Cut Your CFD Runtime from Days to Minutes.

Euler Labz merges high-order lattice-Boltzmann solvers with near-term quantum hardware, giving R&D teams the power to explore larger design spaces and tighter safety margins—without waiting for exascale clusters.

Built for NISQ-era Quantum

Hybrid algorithms that work on today’s 100-qubit machines, scale to fault-tolerant tomorrow.

Drop-in for Existing Workflows

Python SDK, OpenFOAM import, and REST APIs for automated pipelines.

Open Science DNA

Peer-reviewed methods, GitHub samples, and reproducible benchmark notebooks.

Scenario (Internal tested)

Classical HPC Runtime

Euler Labz Hybrid Runtime*

Turbulent airfoil

(5 M Cells)

14 h

13 min

Battery-pack CHT

(2 M Cells)

7 h

31 min

*Measured on a 128-core CPU node + 6 GPU cards + 80-qubit ion-trap backend.

Detailed methodology is published in our open whitepaper. Download Now

The EulerQ™ Engine

High-order lattice-Boltzmann core +
Variational Quantum PDE kernels

Adaptive Hybrid Scheduler

Balances cost & latency across CPUs, GPUs,
and cloud quantum rigs.

Precision-Safe

Verified against NASA turbulence validation
suites (A-matrix ≤ 1 %).

Security-Ready

Data-in-flight TLS 1.3, AES-256 at rest,
container-level isolation.

Hybrid Runtime

Zero-config task dispatch with an intuitive DAG visualizer for real-time simulation flow. Seamlessly balances workloads across CPUs, GPUs, and quantum backends.

View Architecture

Integrations

Out-of-the-box plugins for Ansys Fluent, Star-CCM+, OpenFOAM, and leading CAD/PLM tools. Drop-in quantum acceleration with no workflow disruption.

See API Docs

Security & Compliance

SOC 2 Type II in progress, ISO 27001 roadmap underway. ITAR-ready partitioning and end-to-end encryption ensure enterprise-grade security.

Download Infosec Brief

Roadmap

1k logical qubits by Q4 2026. Full RANS simulation on quantum hardware targeted by 2028 — shaping the future of CFD.

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Quantum Impact Across Industries

How quantum-hybrid CFD redefines performance across critical engineering verticals.

Aerospace & Defense

Bottleneck: Hypersonic thermal loads, turbulent noise 
Quantum Edge: Multi-parameter design sweeps reduced from weeks to overnight

Automotive & e-Mobility

Bottleneck: Battery-pack cooling, aero drag
Quantum Edge: 100× more design iterations within the same compute budget

Energy & Climate

Bottleneck: Wind-farm wake loss, CCS plume dispersion
Quantum Edge: Real-time mesoscale flow prediction for dispatch optimization

Electronics / Data Centre

Bottleneck: Chip & rack hotspots
Quantum Edge: Sub-hour conjugate heat-transfer solves for AI hardware

Bio-Microfluidics

Bottleneck: Lab-on-chip mixing
Quantum Edge: Nano-scale vortex resolution for personalized drug delivery

Powering the Quantum Core of CFD

Algorithm Library

Quantum Lattice-Boltzmann (QLB)

Turbulent & multiphase ready

Variational Quantum PDE (VQ-PDE)

Low-rank Navier–Stokes solvers

Adjoint Optimiser

Quantum-inspired gradient & Bayesian search

Hardware Compatibility

Seamlessly integrates with ion-trap, neutral-atom, superconducting, and photonic quantum systems, all abstracted behind a unified API key for maximum flexibility and ease of deployment.

Get the full specifications, architecture details, and
performance benchmarks.

About Us

Euler Labz is building the first commercially viable quantum-accelerated CFD platform. Our mission: unlock radical design space exploration for cleaner aircraft, safer batteries, and sustainable energy systems

Aditya Yadav

Founder & CEO

Quantum algorithm researcher and ex-lead at Golden Eagle, a defense-aligned quantum computing initiative.

With over a decade of experience in high-performance computing and multiphysics simulation, Aditya has published in top-tier journals including Physical Review A and the Journal of Computational Physics.

Get in Touch

We are soliciting interest from research labs at governments, industry and academia, across the world, to test our simulator and publish joint reports