A better memory server for AI agents — works for one, scales to many. Local, free, zero-config, MCP-native. Your data stays on your machine.
Quickstart · vs. mem0/Letta/Zep · Multi-agent · Recall Pro → · Book a demo
Without a memory server, every Claude / Copilot / Cursor conversation starts cold. You re-explain the codebase, the conventions, the decisions, the gotchas — every time. Recall fixes that.
Install it once, point your MCP client at it, and your AI now:
- Remembers across sessions — "what did we decide about the auth flow last week?" returns the actual decision, not a hallucination
- Indexes your code and docs —
index_file+recall= local semantic RAG over your repo - Cites where the answer came from —
answerreturns text plus the chunks it pulled from - Builds project knowledge — every
checkpoint,reflect, andanti_patternbecomes searchable later - Survives restarts — append-only artifacts on disk, vector store rebuildable from them
One pip install, one config block, done. No API key. No external
service. No per-token bill. MIT license. This is what 95% of users
will ever use Recall for.
Recall does the same job they do — persistent memory across AI sessions, semantic recall, "remember what the user said last week." The difference is where and how:
| mem0 / Letta / Zep | Recall | |
|---|---|---|
| Where memory lives | Their cloud | Your ~/.recall/ |
| API key required | Yes | No |
| Cost | Per-token / monthly SaaS | Free |
| Embeddings | Their service | Local ONNX (offline) |
| Network calls | Every recall | Zero |
| Air-gappable | No | Yes |
| MCP-native | Wrapper or SDK | Built on MCP |
| Multi-agent coordination | None | 6 primitives |
If you're happy paying a hosted memory provider per token, those are great products and you don't need Recall. If you'd rather your AI's memory live on your laptop or your own server, free and offline, that's what Recall is for.
The same install that gives one developer a personal AI memory also
works as a shared brain when more than one agent talks to it. Two
Copilot windows. A planner + executor pair. Three Claude instances
dividing up a refactor. A pre-commit agent and a code-review agent
on the same PR. They all remember and recall from the same store.
That introduces a new problem none of the hosted memory services have
even tried to solve: agents stepping on each other. Agent A starts
refactoring src/auth.py. Agent B, in another window, rewrites the
same file with no idea A is mid-edit. Whoever saves last wins. The
other agent's work is gone.
Recall ships six MCP primitives that turn parallel agents from a clobber-fest into a coordinated team:
| Tool | What it does |
|---|---|
claim(resource, agent) |
Soft-lock a file/table/URL with an auto-expiring TTL |
release(resource, agent) |
Drop the lock (soft-archive — audit trail survives) |
who_has(resource) |
"Is anyone editing src/foo.py right now?" |
claims() |
All active locks across all agents |
handoff(to_agent, ...) |
Explicit work transfer with intent + files + context |
pulse_others(self_agent) |
The N most recent checkpoints from agents other than you |
Claims are advisory (like git locks) — Recall doesn't physically stop a second agent from writing, but every well-behaved client checks first. TTLs prevent a crashed agent from freezing a resource forever. Releases soft-archive (per the project-wide delete=archive rule) so the audit trail of who held what when survives.
If you're a single user, these tools just sit there unused. If you ever scale up to multiple agents, they're already there.
┌──────────────┐ ┌──────────────┐
│ Agent a3f7 │ claim(file, ttl) │ Agent b1c4 │
│ Claude #1 │ ───────────┐ ┌─────────► │ Claude #2 │
└──────┬───────┘ ▼ │ └──────┬───────┘
│ ┌────────┴───────┐ │
│ remember │ Recall │ pulse │
├────────────► │ • shared memory│ ◄────────┤
│ │ • claims/locks │ │
│ handoff │ • handoffs │ handoff │
├────────────► │ • who_has │ ◄────────┤
│ └────────────────┘ │
▼ ▼
22 MCP tools — Copilot, Claude, Cursor, custom
22 MCP tools total — 16 memory tools every user gets, plus the 6 coordination primitives that activate when you scale up.
Recall ships as a stdio MCP server. Zero config — no API keys, no Docker, no
ports. Memory lives in ~/.recall/.
pip install "ai-recallworks[mcp]"Then add Recall to your MCP client config:
Claude Desktop (~/Library/Application Support/Claude/claude_desktop_config.json
on macOS, %APPDATA%\Claude\claude_desktop_config.json on Windows):
{
"mcpServers": {
"recall": {
"command": "recall-mcp"
}
}
}VS Code (mcp.json in your workspace or user settings):
{
"servers": {
"recall": {
"command": "recall-mcp"
}
}
}Restart the client. Your agent now has persistent memory across sessions. Embeddings run fully offline (Chroma's bundled all-MiniLM-L6-v2). Upgrade to Ollama / OpenAI / Voyage embeddings via env vars when you want.
1. Run the server:
docker run -d --name recall \
-p 8787:8787 \
-e API_KEY=changeme \
-v recall-data:/data \
ghcr.io/recallworks/recall:latest2. Talk to it — pick your stack:
# Raw HTTP (any language)
curl -H "X-API-Key: changeme" \
-H "Content-Type: application/json" \
-d '{"content":"first memory","tags":"hello"}' \
http://localhost:8787/tool/remember# Python (use requests/httpx — no SDK pkg needed)
import requests
h = {"X-API-Key": "changeme", "Content-Type": "application/json"}
requests.post("http://localhost:8787/tool/remember", headers=h,
json={"content": "first memory", "tags": "hello"})
print(requests.post("http://localhost:8787/tool/recall", headers=h,
json={"query": "memory"}).json()["result"])// TypeScript / JavaScript (Node 18+, Bun, Deno, browser)
npm install @recallworks/recall-client
import { RecallClient } from "@recallworks/recall-client";
const c = new RecallClient({ baseUrl: "http://localhost:8787", apiKey: "changeme" });
await c.remember("first memory", { tags: "hello" });
console.log((await c.recall("memory")).result);Full walkthrough: docs/quickstart.md.
- 13 tools —
remember,recall,reflect,anti_pattern,checkpoint,pulse,session_close,index_file,reindex,snapshot_index,memory_stats,forget,maintenance. - Two transports — plain HTTP (
POST /tool/{name}) and MCP over SSE. Drop into Copilot, Claude Code, Cursor, or any MCP client. - Bring your own models — pluggable embedder (default / OpenAI / Ollama) and summarizer (noop / OpenAI / Ollama). Run fully offline, fully on-prem, or against your own Azure-OpenAI tenant. See docs/byo-models.md.
- Durable by default — ephemeral live store with auto-snapshot to disk; container restarts come up whole.
- Append-only artifacts — every write also lands as a
.mdfile. If the vector store ever burns down,reindexrebuilds it from the artifacts. forgetis soft-archive — guardrail wired into the OSS code itself, not bolted on as policy. Memory you delete can be recovered.
| Recall | Mem0 / Letta / Zep | |
|---|---|---|
| License (core) | MIT | mixed; SaaS-first |
| Self-host | one docker run |
varies, often non-trivial |
| BYO embedder | default / OpenAI / Ollama (env var) | usually fixed |
| BYO LLM | noop / OpenAI / Ollama (env var) | usually fixed |
| Storage model | append-only artifacts + vector index, rebuildable | live DB only |
delete |
soft-archive by design | hard delete |
| Tool surface | 13 opinionated tools (memory + workflow) | embedding + retrieval primitives |
| MCP-native | yes, plus plain HTTP | partial / via wrapper |
| Ops model | single binary, single container | multi-service stack |
If you want a managed service, see Recall Cloud below. If you want a brain you fully own, this OSS core is enough.
| Path | What |
|---|---|
src/recall/ |
OSS server (MIT) |
src/recall/tools/ |
One module per tool |
src/recall/transport/ |
HTTP + MCP/SSE adapters |
docker/single-tenant/ |
Reference Dockerfile + compose |
tests/ |
pytest suite (no Docker required) |
docs/ |
Quickstart, conventions, architecture |
enterprise/ |
Multi-tenant, SSO, control plane (BSL) |
These are the practices that make the tools pay off. Pick what fits.
- Cold-start ritual — opening protocol every session should run.
- Branding — signed-edit headers so you can trace which agent touched which file when.
Alpha. The code in src/recall/ is extracted from a hosted production brain
that has served thousands of sessions, then sanitized of org-specific
paths, extensions, and tenant data. Expect breaking changes before 1.0; pin
the image tag.
Yes — please read CONTRIBUTING.md first. We accept bug
fixes, new Store backends, doc improvements, and anti-pattern entries. We
don't accept architectural rewrites without prior discussion.
Security issues: see SECURITY.md.
src/recall/,clients/,docker/single-tenant/,docs/,examples/— MIT (LICENSE)enterprise/— BSL 1.1, 5-seat additional-use grant, converts to MIT after 3 years (LICENSE-COMMERCIAL.md)
| Capability | OSS (this repo) | Recall Pro | Recall Cloud |
|---|---|---|---|
| Single-tenant Docker image | ✅ | ✅ | n/a (hosted) |
| 13 memory tools, MCP + HTTP | ✅ | ✅ | ✅ |
| BYO embedder + LLM | ✅ | ✅ | ✅ |
| Append-only artifacts + auto-snapshot | ✅ | ✅ | ✅ |
| Multi-tenant, SSO, RBAC | — | ✅ | ✅ |
| Audit log + retention policy | — | ✅ | ✅ |
| Cross-session entity graph | — | ✅ | ✅ |
| PII sanitization pipeline | — | ✅ | ✅ |
| Snapshot replication / DR | — | ✅ | ✅ |
| Vendor support + SLA | community | business hours | 24×7 |
| Hosted on our infra | — | — | ✅ |
| Pricing | free | from $99/mo per node | from $0.10 per 1k tools |
Recall Pro ships from the enterprise/ tree under a Business Source License — source-available, 5-seat free Additional Use Grant, converts to MIT after 3 years. Buy a license and the enterprise/ modules light up alongside your OSS install.
Recall Cloud is the hosted multi-tenant version. Same tools, no infra. Reach out for early-access pricing.
➡️ Talk to sales: sales@recall.works · Book a 20-min walkthrough: https://recall.works/demo
Recall is the engine. We ship turn-key vertical brains on top of it:
- IceWhisperer — the memory + workflow brain for ICE Mortgage Technology / Encompass shops. Pre-loaded SDK index, settings recipes, plugin audits, drift detection. Pilots from $250/mo.
If you want a vertical brain for your industry, we'll build it. Email partners@recall.works.
Reach the maintainers at maintainers@recall.works. Issues and PRs welcome on GitHub.