Turning Signal Integrity Simulation Inside Out

Dr. Zoltan Cendes, one of the biggest names in electromagnetic simulation, says its time for design engineers to take a new approach.
Zoltan Cendes delivers a keynote at DesignCon 2017
Zoltan Cendes delivers a keynote at DesignCon 2017

Waves ... electromagnetic waves everywhere. During his DesignCon 2017 keynote, Dr. Zoltan Cendes told the audience about a trip he once took down the Li River in China.

At some point Cendes' group came across another raft with people taking pictures. They were using digital cameras and portable printers to take pictures they would then sell to the tourists. “It occurred to me that these people were probably fishers at some point in time, but now they were using high technology to have a better way of life,” Cendes told the audience. “My point is, electrical engineers change the world in ways you wouldn't think.”

All that change however creates its own challenges. Industry leaders are demanding faster and more efficient processes. This in turn means design engineers need new applications and tools to meet these expectations and more intense schedules.

Within this, Cendes said, there's a huge opportunity to rethink signal integrity simulation. Cendes is no stranger to simulation. He's the co-founder of Ansys, a leading supplier of engineering simulation software, and one of the creators of HFSS, the popular software for simulating electromagnetic fields in 3D. What he suggested to the audience was that the only way forward for electromagnetic (EM) field simulation is to take an “inside-out” approach.

“Electromagnetic simulation has evolved to the point where we can turn it inside out by solving large EM problems with isolated nonlinear circuits,” Cendes said. “... Physics-based simulation empowers more engineers.”

What Cendes is talking about is, rather than the traditional method of signal integrity simulation – solving circuits first, and worrying about the physics later – taking a new, physics-based approach that solves the electromagnetic physics first.

Cendes said this physics-based approach will ease a lot of simulation duties and also allow for easier automation of tasks. “Connecting things together is difficult manually, so you want to automate the workflow,” he said. “It allows you to do things more easily and also beyond that you don't have to be an expert to run the simulation.”

With this engineers can conduct more virtual prototyping, which reduces hands-on engineering time, eliminate error-prone systems wiring, and allows steps to be scripted in software. “In the old days you'd have to label every trace and make sure you're connecting everything correctly,” Cendes said. “Something like connecting 30 pins can take a long time. But the physics works very well. You can let the software figure it out.”

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He also spoke of the advantages of the inside-out approach in terms of protecting intellectual property (IP). “Vendor models can be encrypted,” Cendes said. “You can encrypt components so your IP is hidden from others. In a traditional components every part is available to see. But as you simulate it, it will work exactly the

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