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HarperZ9/telos

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Local-first Project Telos MCP tool line for inspectable AI work: source intake, workspace context, routing ledgers, action receipts, and MATCH / DRIFT / UNVERIF

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Описание

Local-first Project Telos MCP tool line for inspectable AI work: source intake, workspace context, routing ledgers, action receipts, and MATCH / DRIFT / UNVERIFIABLE verification packets across 5 stdio servers.

README

telos: The shared workbench: durable state, native workstation control, sensory organs, a discovery forge.

The shared workbench: durable state, native workstation control, sensory organs, a discovery forge.

version license CI node deps

Telos is a zero-dependency local workbench for creating, simulating, and replaying AI work. It ships a five-server MCP surface plus CLI fallbacks: doctors for CI, presentation, accessibility, performance, and compatibility, a creative engine with deterministic kernels and ten measurement meters, model-foundry and learning-forge lanes, and research proof packets spanning causal, embodied, and quantum demos. It ties gather, index, forum, and crucible into one operator map you can run with a single node demo/run.mjs. Every run writes a receipt you can re-check.

Project Telos | gather | crucible | index | forum | telos | learn | emet | buildlang

What it does

  • One MCP surface over five flagships. node demo/telos-mcp.mjs (or npm start) runs a stdio MCP server exposing 41 native telos.* tools, and the server manifest launches gather, index, forum, and crucible beside it: 69 tools total plus 29 declared auxiliary compatibility tools, with ready-to-paste host config for Codex (TOML), Claude (JSON), and OpenAI Agents.
  • Four proof lanes through one CLI. node demo/proof.mjs assembles agent-action, research-claim, visual-truth, and build proof packets. Each has a pure verifier that recomputes every load-bearing claim from materials embedded in the packet, so a canned pass is structurally impossible, and node demo/proof.mjs verify <packet.json> replays any of them by schema id.
  • Nine doctors. CI doctor and CI triage read GitHub Actions state and separate fatal failures from runtime migration warnings. Presentation, accessibility, performance, compatibility, and operator doctors audit README parity, static a11y, byte budgets, protocol coverage, and discoverability. All run offline against local checkouts.
  • A creative engine you can measure. Deterministic kernels (ordered dither, pixel sort, harmonograph, clustered light), a WebGPU/WebGL/canvas/static renderer selection contract, and ten runnable meters across histogram, dither, splat, cluster, audio, flicker, curvature, interaction, uncertainty, and frame-budget signals. The visual surface lives at demo/index.html.
  • Research proof packets. Deterministic preflights for causal inference (toy-DAG minimal adjustment set), embodied sim-to-real (differential drive with safety envelope and latency bound), and quantum error correction (3-qubit bit-flip stabilizer code), each with negative controls and explicit non-claims.
  • Model foundry and learning forge. A bounded contract for routing work across hosted frontier APIs and local open-weight models, seven executable lab contracts with failure cases and metrics, and a self-improving daemon loop that only promotes verified changes.
  • Context tooling for large codebases. Budgeted, validated context packs and envelopes for handing a big workspace to a model without losing provenance.
  • Native workstation control. node demo/native-control.mjs drives the browser via the Chrome DevTools Protocol and native apps via Windows UI Automation, delivering synthetic events so the operator's cursor and keyboard stay free; the MCP tool telos.native.control is the read-only capability catalog, and browser-evidence packets make automated browsing reviewable.

Try it

Zero runtime dependencies. Node 20 or newer; CI runs on Node 24.

git clone https://github.com/HarperZ9/telos.git
cd telos
node demo/run.mjs

demo/run.mjs renders a 4-D cube, perceives it through independent channels, checks the recovered vertex and edge counts against the true criterion, and prints a certificate that re-checks from its own evidence. Then it feeds the loop a render too small to read and shows it returning UNVERIFIABLE instead of a confident pass. A verifier that cannot fail is not a verifier.

From there, the two orientation commands:

node demo/catalog.mjs --summary          # operator map: 69 tools across 5 flagships
node demo/server-manifest.mjs --summary  # 5-server MCP launch map with host config

Expected catalog summary:

Project Telos MCP Catalog
tools    69 total, 69 available
transport stdio, streamable-http
gather    5 tools ...
index     5 tools ...
forum     5 tools ...
crucible  13 tools ...
telos     41 tools ...

To run the MCP server for a host: npm start (stdio). Health and state:

node demo/status.mjs --summary
node demo/doctor.mjs --summary
node demo/room.mjs --json

Every command emits a project-telos.flagship-action/v1 envelope with a MATCH, DRIFT, or UNVERIFIABLE status. The package also ships telos and telos-mcp bin entries that route to the same demo surface.

Worked example: a proof packet that can fail

Assemble the demo agent-action proof packet, then replay its verification from the packet alone:

node demo/proof.mjs agent-action --demo --json > packet.json
node demo/proof.mjs verify packet.json

Expected output:

verdict       MATCH
witness       witnessed / MATCH

The packet joins source refs, context refs, route, admission decision, side effects, and output digests. The verifier recomputes digests from the embedded materials, so editing any load-bearing field flips the verdict to DRIFT, and a missing recomputable basis is reported as UNVERIFIABLE with the gap named by path. The sibling lanes work the same way: research recomputes source and negative-control digests and refuses reproduction-gated promotion in a single packet, visual recomputes color and luminance from embedded sRGB samples, and build recomputes a conserved-quantity invariant against a negative fixture that must break it. The delivery ledger is docs/PROOF-LANES.md.

Command surface

node demo/catalog.mjs is the authoritative map. Highlights by area:

Area Commands
Orientation run.mjs, catalog.mjs, server-manifest.mjs, status.mjs, doctor.mjs, room.mjs
Doctors ci-doctor.mjs, ci-triage.mjs, presentation-doctor.mjs, accessibility-doctor.mjs, performance-doctor.mjs, compatibility-doctor.mjs, operator-doctor.mjs, mcp-freshness.mjs
Proof proof.mjs (agent-action, research, visual, build, verify, export), showcase.mjs
Context context-envelope.mjs, context-pack.mjs, action-receipt.mjs, loop-ledger.mjs
Creative creative-engine.mjs, creative-kernels.mjs, measurement-layers.mjs, rendering-capabilities.mjs, display-calibration.mjs
Research causal-workbench-proof-packet.mjs, embodied-sim2real-proof-packet.mjs, quantum-error-correction-proof-packet.mjs, thermodynamic-ai-chip-receipt.mjs
Foundry model-foundry.mjs, learning-forge.mjs, learning-forge-labs.mjs
Workstation native-control.mjs, browser-evidence.mjs, workstation-substrate.mjs, revival-registry.mjs, second-level-flagship-queue.mjs

Most accept --summary for a compact terminal (TUI) view and --json for IDE, app, and automation hosts.

The doctor lanes in full: node demo/ci-doctor.mjs, node demo/presentation-doctor.mjs, node demo/accessibility-doctor.mjs, node demo/performance-doctor.mjs, node demo/compatibility-doctor.mjs, and node demo/operator-doctor.mjs, plus node demo/ci-triage.mjs and node demo/mcp-freshness.mjs. Live CI intake works read-only: node demo/ci-triage.mjs --gh-run owner/repo#run_id --summary.

Documentation

Peer repos: gather (research intake), index (workspace maps and context), forum (agent routing with a causal ledger), crucible (claim verification), emet (independent coherence witness). Telos launches and reconciles all five from one manifest; each also stands alone.

Status and maturity

This is a 0.2.0 source-registry package. The command surface above is tested and CI-covered (the repo carries over 60 test files run individually in CI), but npm publishing is operator-gated and interfaces may still move between minor versions. Research packets are deterministic preflights with explicit non-claims: the causal packet does not claim causal discovery, the embodied packet does not claim real-robot safety, the quantum packet does not claim hardware QEC. Treat the receipts and tests in this repo as the evidence, not prose counts.

The active consolidation roadmap is docs/PROJECT-TELOS-LARGE-SCALE-ROADMAP-2026-07-02.md, and the documentation control plane is docs/DOCUMENTATION-CONSOLIDATION-REGISTRY-2026-07-02.md with the machine-readable registry under docs/registry/.

The receipt underneath

One idea runs under everything here: an action or claim only counts when it carries evidence a person or another system can re-check later, and when the check cannot pass, the answer is an honest UNVERIFIABLE rather than a confident guess. That is why every command writes a receipt and every proof verifier is built to be able to fail.

License

FSL-1.1-ALv2 (fair source). The code is open to read and run, free for nearly any use except building a competing product, and each release converts to Apache 2.0 after two years. Copyright is held by the author. See LICENSE.

For developers

Zero dependencies, so there is nothing to install. Run the MCP contract tests and smoke checks before opening a PR:

npm run test:mcp
node demo/catalog.mjs --summary
node demo/server-manifest.mjs --summary
node demo/room.mjs --json

CI (.github/workflows/ci.yml) runs each contract test file individually on Node 24; run any of them directly with node demo/<name>.test.mjs. Keep the README, package metadata, and examples aligned with current behavior; node demo/operator-doctor.mjs --summary checks that parity.

from github.com/HarperZ9/telos

Установка HarperZ9/telos

У этого сервера нет опубликованного пакета — он собирается из исходников. Открой репозиторий и следуй инструкции в README.

▸ github.com/HarperZ9/telos

FAQ

HarperZ9/telos MCP бесплатный?

Да, HarperZ9/telos MCP бесплатный — установка в пару кликов через Unyly без оплаты.

Нужен ли API-ключ для HarperZ9/telos?

Нет, HarperZ9/telos работает без API-ключей и переменных окружения.

HarperZ9/telos — hosted или self-hosted?

Self-hosted: сервер запускается локально на твоей машине командой из раздела установки.

Как установить HarperZ9/telos в Claude Desktop, Claude Code или Cursor?

Открой HarperZ9/telos на unyly.org, выбери вкладку своего клиента (Claude Desktop, Claude Code, Cursor) и нажми Install — конфиг сгенерируется автоматически, без правки JSON.

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