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Memory Crystal Server

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Enables AI agents to maintain persistent memory across sessions by capturing conversations, extracting durable knowledge, and injecting relevant context, suppor

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Enables AI agents to maintain persistent memory across sessions by capturing conversations, extracting durable knowledge, and injecting relevant context, supporting various MCP-compatible platforms.

README

Memory Crystal

Persistent memory for AI agents.
Every conversation remembered. Every decision recalled. Every session informed.

MIT License npm Cloud Docs

Website · Docs · Dashboard · Pricing


Your AI forgets everything between sessions — who you are, what you decided, what failed, what works. Memory Crystal fixes that.

It captures conversations in real time, extracts durable knowledge, manages raw sensory retention, and injects the right context before every response. One install. No prompting gymnastics. Your AI just knows.

curl -fsSL https://memorycrystal.ai/crystal | bash

Works with everything

Install Memory Crystal on any MCP-compatible AI tool in one command:

Platform Install
Claude Code curl -fsSL https://memorycrystal.ai/install-claude-mcp.sh | bash
Codex CLI curl -fsSL https://memorycrystal.ai/install-codex-mcp.sh | bash
Factory Droid curl -fsSL https://memorycrystal.ai/install-droid-mcp.sh | bash
OpenClaw curl -fsSL https://memorycrystal.ai/crystal | bash
Claude Desktop Add the MCP server in settings (guide)
Any MCP host Point at https://api.memorycrystal.ai/mcp with a Bearer token

The universal installer supports cloud, local, and self-hosted backends. It can register MCP clients, configure OpenClaw, install Codex/Claude hook assets, and stage a Dockerized local Convex backend for offline or self-hosted work.


How it works

  You send a message
       │
       ▼
┌─────────────────────────────────────────┐
│           CONTEXT ENGINE                │
│                                         │
│  Semantic search + BM25 across STM/LTM  │
│  Knowledge graph boost                  │
│  Multi-signal reranker                  │
│  Diversity filter + context budgeting   │
│  → Inject top memories into context     │
└─────────────────────────────────────────┘
       │
       ▼
  AI responds with full context
       │
       ▼
┌─────────────────────────────────────────┐
│         MEMORY EXTRACTION               │
│                                         │
│  Raw message → Short-term memory        │
│  LLM extracts facts/decisions → LTM     │
│  Graph enrichment links related memories│
└─────────────────────────────────────────┘

Every response is informed by what came before. Every conversation feeds the next one.


Two memory layers

Layer Stores Retention
Short-term (STM) Recent raw messages, verbatim Rolling window by tier
Long-term (LTM) Facts, decisions, lessons, people, rules Permanent, vector-indexed
Sensory raw content Raw sensory payloads behind memory records Summarized, tombstoned, or protected by policy

STM gives recent continuity. LTM gives permanent knowledge. Sensory retention lets Memory Crystal keep durable recall value without keeping every raw payload forever.

Five memory stores

Store Purpose Example
sensory Raw signals "the user sounds frustrated about the deploy"
episodic Events "We shipped v2 on March 15"
semantic Facts "The API uses Convex for the backend"
procedural How-to "Deploy with npm run convex:deploy"
prospective Plans "Add billing webhooks next sprint"

Knowledge graph

Memories don't exist in isolation. An async background job connects related memories — decisions link to the lessons that informed them, people link to their projects, rules link to the events that created them.

When the Context Engine searches, graph-connected memories rank higher. Your AI doesn't just remember facts — it understands relationships.

Adaptive recall

Six modes, automatically selected:

Mode Prioritizes
General Broad recall across STM + LTM
Decision Decisions, lessons, and rules before risky changes
Project Goals, workflows, and implementation context
People Ownership, collaborators, and relationships
Workflow Procedures, rules, and how-to memory
Conversation Recent session context and continuity

The Context Engine picks the right mode. You don't configure anything.


Knowledge bases

First-class immutable reference collections for docs, policies, runbooks, and imported source material. They sit alongside conversational memory so your agent can keep learned context and stable reference data separate.

  • Immutable — imported chunks stay stable, not rewritten by conversation
  • Scoped — tenant and scope filters keep KBs private to the right workspace
  • Bulk import — standard import or high-volume bulk-insert without blocking on embedding
  • Background enrichment — embedding and graph backfill run asynchronously

26 memory tools

Every tool works in any MCP host or automatically within OpenClaw hooks.

Tool What it does
crystal_recall Semantic search across all long-term memory
crystal_remember Store a memory — decisions, facts, lessons
crystal_what_do_i_know Everything known about a topic
crystal_why_did_we Decision archaeology — why a past choice was made
crystal_preflight Pre-flight check before risky actions
crystal_search_messages Hybrid search over verbatim conversation history, with time-window (fromMs/toMs or ISO dates) and pagination
crystal_checkpoint Snapshot memory state at a milestone
crystal_wake Session startup — briefing and guardrails
crystal_trace Trace a memory back to its source conversation
crystal_who_owns Find ownership of a file, module, or area
crystal_explain_connection Explain relationships between concepts
crystal_dependency_chain Trace dependency chains between entities
crystal_recent Recent messages for short-term context
crystal_edit Update an existing memory
crystal_forget Archive or delete a memory
crystal_stats Memory and usage statistics
crystal_set_scope Override channel scope for the session
crystal_list_knowledge_bases List available knowledge bases
crystal_query_knowledge_base Search a knowledge base
crystal_import_knowledge Import reference chunks into a KB (upsert-by-dedupeKey replaces in place)
crystal_list_knowledge_base_memories Enumerate a KB's chunks with cursor pagination + ids
crystal_empty_knowledge_base Delete all chunks but keep the KB row/id/bindings
crystal_ideas List active Organic ideas and discoveries
crystal_idea_action Act on Organic ideas
memory_search Search LTM and return crystal paths
memory_get Read a full memory by ID or path

Short-term message tools (crystal_search_messages, crystal_recent, recall message matches, and wake/session summaries derived from recent messages) redact likely secrets before returning tool output. A turn becomes searchable after capture finishes at turn completion; active same-turn tool calls should not expect the current prompt or response to appear yet.


HTTP API

All core operations available over authenticated HTTP:

POST /api/mcp/capture              Create a memory
POST /api/mcp/recall               Hybrid recall over all memory
POST /api/mcp/search-messages      Search short-term history

GET  /api/knowledge-bases          List knowledge bases
POST /api/knowledge-bases          Create a knowledge base
POST /api/knowledge-bases/:id/import       Import chunks
POST /api/knowledge-bases/:id/bulk-insert  High-volume migration
POST /api/knowledge-bases/:id/query        Query a knowledge base

All endpoints require Authorization: Bearer <api-key>. Per-key rate limiting enforced.


Architecture

memorycrystal/
├── plugin/                 OpenClaw plugin — hooks into conversation lifecycle
├── plugins/shared/         Shared hook script for Claude Code, Codex, Factory
├── mcp-server/             MCP server — stdio/HTTP compatibility layer
├── packages/mcp-server/    Streamable HTTP MCP variant
├── convex/                 Backend — schema, capture, recall, graph, retention
│   └── crystal/            All Memory Crystal Convex functions
├── apps/
│   ├── web/                Next.js 15 dashboard (Tailwind 4, Convex Auth)
│   └── docs/               Mintlify documentation site
├── scripts/                Install, bootstrap, doctor, enable/disable
└── assets/                 Logos and brand assets

Local development

Contributors can run an opt-in Dockerized Convex backend and dashboard locally, then seed fixture data without touching the managed production deployment:

npm run convex:local:up
npm run convex:local:seed
npm run convex:local:doctor

Provider keys are intentionally split: MEMORY_CRYSTAL_API_KEY is client bearer auth, GEMINI_API_KEY powers Gemini embeddings, and optional OPENROUTER_API_KEY powers organic model features.

The local stack uses http://127.0.0.1:3210 for Convex RPC, http://127.0.0.1:3211 for HTTP actions, and http://127.0.0.1:6791 for the dashboard. See the Local-First Setup guide for end-user setup, local endpoints, backup and rollback behavior, and troubleshooting.

Self-hosted

Run everything on your own infrastructure:

git clone https://github.com/memorycrystal/memorycrystal.git
cd memorycrystal && npm install

# Deploy to your own Convex project
CONVEX_DEPLOYMENT=prod:your-project-123 npx convex deploy

# Configure
echo 'CONVEX_URL=https://your-project-123.convex.cloud' > mcp-server/.env
echo 'GEMINI_API_KEY=your-key' >> mcp-server/.env

# Enable and verify
npm run crystal:enable
npm run crystal:doctor

For install-script OpenClaw installs, verify the loaded plugin directly:

openclaw plugins info crystal-memory
openclaw crystal_status

Full guide: docs.memorycrystal.ai/configuration/self-hosting


Security

  • Multi-tenant isolation — owner checks on every retrieval, database-level separation
  • Per-peer / channel isolation — on multi-client accounts, memories and knowledge-base chunks are scoped by peer channel and fail closed for broad/absent scopes; recall, wake, and graph tools never surface one client's data in another's session
  • API keys — SHA-256 hashed at rest, plaintext never stored
  • Content scanner — blocks prompt injection, encoded payloads, credential patterns
  • Prompt injection mitigation — recalled memories injected as informational context only
  • Rate limiting — per-key enforcement on all endpoints
  • Audit logging — all actions logged to crystalAuditLog
  • Device flow auth — RFC 8628-style for CLI key provisioning
  • Local mode — SQLite fallback, data never leaves your machine

Pricing

Plan Price Memories STM Retention
Free $0/mo 500 7 days
Pro $29/mo 25,000 30 days
Ultra $79/mo Unlimited 90 days
Enterprise Custom Custom Custom

Self-hosting is always free. Paid plans are for the managed cloud at memorycrystal.ai.


Contributing

Memory Crystal is MIT open source. PRs welcome.

git clone https://github.com/memorycrystal/memorycrystal.git
cd memorycrystal && npm install && npm run dev

Star History

Star History Chart

MIT License — memorycrystal.ai — Operated by Illumin8 Inc.

from github.com/memorycrystal/memorycrystal

Installing Memory Crystal Server

This server has no published package — it is built from source. Open the repository and follow its README.

▸ github.com/memorycrystal/memorycrystal

FAQ

Is Memory Crystal Server MCP free?

Yes, Memory Crystal Server MCP is free — one-click install via Unyly at no cost.

Does Memory Crystal Server need an API key?

No, Memory Crystal Server runs without API keys or environment variables.

Is Memory Crystal Server hosted or self-hosted?

Self-hosted: the server runs locally on your machine via the install command above.

How do I install Memory Crystal Server in Claude Desktop, Claude Code or Cursor?

Open Memory Crystal Server 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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