Analog Computer (ODE/PDE-Driven)
Continuous-Time Computation for Real-World Dynamics
- Built To Order
- Experimental
Automatski’s ODE/PDE-driven analog computer is purpose-built to model continuous-time systems natively—solving ordinary and partial differential equations in hardware with unmatched speed and compactness. Supporting 100K+ variables, this experimental platform enables direct, real-time computation of complex physical systems without digital discretization.
Solving Equations, Not Approximations
This is analog computing in its purest form—no simulation, no abstraction. The system solves differential equations directly in hardware, making it ideal for domains where the behavior of physical systems is governed by continuous change.
From turbulence modeling to real-time control systems, this is the platform for engineers, physicists, and domain experts who need fast, natural computation—rooted in the math of reality.
What This System Delivers:
- Native hardware support for ODEs and PDEs
- 100K+ continuous variables modeled in real time
- Compact, low-power architecture
- No need for time-stepping or discretization
- Ideal for control systems, mechanical simulations, and climate modeling
- Experimental platform, customized to your specific system needs
- Instantaneous computation—output emerges as the system evolves
While digital systems compute in steps, this analog platform flows like nature. It’s experimental, yes—but deeply powerful for those solving continuous problems.
Author : Aditya Yadav