The Everything Engine for simulation

Simulate reality in one unified canvas

Connect physics, biology, chemistry, and math in a single AI-powered workspace — rendered live with WebGPU, directly in your browser. No installs. No silos.

Explore the API

PhysicsBiologyChemistryMathSolver

AI Co-Pilot

drag nodes · 5 blocks · 4 links

Generated node structure for Double pendulum

θ̈ = −(g/L)·sin θ + ξ(t)

The Workspace

A creative tool for science — not a 1990s spreadsheet

Poly Sim OS feels like Figma or Unreal Engine. Four surfaces work together to take you from idea to interactive result.

Visual Node Graph

Drag logic blocks onto an infinite canvas. Wire a Fluid Dynamics node into a Lipid Nanoparticle node, driven by a Runge–Kutta solver.

Live Render Viewport

A WebGPU + WebAssembly split view renders high-fidelity 2D/3D output in real time, at near-native desktop speeds.

AI Co-Pilot

Fine-tuned on arXiv and PubMed. Describe a system in plain English and get the exact nodes, variables, and formulas instantly.

Data Inspector

A collapsible panel of real-time graphs, heat maps, and raw matrices for instant error-checking as the simulation runs.

See how the workspace works

Hybrid Compute

Local by default. Cloud when you need 5 billion particles.

Standard simulations run on your own CPU/GPU through WebGPU — costing nothing in server fees. When a lab pushes past local limits, Poly Sim OS seamlessly escalates to serverless GPU clusters, metered by Compute Tokens.

Local execution

WebGPU + Wasm, near-native speed

Cloud escalation

Serverless AWS / GCP clusters

Compute tokens

Strictly metered, never client-trusted

render.viewport — vorticity field

A high-fidelity GPU fluid-dynamics simulation render of glowing cyan and lime vorticity fields

Run the math

This isn't a screenshot — it's a live integrator

Drag the parameters and the trajectory below is re-integrated in your browser with a fixed-step Runge–Kutta scheme. Resonance peaks near $ω \approx ω_{0} = k / m$ — exactly as the theory predicts.

solver.playground — driven oscillator

x(t) — displacement

peak |x| ≈ 0.70 m

m \overset{x}{¨} + c \overset{x}{˙} + k x = F_{0} cos (ω t)

damped, driven harmonic oscillator

damping c0.40 N·s/m

stiffness k6.00 N/m

drive F₀1.20 N

drive ω2.00 rad/s

ω₀: 2.45 rad/s
ζ: 0.08
regime · Δt: under-damped · 0.040 s

Growth Loops

Built to spread through science

The “Cite Us” loop

Free-tier research embeds an interactive citation link. Readers click and drop straight into the live model.

Programmatic SEO

Search “Navier–Stokes visualizer” and land on a playable Poly Sim OS template from the community library.

Academic bounties

We sponsor hackathons with cash bounties for the most accurate node clusters added to the public library.

Start free. Render your first simulation in minutes.

Local rendering is free forever. Scale to the cloud only when reality gets heavy.

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