini Flash** as the LLM provider — it's free, requires no credit card, and offers 1 million tokens per day. Get a key at **aistudio.google.com/app/apikey** (click "Create API key"). Web search uses **Tavily** (`TAVILY_API_KEY`) — optional, only needed for `synthadoc ingest "search for: …"` jobs. ```bash # macOS / Linux — add to ~/.bashrc or ~/.zshrc to persist export GEMINI_API_KEY=AIza… # default — free tier, 1M tokens/day export GROQ_API_KEY=gsk_… # alternative free tier — 100K tokens/day export ANTHROPIC_API_KEY=sk-ant-… # paid — highest quality export MINIMAX_API_KEY=… # paid — text rates (image support) export DEEPSEEK_API_KEY=… # paid — text rates (no image support) export TAVILY_API_KEY=tvly-… # web search (optional) # Windows cmd — current session only set GEMINI_API_KEY=AIza… set GROQ_API_KEY=gsk_… set ANTHROPIC_API_KEY=sk-ant-… set MINIMAX_API_KEY=… set DEEPSEEK_API_KEY=… set TAVILY_API_KEY=tvly-… # Windows cmd — permanent (open a new cmd window after running) setx GEMINI_API_KEY AIza… setx GROQ_API_KEY gsk_… setx ANTHROPIC_API_KEY sk-ant-… setx MINIMAX_API_KEY … setx DEEPSEEK_API_KEY sk-… setx TAVILY_API_KEY tvly-… ``` To switch provider, edit `[agents]` in `/.synthadoc/config.toml` and restart `synthadoc serve`. See [Appendix — Switching LLM providers](docs/user-quick-start-guide.md#appendix-c--switching-llm-providers) for step-by-step instructions. ### Step 5 — Verify ```bash synthadoc --version ``` ### Step 6 — Install a demo wiki, then start the engine A **wiki** is a self-contained, structured knowledge base — a folder of Markdown pages linked by topic, maintained and cross-referenced automatically by Synthadoc. Think of it as a living document that grows smarter with every source you feed it: each ingest pass adds new pages, updates existing ones, and flags contradictions. For your own work, you can build and grow a domain-specific wiki — whether that's market research, a technical knowledge base, or a team handbook — and query it in plain English or other languages at any time. A wiki must be installed before the engine can serve it. The fastest way to get started is the **History of Computing** demo, which ships with 13 pre-built pages and sample source files — no LLM API key required to browse it. **First time — install the demo wiki:** ```bash # Linux / macOS synthadoc install history-of-computing --target ~/wikis --demo # Windows (cmd.exe) synthadoc install history-of-computing --target %USERPROFILE%\wikis --demo ``` **Upgrading / already installed the demo — sync new source files instead:** ```bash synthadoc demo sync history-of-computing ``` This copies any new source files added to the demo template into your existing wiki without overwriting anything you have already ingested or modified. Skip the `install` command above if you have previously installed this demo. **Then start the engine:** ```bash # Foreground — keeps the terminal; logs stream to the console synthadoc serve -w history-of-computing # Background — releases the terminal; logs go to the wiki log file synthadoc serve -w history-of-computing --background ``` The server binds to `http://127.0.0.1:7070` by default (port is set in `/.synthadoc/config.toml`). The server is **localhost-only** — it never binds to an external network interface. Leave it running while you work — the Obsidian plugin, CLI ingest commands, and query commands all talk to it. To stop a background server: ```bash # Linux / macOS kill # Windows (cmd) taskkill /PID /F ``` The PID is printed when the background server starts and saved to `/.synthadoc/server.pid`. --- ## Quick-Start Guide The **History of Computing** demo includes 13 pre-built pages, raw source files covering clean-merge, contradiction, and orphan scenarios, and a full walkthrough of key Synthadoc feature. **Full step-by-step walkthrough: [docs/user-quick-start-guide.md](docs/user-quick-start-guide.md)** The guide covers: 1. Verify the demo server started (banner, health check) 2. Install Dataview in Obsidian 3. Install the Synthadoc plugin and open the vault 4. Review wiki structure and key files (index, purpose, AGENTS.md, dashboard) 5. Query the pre-built wiki — including knowledge gap detection 6. Batch ingest all demo source files 7. Resolve a contradiction 8. Manage page lifecycle — draft, active, stale, archived states 9. Fix an orphan page 10. Run the adversarial lint pass — flag overstated claims across all pages 11. Web search ingestion with automatic decomposition 12. Ingest a YouTube video 13. Enrich the wiki with scaffold (regenerate/update index, purpose, AGENTS.md) 14. Audit features (token cost, history, events) 15. Schedule recurring operations 16. Set up query-scoped routing with ROUTING.md 17. Stage and review candidate pages before promoting them 18. Build a context pack for grounded LLM prompts 19. Verify claim provenance — source-line citations, broken citation audit, global provenance table --- ## Creating Your Own Wiki Unlike the demo (which ships with pre-built pages), your own wiki starts from a domain description and grows as you feed it sources. Three commands are all you need to get started: ```bash synthadoc install market-condition-canada --target ~/wikis --domain "Market conditions and trends in Canada" synthadoc use market-condition-canada # set as the default wiki — no -w needed from here on synthadoc serve ``` `--domain` is a free-text description of the subject area — the LLM uses it to generate four domain-aware starter files via scaffold: | File | Purpose | | ------------------- | --------------------------------------------------------------------------- | | `wiki/index.md` | Table of contents — domain-relevant categories with`[[wikilinks]]` | | `wiki/purpose.md` | Scope declaration — tells the ingest agent what belongs and what to ignore | | `AGENTS.md` | LLM behaviour guidelines — tone, terminology, and synthesis style | | `wiki/dashboard.md` | Live Dataview dashboard — orphan pages, contradictions, page count | Then open the wiki folder in Obsidian as a new vault, install the Dataview community plugin, and copy the Synthadoc plugin files with one command (requires the wiki to be registered via `synthadoc install` first): ```bash synthadoc plugin install market-condition-canada ``` This automatically writes the correct server URL into the plugin's `data.json` — no manual configuration in Obsidian settings is needed. The Quick-Start Guide covers the full Obsidian setup in detail — see [docs/user-quick-start-guide.md](docs/user-quick-start-guide.md). **Recommended growth loop:** **1. Seed with web searches** — pull in real content for the topics you care about: ```bash synthadoc ingest "search for: Economy, employment and labour market analysis in Toronto GTA" synthadoc ingest "search for: Bank of Canada interest rate outlook 2025" synthadoc jobs list # watch progress ``` Each search fans out into up to 20 parallel URL ingest jobs. Query decomposition and web search decomposition (see below) make broad topics yield much richer results than a single search. **2. Review candidates (optional quality gate)** — enable staging before large ingest batches so pages below your confidence threshold wait for review rather than entering BM25 immediately: ```bash synthadoc staging policy threshold # pages below high confidence → wiki/candidates/ synthadoc candidates list # see what's waiting synthadoc candidates promote early-internet-history # approve individually synthadoc candidates promote --all # or approve everything at once synthadoc candidates discard punch-card-era # discard pages that don't belong ``` Skip this step if you trust all your sources — `staging policy off` is the default. **3. Lint and query** — check for contradictions, flag overstated claims, verify citations, and confirm the wiki answers your questions: ```bash synthadoc lint run # full lint: structural checks + adversarial pass (default) synthadoc lint run --no-adversarial # structural only — skip the adversarial LLM review synthadoc lint report # view all issues including citation violations (Check 5) synthadoc audit citations --broken # list claim citations that failed validation synthadoc query "What are the current employment trends in the Toronto GTA?" ``` **4. Re-run scaffold** — after pages accumulate, scaffold regenerates a richer index that reflects actual content. Pages already linked in `index.md` are never overwritten: ```bash synthadoc scaffold ``` **5. Set up routing** — once the wiki has ~100+ pages across distinct topic areas, routing narrows each query to the relevant branch, cutting latency and reducing noise in synthesis: ```bash synthadoc routing init # generate ROUTING.md from current index.md (one-time) ``` From this point, queries automatically scope to the 1–2 most relevant topic branches. New pages created by ingest are auto-slotted into `ROUTING.md` — no manual maintenance needed. See [Appendix H in the Quick-Start Guide](docs/user-quick-start-guide.md#appendix-h--bm25-routing-performance-benchmarks) for latency benchmarks across corpus sizes. **6. Build a context pack** — assemble cited wiki excerpts within a token budget for use in an external agent prompt: ```bash synthadoc context build "Toronto GTA real estate market" --tokens 4000 ``` Returns ranked page excerpts with relevance scores, confidence levels, and source paths — no synthesis. The `POST /context/build` REST endpoint and MCP tool call make this callable from any agent pipeline. See [docs/design.md — Context packs](docs/design.md#context-packs) for the knowledge backend pattern. **7. Schedule recurring updates** — keep the wiki fresh and the routing table clean automatically: ```bash synthadoc schedule add --op "ingest --batch raw_sources/" --cron "0 2 * * *" synthadoc schedule add --op "lint run" --cron "0 3 * * 0" synthadoc schedule add --op "scaffold" --cron "0 4 * * 0" synthadoc schedule add --op "routing clean" --cron "0 5 * * 0" ``` Run order matters: lint first (removes dead wikilinks), scaffold next (regenerates index), routing clean last (prunes ROUTING.md entries for deleted pages). ### How decomposition works Both `query` and web search `ingest` automatically split complex inputs into focused parallel sub-tasks — a compound question becomes multiple BM25 retrievals merged before synthesis; a broad search topic becomes multiple focused Tavily keyword searches whose results are merged and deduplicated. Both fall back gracefully if the LLM decomposition call fails. See [docs/design.md — Query decomposition and web search decomposition](docs/design.md#query-decomposition) for the full design. ### Semantic re-ranking (vector search) BM25 keyword search is the default. Optional vector re-ranking (`BAAI/bge-small-en-v1.5` cosine similarity) improves recall on conceptually related queries — enable it by installing `fastembed` and setting `[search] vector = true` in config. The ~130 MB model is downloaded once; BM25 stays active as fallback. See [docs/design.md — Semantic re-ranking](docs/design.md#semantic-re-ranking) for configuration options and performance notes. ### Knowledge gap workflow When a query returns thin or empty results, the wiki doesn't yet cover the topic. Fill the gap with a targeted web search ingest, wait for jobs, then re-query. Each ingest cycle makes the wiki denser — future queries need the web less. See [docs/design.md — Knowledge gap workflow](docs/design.md#knowledge-gap-workflow) for the full pattern. See [docs/design.md](docs/design.md) for a full description of how ingest, contradiction detection, and orphan tracking work under the hood. --- ## Configuration You do not need to configure anything to run the demo. The demo wiki ships with its own settings and sensible built-in defaults cover everything else. Set your API key env var, run `synthadoc serve`, and go. For the full configuration reference — layer precedence, global vs. per-project config, all keys and defaults — see [Appendix E — Configuration](docs/user-quick-start-guide.md#appendix-e--configuration) in the Quick-Start Guide, or [docs/design.md — Configuration](docs/design.md#configuration) for the complete technical reference. --- ## Command Reference by Use Case ### Setting up a wiki ```bash # Create a new empty wiki (LLM scaffold runs automatically if API key is set) synthadoc install my-wiki --target ~/wikis --domain "Machine Learning" # Port is auto-assigned (checks all existing wikis to avoid conflicts, even when stopped) synthadoc install my-wiki --target ~/wikis --domain "Machine Learning" # Or pin a specific port manually synthadoc install my-wiki --target ~/wikis --domain "Machine Learning" --port 7071 # Install the demo (includes pre-built pages and raw sources — no LLM call needed) synthadoc install history-of-computing --target ~/wikis --demo # List available demo templates synthadoc demo list # Sync new source files into an existing demo install (additive only, no overwrites) synthadoc demo sync history-of-computing # Install the Obsidian plugin directly into the active Obsidian vault synthadoc plugin install history-of-computing ``` ### Switching the active wiki ```bash # Set a wiki as the default so -w is not required for any subsequent command synthadoc use my-wiki # Check which wiki is currently active synthadoc use # Clear the saved default (revert to requiring -w on every command) synthadoc use --clear ``` ### Refreshing wiki scaffold After install, you can re-run the LLM scaffold at any time to regenerate domain-specific content (index categories, AGENTS.md guidelines, purpose.md scope). Pages already linked in `index.md` are protected and preserved. ```bash # Regenerate scaffold for an existing wiki synthadoc scaffold -w my-wiki # Schedule weekly refresh (runs every Sunday at 4 AM) synthadoc schedule add --op "scaffold" --cron "0 4 * * 0" -w my-wiki ``` `config.toml` and `dashboard.md` are never modified by `scaffold`. ### Running the server ```bash # Start HTTP API + job worker (foreground — terminal stays attached) synthadoc serve -w my-wiki # Detach to background — banner shown, then shell is released # All logs go to /.synthadoc/logs/synthadoc.log synthadoc serve -w my-wiki --background # Custom port synthadoc serve -w my-wiki --port 7071 # Verbose debug logging to console synthadoc serve -w my-wiki --verbose ``` ### Ingesting sources ```bash # Single file or URL synthadoc ingest report.pdf -w my-wiki synthadoc ingest https://example.com/article -w my-wiki # Entire folder (parallel, up to max_parallel_ingest at a time) synthadoc ingest --batch raw_sources/ -w my-wiki # Manifest file — ingest a curated list of sources in one shot. # sources.txt: one entry per line; each line is either an absolute file path # (PDF, DOCX, PPTX, MD, …) or a URL. Blank lines and # comments are ignored. # Each entry becomes a separate job in the queue, processed sequentially. # # Example sources.txt: # /home/user/docs/research-paper.pdf # /home/user/slides/keynote.pptx # https://en.wikipedia.org/wiki/Alan_Turing # # this line is ignored synthadoc ingest --file sources.txt -w my-wiki # Force re-ingest (bypass deduplication and cache) synthadoc ingest --force report.pdf -w my-wiki # Web search — triggers a Tavily search, then ingests each result URL as a child job. # Prefix the query with any recognised intent: "search for:", "find on the web:", # "look up:", or "web search:" (prefix is stripped before the search is sent) # Requires TAVILY_API_KEY to be set. # # Note: web search content is NOT saved to raw_sources/. The flow is direct: # query → Tavily → URLs → each URL fetched → wiki pages written # raw_sources/ is for user-provided local files (PDF, DOCX, PPTX, etc.) only. # The wiki pages themselves are the persistent output of a web search. synthadoc ingest "search for: Bank of Canada interest rate decisions 2024" -w my-wiki synthadoc ingest "find on the web: unemployment trends Ontario Q1 2025" -w my-wiki # Limit how many URLs are enqueued (default 20, overrides [web_search] max_results) synthadoc ingest "search for: quantum computing basics" --max-results 5 -w my-wiki # Multiple web searches at once via a manifest file # web-searches.txt: # search for: Bank of Canada interest rate decisions 2024 # find on the web: unemployment trends Ontario Q1 2025 # look up: Toronto housing market affordability index synthadoc ingest --file web-searches.txt -w my-wiki # YouTube video — transcript extracted automatically, no API key needed. # The video must have captions (auto-generated or manual). # Check: open the video on YouTube → ... → Show transcript. synthadoc ingest "https://www.youtube.com/watch?v=O5nskjZ_GoI" -w my-wiki synthadoc ingest "https://youtu.be/O5nskjZ_GoI" -w my-wiki # YouTube URLs returned by web search are also routed automatically: # if Tavily returns a YouTube URL, the transcript is ingested instead of the page HTML. synthadoc ingest "search for: history of computing lecture" -w my-wiki ``` Each YouTube wiki page opens with an **executive summary** — what the video is about, the main topics covered, and the key takeaway — followed by the full timestamped transcript for precise citation. ### Querying ```bash # Ask a question — answer cites wiki pages synthadoc query "What is Moore's Law?" -w my-wiki # Save the answer as a new wiki page synthadoc query "What is Moore's Law?" --save -w my-wiki ``` ### Linting ```bash # Run a full lint pass (enqueues job) synthadoc lint run -w my-wiki # Only contradictions synthadoc lint run --scope contradictions -w my-wiki # Auto-apply high-confidence resolutions synthadoc lint run --auto-resolve -w my-wiki # Skip adversarial review (structural checks only; also clears existing warnings) synthadoc lint run --no-adversarial -w my-wiki # Skip lifecycle checks (structural and adversarial checks only) synthadoc lint run --no-lifecycle -w my-wiki # Instant report (reads wiki files directly, no server needed) synthadoc lint report -w my-wiki ``` ### Managing page lifecycle ```bash # Show page counts by lifecycle state synthadoc status -w my-wiki # Promote a draft page to active after manual review synthadoc lifecycle activate -w my-wiki --reason "reviewed and verified" # Archive a page whose source has been superseded synthadoc lifecycle archive -w my-wiki --reason "replaced by updated source" # Restore an archived page back to draft for re-review synthadoc lifecycle restore -w my-wiki --reason "source re-added" # View full state history for a page (or all pages) synthadoc lifecycle log -w my-wiki synthadoc lifecycle log -w my-wiki # Purge old lifecycle events to reclaim audit.db space synthadoc audit lifecycle purge -w my-wiki --before 2026-01-01 synthadoc audit lifecycle purge -w my-wiki --keep-latest 100 ``` ### Monitoring jobs ```bash # List all jobs (oldest first by default) synthadoc jobs list -w my-wiki # Sort column — created_at (default) | status | operation synthadoc jobs list --sort created_at -w my-wiki # oldest first (default) synthadoc jobs list --sort status -w my-wiki # alphabetical by status synthadoc jobs list --sort operation -w my-wiki # alphabetical by operation type # Sort direction — asc (default) | desc synthadoc jobs list --order desc -w my-wiki # newest first synthadoc jobs list --sort status --order desc -w my-wiki # status Z→A # Filter by status — pending | in_progress | completed | failed | skipped | dead | cancelled synthadoc jobs list --status pending -w my-wiki synthadoc jobs list --status failed -w my-wiki synthadoc jobs list --status dead -w my-wiki # Combine sort, order, and status freely synthadoc jobs list --status failed --sort created_at --order desc -w my-wiki # Single job detail synthadoc jobs status -w my-wiki # Retry a dead job synthadoc jobs retry -w my-wiki # Cancel all pending jobs at once (e.g. after a bad batch ingest) synthadoc jobs cancel -w my-wiki # prompts for confirmation synthadoc jobs cancel --yes -w my-wiki # skip confirmation # Remove old records synthadoc jobs purge --older-than 30 -w my-wiki ``` ### Inspecting ingest results ```bash # Preview how a source will be analysed without writing pages synthadoc ingest report.pdf --analyse-only -w my-wiki # → {"entities": [...], "tags": [...], "summary": "..."} ``` ### Audit trail ```bash # Ingest history: timestamp, source file, wiki page, tokens, cost synthadoc audit history -w my-wiki # last 50 records synthadoc audit history -n 100 -w my-wiki # last 100 records synthadoc audit history --json -w my-wiki # raw JSON for scripting # Token usage: totals + daily breakdown (cost always $0.0000 in v0.1) synthadoc audit cost -w my-wiki # last 30 days synthadoc audit cost --days 7 -w my-wiki # last 7 days # Audit events: contradictions found, auto-resolutions, cost gate triggers synthadoc audit events -w my-wiki # last 100 events synthadoc audit events --json -w my-wiki # raw JSON for scripting # Claim citations: source-line provenance for every annotated claim synthadoc audit citations -w my-wiki # all citations (last 50) synthadoc audit citations --page alan-turing -w my-wiki # citations for one page synthadoc audit citations --source turing.pdf -w my-wiki # citations from one source synthadoc audit citations --broken -w my-wiki # validation failures only synthadoc audit citations --json -w my-wiki # raw JSON for scripting ``` ### Scheduling recurring jobs ```bash # Register a nightly ingest synthadoc schedule add --op "ingest --batch raw_sources/" --cron "0 2 * * *" -w my-wiki # Weekly lint synthadoc schedule add --op "lint" --cron "0 3 * * 0" -w my-wiki # List scheduled jobs synthadoc schedule list -w my-wiki # Remove a scheduled job synthadoc schedule remove -w my-wiki ``` ### Routing ROUTING.md maps wiki branches to page slugs so queries and ingest jobs are scoped to the relevant section of the wiki. Create it once from your existing `index.md`, then let Synthadoc maintain it automatically as new pages are added. ```bash # Bootstrap ROUTING.md from current index.md branch structure (run once) synthadoc routing init -w my-wiki # Report dangling slugs (pages listed in ROUTING.md that no longer exist) synthadoc routing validate -w my-wiki # Auto-remove dangling slugs from ROUTING.md synthadoc routing clean -w my-wiki ``` ### Candidates staging When staging is enabled, ingest writes new pages to `wiki/candidates/` for human review instead of the main wiki. Useful when you want to approve AI-generated pages before they become canonical. ```bash # Show current staging policy synthadoc staging policy -w my-wiki # Route all new pages to staging (review everything) synthadoc staging policy all -w my-wiki # Only stage pages below a confidence threshold (auto-promote high-confidence) synthadoc staging policy threshold --min-confidence high -w my-wiki # Turn staging off (pages go directly to wiki/) synthadoc staging policy off -w my-wiki # List candidate pages awaiting review synthadoc candidates list -w my-wiki # Promote a specific page (moves it from candidates/ to wiki/) synthadoc candidates promote my-page-slug -w my-wiki # Promote all candidates at once synthadoc candidates promote --all -w my-wiki # Discard a specific candidate synthadoc candidates discard my-page-slug -w my-wiki # Discard all candidates synthadoc candidates discard --all -w my-wiki ``` ### Context packs A context pack decomposes a goal into sub-questions, runs parallel BM25 searches, and packs the highest-scoring excerpts into a single cited Markdown document within a token budget. **Typical use cases:** - Paste into an external LLM chat (Claude.ai, ChatGPT) as grounded context before asking a question - Save next to a document you are writing as a cited research brief - Pipe into another CLI tool that reads Markdown ```bash # Print to terminal — inspect, copy, or pipe synthadoc context build "How did transistors change computing?" -w my-wiki # Copy to clipboard and paste into an LLM chat (macOS) synthadoc context build "early computing pioneers" -w my-wiki | pbcopy # Custom token budget (default 4000) synthadoc context build "Early programming languages" --tokens 8000 -w my-wiki # Save next to a document you are writing synthadoc context build "Rise of microprocessors" --output ~/drafts/computing-brief.md -w my-wiki ``` ### Removing a wiki Stop the server for that wiki before uninstalling — the serve process must not be running when the directory is deleted. ```bash # Stop the background server (PID is in /.synthadoc/server.pid) kill $(cat ~/wikis/my-wiki/.synthadoc/server.pid) # Linux / macOS taskkill /PID /F # Windows # Then uninstall — two-step confirmation required, no --yes escape synthadoc uninstall my-wiki ``` For Obsidian plugin commands see [Appendix A — Obsidian Plugin Command Reference](docs/user-quick-start-guide.md#appendix-a--obsidian-plugin-commands) in the Quick-Start Guide. --- ## Administrative Reference ### Health and status ```bash # Wiki statistics: pages, queue depth, cache hit rate synthadoc status -w my-wiki # Liveness probe (useful in scripts and monitoring) # Port is per-wiki — check [server] port in /.synthadoc/config.toml # Default is 7070; each additional wiki uses its own port (7071, 7072, …) curl http://127.0.0.1:7070/health ``` Expected `status` output: ``` Wiki: /home/user/wikis/my-wiki Pages: 34 active 34 draft 0 stale 0 contradicted 0 archived 0 Jobs pending: 0 Jobs total: 12 ``` ### Logs Synthadoc writes three log artefacts per wiki: | File | Location | Format | Use | | --------------- | --------------------------------- | ----------------------- | ------------------------------------------------------------------- | | `log.md` | `/log.md` | Human-readable Markdown | Read inside Obsidian; shows every ingest, contradiction, lint event | | `synthadoc.log` | `/.synthadoc/logs/` | JSON lines (rotating) | Structured debug/ops log; grep or pipe to jq | | `audit.db` | `/.synthadoc/audit.db` | SQLite (append-only) | Source hashes, cost records, job history | **Tailing the JSON log:** ```bash # Tail and pretty-print with jq tail -f .synthadoc/logs/synthadoc.log | jq . # Filter to errors only tail -f .synthadoc/logs/synthadoc.log | jq 'select(.level == "ERROR")' # Filter to a specific job # job_id is present only on records logged in job context (ingest/lint workers) tail -f .synthadoc/logs/synthadoc.log | jq 'select(.job_id == "abc123")' ``` **Log rotation:** When `synthadoc.log` reaches `max_file_mb`, it is renamed to `synthadoc.log.1`; the previous `.1` becomes `.2`; files beyond `backup_count` are deleted. Total disk ≈ `max_file_mb × (backup_count + 1)`. **Changing log level at runtime:** Edit `[logs] level` in `.synthadoc/config.toml` and restart `synthadoc serve`. Or pass `--verbose` to get `DEBUG` for one session without editing config. ### Audit trail ```bash synthadoc audit history -w my-wiki # table: timestamp, source file, wiki page, tokens, cost synthadoc audit history -n 100 -w my-wiki # last 100 records (default 50) synthadoc audit history --json -w my-wiki # raw JSON for scripting synthadoc audit cost -w my-wiki # total tokens + daily breakdown, last 30 days synthadoc audit cost --days 7 -w my-wiki # weekly view synthadoc audit cost --json -w my-wiki # {total_tokens, total_cost_usd, daily: [...]} synthadoc audit events -w my-wiki # table: timestamp, job_id, event type, metadata synthadoc audit events --json -w my-wiki # raw JSON synthadoc audit citations -w my-wiki # all claim citations (last 50) synthadoc audit citations --page alan-turing -w my-wiki # citations for one page synthadoc audit citations --source turing.pdf -w my-wiki # citations from one source file synthadoc audit citations --broken -w my-wiki # validation failures only synthadoc audit citations --json -w my-wiki # raw JSON for scripting ``` > **Note:** Per-model cost tracking is live from v0.2.0 — pricing tables cover all 7 API providers. Token counts and USD cost are recorded for every ingest and query operation in `audit.db`. > **Lifecycle transitions** are also recorded in `audit.db` — every state change (slug, from/to state, triggered_by, reason, timestamp) is permanently stored as an immutable audit event. Query the log with `synthadoc lifecycle log` or `GET /lifecycle/events`. ### Cache management ```bash # Remove all cached LLM responses # Output: "Cache cleared: N entries removed." synthadoc cache clear -w my-wiki ``` Cache invalidation happens automatically when: - A source file's SHA-256 hash changes (content changed) - `CACHE_VERSION` is bumped in `core/cache.py` (after prompt template edits) - `--force` is passed to ingest ### OpenTelemetry integration By default, traces and metrics are written to `/.synthadoc/logs/traces.jsonl`. To send to any OTLP backend (Jaeger, Grafana Tempo, Honeycomb, Datadog): ```toml # ~/.synthadoc/config.toml [observability] exporter = "otlp" otlp_endpoint = "http://localhost:4317" ``` ### Debugging ```bash # Start server with DEBUG console logging synthadoc serve -w my-wiki --verbose # Check for configuration problems synthadoc status -w my-wiki # prints pre-flight warnings # View recent job failures synthadoc jobs list --status failed -w my-wiki synthadoc jobs status -w my-wiki # shows error message + traceback # Force a re-ingest to rule out cache issues synthadoc ingest --force problem.pdf -w my-wiki ``` --- ## Understanding Logs and the Audit Trail Synthadoc writes three log artefacts per wiki: `log.md` (human-readable Markdown, open in Obsidian), `synthadoc.log` (JSON lines, rotate-by-size, grep with `jq`), and `audit.db` (append-only SQLite — source hashes, cost records, job history). For the full field reference, log levels, rotation config, OTel integration, and audit query examples see [docs/design.md — Logs and Audit Trail](docs/design.md#logs-and-audit-trail). --- ## Customization ### Custom skills (new file formats) Subclass `BaseSkill` (Apache-2.0 — no AGPL obligation on your skill code), drop the file in `/skills/` or `~/.synthadoc/skills/`, and Synthadoc hot-loads it on the next ingest. Skills can match by file extension or intent prefix (supports any Unicode text, including Chinese/Japanese/Arabic prefixes). ### Custom LLM providers Subclass `LLMProvider` from `synthadoc/providers/base.py` (Apache-2.0) and place it in `~/.synthadoc/providers/` or the wiki `providers/` directory. ### Hooks Shell commands (any language) that fire on `on_ingest_complete` and `on_lint_complete`. Receive a JSON context on stdin. Set `blocking = true` to gate the operation on the hook's exit code. ### Cache Three cache layers (embedding, LLM response, provider prompt cache). Cache invalidates automatically on source file change (SHA-256). Force a fresh call with `--force` or wipe all responses with `synthadoc cache clear -w my-wiki`. ### Per-wiki AGENTS.md Edit `/AGENTS.md` to give the LLM domain-specific instructions — terminology, page naming conventions, what to cross-reference. Highest-priority instruction source for every agent run against this wiki. For full examples, API signatures, and intent-dispatch config see [docs/design.md — Customization](docs/design.md#customization). --- ## Links - Blogs: [forem.com](https://forem.com/paul_chen_90371fe7426cb44) - Design document: [docs/design.md](docs/design.md) - Quick-Start Guide: [docs/user-quick-start-guide.md](docs/user-quick-start-guide.md) - Contributing: [CONTRIBUTING.md](CONTRIBUTING.md)