Overview

Multidisciplinary Design Optimization Software

Optimizing your design starts here

Cadence Fidelity Fine Design3D is a unique computational fluid dynamics (CFD) optimization application that accelerates the discovery of optimal designs by using sophisticated machine learning (ML) algorithms to automate design space exploration.

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KEY BENEFITS

Discover a Unique Application for Multidisciplinary, Multi-Objective Design Optimization

Multidisciplinary Design Optimization

A truly robust optimization process can account for off-design conditions, mechanical reliability, noise, and even nonphysical aspects, such as manufacturing costs. Fidelity Fine Design3D provides that full range of capabilities via its flexible, powerful evaluators and solvers.

Parametrization

Smart parameterization is key to the success of optimization. Fidelity Fine Design3D includes a parameterization environment dedicated to turbomachinery that can easily handle turbomachinery blading systems, with design models based on blade sections, camber, thickness, and stacking. It includes capabilities such as self-organizing maps to ensure the explored design space is relevant to the design goal for all applications.

Data Mining and Analysis

Data-mining algorithms are used to get a deeper understanding of the design space and to provide more insights during the optimization process, thus accelerating the optimization process. Based on the surrogate model, analysis of variance provides information on which design variables have the most influence over the outcome.

Main Applications

Uncertainty Quantification

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Unlike their digital representations, real-world designs and operating conditions are subject to uncertainty and variations. From the intrinsic variability of manufacturing processes to the natural variation in operating conditions, smart optimization needs to be aware of uncertainty.

Fidelity Fine Design 3D can quantify uncertainties and estimate their impact on system performance. The user can identify variables with the most significant sensitivity, calculate the impact of less stringent manufacturing tolerances, and ensure the optimized design is robust enough for the real world.

DoE

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The way the design space is explored has an enormous impact on the convergence of the optimization and on the search for the optimum value. Fidelity Fine Design3D relies on advanced space-filling techniques that reduce the number of samples needed for a design of experiment (DoE). Auto-adaptive DoE techniques are available for the efficient handling of high-dimensional design spaces, as well as highly constrained optimization problems. In addition, a task manager enables populating a cluster with CFD runs on a cluster to generate multiple samples in parallel.

Surrogate Modeling

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Surrogate modeling is a form of supervised machine learning that accelerates the exploration of the design space by approximating the solution between the DoE points of the sampled design space. Several algorithms are available, including both artificial neural networks and Kriging. The surrogate model is used to apply an iterative optimization algorithm and find the global optimum.

This approach produces benefits at different stages of the development process, from the early concept definition to the final design phase, and shortens the total development cycle of complex products by reducing computational costs related to high-fidelity simulations.

Features

  • Integration with Fidelity Fine Turbo, Fidelity Fine Marine, and Fidelity Fine Open
  • Generic workflows for multiphysics optimization or parametric modelers such as Autoblade, Concepts NREC AxCent®, and more
  • Latest techniques for DoE generation: Latin hypercube sampling, Voronoi tessellation-based sampling, etc.
  • Advanced surrogate models, such as Radial Basis Function Networks, Kriging, and others
  • Single-objective or aggregate-objective optimization algorithms
  • Multi-objective Pareto algorithm
  • Comprehensive data mining and analysis tools, including self-organizing maps, ANOVA, and more
  • Unique uncertainty quantification for operational, geometrical, and manufacturing variability

Industry Solutions

Unlock Your Potential

CFD simulations are at work in many industries, and Fidelity Fine Design3D empowers optimization in any application. From aerospace to marine to automotive, Fidelity CFD solutions deliver high-quality results with proven technologies.

Turbomachinery

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Optimizing designs for power and efficiency under tight constraints is a major design challenge in turbomachinery.

Learn More about Turbomachinery

Marine

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Optimize ship designs for resistance, seakeeping, maneuvering, and more.

Learn More about Marine

Automotive

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Reducing drag is critical for optimizing the design of an automobile.

Learn More about Automotive

Aerospace

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Optimizing the shape of an airfoil reduces fuel consumption and the cost of flight.

Learn More about Aerospace

RESOURCES

Expand Your Arsenal of CFD Resources Here

Industry Trends

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Customer Stories

Learn more about how our customers are using our CFD solutions to better their innovation.

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Blogs, White Papers, Webinars

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