AI + Motor Design

Avartan

AI-Powered Electric Motor Design Platform

Design, simulate, and optimize Switched Reluctance Motors (SRM) with AI. From inductance heatmaps to torque curves — visualize every aspect of your motor design with Manim-powered animations. FEM analysis, thermal modeling, and machine learning accelerate motor design from weeks to hours.

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From specs to optimized design in 4 steps

No manual FEM setup. No weeks of iteration. Just results.

⚙️

Step 1

Define Motor Specs

Set poles, phases, dimensions, materials, and operating conditions for your SRM design.

🔬

Step 2

AI Runs FEM Analysis

Automated finite element simulation computes inductance profiles, flux density, and core losses.

🚀

Step 3

Optimize Parameters

ML-driven parameter sweep finds optimal geometry, turn-on/turn-off angles, and control strategy.

🎬

Step 4

Visualize & Export

Generate Manim animations, PDF reports with heatmaps, and export data for manufacturing.

Why choose Avartan?

Everything motor designers need to go from concept to optimized design, without expensive commercial tools.

⚙️

SRM Optimization

Purpose-built for Switched Reluctance Motors. AI optimizes stator/rotor geometry, pole arcs, air gap, and winding configuration for maximum torque density.

🌡️

Thermal Analysis

Predict hot spots before they happen. Coupled electromagnetic-thermal simulation ensures your design stays within temperature limits under all operating conditions.

🔥

Inductance Heatmaps

Visualize inductance variation across rotor positions and current levels. Interactive heatmaps reveal saturation zones and optimal operating regions.

🔄

Torque Mapping

Complete torque-speed characteristic curves. See instantaneous torque ripple, average torque, and power factor across the entire operating envelope.

⚡

Circuit Forge MRDS

Motor Reference Design System with component matching, SPICE netlists, risk analysis, and compatibility validation. From schematic to validated drive circuit.

🎬

Manim Visualization

14 scene types powered by Manim: inductance heatmaps, torque curves, flux density, motor cross-sections, efficiency maps, and animated rotor motion.

How it works

Get your first motor simulation running in under 15 minutes.

Input Motor Parameters

Specify poles, phases, outer diameter, stack length, air gap, and winding turns. Or choose from reference designs.

Run AI-Driven Analysis

Avartan runs FEM simulations, computes inductance maps, torque curves, and thermal profiles automatically.

Review & Export

Explore interactive visualizations, compare design variants, and export reports with animations for stakeholders.

14 Scene Types

Manim Visualization Showcase

Every motor characteristic rendered as publication-quality animation.

Inductance Heatmap

L(theta, i) surface plot showing inductance variation across rotor position and current level with saturation regions.

Torque Heatmap

Torque-speed envelope with instantaneous ripple, average torque, and power factor visualization.

Core Loss Map

Hysteresis and eddy current losses mapped across operating points. Identify efficiency sweet spots.

Motor Cross Section

Animated rotor/stator cross-section with flux lines, winding layout, and phase excitation sequence.

Flux Density

B-field distribution animation showing magnetic flux paths through stator yoke, teeth, and air gap.

Efficiency Map

Contour plot of motor efficiency across the torque-speed plane. Find the peak efficiency island for your application.

Platform Architecture

End-to-end pipeline from motor specifications to exportable reports and animations.

graph TB A[Motor Specifications] --> B[FEM Engine] A --> C[AI Optimizer] B --> D[Inductance Map] B --> E[Torque Curves] B --> F[Core Loss Analysis] C --> G[Parameter Sweep] C --> H[Design Suggestions] D --> I[Manim Visualizer] E --> I F --> I G --> I H --> J[Report Generator] I --> J J --> K[PDF + Animation Export] style A fill:#059669,color:#fff style K fill:#059669,color:#fff style I fill:#065f46,color:#fff

Core Data Model

Structured for fast iteration and full traceability.

erDiagram MOTOR_DESIGN ||--o{ SIMULATION_RUN : has MOTOR_DESIGN { string id PK string name int poles int phases float outer_diameter float stack_length } SIMULATION_RUN ||--o{ RESULT_SET : produces SIMULATION_RUN { string id PK string type float rpm_range timestamp created_at } RESULT_SET { string id PK string metric_type jsonb data_points float peak_value }

How Avartan Compares

Purpose-built for SRM design with AI, at a fraction of the cost.

Feature	Avartan	ANSYS Motor-CAD	JMAG	FEMM
Price	Free / Affordable	$25,000+/yr	$15,000+/yr	Free (OSS)
AI Optimization	Built-in ML	Limited	None	None
SRM Specialization	Purpose-built	General purpose	General purpose	General purpose
Visualization	Manim animations	Static plots	Static plots	Basic 2D
Learning Curve	Minutes	Weeks	Weeks	Days
Thermal Coupling	Integrated	Integrated	Add-on	None
Report Generation	Auto PDF + Video	Manual export	Manual export	None

Coming Soon

Expanding the design frontier

Cloud Simulation

Run FEM simulations on cloud GPU clusters. Parallel parameter sweeps that would take days on a laptop, done in minutes.

Multi-Motor Comparison

Compare SRM, BLDC, and induction motor designs side-by-side. Automated trade-off analysis across efficiency, cost, and weight.

Export to CAD

Direct export to SolidWorks, Fusion 360, and STEP format. Manufacturing-ready geometry from simulation parameters.

Roadmap

What's Coming Next

Building the most comprehensive open motor design platform.

✅

Current

Visualization + Analysis

14 Manim scene types, FEM-based inductance/torque computation, Circuit Forge MRDS, PDF report generation with embedded animations.

🔨

Thermal Optimization & UI

Coupled thermal simulation, web-based design interface, interactive parameter tuning, and real-time result preview.

🚀

Then

Multi-Physics Coupling

Acoustic noise prediction, vibration analysis, structural stress simulation, and electromagnetic-mechanical co-design.

🌌

Future

Cloud Simulation Platform

GPU-accelerated cloud FEM, collaborative design workspace, version control for motor designs, and CAD export.

Frequently Asked Questions

Everything you need to know about Avartan.

What motor types does Avartan support?

Avartan is purpose-built for Switched Reluctance Motors (SRM) with 6/4, 8/6, and 12/8 pole configurations. Support for BLDC, PMSM, and induction motors is on the roadmap.

How accurate are the simulations?

Avartan uses FEMM-based finite element analysis for electromagnetic computation. Results are validated against published SRM research papers and show less than 5% deviation for standard geometries. AI models are trained on verified FEM data.

What export formats are available?

PDF reports with embedded charts and heatmaps, MP4/GIF animations from Manim, CSV data exports for inductance and torque tables, SPICE netlists for drive circuits, and JSON API for programmatic access. CAD export (STEP/STL) is coming soon.

How does Avartan compare to ANSYS Motor-CAD?

ANSYS Motor-CAD is a comprehensive commercial tool at $25K+/year. Avartan focuses specifically on SRM design with AI-driven optimization and Manim-powered animations that Motor-CAD does not offer. For SRM-specific work, Avartan gets you to a validated design faster and at a fraction of the cost.

What is the pricing model?

Early access is free for academic researchers and individual engineers. Commercial plans will be tiered based on simulation hours and team size, starting at an order of magnitude less than incumbent tools.

Is my design data kept private?

Your motor designs and simulation data are encrypted at rest and in transit. We never use customer designs to train AI models without explicit opt-in. Self-hosted deployment is available for enterprise customers with strict IP requirements.

Does Avartan have an API?

Yes. A JSON-RPC API provides programmatic access to all simulation capabilities: submit motor specs, trigger FEM runs, retrieve results, and generate visualizations. Python and Rust SDKs are available.

Can teams collaborate on designs?

Team collaboration with shared projects, design versioning, and review workflows is on the roadmap. Currently, designs can be shared via exported PDF reports and JSON project files.

Register for Early Access

Be among the first to try Avartan. Free for researchers and engineers.

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