Planetary Digital Twin Platform

From terrain to mission.

EXOTESLA TwinOS is an engineering-grade platform for lunar and Martian infrastructure planning — combining terrain intelligence, site optimization, simulation, and autonomous mission design in one workflow.

Request Early Access Explore Platform

Lunar Terrains: 183
Martian Terrains: 472
Parsed Locations: 655

Live Preview

TwinOS Terrain Intelligence

Moon / Mars

NAC / HiRISE terrain overlay
Hex suitability + infrastructure scoring

Slope

0.24° avg

Zones

83 suitable

Status

Mission Ready

Terrain Layer

Slope, illumination, elevation, hazards, parcels, and future resource overlays.

Mission Layer

Habitat siting, infrastructure layout, autonomous traverses, and report generation.

Platform

More than maps — TwinOS is a full digital engineering platform

EXOTESLA.IO is not just a terrain viewer. TwinOS connects site intelligence, habitat generation, layout editing, simulation, telemetry, and asset production into one product architecture.

Planetary Digital Twin Pipeline

TwinOS processes planetary data into operational intelligence through a structured pipeline:

Terrain Models

DEM, ortho, illumination

Hex Intelligence

Slope, hazards, energy

Site Parcels

Zoning & planning units

Mission Layer

Infrastructure & ISRU

System Layer

Unified web platform

A single client-facing interface for terrain, habitat, simulation, and operational workflows — delivered through one coherent product experience.

Twin Layer

Shared TwinOS data backbone

All modules operate on a common twin registry, asset layer, and engineering state model instead of isolated tools or disconnected files.

Engine Layer

Six coordinated engines

Terrain, layout, simulation, operations, economy, and asset generation work together to move from concept to mission-ready infrastructure logic.

Architecture Overview

TwinOS product architecture

This is the layer that makes EXOTESLA.IO product-oriented: not only terrain visualization, but a full client-facing workflow around digital twins, infrastructure composition, simulation, and outputs.

ExoTesla Web Platform

Habitat Generator

Parametric JSON builder for habitat and infrastructure concepts.

Moon GIS / Site Selection

Terrain, illumination, hazard, and suitability workflows.

Habitat Editor

JSCAD / THREE layout editing, anchors, cables, and GenAI ideation.

Simulation Cockpit

Real-time twin state, faults, alerts, and engineering KPIs.

Central Twin Registry

PostgreSQL / S3 / Assets

Shared storage for twins, manifests, assets, module state, environment profiles, and engineering context.

FastAPI Backend

Twin CRUD / Graph / Simulation

APIs for twin management, graph building, ECLSS and power logic, fault injection, and orchestration of downstream services.

Asset Storage

glTF, JSON, imagery, reports

Heavy artifacts and generated outputs live in a structured asset layer, ready for visualization, reporting, and future SaaS delivery.

ComfyUI / Flux

Interior generation

Generative visual workflows feed TwinOS with interiors, renders, previews, and asset ideation loops.

External Data Sources

MoonGIS / MarsGIS DEMs

Spectral mineral maps

Solar and radiation data

Habitat manifests JSON

Telemetry streams

TwinOS Engine Stack

Terrain Engine

DEM, slope, illumination, radiation, shadow maps

Layout Engine

Module layout, collisions, anchor loads, interface map

Simulation Engine

ECLSS, power balance, thermal, ISRU yields

Ops Engine

Telemetry monitoring, anomaly detection, scheduling, alerts

Economy Engine

Launch mass, logistics cadence, lifecycle cost, break-even analysis

Asset Engine

GLTF/GLB generation, procedural materials, renders, VR/AR assets

Digital Twins

Planetary-scale digital twins for Moon and Mars

TwinOS is a planetary digital twin platform for lunar and Martian infrastructure planning, terrain intelligence, and mission simulation.

Moon Twin

Lunar Terrain System

• 183 NAC high-resolution terrains
• Mare & Highlands mission environments
• South Pole ISRU model (PSR + water ice)
• Hex-based terrain intelligence
• Habitat suitability & infrastructure planning

Mars Twin

Martian Terrain System

• 472 HiRISE terrain models
• ~100,000 generated site parcels
• Terrain-driven settlement planning
• Logistics and infrastructure zoning
• Future ISRU and industrial workflows

Hex Intelligence Layer

From suitability regions to operational parcels

Lunar Parcels

44,413parcels

Mean parcel: 187,965 m² • Largest: 303 km²

Continuous mare & highlands → macro-scale buildable zones

Martian Parcels

100,651parcels

Mean parcel: 4,305 m² • Largest: 1.83 km²

Fragmented HiRISE scenes → micro-scale operational units

Scale-consistent suitability regions ready for zoning, simulation, and ISRU planning.

Core Modules

One platform. Five high-value workflows.

TwinOS is the product. These are the capabilities clients experience inside it.

Digital Twin Engine

End-to-end pipeline transforming planetary data into structured twin environments for Moon and Mars.

Terrain Intelligence

DEM, orthophoto, slope, and terrain-derived geospatial layers.

Site Optimization

Hex-based suitability, parcel logic, and engineering scoring.

Energy Simulation

Illumination-aware solar modeling and power context.

ISRU Planning

Resource proximity, traversal cost, and operational terrain support.

Autonomous Simulation

Agent-ready environments for robotics and mission design.

Use Cases

Built for teams planning real off-world operations

Space Agencies

Evaluate sites, compare terrain conditions, and structure pre-mission infrastructure studies.

Robotics Teams

Use terrain-aware data products for traversability, energy cost, and autonomous mission design.

ISRU & Infrastructure Startups

Assess buildability, proximity, and terrain constraints for industrial and habitat concepts.

Universities & R&D Labs

Access planetary terrain intelligence for teaching, prototyping, and mission architecture research.

Workflow

Simple product flow. High-value output.

The first release should feel focused, fast, and client-ready. No overexplanation. No research clutter.

Select Planet

Begin with Moon or Mars and load a terrain dataset optimized for analysis.

Analyze Terrain

Inspect elevation, slope, ortho context, and suitable zones with a clear engineering UI.

Evaluate Site

Run suitability logic, inspect candidate parcels, and compare development constraints.

Export Report

Generate a clean PDF-ready summary for internal review, clients, or mission concept work.

TwinOS in Action

South Pole Digital Twin — live system view

A real-time planetary workspace combining terrain intelligence, hex-based analysis, and mission-ready overlays. This is not a concept — it is the operational interface for lunar infrastructure planning.

ExoTesla TwinOS Lunar South Pole Digital Twin main view

Terrain Intelligence

High-resolution DEM, slope gradients, and illumination layers fused into a unified surface model.

Hex-Based Analysis

Discrete spatial units enabling scoring, clustering, and engineering decision workflows.

Mission Context

Landing zones, routes, and infrastructure planning derived directly from planetary data.

System Flow

How the layers work together

TwinOS connects raw planetary data to engineering outputs through a structured pipeline — transforming datasets into mission-ready intelligence.

External Data

DEMs, mineral maps, solar data, telemetry, and mission inputs.

→

TwinOS Database

Central twin registry storing terrain, assets, environments, and system state.

→

TwinOS Engines

Terrain, layout, simulation, ops, economy, and asset generation engines.

→

Visualization & Clients

Editor, dashboards, VR/AR, and engineering reports for decision-making.

Launch Scope

Focused MVP for the first EXOTESLA.IO release

Launch with a sharp product story: terrain explorer, hex intelligence, slope stats, habitat suitability, and report export. Everything else can be framed as the roadmap.

Terrain Explorer for Moon / Mars
Hex grid + suitability interface
Slope statistics and parcel context
PDF report export for clients
Request access / demo funnel

Integrates with Replicant.Bot • ISRU.AI • AstroFab.IO

Powering the next space infrastructure economy

Request Access

Start building beyond Earth

Use this form for early access, pilot partnerships, or client inquiries. Replace the form handler with Formspree, Basin, or your own backend endpoint.