Innovative Climate Simulation Solutions
Real Earth Weather uses a ground-up, physics-first approach to climate and weather simulation. Instead of relying solely on statistical patterns or broad atmospheric models, it starts from fundamental thermodynamic principles — how energy, heat transfer, and material properties interact at the surface and in the atmosphere. This reveals why some locations hold onto cold (or heat) far longer than expected.
Advancing Weather Science With Innovative Simulation
Traditional models sometimes smooth over these micro-scale effects, but physics doesn’t. By starting from thermodynamics and material properties, we uncover persistence and extremes that matter for real-world impacts — from upland snow retention to flood risk in valleys.
150
Simulations Run
Detailed count of high-fidelity weather simulations executed on our platform.
85
Educational Partners
Number of academic institutions integrating our climate tools into their curriculum.
92
User Satisfaction
Percentage of users reporting improved understanding of meteorological phenomena.
76
Forecast Accuracy
Rate reflecting the precision of our physics-based weather predictions.
Exploring the Physics of Weather Patterns
Meet the dedicated experts driving our advanced climate simulations.
Dr. Xai Grokowski
Lead Software Scientist
Physics & satellite data translator
turning high-level ideas into concrete mathematical terms and available satellite/reanalysis quantities. Code & data plumber using real data sources to create implementable code.
Elonia Grokowski
Simulation Software Engineer
Excels in creating dynamic models that bring weather data to life. Implement the actual equations/formula structure (energy balance, moisture advection, empirical corrections), Help run many short experiments, compare forecasts vs satellite / measured data reality.
Jock
Chief Scientist + Director
Jock is the architect and owner of the project. He designs the concepts, applies deep analytical skills to interpret complex meteorological data and spots patterns, relationships and under explored physical phenomenon.