MASTER PLAN


MASTER PLAN


MASTER PLAN

MISSION

Build technologies that make life self-sustaining on earth

and beyond

MISSION

Build technologies that make life self-sustaining on earth

and beyond

PLAN

To be able to accomplish this goal, here is the path we will take:

  1. Build the most capable Humanoid Robots.


  2. Scale Humanoid Robots ($1B+ ARR).


  3. Achieve “fleet coherence”1 .


  4. Use profits to build a base on Antarctica.


  5. Build other technologies needed to build and operate bases on Antarctica, Moon, Mars and beyond.


  6. Build bases on the moon and mars.

  1. Build the most capable Humanoid Robots.


  2. Scale Humanoid Robots ($1B+ ARR).


  3. Achieve “fleet coherence”1 .


  4. Use profits to build a base on Antarctica.


  5. Build other technologies needed to build and operate bases on Antarctica, Moon, Mars and beyond.


  6. Build bases on the moon and mars.

  1. Build the most capable Humanoid Robots.


  2. Scale Humanoid Robots ($1B+ ARR).


  3. Achieve “fleet coherence”1 .


  4. Use profits to build a base on Antarctica.


  5. Build other technologies needed to build and operate bases on Antarctica, Moon, Mars and beyond.


  6. Build bases on the moon and mars.

WHY HUMANOIDS FIRST

With humanoids, we address some of the most critical challenges standing in the way of expanding the scope and scale of human consciousness—defense, manufacturing, logistics, and labor. If we don’t automate these functions, expansion—whether to Mars, the Moon, or even remote corners of earth—will continue to come at the cost of human lives and the declining birthrates can lead to a catastrophic end of human civilization given fewer and fewer people will be able to do these jobs.

WHY HUMANOIDS AT ALL

The world is built for humans. So instead of expecting reconfiguration of our surroundings to accommodate machines, machines need to evolve to navigate human spaces.

HUMANOIDS NEED TO DO ALL LABOR

We are dedicated to developing a humanoid capable of operating in manufacturing, logistics, domestic settings, including defense. Defense is crucial for building and safeguarding the infrastructure necessary for making life self-sustaining. Unlike most humanoid companies in the U.S. that have committed to non-weaponization, our robots are designed to function in these environments. We believe it’s essential they master these tasks to support human expansion.

In an era where adversaries are actively developing defense-oriented robots, the United States & its allies must keep pace to ensure that our technological capabilities continue to expand. The U.S. & its allies exemplify the pinnacle of human achievement, and the world benefits from them remaining a superpower. Therefore, we are committed to collaborating with the Department of Defense to ensure our allies always maintain the technological superiority they require.

OTHER TECHNOLOGIES

We don't want to get ahead of ourselves, but there are quite a few more technologies that need to exist for humanity to expand — this includes autonomous ATV for land transport, autonomous Quinjet for air transport, perpetual energy and better building materials that can withstand wear and tear of extreme environments.



OTHER TECHNOLOGIES

We don't want to get ahead of ourselves, but there are quite a few more technologies that need to exist for humanity to expand — this includes autonomous ATV for land transport, autonomous Quinjet for air transport, perpetual energy and better building materials that can withstand wear and tear of extreme environments.

OTHER TECHNOLOGIES

We don't want to get ahead of ourselves, but there are quite a few more technologies that need to exist for humanity to expand — this includes autonomous ATV for land transport, autonomous Quinjet for air transport, perpetual energy and better building materials that can withstand wear and tear of extreme environments.

1 What is fleet coherence?
Fleet coherence in the context of humanoid robotics, similar to GPU cluster coherence, refers to a networked system where each robot in a fleet is aware of the tasks and status of other robots in real-time. This system enables the robots to share information and coordinate their actions dynamically to optimize resource allocation and task completion across a project. In environments like construction sites, this coherence allows some robots to focus on moving materials such as bricks, while others work on assembling these materials into structures. Crucially, the entire fleet maintains an updated understanding of what portions of the structure are completed and which areas are becoming bottlenecks that might require reallocating robots to balance the workflow.

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© Foundation Future Industries, Inc. 2025

© Foundation Future Industries, Inc. 2025