Global IT Research

World Brought to you

Reducing Prototypes and Accelerating Medical Device Design with Simulation

Reducing Prototypes and Accelerating Medical Device Design with Simulation

 

Generating Regulatory-Ready Digital Evidence with Simulation-Driven Design

Acoustiic is developing compact, software-controlled ultrasound devices that replace invasive procedures with noninvasive therapies, creating new challenges around heat management in dense electronic designs. As designs evolved to accommodate acoustic, mechanical, and electronic updates, traditional prototyping cycles became too slow and costly. This case study shows how Acoustiic used simulation to manage thermal performance early, avoid late-stage redesigns, and accelerate development.

What You’ll Learn

  • How Simcenter STAR-CCM+ enabled accurate thermal simulation for compact, electronics-heavy medical devices
  • How Acoustiic collaborated with Resolved Analytics to build simulation models and internal expertise
  • How virtual prototyping supported rapid evaluation of multiple thermal design options
  • How simulation adapted quickly as acoustics, mechanics, and electronics changed during development

    • Why It Matters

  • Cut iteration cycles from months to weeks by replacing physical prototypes with simulation
  • Reduced development costs by eliminating multiple expensive prototype builds
  • Enabled greater design freedom by allowing teams to explore innovative ideas with lower risk

    • Download the full case study to see how Acoustiic used Simcenter STAR-CCM+ to reduce prototyping costs, accelerate iteration, and manage thermal challenges in advanced medical devices.

    White Paper from  siemens_logo

      Read the full content


      You have been directed to this site by Global IT Research. For more details on our information practices, please see our Privacy Policy, and by accessing this content you agree to our Terms of Use. You can unsubscribe at any time.

      If your Download does not start Automatically, Click Download Whitepaper

      Show More

      Related Articles