Resilient engineering · local-first · open

Tools for engineers who want more room to think.

Xyntopia builds Taskyon, a design automation engine for complex physical projects. It combines structured task trees, physical models and optimization so engineers can explore ideas, verify decisions and stay focused on the work instead of fighting brittle tooling.

Software that stays useful after the demo.

We value software resilience because real projects last longer than product cycles, investor moods and cloud pricing experiments. Our aim is simple: help customers do better work without trapping them in fragile infrastructure or artificial dependency.

01 · Resilience

Built to keep working

Local-first workflows, peer-to-peer collaboration and open formats reduce the number of external systems that have to be available before progress can continue.

02 · Independence

Control stays with the customer

Your models, process knowledge and intellectual property should remain yours. Good software earns trust by being useful, not by making exit expensive.

03 · Comfort

Complexity should feel manageable

Modern engineering work is too large to juggle by hand. We want tools that make difficult projects calmer, clearer and easier to reason about.

A design automation engine, not another generic AI wrapper.

Taskyon is our first major product direction. It is being built as a general-purpose AI engineering system that can represent work as structure, connect to existing tools and use models to check ideas instead of merely talking about them.

Stylized system design study showing industrial equipment, system views, block diagrams, circuits and simulation curves
Task trees

Work represented as structure

Taskyon gives agents an inspectable task-tree instead of burying everything inside one long transcript. That makes complex work easier to decompose, track and verify.

Models & optimization

Reason through systems before they exist

By combining physical models, Modelica workflows and DAG-based optimization, the system can compare alternatives, surface trade-offs and build reusable engineering knowledge.

Grounded enough for infrastructure. Ambitious enough for orbit.

Our near-term focus is practical: renewable energy systems, industrial design workflows and demanding engineering projects. Our long-term ambition is larger. If good design automation can help with power systems today, it should eventually help with habitats, spacecraft and the systems around them too.

Why decentralisation matters here

Because Taskyon does not depend on a mandatory backend, it is easier to integrate into existing environments, easier to run close to the work and easier to keep alive in the long term.

A renewable energy landscape transitioning naturally into a spacecraft exploring space

Clear principles, practical consequences.

We want a straightforward relationship with customers. The software should be interoperable, inspectable and durable. The business should succeed by helping engineers solve meaningful problems, not by turning inconvenience into leverage.

Customer-controlled IPYour models, design history and engineering knowledge should remain under your control.
Open where it mattersOpen source, open formats and inspectable workflows are practical tools for resilience.
Backend optionalP2P collaboration and local-first architecture keep infrastructure lighter and integration simpler.
Interoperable by defaultTaskyon should connect to existing engineering systems instead of demanding a clean-room rewrite.
Serious tools, calm experienceWe want advanced capabilities without the noise, opacity and friction that often come with them.
Win / winWe do better when our customers do better. Lock-in is not the strategy.

Building the engineering tree.

We are interested in working with people and teams who care about resilient software, demanding physical systems and tools that respect the user as much as the work.

hello@xyntopia.com