stevepridemore/graph-memory
FreeNot checkedPersonal knowledge graph for Claude on Neo4j. Typed entities (Person/Project/Decision/Preference/Concept), bi-temporal edge validity (validat/invalidat), per-ty
About
Personal knowledge graph for Claude on Neo4j. Typed entities (Person/Project/Decision/Preference/Concept), bi-temporal edge validity (validat/invalidat), per-type weighted decay, contradiction detection, and a nightly "dream" extraction process. Local bge-small-en embeddings, no API keys. Optional OAuth 2.1 + Cloudflare Tunnel for cross-device use across Claude Code, Desktop, web, and iOS.
README
A personal knowledge graph for Claude that survives across sessions, devices, and tools. Built on Neo4j with semantic embeddings, OAuth-secured for use from Claude Code, Claude Desktop, and claude.ai web — all hitting the same graph.
https://github.com/user-attachments/assets/826e5f5a-5759-4b31-83dd-6bd7e0e044b8
Asked from my phone. Pulls a decision made days ago on my laptop, citing the commit hash.
No external API keys, no LLM provider integration, no per-token costs. Entity extraction runs inside your Claude sessions (Max plan). Embedding runs locally via bge-small-en. Everything stays on your hardware unless you choose to expose it.
Why a graph
Built-in memory in Claude Code is "append facts to markdown, grep later." That gets you 80% there but breaks at scale: no relationships, no confidence, no decay, no contradiction detection, no temporal awareness. Two memories that reinforce each other look identical to two memories that contradict each other.
This project replaces flat keyword matching with weighted, relationship-aware retrieval:
- Weighted edges with configurable decay — frequently-confirmed knowledge stays strong; stale information fades naturally on per-type half-lives (preferences ~693 days, events ~99 days)
- Bi-temporal validity — separate
valid_at(when fact was true),invalid_at(when superseded),ingested_at(when learned). Old facts get marked invalid rather than deleted - Semantic + structural search — vector embeddings find conceptually similar entities; graph traversal then expands through real relationships
- Project-context affinity — when you're working in a specific project, related entities surface first
- Contradiction detection — conflicting facts are flagged, not silently coexisting
- Full provenance — every edge traces back to the conversation, transcript, or document that sourced it
- Dream process — a scheduled Claude session reviews recent transcripts and ingest documents overnight, extracts new knowledge, applies decay, and writes a changelog
Architecture
Claude Code Claude Desktop claude.ai web
│ │ │
└────────── OAuth 2.1 Bearer ─────────┘
│
https://your-host.example/mcp
│
Cloudflare Tunnel
│
docker-compose
┌────────────┴────────────┐
▼ ▼
graph-memory-mcp graph-memory-neo4j
(Node 22 + jose) (Neo4j 5.20 + APOC)
port 3847 bolt://neo4j:7687
│ │
└─── bolt-internal ───────┘
Two Docker services, talking over the compose network. The MCP server is the only thing that touches Neo4j directly — it implements OAuth 2.1 itself (RS256 JWTs, public clients with PKCE-S256, RFC 7591 dynamic client registration, RFC 7009 revocation), validates bearer tokens for /mcp calls, and exposes Cloudflare Access only on /oauth/authorize for the actual user login. The Neo4j instance has no external listeners.
The dream process is just another Claude session that runs on a schedule, reads transcripts, and calls the same MCP tools any client would call — there's no separate extraction pipeline.
Schema
Entity types (canonical): Person, Project, Preference, Concept, Decision, Fact, Event, Object, Reasoning — plus a few ad-hoc types (Organization, Technology, Artifact, Infrastructure, Feature, Resource) that have emerged organically through use. The schema is permissive on labels.
Relationship types (canonical, 22): WORKS_ON, WORKS_AT, REPORTS_TO, STAKEHOLDER_IN, PREFERS, KNOWS_ABOUT, DEPENDS_ON, USES_TECH, USES, DECIDED_FOR, SUPERSEDES, CONTRADICTS, RELATED_TO, ALIAS_OF, PARTICIPATED_IN, OCCURRED_DURING, PRODUCED, TRIGGERED_BY, HOSTED_ON, PRODUCED_BY, LED_TO, INVOLVED_IN. The catch-all RELATED_TO carries a relationship_type subtype property (similar_to, part_of, enables, impacts, etc.) for cases where the typed relationships don't fit.
Every node and edge carries:
weight(0.0–1.0) — decays over time on per-type half-livesconfidence— separate from weight, tracks the source's certaintytenant_id— multi-tenant isolation (single-user by default; multi-user-ready via OAuth email claim)embedding(nodes) — 384-dim vector for semantic searchvalid_at/invalid_at/ingested_at(edges) — bi-temporal tracking
Concise vocabulary in GRAPH_SCHEMA.md. Full reference (weights, decay, validity windows, init Cypher) in docs/GRAPH_SCHEMA_REFERENCE.md.
Tools
The MCP server exposes 23 tools across these categories:
| Category | Tools |
|---|---|
| Query | graph_query, graph_search (semantic), graph_entities, graph_contradictions, graph_communities, graph_build_context |
| Write | graph_relate (single + batch), graph_boost, graph_weaken, graph_delete, graph_merge, graph_unmerge |
| Maintenance | graph_decay, graph_prune, graph_validate, graph_reembed, graph_merge_suggestions |
| Operational | graph_stats, graph_export, graph_audit, graph_ingest, graph_read_transcript, graph_cypher (admin only) |
Slash-command wrappers (/graph, /graph-ask, /graph-search, /graph-stats, /graph-dream, /graph-briefing, /graph-find, /graph-backup, /graph-capture, /ingest, etc.) install into ~/.claude/skills/. Full reference: docs/SKILLS.md.
/graph-capture is the manual companion to the nightly dream: the dream extracts knowledge from Claude Code transcripts in ~/.claude/projects/, but cannot see claude.ai web conversations or Claude Desktop chats (those live server-side or in Electron app data). Run /graph-capture at the end of a substantive claude.ai or Desktop conversation to commit any new entities, decisions, or facts to the graph.
Prerequisites
Required:
- Node.js 22+ and npm
- Docker (Desktop on Windows/macOS, or Docker Engine on Linux) with Docker Compose v2
- Claude Code and/or Claude Desktop with a Claude plan that covers Claude Code access — Pro, Max, Team, Enterprise, or Console all work (the free Claude.ai plan does not include Claude Code). Pro is fine for light/exploratory use; Max is recommended for daily-use deployments because the nightly dream process can be transcript-heavy on a busy day, and an unattended run that exhausts Pro's 5-hour window will abort mid-extraction and skip that night.
- A few hundred MB of disk for Neo4j + embeddings model
Optional:
- MarkItDown (
pip install "markitdown[pdf,docx,xlsx,pptx]") — enables ingesting binary documents (.pdf,.docx,.xlsx,.pptx,.epub,.msg,.csv,.xml,.png,.jpg). Without it, ingest is limited to.md,.txt,.json,.html,.srt,.vtt. - yt-dlp — convenient way to grab YouTube/web video subtitle files for ingestion.
yt-dlp --write-auto-sub --sub-lang en --skip-download <url>writes a.vttyou can drop intoingest/pending/. Not a runtime dependency; just a tool that produces files graph-memory can already eat. - cloudflared + a Cloudflare account — only needed for the multi-device / claude.ai web setup described in docs/REMOTE.md. Local-only deployments don't need it.
- Python 3.10+ — required only by MarkItDown and by
scripts/sync-dream-skill.py.
Install
graph-memory has exactly one "primary device" — the machine that runs the two Docker containers (Neo4j + the MCP server) and runs the nightly dream + weekly maintenance scheduled tasks. Every other device is a "secondary device" that talks to the primary over HTTPS + OAuth — secondaries don't run their own containers and don't run their own dream process. Pick the install path that matches the role of the device you're sitting at right now.
Install — Primary Device (this device runs the containers)
Use this on the machine that will host Neo4j + the MCP server. This is also where the nightly dream and weekly maintenance scheduled tasks run, so the Claude Code transcripts you want extracted should live on this device.
Linux / macOS / Windows with Git Bash or WSL:
curl -fsSL https://raw.githubusercontent.com/stevepridemore/graph-memory/v0.3.0/scripts/install-primary.sh \
| bash -s v0.3.0
# edit ~/graph-memory/.env (NEO4J_PASSWORD, GRAPH_MEMORY_HOME, CLAUDE_PROJECTS_DIR)
cd ~/graph-memory && docker compose up -d
Windows PowerShell (no bash needed):
$v = 'v0.3.0'
iwr "https://raw.githubusercontent.com/stevepridemore/graph-memory/$v/scripts/install-primary.ps1" -UseBasicParsing -OutFile $env:TEMP\gm-install.ps1
& $env:TEMP\gm-install.ps1 -Version $v
# edit $HOME\graph-memory\.env
cd $HOME\graph-memory; docker compose up -d
Verify with /graph-stats in any Claude Code session.
Optional: see docs/REMOTE.md for the Cloudflare Tunnel + Access setup that lets secondary devices and claude.ai web reach this graph remotely.
Install — Secondary Device (this device just talks to the primary)
Use this on every additional laptop, work computer, or phone. No Docker, no Neo4j — just the slash commands and an MCP client config pointed at the primary device's Cloudflare Tunnel URL. The primary device must already have the tunnel set up per docs/REMOTE.md.
Linux / macOS / Windows with Git Bash or WSL:
curl -fsSL https://raw.githubusercontent.com/stevepridemore/graph-memory/v0.3.0/scripts/install-secondary.sh \
| bash -s v0.3.0 your-tunnel-host.example.com
Windows PowerShell (no bash needed):
$v = 'v0.3.0'
iwr "https://raw.githubusercontent.com/stevepridemore/graph-memory/$v/scripts/install-secondary.ps1" -UseBasicParsing -OutFile $env:TEMP\gm-install.ps1
& $env:TEMP\gm-install.ps1 -Version $v -TunnelHost your-tunnel-host.example.com
First /graph-stats call triggers the OAuth browser flow once; subsequent calls use the cached bearer token.
Install — Developer (build from source)
Use this if you want to modify graph-memory itself. Requires Node 22+ and Docker.
git clone https://github.com/stevepridemore/graph-memory
cd graph-memory
cp .env.example .env # edit as above
npm install && npm run build
docker compose -f docker-compose.yml -f docker-compose.dev.yml up -d
The docker-compose.dev.yml override switches the MCP service from the published GHCR image to a local build: . so your edits get picked up on rebuild.
Multi-device / claude.ai web access
To use the same graph from claude.ai web, your office laptop, your phone, etc., expose the MCP server through Cloudflare Tunnel + Access. The auth flow is OAuth 2.1 with Cloudflare's IdP doing the actual user login.
Step-by-step in docs/REMOTE.md. The setup is one-time:
- Cloudflare Tunnel with
cloudflaredpointing athttps://localhost:3847 - A single Cloudflare Access application scoped to
/oauth/authorize(everything else is public + bearer-token-protected) - Server generates an RSA keypair on first run, persists it, exposes via
/oauth/jwks - Claude clients hit
https://your-host.example/mcp, get a 401 with properWWW-Authenticate: Bearer ... resource_metadata="...", walk the OAuth flow, store the bearer token, and call subsequent requests with it
This makes the graph reachable from any device or AI tool that speaks MCP + OAuth 2.1.
For Claude Code on remote machines, .mcp.json.remote.example is the matching client template — copy it to ~/.claude/.mcp.json (or a project-local .mcp.json) and replace your-host.example with your tunnel hostname:
{
"mcpServers": {
"graph-memory": {
"type": "http",
"url": "https://your-host.example/mcp"
}
}
}
Claude Code walks the OAuth flow on first call and caches the bearer token. claude.ai web uses its own custom-connector UI — the URL is the same.
If you use Claude Code on more than one PC and want a single dream process to ingest transcripts from all of them, see Multi-PC transcript sharing — that's a separate concern from the OAuth multi-device story above, with a one-time sync setup.
Document ingestion
Drop files into ~/graph-memory/ingest/pending/ (or call graph_ingest directly). The next dream run extracts entities and relationships into the graph. Native support for .md, .txt, .json, .html, .srt, .vtt. With MarkItDown installed (pip install "markitdown[pdf,docx,xlsx,pptx]"), also handles .pdf, .docx, .xlsx, .pptx, .epub, .msg, .csv, .xml, .png, .jpg, etc. — converted to Markdown first, then extracted. Original files archive to ingest/originals/<date>/.
Privacy
The graph stores personal information — names of colleagues, decisions, preferences, project details. Treat the database with the same care as a private journal:
- Default deployment is local-only (Docker on
localhost); nothing leaves your machine - The optional Cloudflare Tunnel exposure adds OAuth + Cloudflare Access in front
- All data lives under a directory you control (default
~/graph-memory/) - A
graph_exporttool produces portable JSONL backups;~/graph-memory/backups/is auto-rotated - Embedding model runs locally — no text leaves the machine for vector search
- Entity extraction runs in your Claude sessions; same trust boundary as Claude itself
- API keys, passwords, and secrets are explicitly excluded from extraction (see
prompts/dream-nightly.md)
Tech stack
| Component | Technology |
|---|---|
| Language | TypeScript / Node.js 22 |
| Graph DB | Neo4j Community 5.20 (Docker) with APOC |
| Embedding model | @huggingface/transformers running bge-small-en-v1.5 (384-dim, ONNX) |
| Driver | neo4j-driver |
| MCP framework | @modelcontextprotocol/sdk |
| Auth | jose for JWT signing/verification (RS256) |
| Tunnel (optional) | Cloudflare Tunnel (cloudflared) + Cloudflare Access |
| Testing | Vitest |
Status
All planned phases shipped:
- ✅ Phase 0–3: MCP server, dream process, SessionStart hook, slash commands
- ✅ Phase 4: Bootstrap complete (graph populated from transcripts and memory files)
- ✅ Phase 5: bi-temporal modeling, Reasoning entity type, semantic/vector search, community detection, build_context meta-tool
- ✅ Multi-tenant infrastructure (single-user by design, multi-user-ready)
- ✅ OAuth 2.1 + Cloudflare Tunnel for multi-device access
- ✅ Aura → local Neo4j migration with full data preservation
- ✅ OAuth 2.1 hardening: PKCE-S256 mandatory, public clients only, RFC 7009 revocation, jti tracking, refresh-token TTL 30d, redirect-URI allowlist, optional email allowlist, body-size caps (64 KB OAuth / 4 MB MCP), structured event logging
- ✅ Internal threat model fully resolved (16 of 16 findings closed)
- ✅ npm audit clean (0 vulnerabilities)
- ✅ Pre-built GHCR images + curl-pipeable installers (no clone or local build required for end users)
Current release: v0.3.0.
Currently steady-state. Active development is opportunistic; the system runs unattended via the nightly dream process.
Releases
Newest first. Each tag publishes ghcr.io/stevepridemore/graph-memory-mcp:<tag> and moves :latest.
| Version | Date | Summary |
|---|---|---|
| v0.3.0 | 2026-05-10 | Curl-pipeable primary/secondary device installers + pre-built GHCR image. Multi-stage Dockerfile, auto-cert generation on first run, vendored slash commands. End users no longer need to clone or build from source. |
| v0.2.1 | 2026-05-09 | STRIDE threat model fully closed (16 of 16 findings). Hardens OAuth 2.1: PKCE-S256, RFC 7009 revocation, jti tracking, refresh-token TTL, redirect-URI allowlist, email allowlist, body-size caps. |
| v0.2.0 | 2026-05-09 | OAuth 2.1 security hardening pass. Public clients only, mandatory PKCE, body-size caps, structured event logging. |
| v0.1.1 | 2026-05-08 | Decay correctness + test coverage. Vitest in CI, decay function bug fixes. |
| v0.1.0 | 2026-05-07 | Initial public release. MCP server, dream process, slash commands, bi-temporal modeling, semantic search, OAuth multi-device. |
Documentation
- docs/ARCHITECTURE.md — system design, data flows, component responsibilities
- GRAPH_SCHEMA.md — concise vocabulary (node types + edge verbs) for both agent and humans
- docs/GRAPH_SCHEMA_REFERENCE.md — full reference (decay functions, weight semantics, validity windows, example queries)
- docs/MCP_SERVER.md — every MCP tool with input/output schemas
- docs/DREAM_PROCESS.md — extraction pipeline, manifest format, changelog structure
- docs/SKILLS.md — slash command definitions
- docs/REMOTE.md — exposing graph-memory via Cloudflare Tunnel + Access
- docs/MULTI_TENANT.md — tenant isolation model
- docs/TESTING.md — running the test suite locally and in CI
- CLAUDE.md — retrieval and chat-write guidelines for Claude
License
MIT — see LICENSE.
Installing stevepridemore/graph-memory
This server has no published package — it is built from source. Open the repository and follow its README.
▸ github.com/stevepridemore/graph-memoryFAQ
Is stevepridemore/graph-memory MCP free?
Yes, stevepridemore/graph-memory MCP is free — one-click install via Unyly at no cost.
Does stevepridemore/graph-memory need an API key?
No, stevepridemore/graph-memory runs without API keys or environment variables.
Is stevepridemore/graph-memory hosted or self-hosted?
Self-hosted: the server runs locally on your machine via the install command above.
How do I install stevepridemore/graph-memory in Claude Desktop, Claude Code or Cursor?
Open stevepridemore/graph-memory on unyly.org, pick your client tab (Claude Desktop, Claude Code, Cursor) and press Install — the config is generated automatically, no JSON editing.
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