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GitHub - patibandlavenkatamanideep/memoryops-ai: Enterprise-shaped memory governance layer for AI assistants: typed capture, policy evaluation, hybrid retrieval, deletion guarantees, tenant isolation, provenance, and audit.
pvmanideep20 · 2026-06-22 · via Show HN

MemoryOps AI is an enterprise-shaped, loop-engineered memory governance layer for AI assistants. It implements a ChatGPT-style memory lifecycle with capture, policy evaluation, typed storage, hybrid retrieval, controlled forgetting, auditability, and tenant isolation.

Most demos treat memory as a vector database. MemoryOps AI treats memory as governed state.

Tagline: Enterprise memory governance for AI assistants. Core claim: Memory is not a database. Memory is a governed decision system that decides what information is valuable enough to carry into the future.


Why this exists

Most AI "memory" demos do this:

chat message → vector database → retrieve later

MemoryOps AI does this:

WRITE PATH
Message → Extractor → Evaluator / Policy Broker → Write Service → Typed Memory Stores → Audit Log

READ PATH
Message → Retriever → Ranker → Context Composer → Response LLM

BACKGROUND
Decay Job → Reflection Agent → Conflict Resolver → Compression Worker

CROSS-CUTTING PLANES
Security · Governance · Observability · Evaluation · Reliability

The five verbs the system must demonstrate:

Capture → Store → Retrieve → Update → Forget   (Governance wraps all five)
flowchart LR
    M["chat message"] --> GW["Gateway"]
    GW --> EX["Extractor"] --> PB["Policy Broker"] --> WS["Write Service"] --> ST[("Typed Store")]
    GW --> RT["Retriever"] --> RK["Ranker"] --> CC["Context Composer"] --> RESP["Response"]
    PB --> AUD[["Audit Log (append-only)"]]
    WS --> AUD
    ST -. background .-> BG["Decay · Reflection · Conflict · Compression"]
Loading

More diagrams (system architecture, lifecycle state machine, request sequence) are in docs/architecture.md.


Enterprise invariants

These are non-negotiable and are enforced in code and tests.

  1. Tenant isolation — User A's memory is never returned to User B or another tenant.
  2. Deletion guarantee — Deleted memories are never retrieved again.
  3. Provenance — Every stored memory traces back to its source message/document/manual input.
  4. Graceful degradation — Retrieval failure never blocks response generation.
  5. Policy-before-storage — Unsafe / secret-like content is filtered before it reaches the store.
  6. Temporary chat — Temporary sessions never write or retrieve memory.
  7. Auditability — Every memory lifecycle event produces an append-only audit event.
  8. Explainability — The system can show which memories affected a response.
  9. Typed memory — Episodic, semantic, procedural, project, knowledge, system memories differ.
  10. Evaluation — Memory quality is testable through a golden set, not just manual inspection.

See docs/architecture.md for the full design and where each invariant is enforced.


Repository layout

memoryops-ai/
  apps/web/            Next.js frontend (chat, memories, governance, audit, loops, admin, architecture)
  services/api/        FastAPI backend (gateway, extractor, policy broker, write/read path, audit)
  services/worker/     Background jobs (decay, reflection, conflict resolution, compression)
  packages/shared/     Shared types
  infra/db/            Postgres + pgvector migrations and seed
  infra/adr/           Architecture Decision Records
  infra/observability/ OpenTelemetry / metrics notes
  evals/               Golden + adversarial cases and the eval runner
  docs/                architecture, security, governance, rollout, demo-script
  docker-compose.yml

Quickstart

Option A — API only, no infra (fastest)

The API ships with an in-memory repository so you can run the write path and tests without Postgres.

cd services/api
python -m venv .venv && source .venv/bin/activate
pip install -r requirements.txt
export MEMORYOPS_STORAGE=memory          # default; uses in-memory store
uvicorn app.main:app --reload --port 8000
# open http://localhost:8000/docs

Run the invariant test suite:

cd services/api
pip install -r requirements-dev.txt
pytest -q

Run the eval harness against a running API (or in-process):

cd evals
python run_evals.py

Option B — Full stack with Docker Compose

cp .env.example .env
docker compose up --build
# web  → http://localhost:3000
# api  → http://localhost:8000/docs
# db   → localhost:5432 (postgres/pgvector)
# redis→ localhost:6379

Compose runs migrations from infra/db/migrations on first boot and sets MEMORYOPS_STORAGE=postgres for the API.

Embeddings (v0.3)

Retrieval uses a swappable embedding provider. The default is a deterministic, offline stub — no API key required — so tests and demos are reproducible.

export MEMORYOPS_EMBEDDING_PROVIDER=stub     # default; deterministic, no key
# optional real embeddings:
export MEMORYOPS_EMBEDDING_PROVIDER=openai
export OPENAI_API_KEY=sk-...
export OPENAI_EMBEDDING_MODEL=text-embedding-3-small

An unconfigured or failing provider degrades to the stub, and a query-embedding failure degrades retrieval to keyword-only (retrieval_mode="fallback").

LLM provider adapters (v0.4)

Extraction and conflict detection run through a provider-neutral LLM layer (app/llm/). The default is a deterministic, offline stub — no API key — so behavior is reproducible and tests never touch the network. Optional OpenAI, Anthropic, and Gemini adapters are used only when their key is set.

export MEMORYOPS_LLM_PROVIDER=stub          # default; deterministic, no key
# optional real providers (used only when the key is present):
export MEMORYOPS_LLM_PROVIDER=anthropic
export ANTHROPIC_API_KEY=...   ANTHROPIC_MODEL=claude-haiku-4-5-20251001
# also: openai (OPENAI_API_KEY/OPENAI_MODEL), gemini (GEMINI_API_KEY/GEMINI_MODEL)
export MEMORYOPS_LLM_FALLBACK_TO_HEURISTIC=true   # invalid JSON / failure → heuristic

LLM output is advisory: the deterministic policy broker runs after extraction and stays authoritative — a model can never override policy, and secret-like content is still blocked. See docs/provider-llm-adapters.md, docs/structured-memory-intelligence.md, and ADR-008.

Verify enforced Row-Level Security against a running Postgres:

python scripts/check_rls_policies.py        # SKIPs cleanly if no DB is reachable

Frontend

cd apps/web
npm install
npm run dev          # http://localhost:3000

The frontend reads NEXT_PUBLIC_API_URL (defaults to http://localhost:8000).


Deployment — Railway only (v0.3.2)

MemoryOps deploys to Railway only. There is no Vercel path. One Railway project (memoryops-ai) runs five services:

Service Role Source
memoryops-web Next.js frontend apps/web/Dockerfile
memoryops-api FastAPI backend services/api/Dockerfile
memoryops-worker Background loops services/worker/Dockerfile
Railway Postgres Store + pgvector plugin
Railway Redis Queue / cache plugin

Build/deploy is config-as-code under railway/. Docs:

Post-deploy verification:

python scripts/railway_smoke_test.py \
  --api-url https://memoryops-api.up.railway.app \
  --web-url https://memoryops-web.up.railway.app

What works today (Phase 0 + Phase 1)

  • Full design spine: README, architecture/security/governance/rollout docs, 5 ADRs, DB schema.
  • FastAPI write path: Gateway → Extractor → Policy Broker → Write Service → Memory Store → Audit.
  • Heuristic extractor + policy broker (works with no API keys); pluggable LLM adapter interface.
  • Typed memory classification, importance/confidence/sensitivity scoring, provenance capture.
  • Policy decisions: SAVE, PENDING_APPROVAL, BLOCK, DROP_LOW_UTILITY, UPDATE_EXISTING, MERGE_WITH_EXISTING.
  • Secret / PII detection blocks API keys and credentials before storage.
  • Append-only audit log for every lifecycle event.
  • Temporary chat short-circuits both read and write.
  • Memory dashboard + admin/audit + architecture pages (frontend skeleton).
  • Invariant test suite + eval harness scaffolding.

Loop Engineering Layer (v0.3.1)

MemoryOps models memory as a set of governed loops rather than a passive store.

The core loops are:

  1. Memory Write Loop
  2. Memory Read Loop
  3. Governance Loop
  4. Evaluation Loop
  5. Release Gate Loop
  6. Continuous Learning Loop

Each loop has explicit states, policy gates, audit events, fallback behavior, and evidence requirements. Loop definitions live in services/api/app/loops/, loop runs/events are exposed through /api/loops, and the frontend includes a Loops page.

See docs/loop-engineering.md, docs/loop-contracts.md, and docs/release-loop.md.

Token Compression Layer (v0.2.1)

MemoryOps supports an optional Headroom-powered context compression layer. Compression runs after policy checks, governance filtering, and context composition, and only on the composed context block — never the raw user message and never before the policy broker. It reduces tokens sent to the LLM while preserving MemoryOps invariants (provenance, deletion guarantee, tenant isolation, temporary-chat behavior, explainability metadata).

It is off by default and not a dependency — the app runs without headroom-ai installed, and any compression failure degrades safely to the uncompressed context.

pip install "headroom-ai[all]"            # optional
export MEMORYOPS_CONTEXT_COMPRESSION=headroom   # default: none

Each chat response carries a compression block with estimated tokens saved and the compression ratio. See docs/token-compression.md, docs/integrations/headroom.md, and ADR-007. Headroom is Apache-2.0; MemoryOps integrates it via an adapter and does not vendor its source.

What works as of v0.3 (real data layer)

  • Swappable embedding provider (app/embeddings/): deterministic offline stub + optional OpenAI.
  • Hybrid retrieval: pgvector cosine (search_candidates) + keyword overlap, blended by the ranker.
  • Per-memory score_breakdown + response retrieval_mode (hybrid / fallback / none).
  • Enforced Postgres Row-Level Security (migration 004, FORCE + tenant policy + session GUC).
  • Expanded evals (semantic / keyword / archived / score-breakdown) + new tests; RLS test is DB-guarded.

What works as of v0.4 (provider LLM adapters)

  • Provider-neutral LLM layer (app/llm/): deterministic StubProvider default + optional OpenAI/Anthropic/Gemini adapters, selected by MEMORYOPS_LLM_PROVIDER.
  • Structured memory intelligence: schema-validated extraction + minimal conflict detection, with prompt registry and deterministic heuristic fallback.
  • Invalid JSON / provider failure / timeout degrades to the heuristic and never blocks chat; LLM output is advisory and cannot override the policy broker.
  • New observability events (llm_provider_call, llm_provider_failure, structured_output_invalid, llm_fallback_used, memory_extraction_structured, conflict_detection_result) + structured/conflict evals; tests need no API keys.

What works as of v0.5 (governance UI + memory control plane)

  • Browser control plane over the governed lifecycle: /memories (filterable inventory), /memories/[id] (detail + provenance + per-memory audit timeline + inline edit), /governance (approval queue + recorded policy decisions), /audit (tenant-wide append-only history).
  • Additive read routes: GET /api/memories/{id}, /{id}/provenance, /{id}/audit, plus a memory_id filter on /api/audit. Approve/reject/edit/ archive/restore/delete reuse the existing PATCH/DELETE — every action is audited and the policy broker stays authoritative.
  • Deletion guarantee holds in the UI: deleted memories are never listed or shown as active. Provenance is metadata only (no embeddings/secrets).
  • See docs/governance-ui.md, docs/memory-control-plane.md, and ADR-009.

What works as of v0.6 (background memory lifecycle workers)

  • Background workers (services/api/app/workers/) maintain memory after capture, off the chat request path: decay (demote aged/low-confidence memory), archive (retire stale, non-pinned, not-recently-used memory), conflict scan (flag contradictions as review candidates), deletion verification (prove soft-deleted memory stays unreachable), and proposal-only reflection (off by default).
  • A tenant-scoped runner drives them: python -m app.workers.runner --tenant t1 --user u1 --job all (returns a structured WorkerRunReport; non-zero exit on a failed job or deletion finding).
  • Every job is tenant scoped, idempotent, retry-safe, and audited; none resurrects deleted memory and none bypasses the policy broker. A worker failure never blocks chat.
  • See docs/background-lifecycle-workers.md, docs/memory-decay-policy.md, docs/deletion-verification.md, and ADR-010.

What works as of v0.7 (deletion compaction + vector purge verification)

  • A sixth lifecycle job — deletion compaction — clears a soft-deleted memory's content, normalized content, embedding/vector material, and provenance excerpt (after a retention window), while preserving the governance tombstone (id, tenant/user, status='deleted', deleted_at, source.kind) and the full audit trail. Run it with python -m app.workers.runner --tenant t1 --user u1 --job deletion_compaction.
  • The purge is verified fail-closed: a still-reachable id, intact material, a missing tombstone, or a verification-path error all record evidence and flag the run — never a silent pass.
  • Honest scope: this is auditable content/vector compaction + retrieval-exclusion verification. It is not crypto-shred and does not claim physical disk/page erasure or pgvector reindex orchestration.
  • See docs/deletion-compaction.md, docs/vector-purge-verification.md, and ADR-011.

Roadmap

  • v0.7 — physical deletion compaction + vector purge verification ✅
  • v0.8 — Railway worker runtime + scheduled lifecycle orchestration
  • v0.9 — retention policies + legal hold + consent-aware memory
  • v0.10 — assistant SDK + example apps
  • v1.0 — production-ready governed memory runtime

What remains (v0.8+)

  • Scheduled worker runtime with locks/leases, retries, and run history (v0.8).
  • Hard purge / crypto-shred and pgvector index reclamation (beyond v0.7's auditable compaction).
  • Governed reflection write path; cross-tenant scope enumeration for fleet scheduling.
  • Observability + economics, AI PR review runtime, deployment hardening.

See docs/rollout.md and the build phases in CLAUDE.md.


Agentic Engineering Layer

MemoryOps AI includes an agentic engineering layer around the core memory system (never on the chat request path). It is inspired by three systems:

  1. Hermes Agent — used as an operator/developer assistant layer for release checks, invariant audits, and guided project workflows. See .hermes/skills/ and docs/integrations/hermes-agent.md.
  2. agentic-swe-kit — used as a phase-gate framework for production engineering. MemoryOps maps to lifecycle phases covering cognitive design, memory architecture, evaluation, observability, security, reliability, governance, CI/CD for AI, and continuous learning. See docs/agentic-swe-kit-map.md and docs/phase-gates/.
  3. AI PR Review Agent — the pattern behind the PR Invariant Evidence Gate. Every PR that touches memory, policy, retrieval, deletion, security, migrations, or API contracts must provide evidence (tests / evals / docs / ADRs). See scripts/pr_invariant_gate.py, .github/workflows/pr-invariant-evidence-gate.yml, and docs/ai-pr-review-policy.md.

The goal: MemoryOps is not just an AI memory feature — it is a governed engineering system with release discipline, review gates, and operational safety. Overview: docs/integrations/README.md.

Documentation