Reshaping Space
Propulsion for a
New Era

The Industry Challenge

A Bottleneck to Innovation

The current space sector operates with a fragmented and inflexible supply chain. Discover the key obstacles.

90%

Reduction in Development Cost

80%

Reduction in Development Time

⚙️

The Scaling Problem

Off-the-shelf components with fixed performance metrics limit mission design.

Challenge of Customisation

Custom designs are prohibitively expensive and lack clear scaling laws. Simply enlarging a component isn't feasible due to complex physics.

🧪

The TRL Issue

Every new component must undergo a slow, expensive validation process.

High Cost of Trust

Progressing from concept (TRL 1) to flight-ready (TRL 9) is resource-intensive. Each component requires ground-up validation, incurring massive costs and delays.

Development Cycle Comparison

Projected impact of Sayaara's model on cost and time compared to traditional approaches

The Sayaara Approach

The Digital Forge

We are building the Operating System for Interstellar Infrastructure, moving failure discovery from the physical world (expensive atoms) to the digital world (cheap bits).

The SIF Container

The 'Black Box' IP Solution

Hardware companies are paranoid about IP. We solved this with the Sayaara Interchange Format (SIF).

System-of-Systems Solver

Real-Time Multiphysics

Legacy CAE tools simulate parts in isolation. We simulate the interaction between parts before you build.

Virtual Heritage

Powered by NVIDIA Omniverse

Building a 'digital flight history' for new designs to cross the TRL 3–6 Valley of Death.

The SIF Container

The 'Black Box' IP Solution

The industry lacks a standard for sharing physics data without exposing trade secrets. The SIF Container solves this via a "Black Box" approach.

  • The Mechanism: Suppliers upload the physics (thermal/thrust performance) but hide the geometry (proprietary internal engineering).
  • The Incentive: Suppliers get listed in our library to gain customers without risking their secrets.
  • The Outcome: We become the standard "App Store" for space parts.
Business Model

A Hybrid Open-Source Strategy

Our unique strength lies in blending collaborative open-source research with commercial revenue generation.

Scientific & Research Arm

By publishing a majority of our findings and data, we operate as a credible research group. This makes us eligible for scientific grants, builds academic partnerships, and encourages community-driven R&D.

Commercial & Enterprise Arm

Our proprietary simulation software, custom design services, and advanced manufacturing capabilities are commercial offerings. This generates revenue from clients and qualifies us for business grants and venture capital.

The Game Plan

Phased Approach to Market Entry

Our roadmap uses early software success to validate our data-driven methods and secure funding for manufacturing.

1

Phase 1: Software MVP & Foundational Research

Develop and validate the first version of the simulation software. Establish initial database with existing public and generated data. Begin foundational R&D on Lithium MPD thruster physics.

2

Phase 2: Prototype Development & Alpha Testing

Click to expand →

3

Phase 3: Manufacturing Expansion & Commercial Launch

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Join Us in Reshaping Space Propulsion

We're looking for strategic partners, investors, and collaborators who share our vision of revolutionizing space hardware development through data-driven innovation.