Title :
Virtual prototyping tools for electronic design automation
Author :
Petriu, Emil M. ; Cordea, Marius D. ; Petriu, Dorina C.
Author_Institution :
Sch. of Inf. Technol. & Eng., Ottawa Univ., Ont., Canada
fDate :
6/1/1999 12:00:00 AM
Abstract :
Virtual prototyping environments are emerging as a new generation of EDA tools. Such a tool will allow the designer to test interactively complex electronic systems on an enhanced-reality virtual workbench, by concurrently running multidomain (mechanical, electrical, thermal, etc.) what-if experiments. Virtual prototyping will shorten the design cycle, improve the product quality, and reduce the time to market. Advanced computational techniques are needed to reduce the execution time, especially for the field (EM and thermal) models used in these virtual prototyping environments. This article shows how neural networks could be used efficiently for 3D EM field modeling. Neural network models have much better real-time performance than classical numerical EM-field modeling methods, and this is particularly important when the field analysis is coupled with system optimization
Keywords :
computer animation; data visualisation; directed graphs; electromagnetic compatibility; electromagnetic field theory; electronic design automation; neural nets; object-oriented programming; product development; rapid prototyping (industrial); rendering (computer graphics); virtual reality; virtual reality languages; 3D EM-field modeling; 3D manipulation; EMC; OO C++; VRML; advanced computational techniques; animation; complex electronic systems; directed graphs; electronic design automation; enhanced-reality virtual workbench; field models; improved product quality; interactive object specification; learning; multidomain what-if experiments; neural network models; real-time performance; reduced execution time; reduced time to market; rendering; shortened design cycle; system optimization; thermal models; virtual prototyping environments; virtual prototyping tools; visualisation; Coupled mode analysis; Electronic design automation and methodology; Electronic equipment testing; Neural networks; Numerical models; Performance analysis; Real time systems; System testing; Time to market; Virtual prototyping;
Journal_Title :
Instrumentation & Measurement Magazine, IEEE
DOI :
10.1109/5289.765966
