Ansys Sound™

A post-processing sound design software to optimize and analyze acoustic performance.

Overview

Ansys Sound™ is an advanced acoustic simulation software that enables you to evaluate, predict, and refine the acoustic performance of products.

This powerful tool supports a wide range of acoustic applications, providing accurate simulations to enhance product quality and performance.

Why Ansys Sound™?

Comprehensive Acoustic Analysis
Perform detailed sound and vibration analysis to ensure optimal product acoustics.
User-Friendly Interface
Easy-to-use interface for setting up and analyzing acoustic simulations.
Versatile Applications
Suitable for a variety of industries, from automotive to consumer electronics.
Cost and Time Efficiency
Reduces the need for physical prototypes, saving time and resources.
Superior Support and Training
Benefit from expert customer support and extensive training resources to maximize your use of the software.

Why partner with Simtec?

Partnering with Simtec ensures you get the most out of Ansys Sound™.

By leveraging our solutions, you can significantly reduce time-to-market and development costs while achieving top-notch acoustic performance.

  • Superior Customer Support
  • Tailored Solutions
  • Cost-Effective Services
  • Continuous Innovation

Applications Across Industries

Ansys Sound™ supports various industries by enabling early-stage sound and vibration simulations, leading to more efficient products.

  • ansys-model-fuel-library-automotive-slide

    Automotive

    Ensures accurate material modeling for components, improving performance and reliability.
  • ansys-model-fuel-library-aerospace-slide

    Aerospace

    Calibrates materials used in aircraft structures to enhance safety and durability.
  • ansys-consumer-electronics-slide

    Consumer Electronics

    Provides precise material models for electronic components, ensuring they meet durability and performance standards.
  • ansys-blademodeler-Industrial-Machinery-slide

    Industrial Machinery

    Enhances the reliability and performance of machinery components by accurately modeling material behavior.