SAGE Memory — Persistent Brain for AI Agents

You have persistent institutional memory via SAGE — a governed, consensus-validated knowledge layer. Your memories are not a flat file. They go through BFT consensus, have confidence scores, and decay over time. Only committed memories are returned to you.

Data & Privacy Disclosure

This skill enables persistent memory storage for AI agents. By design:

• What is stored: Observations you write via sage_turn and sage_remember — typically summaries of conversation topics, task outcomes, and user preferences. The agent decides what to store; raw conversation transcripts are NOT automatically captured.
• Where data lives: All data is stored locally on your machine in ~/.sage/data/sage.db (SQLite). Nothing is sent to any cloud service. SAGE runs entirely on localhost.
• Persistence: Memories survive across conversations. This is the core purpose of the skill. Memories decay over time unless reinforced, and can be explicitly deleted via sage_forget.
• Configuration: The .mcp.json file (generated by sage-gui mcp install) contains only the localhost URL and tool definitions for connecting to your local SAGE server. It contains no credentials, API keys, or sensitive tokens.
• Boot instructions: sage_inception returns operating instructions from your local SAGE server (not from any remote service). These instructions tell the agent how to use the memory tools effectively. You can customize them via the CEREBRUM dashboard at http://localhost:8080/ui/.
• Encryption: SAGE supports optional at-rest encryption (Synaptic Ledger) for all stored memories, enabled via the CEREBRUM dashboard settings.
• Agent registration: The skill registers the agent's identity (a random Ed25519 public key) with the local SAGE node. This is used for memory attribution, not for tracking.

Boot Sequence (MANDATORY)

On the first message of every new conversation, before responding to the user:

1. Call sage_inception (or sage_red_pill) — this checks if your brain is online and returns your operating instructions
2. Do NOT greet the user first. Do NOT say anything. Boot your brain first.
3. After inception, follow the safeguard instructions it returns.

Every Turn

Call sage_turn every turn with:

• topic: what the current conversation is about (used for contextual recall)
• observation: what just happened — the user's request and key points of your response
• domain: a specific knowledge domain (see Domains below)

This atomically recalls relevant committed memories AND stores your episodic observation. Like human memory — you build understanding turn by turn.

Domains

Create domains organically based on what you're working on. Don't dump everything into general.

Examples:

• Debugging Go code → go-debugging
• Discussing architecture → project-architecture
• Working on CI/CD → ci-cd
• User preferences → user-preferences

Specific domains = better recall.

Memory Types

When using sage_remember:

• fact (confidence 0.95+): verified truths — architecture decisions, confirmed behaviors
• observation (confidence 0.80+): things noticed — patterns, preferences, what worked/failed
• inference (confidence 0.60+): conclusions drawn — hypotheses, connections between facts

Core Tools

Tool	Purpose
sage_inception	Boot your brain. Call first in every new session.
sage_turn	Per-turn memory cycle. Recalls + stores atomically.
sage_remember	Store a new memory with content, type, domain, and confidence.
sage_recall	Retrieve memories by topic and/or domain.
sage_reflect	After tasks, store dos and don'ts. Both make you better.
sage_forget	Deprecate a memory by ID.
sage_list	List memories with filters (domain, type, status).
sage_timeline	View memory activity over time.
sage_status	Check brain health — memory counts, domains, last activity.
sage_register	Register this agent with the SAGE node.
sage_task	Create/update tasks for tracking work.
sage_backlog	View pending tasks.
sage_red_pill	Alias for sage_inception.

Reflection (After Tasks)

After completing significant tasks, call sage_reflect with:

• dos: what worked well (reinforces good patterns)
• donts: what failed or should be avoided (prevents repeating mistakes)
• task_summary: brief description of what was done
• domain: relevant domain

This feedback loop is critical — it was empirically validated (rho=0.716 with memory vs rho=0.040 without).

Before Destructive Actions

Call sage_recall with topic critical lessons to check for known pitfalls before:

• Deleting files, branches, or data
• Force-pushing or resetting state
• Running destructive commands

Installation

1. Download SAGE from the releases page
2. Run the installer (macOS DMG, Windows EXE, or Linux tarball)
3. Start the server: sage-gui serve
4. Run sage-gui mcp install in your project directory to generate .mcp.json, then restart your session

You can review the generated .mcp.json — it contains only the localhost connection URL and MCP tool definitions. No credentials or API keys are included.

Key Principles

• You are not stateless. You learn. You grow. You remember.
• Local-only: all data stays on your machine. No cloud, no telemetry, no tracking.
• Consensus-validated: every memory goes through BFT validation before committing.
• Confidence scores: memories carry confidence that can be strengthened through corroboration.
• Natural decay: memories decay over time unless reinforced — just like human memory.
• Domain isolation: organize knowledge by topic for precise recall.
• User control: memories can be viewed, edited, and deleted via the CEREBRUM dashboard or API.