Engineering Simulation Platform · Now in Early Access

Engineering Simulation
in Minutes, Not Days

Upload your CAD. Describe your problem. Get stress, displacement, and safety factor results in under a second — no meshing, no solver config, no specialist required.

The old way

Export CAD → Format Convert → Import → Clean Geometry → Mesh → Materials → Setup BCs → Solver Config → Run → Post-process

phinen simplifies this

With phinen

Upload

Describe

Results

Sub-second ML inference Massive cost reduction Physics, simplified

Try with a Sample Part → See How It Works

Live Platform Preview

The World's First AI-Guided
Structural Simulation Wizard

From STL upload to von Mises stress map in under a second. The AI plans the simulation, evaluates your boundary conditions, and interprets the results — before and after every run.

🔒 fea.phinen.com — AI Structural Simulation Platform

GNN PREVIEW ● LIVE

Simulation Wizard

✓ Upload Geometry

bracket.stl · 14,320 faces

✓ Material

Steel 304 · E=200 GPa

● Tag Selections

2 fixed · 1 load (1,000 N)

Chat with AI

Generate Plan

Run Solver

Geometry analysed

Cantilever bracket · Symmetric · Good topology

von Mises Stress · MeshGraphNet GNN inference · Steel 304

GNN Results

187.4

Max von Mises (MPa)

2.31

Max Displacement (mm)

1.6×

Safety Factor

0.31s

Solve Time

AI Verdict

Stress within limits. Safety factor meets 1.5× target. Escalate to FEniCSx for certification.

Actual platform UI · fea.phinen.com ↗ · No signup required for the demo

See It In Action

From CAD File to Engineering Insight in 6 Steps

Upload your geometry, describe your problem in plain language, and get a physics-grounded simulation result — no meshing, no solver setup, no specialist required.

📁

Step 01

Upload STL / CAD

Drop any STL, STEP, or OBJ. The 3D viewer renders your geometry instantly — AI immediately analyses shape, dimensions, and topology.

🧪

Step 02

Pick Material

Select from a curated library (Steel, Aluminium, Titanium, PEEK and more). E, ν, ρ, σy auto-populated. AI confirms the choice fits your geometry.

🎯

Step 03

Tag Selections

Click faces in the 3D viewer to mark fixed supports, load regions, symmetry planes, and refinement zones. AI suggests placements based on geometry analysis.

💬

Step 04

Chat with AI Advisor

Ask "Are my selections correct?" and the AI evaluates each one — flags under-constrained setups, wrong load directions, or unrealistic magnitudes before you run.

⚡

Step 05

Generate Plan & Run

One click generates a full simulation plan from your inputs. Choose GNN for instant results or escalate to PINN/FEniCSx for higher-fidelity validation.

📊

Step 06

Results & Insight

Stress, displacement, safety factor fields rendered on your geometry. AI interprets failure zones, suggests design changes, and compares against material limits.

🔒 fea.phinen.com

phinen · Simulation Platform

Simulation Config

▶ Run Simulation

von Mises Stress · MeshGraphNet inference · 0.3s

✓ Confidence: 94%

👤

What's the maximum stress and where is it located?

Max von Mises stress is 187.4 MPa at the fillet radius — within the 304 steel yield limit of 215 MPa. Safety factor is 1.6×, meeting the 1.5 target. Displacement of 2.31 mm at the load face. Setup looks solid.

187.4 MPa

Max von Mises

1.6 ×

Safety Factor

0.31s

Solve Time

Try It on Your Geometry →

Solver Intelligence

Start Fast. Escalate for Proof.

Four solver tiers — each built for a different stage of the design cycle. No other simulation platform lets you choose exactly how much physics you need.

Fastest

🕸️

GNN Preview

MeshGraphNet

< 0.8s

inference time

Graph neural network runs directly on your 3D mesh. Instant stress and displacement fields for rapid design exploration and early-stage iteration.

Speed●●●●●

Accuracy●●●○○

Use forConcept exploration

🔢

PINN Preview

Physics-Informed NN

~2s

inference time

Conservation laws (mass, momentum, energy) embedded directly into the neural network. Physics-constrained predictions that respect governing equations.

Speed●●●●○

Accuracy●●●●○

Use forDesign validation

⚡

Hybrid Preview

GNN + PINN Corrector

~3s

inference time

GNN produces the fast initial field; a PINN corrector layer refines it against physical constraints. Best accuracy-to-speed trade-off for pre-certification.

Speed●●●●○

Accuracy●●●●○

Use forPre-certification

Gold Standard

🔬

FEniCSx Result

Full Finite Element Solve

~2 min

full FEA solve time

Full PDE solve on the auto-generated mesh. Exact boundary conditions, nonlinear materials, certifiable results. Used for final design sign-off and surrogate retraining.

Speed●●○○○

Accuracy●●●●●

Use forCertification / sign-off

All four solvers are available in a single click from the solver selector. phinen automatically suggests the right tier based on your design stage and required confidence level.

AI Advisor

An AI That Checks Your Work
Before You Run

The only simulation platform with a built-in AI advisor that evaluates your boundary conditions, load placements, and selection logic — and gives you a clear GO / NO-GO before wasting compute.

⚠️

Catches Setup Mistakes Early

Under-constrained (no fixed support), over-constrained (symmetry conflict), or loads pointing in the wrong direction — flagged before the solver runs.

📐

Validates Positions Against Geometry

The AI reads the actual 3D coordinates and radii of your selections and checks they correspond to structurally meaningful regions of the part.

🔢

Suggests Realistic Load Magnitudes

Based on the part dimensions, material, and geometry type, the AI recommends realistic force (N) or pressure (MPa) ranges — so you don't start with a 10× wrong order of magnitude.

✅

Confirms When You're Ready to Run

Once fixed supports, loads, material, and magnitudes all check out, the AI tells you clearly: "Setup looks good — generate the plan." No guessing.

AI Advisor · Pre-Run Check Step 4 of 6

👤

Are my selections good for this bracket analysis?

✓ PARTIAL — 2 of 3 checks pass

✓Fixed support at (0, 60, 105) mm — correct for a cantilevered bracket.

⚠Load direction (0, 0, -1) — pointing in −Z. Confirm this is vertical gravity loading, not axial.

✗No load magnitude set — for a 62 mm steel bracket I suggest 500–2,000 N.

Set the magnitude and confirm the direction — then you're ready to generate the plan.

👤

Yes, gravity. Set 1,000 N.

✓ Setup looks good — fixed support, 1,000 N gravity load, Steel 304. Click Generate Plan to proceed.

Under the Hood

Engineered for Speed, Accuracy & Physical Credibility

phinen integrates a carefully selected stack to deliver speed, accuracy, and physical credibility — across structural, thermal, and fluid simulation domains.

🟢

NVIDIA PhysicsNeMo

Surrogate Training Framework

The backbone of phinen's ML infrastructure. PhysicsNeMo provides pre-trained surrogate models, training pipelines, and physics-constrained learning tools for engineering simulation.

Core ML Platform

🕸️

MeshGraphNet

Graph Neural Network Solver

Represents computational meshes as graphs — nodes capture local physical state, edges encode neighborhood interactions. Delivers rapid surrogate predictions of velocity, temperature, and pressure fields across complex 3D geometries.

Graph Neural NetSub-second Inference

🔢

Physics-Informed Neural Networks

Constraint Layer

Physical laws — conservation of mass, momentum, and energy — are explicitly encoded into the learning process. Ensures predictions remain physically plausible and engineering-grade, even at speed.

PINNPhysics Constraints

🔬

FEniCSx

High-Fidelity Validation Solver

When the confidence gate flags low-certainty ML results, FEniCSx automatically runs a full finite element solve. Results are validated, marked Gold tier, and fed back to improve the surrogate model.

FEM FallbackGold Validation

🧠

GPT-4.1-mini

Intelligence Layer

Powers the geometry analysis, parameter advisor, simulation planning, and result interpretation layers. Provides engineering-grade guidance via a conversational interface — making expert-level CFD accessible to all engineers.

LLM Intelligence

☁️

Cloud-Native Infrastructure

Storage · API · Streaming

FastAPI backend with SSE streaming, Cloudflare R2 for geometry and result storage, Next.js 14 frontend with real-time 3D viewer. Built AI-first from the ground up for scalable collaboration and digital twin integration.

Cloud-NativeDigital Twin Ready

Simulation Domains

One Platform. Multiple Physics.

phinen handles the full range of engineering simulation workloads — from structural FEA to thermal management to fluid dynamics — with digital twin integration on the roadmap.

🔩

Structural FEA

Stress · Displacement · Fatigue · Safety Factor

Run stress analysis on mechanical components and assemblies in seconds. Identify failure zones, verify safety margins, and iterate on geometry — without waiting for a full FEM solve every time.

Static AnalysisFatigue & Life

🌡️

Thermal & Fluid (CFD)

Temperature · Velocity · Pressure · Heat Transfer

Predict airflow patterns and temperature distributions across complex geometries. Detect hotspots, optimise cooling configurations, and validate thermal margins — early in the design cycle.

Thermal ManagementAirflow

⚙️

Multiphysics

Coupled Thermal-Structural · Vibro-Acoustic · Fluid-Structure

Real-world problems rarely involve a single physics domain. phinen supports coupled simulations — thermal expansion driving structural stress, fluid pressure loading structures, and more.

Coupled SimulationFSI

🏭

Digital Twin (Roadmap)

Continuous Simulation · Live Asset Monitoring · Predictive Insight

Every simulation run builds a labeled dataset that improves the surrogate model over time. The vision: a persistent simulation layer that mirrors your physical asset — predicting behaviour before failures occur.

Self-ImprovingLive Insight

Works Across Industries

Automotive & EV Aerospace & Defense Electronics & Semiconductors Industrial Equipment Energy & Power Medical Devices Healthcare & MedTech Robotics & Automation Consumer Products Supply Chain & Logistics Construction & Infrastructure Defense & Space

Key Benefits

Why Teams Choose phinen

Directly from our platform design principles — speed, credibility, and accessibility without compromise.

⚡

Simulation Cycles: Hours/Days → Minutes

ML surrogate inference runs in under a second. End-to-end — from geometry upload to engineering report — completes in under 2 minutes, for any physics domain.

🎯

Physically Grounded Results

PINNs encode conservation of mass, momentum, and energy. The confidence gate and FEniCSx fallback ensure physical credibility is never sacrificed for speed.

👩‍💻

No Simulation Specialist Required

The guided setup interface walks any engineer through boundary conditions, loads, and material properties. No manual meshing, no solver scripting, no post-processing expertise needed.

🏭

Digital Twin Ready

Cloud-native deployment with structured data storage. Infrastructure-ready for digital twin integration — phinen is designed to be the simulation intelligence layer.

🔄

Self-Improving with Every Run

Every simulation auto-registers a labeled training sample. The more you use it, the more accurate the surrogate models become for your specific enclosure geometries.

📊

Rapid Design Iteration

Run multiple geometry variants in minutes. phinen enables rapid side-by-side comparison across structural, thermal, or fluid scenarios — accelerating confident trade-offs between cost, performance, and reliability.

Why phinen

The Tool Your Stack Was Missing

Legacy simulation tools were built before foundation models existed. phinen is the first platform designed AI-first from day one.

	phinen AI-native · all tiers	ANSYS / Abaqus Legacy FEA	OpenFOAM Open-source CFD	Traditional FEA In-house workflow
Time to first result	< 1 second	Hours – days	Hours – days	Days – weeks
Setup required	Guided wizard	Manual meshing + BCs	Scripting required	Specialist required
AI planning & advice	✓ Full	✗	✗	✗
Solver options	GNN / PINN / Hybrid / FEniCSx	FEM only	CFD only	FEM only
License cost	Free → $199/mo	$$$$ /seat/year	Free (GPU cost)	$$$$ + headcount
Geometry → result	3 clicks	50+ steps	Dozens of steps	Weeks of work
Confidence validation	✓ Auto confidence gate	✓ Manual	Manual	Manual

Pricing

Start Free. Scale as You Grow.

No credit card required during early access. All plans include structural, thermal, and fluid simulation.

Starter

Free / month

Perfect for individual engineers evaluating the platform or running occasional analyses.

10 simulations / month
STL / STEP file upload
Structural FEA · Thermal · CFD
LLM conversational interface
PDF engineering report
Multi-variant comparison
API access
Custom surrogate training

Get Started Free →

Built for Industrial-Grade Engineering Simulation

phinen is an engineering simulation acceleration platform designed to help teams run structural, thermal, and fluid analyses on complex geometries — early, rapidly, and with high confidence.

Traditional FEA and CFD workflows require complex meshing, manual boundary setup, long solver runtimes, and specialist expertise. phinen replaces this fragmented process with a guided workflow that blends ML surrogate models, physics-informed constraints, and hybrid validation — delivering fast, interpretable results without sacrificing physical credibility.

Primary Objective

Accelerate engineering design decisions by transforming complex simulation workflows into guided, interpretable, and physically consistent insight — for structural, thermal, and fluid problems.

Faster structural and thermal optimisation across design variants
Early detection of failure zones, hotspots, and flow issues before physical prototyping
Rapid iteration of geometry, loads, and boundary conditions at simulation speed
More confident design decisions across cost, performance, and reliability

Vision

"To become the AI-native simulation layer powering industrial digital twins — starting with internal airflow and thermal systems, and expanding into broader structural and multiphysics domains."

phinen is not just a faster solver. It is a foundational intelligence layer that transforms how physical systems are understood, iterated, and optimised across industries.

Phase 1 · Now

Structural FEA · Thermal & CFD · Multiphysics simulation

Phase 2 · Next

Comparative analysis · Multi-variant optimisation workflows

Platform

Cloud-native · Scalable collaboration · API-first

End State

Live digital twin — persistent simulation layer for physical assets

Why Now

✓ AI-based surrogate modelling has matured enough for engineering-grade accuracy

✓ GPU infrastructure is widely accessible — inference is now viable in SaaS

✓ Digital twin adoption is accelerating across all target industries

✓ Legacy simulation stacks were not designed for foundation models or LLM-guided workflows

Get Started

Simulate Faster.
Design with Confidence.

Join the early access programme and get phinen running on your geometry — structural, thermal, or fluid — within 24 hours.

No spam · No commitment · We'll reach out within 24 hours

Structural FEA Thermal & CFD Multiphysics Automotive & EV Aerospace & Defense Medical Devices Healthcare & MedTech Robotics Supply Chain Energy & Power

Engineering Simulation in Minutes, Not Days

The World's First AI-GuidedStructural Simulation Wizard

From CAD File to Engineering Insight in 6 Steps

Start Fast. Escalate for Proof.

An AI That Checks Your WorkBefore You Run

Engineered for Speed, Accuracy & Physical Credibility

One Platform. Multiple Physics.

Why Teams Choose phinen

The Tool Your Stack Was Missing

Start Free. Scale as You Grow.

Built for Industrial-Grade Engineering Simulation

Simulate Faster.Design with Confidence.

Engineering Simulation
in Minutes, Not Days

The World's First AI-Guided
Structural Simulation Wizard

An AI That Checks Your Work
Before You Run

Simulate Faster.
Design with Confidence.