Jumpstart

Time is your most valuable asset; avoid wasted hours by learning industry-accepted best practices from the start. Share your goals with us and we will provide you with a detailed and customized plan on how to reach them faster.

Ask us about Jumpstart

We know what it takes

If you are new to our products and want to jump right in, without spending hours in self-training with extensive manuals and online tutorials, you can boost your skills quickly by working with a tech whizz at hand who will guide you through your customized plan. Jumpstart is a service hours package that provides 25 hours of engineering assistance within the first 90 days of your new license purchase.

Our technical expert will walk you through your first steps to make the whole process easier, faster, and more efficient, allowing you to focus on your most crucial tasks and see a rapid return on investment.

Choose Jumpstart when you:

  • need to make quick progress
  • want to avoid getting stuck
  • don’t have the time to slog through manuals
  • are searching for best practices for a specific task

Build up your skills in 3 steps:

1. Reach out

After a kick-off call or email, we’ll discuss your priorities, work out where you need help most, and prepare your personalized price offer.

2. Get a customized plan

Your tech whiz will help you create a detailed, customized implementation plan that highlights best practices tailored to your specific requirements.

3. Jump straight in!

Your tech whiz will get you up to speed with your software and the implementation plan.

Blogs and user stories

blog pos: COMSOL Multiphysics for the Automotive Sector (Part 2)

COMSOL Multiphysics for the Automotive Sector (Part 2)

In part two of this blog series, we explore the transformative capabilities of COMSOL Multiphysics in the automotive industry, focusing on its applications in modeling critical vehicle components like the suspension system, electric motor, gearbox, and disc brake.

Excitation Signals for Identification of Dynamic Systems

Excitation Signals for Identification of Dynamic Systems

Learn about optimizing multisine signals for precise frequency-domain system identification. Discover the importance of low Crest Factor (CF) in excitation signals and explore techniques to enhance signal-to-noise ratios (SNR) for improved measurement accuracy.

Equalization process of a SW equalizer applying COLA

FBMC – An Ever-Promising Candidate for 5G Technologies and Beyond

In this blog, we discuss the newest solution for improving the signal processing of FBMC receivers. Explore the newest solution for improving the signal processing of FBMC receivers, including efficient implementation strategies and receiver structure enhancements. Discover new insights and alternative signal processing solutions that promise enhanced performance and reduced complexity for these crucial systems.