Local-first, physics-accurate simulators to plan terawatt energy systems, power AI clusters, build lunar industry, and map the path to energy too cheap to meter.
Energy abundance is the foundation for AI at scale, lunar bases, mass drivers for space industry, and high-value exports like lunar ³He for fusion. These tools turn the vision into actionable numbers and simulations — all running locally, no data leaves your device.
The Power Abundance Suite is a connected set of free, physics- and economics-based simulators built around one thesis: abundant, cheap energy is the lever that unlocks large-scale AI, industry, and a multi-planetary future. Instead of a single calculator, it's a toolkit where each model tackles one link in that chain — from terrestrial solar overbuild to lunar resource extraction to the economics of getting off-world.
Every tool runs locally in your browser, states its assumptions openly, and is available in 25 languages. Nothing you enter is uploaded. The goal is to turn a sweeping vision into concrete, adjustable numbers you can inspect, share, and argue with.
The suite is organised into families that build on each other. Energy tools model solar overbuild, storage, and the fossil-to-solar crossover. Lunar tools cover ISRU — oxygen, propellant, helium-3, and regolith sintering — plus the integrated power a base needs to run them. Launch and economics tools compare rockets against electromagnetic mass drivers and project the returns of a space venture.
Orbital and data-center tools size space-based solar and compute; mission and crew tools handle Mars feasibility, radiation, and life support; and the thinking tools help you reduce a problem to first principles or turn an ambition into a plan. Because the models share the same energy-first logic, results from one naturally inform the next — cheaper energy in the scaling tool, for instance, changes the launch economics downstream.
A typical path: use the Solar Overbuild Calculator to size a terawatt-scale power base, feed that abundance into the Energy → Space Scaling tool to see launch cost fall, then plan lunar propellant production in the ISRU Optimizer so the Starship Fleet Planner needs a far smaller fleet — each tool sharpening the next until an intimidating vision becomes a sequence of tractable numbers.
That cheap, abundant energy is the root enabler of AI at scale, lunar industry, and multi-planetary life — so modelling energy first clarifies everything downstream.
Yes — they share an energy-first logic, so an output from one (say, launch cost or available power) is a sensible input to another.
No — they are transparent first-order simulators for learning, planning, and discussion, with adjustable public assumptions.
No — every tool runs entirely in your browser; nothing you enter is uploaded.
Yes — all are free and available in 25 languages. A paid bundle supports their upkeep.
Begin with the Solar Overbuild or Energy → Space Scaling tool, then follow the workflow into the lunar, launch, and economics tools.