Automated Flow Predictions

Adaptive Simulations offers a cloud-based service (SaaS), providing customers with fully automated flow simulations.


Our automated cloud-solution increases accuracy, flexibility and cost efficiency when simulating flow. The accessibility and ease of use of the solution enables designers, engineers, researchers, innovators and architects without any prior knowledge of Computational Fluid Dynamics (CFD) or simulations to predict flow and improve their design.

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A spinoff from research at

KTH - Royal Institute of Technology (Stockholm, SE)

Making simulations easy

Our adaptive algorithms have the capacity to automate the entire process of simulation. This eliminates sub-optimizations due to human error, increases accuracy and lowers the cost of simulations with around 70 %.


But above all, our unique automated  solution makes the complex easy. Really easy. "No-need-for-a-degree"-easy. Our easy to use cloud-solution enables simulations early in the design process. This capability improves the product design and shortens time-to-market.

Our research

Why choose us?

Our innovative adaptive algorithms combined with high performance computing enable Automated Flow Simulations. This solution surpass traditional Computational Fluid Dynamics (CFD) and mark the frontier of development for predictive transient flow simulations.


The ground breaking algorithms in our model are adaptive and parameter free which enables an automated simulation process as well as reliable estimation of error margin.


Adaptive algorithms enable automation

Our innovation is the result of a spin-off from world leading research conducted over the last decade by a team of researchers at KTH Royal Institute of Technology in Stockholm.


The method is based on quantitative a posteriori error estimation, which means that the user prescribe what you want to compute and then the mesh is automatically optimized to compute that quantity to a prescribed tolerance with minimal computational cost. This is achieved by solving a so called adjoint problem that connects local errors to the error in this quantity of interest.

A spin-off from cutting edge research


European Research Council

Proof of Concept Grant 2014

Phase 1 grant in 2016
from the EU-commission

Less than 3% success rate for eligible applicants!

Why choose us?

Supercomputer Cray XC40

Automated flow simulation enable virtual product development

Flexible and easy to use web interface

  • our model handles transient, 3-dimensional simulations with automated turbulence. These characteristics in conjunction with top accuracy, High Performance Computing and state of the art visualization, results in flow simulations with amazing reality approximation
  • by automating the process of Computational Fluid Dynamics (CFD) /simulation, and offering this in a prescription based cloud service, we enable virtual product development
  • our customers can easily upload the design of their product, state their desired level of accuracy and start the simulation
  • there is no need for deep knowledge and insights in the world of CFD when using our solution. Our customers only need to know their product. Our automated solution takes care of the rest

Automated, cloud-based, scalable and access to a super computer: Cray XC40

  • our automated cloud solution has access to one of Europe's fastest Super Computers: KTH PDC Beskow: a Cray XC40 System with a peak performance of nearly 2 Petaflops!
  • largest HPC Resource located in the Nordics
  • there is complete scalability in computing power when using our solution

Top mathematicians behind the scenes

  • live and breathe mathematics
  • define and refine algorithms
  • create value by the force of their models
  • in their nature to solve problems and love scientific challenges, they dare you to feed them with the most difficult task

Making simulations easy

Our Team and Vision

Our innovation:

Cloud based, automated simulations performed on high performance supercomputers.
Extremely easy to use and reduces cost dramatically.


How could this innovation affect the world?
A researcher analyzing wind and the dispersion of air pollution in an urban area to minimize health hazards, an architect simulating the ventilation in a room to maximize comfort, an aircraft engineer comparing the effect of different wing shape on fuel consumption.

The possible applications are endless, the value great.

Most Popular Articles and Research Posts

Adaptive computation of aeroacoustic sources
for a rudimentary landing gear

Read Article


This work may be seen as an extension of our contribution to the BANC-I NASA/AIAA work shop held in conjunction with the 16th AIAA / CEAS Aeroacoustics Conference in Stockholm, 2010.One of the principal goals of the workshop was to assess available computational methods for the computation of aeroacoustic sources by comparing simulation results with experimental [...]

Towards a parameter-free method for high Reynolds number turbulent flow simulation based on adaptive finite element approximation

Read Article

Published on

This article is a review of our work towards a parameter-free method for simulation of turbulent flow at high Reynolds numbers. In a series of papers we have developed a model for turbulent flow in the form of weak solutions of the Navier–Stokes equations, approximated by an adaptive finite element method, where: (i) viscous dissipation is assumed to be dominated by turbulent. [...]

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