Physics Simulation

Simulating Physics One Electron at a Time

Automatski delivers exponential computational advantage in first-principles physics simulations using both classical and quantum methodologies—powering breakthroughs across fundamental and applied sciences.
Physics Simulations
Overview:

From subatomic interactions to condensed matter systems, the modeling of physical phenomena has long been constrained by computational bottlenecks and numerical instability. Automatski’s unified physics simulation stack overcomes these limitations by solving high-fidelity quantum and classical models at industrial scale.

Fields and domains we address:

  • Quantum Chromodynamics (QCD)
  • Quantum Field Theory (QFT)
  • Quantum Gravity
  • Cold Atom Physics
  • Superconductivity
  • Particle Physics
  • Dark Matter & Dark Energy
  • Anti-Matter Interactions
  • Nuclear Physics
  • Condensed Matter Physics
  • Materials & Electronic Structure Simulation

These problems involve extremely high-dimensional Hilbert spaces, entangled states, non-linear field interactions, and long-range correlations—making them intractable for traditional solvers.

Automatski’s Contribution:

We combine large-scale classical simulation tools with quantum computational capabilities to deliver production-ready modeling platforms. This enables real-world deployment of solutions across academia, defense, energy, and fundamental research.

Key Technologies:

  • 300+ Qubit Full State Vector Quantum Simulator
  • 1 Million+ Qubit Eigen Solver for Quantum Hamiltonians
  • Deterministic & Probabilistic Simulators
  • Non-perturbative solvers for interacting field theories


Applications include:

  • Lattice QCD simulations
  • Precision modeling of superconductive states
  • Simulation of cosmological field dynamics
  • Dark matter interaction modeling
  • Quantum phase transition and critical point identification
  • Cold atom behavior in optical lattices
  • High-accuracy nuclear interaction solvers

Automatski transforms theoretical physics into computational reality—delivering simulation capabilities that were previously considered impossible.

Author : Aditya Yadav

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