Description

Associative memory with spreading activation for persistent, intelligent recall. Use PROACTIVELY when: (1) You need to remember facts, decisions, errors, or...

README (SKILL.md)

NeuralMemory — Associative Memory for AI Agents

Name: Neural Memory Enhanced
Author: zhuyu28

A biologically-inspired memory system that uses spreading activation instead of keyword/vector search. Memories form a neural graph where neurons connect via 20 typed synapses. Frequently co-accessed memories strengthen their connections (Hebbian learning). Stale memories decay naturally. Contradictions are auto-detected.

Why not just vector search? Vector search finds documents similar to your query. NeuralMemory finds conceptually related memories through graph traversal — even when there's no keyword or embedding overlap. "What decision did we make about auth?" activates time + entity + concept neurons simultaneously and finds the intersection.

Setup

1. Install NeuralMemory

pip install neural-memory
nmem init

This creates ~/.neuralmemory/ with a default brain and configures MCP automatically.

2. Configure MCP for OpenClaw

Add to your OpenClaw MCP configuration (~/.openclaw/mcp.json or project openclaw.json):

{
  "mcpServers": {
    "neural-memory": {
      "command": "python3",
      "args": ["-m", "neural_memory.mcp"],
      "env": {
        "NEURALMEMORY_BRAIN": "default"
      }
    }
  }
}

3. Verify

nmem stats

You should see brain statistics (neurons, synapses, fibers).

Tools Reference

Core Memory Tools

Tool	Purpose	When to Use
`nmem_remember`	Store a memory	After decisions, errors, facts, insights, user preferences
`nmem_recall`	Query memories	Before tasks, when user references past context, "do you remember..."
`nmem_context`	Get recent memories	At session start, inject fresh context
`nmem_todo`	Quick TODO with 30-day expiry	Task tracking

Intelligence Tools

Tool	Purpose	When to Use
`nmem_auto`	Auto-extract memories from text	After important conversations — captures decisions, errors, TODOs automatically
`nmem_recall` (depth=3)	Deep associative recall	Complex questions requiring cross-domain connections
`nmem_habits`	Workflow pattern suggestions	When user repeats similar action sequences

Management Tools

Tool	Purpose	When to Use
`nmem_health`	Brain health diagnostics	Periodic checkup, before sharing brain
`nmem_stats`	Brain statistics	Quick overview of memory counts
`nmem_version`	Brain snapshots and rollback	Before risky operations, version checkpoints
`nmem_transplant`	Transfer memories between brains	Cross-project knowledge sharing

Workflow

At Session Start

Call nmem_context to inject recent memories into your awareness
If user mentions a specific topic, call nmem_recall with that topic

During Conversation

When a decision is made: nmem_remember with type="decision"
When an error occurs: nmem_remember with type="error"
When user states a preference: nmem_remember with type="preference"
When asked about past events: nmem_recall with appropriate depth

At Session End

Call nmem_auto with action="process" on important conversation segments
This auto-extracts facts, decisions, errors, and TODOs

Examples

Remember a decision

nmem_remember(
  content="Use PostgreSQL for production, SQLite for development",
  type="decision",
  tags=["database", "infrastructure"],
  priority=8
)

Recall with spreading activation

nmem_recall(
  query="database configuration for production",
  depth=1,
  max_tokens=500
)

Returns memories found via graph traversal, not keyword matching. Related memories (e.g., "deploy uses Docker with pg_dump backups") surface even without shared keywords.

Trace causal chains

nmem_recall(
  query="why did the deployment fail last week?",
  depth=2
)

Follows CAUSED_BY and LEADS_TO synapses to trace cause-and-effect chains.

Auto-capture from conversation

nmem_auto(
  action="process",
  text="We decided to switch from REST to GraphQL because the frontend needs flexible queries. The migration will take 2 sprints. TODO: update API docs."
)

Automatically extracts: 1 decision, 1 fact, 1 TODO.

Key Features

Zero LLM dependency — Pure algorithmic: regex, graph traversal, Hebbian learning
Spreading activation — Associative recall through neural graph, not keyword/vector search
20 synapse types — Temporal (BEFORE/AFTER), causal (CAUSED_BY/LEADS_TO), semantic (IS_A/HAS_PROPERTY), emotional (FELT/EVOKES), conflict (CONTRADICTS)
Memory lifecycle — Short-term → Working → Episodic → Semantic with Ebbinghaus decay
Contradiction detection — Auto-detects conflicting memories, deprioritizes outdated ones
Hebbian learning — "Neurons that fire together wire together" — memory improves with use
Temporal reasoning — Causal chain traversal, event sequences, temporal range queries
Brain versioning — Snapshot, rollback, diff brain state
Brain transplant — Transfer filtered knowledge between brains
Vietnamese + English — Full bilingual support for extraction and sentiment

Depth Levels

Depth	Name	Speed	Use Case
0	Instant	\x3C10ms	Quick facts, recent context
1	Context	~50ms	Standard recall (default)
2	Habit	~200ms	Pattern matching, workflow suggestions
3	Deep	~500ms	Cross-domain associations, causal chains

Notes

Memories are stored locally in SQLite at ~/.neuralmemory/brains/\x3Cbrain>.db
No data is sent to external services (unless optional embedding provider is configured)
Brain isolation: each brain is independent, no cross-contamination
nmem_remember returns fiber_id for reference tracking
Priority scale: 0 (trivial) to 10 (critical), default 5
Memory types: fact, decision, preference, todo, insight, context, instruction, error, workflow, reference

Usage Guidance

This skill appears to be a local Python-based memory MCP that needs python3 and a 'brain' identifier; the main red flag is inconsistent registry install metadata (it lists 'node' while the README/instructions use pip). Before installing: (1) verify the neural-memory PyPI package source matches the GitHub repo URL and inspect the package code (or download the wheel) for unexpected network calls or data exfiltration; (2) back up ~/.openclaw/mcp.json before adding the MCP server entry; (3) confirm what NEURALMEMORY_BRAIN contains — do not set a secret token unless you know the package requires it; (4) review the behavior of tools that process conversation text (nmem_auto) and any 'transplant' or export features to ensure they don't upload your data to remote servers; (5) prefer installing in an isolated environment (virtualenv or container) to limit impact. The registry metadata inconsistency lowers confidence in automated installation — treat this as a sign to manually validate the package and repo before proceeding.

Capability Analysis

Type: OpenClaw Skill Name: neural-memory-enhanced Version: 1.0.0 The skill bundle describes a local associative memory system for AI agents using a neural graph and spreading activation. It provides a comprehensive set of tools for storing and recalling context (e.g., `nmem_remember`, `nmem_recall`) and uses a local SQLite database for storage. While there is a minor metadata inconsistency in `SKILL.md` (listing the installation 'kind' as 'node' while the command is 'pip'), the instructions and logic are consistent with a legitimate utility, and there is no evidence of data exfiltration, malicious execution, or harmful prompt injection.

Capability Assessment

ℹ Purpose & Capability

The SKILL.md describes a local Python-based memory system and the declared requirements (python3, NEURALMEMORY_BRAIN) align with that purpose. However the registry's install metadata lists a 'node' kind while the documentation and runtime use pip/python; this mismatch is incoherent and could confuse automated installers or reviewers.

✓ Instruction Scope

Instructions are concrete and scoped to installing the package, initializing a local brain (~/.neuralmemory), and registering an MCP entry in the user's OpenClaw config. The skill directs the agent to run local commands (nmem tools) and to pass conversation text to nmem_auto; it does not instruct sending data to external endpoints in the SKILL.md itself. Users should confirm what nmem_auto and nmem_transplant do, since they operate on conversation content and brain data.

⚠ Install Mechanism

The SKILL.md instructs 'pip install neural-memory' (PyPI/Python), but the registry install entry is labeled with kind 'node' and id 'pip' (inconsistent). This metadata mismatch is concerning because automated install flows might attempt the wrong mechanism. Installing from PyPI is the likely intent (moderate risk); you should verify the package source, review its code, and ensure the PyPI package matches the listed GitHub repo before running pip install.

ℹ Credentials

Only one env var (NEURALMEMORY_BRAIN) is required and that matches the documented MCP configuration. It is declared as the primary credential in metadata, but the SKILL.md suggests this is a brain identifier (e.g., 'default') rather than a secret token. Confirm whether NEURALMEMORY_BRAIN holds a non‑sensitive name/ID or a secret credential before storing it in your environment.

✓ Persistence & Privilege

The skill does not request always:true and is user‑invocable. It instructs writing a local brain directory (~/.neuralmemory) and editing the user's MCP config (~/.openclaw/mcp.json), which is reasonable for an MCP plugin. There is no instruction to modify other skills or system-wide privileges.

Version History

v1.0.0

- Initial release of neural-memory-enhanced skill. - Provides associative memory with spreading activation for persistent, intelligent recall across sessions. - Features a neural graph with Hebbian learning, memory decay, contradiction detection, and temporal reasoning. - Offers command-line tools for remembering, recalling, auto-extracting, and managing memories. - Supports workflow tools, brain versioning, and memory transplant for cross-project knowledge sharing. - Operates independently of large language models; fully algorithmic and stores data locally.

Metadata

Slug neural-memory-enhanced

Version 1.0.0

License —

All-time Installs 2

Active Installs 1

Total Versions 1

Frequently Asked Questions

What is Neural Memory Enhanced?

Associative memory with spreading activation for persistent, intelligent recall. Use PROACTIVELY when: (1) You need to remember facts, decisions, errors, or... It is an AI Agent Skill for Claude Code / OpenClaw, with 514 downloads so far.

How do I install Neural Memory Enhanced?

Run "/install neural-memory-enhanced" in the OpenClaw or Claude Code chat to install it in one step — no extra setup required.

Is Neural Memory Enhanced free?

Yes, Neural Memory Enhanced is completely free (open-source). You can download, install and use it at no cost.

Which platforms does Neural Memory Enhanced support?

Neural Memory Enhanced is cross-platform and runs anywhere OpenClaw / Claude Code is available (darwin, linux, win32).

Who created Neural Memory Enhanced?

It is built and maintained by zhuyu28 (@zhuyu28); the current version is v1.0.0.

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