DAC 2014
Date: Jun 01, 2014 10:00 am – Jun 05, 2014 8:00 pm
Location: San Francisco, CA
Design Methods for Automotive Systems and Software
The automotive track has been created this year to bring together researchers and practitioners from the automotive domain with their counterparts from the embedded systems & software (ESS) domains. This also includes those from the electronic design automation (EDA) space.
Modern combustion engine vehicles largely rely on on board electric and electronics components and systems. High-end cars now have over 100 electronic control units (ECUs) that are connected by a heterogeneous communication architecture, and run several millions of lines of software code. Most of the innovations in the automotive domain are now in electronics and software. The emergence of electric vehicles have further pushed developments on this front. Designing such hardware and software systems involve myriad challenges spanning safety, reliability, security, verification, and certification issues.
This new automotive track will cover the cross-cutting horizontal themes above in automotive embedded systems, to address the emerging vertical areas, such as, autonomous and advanced driver assistance systems, electric and hybrid vehicles, and electro-mobility. The track offers the automotive community the opportunity to capitalize on existing tools and methodologies and also play an active role in defining solutions for future challenges and the road ahead.
Submitted by Anonymous
on
The automotive track has been created this year to bring together researchers and practitioners from the automotive domain with their counterparts from the embedded systems & software (ESS) domains. This also includes those from the electronic design automation (EDA) space.
Modern combustion engine vehicles largely rely on on board electric and electronics components and systems. High-end cars now have over 100 electronic control units (ECUs) that are connected by a heterogeneous communication architecture, and run several millions of lines of software code. Most of the innovations in the automotive domain are now in electronics and software. The emergence of electric vehicles have further pushed developments on this front. Designing such hardware and software systems involve myriad challenges spanning safety, reliability, security, verification, and certification issues.
This new automotive track will cover the cross-cutting horizontal themes above in automotive embedded systems, to address the emerging vertical areas, such as, autonomous and advanced driver assistance systems, electric and hybrid vehicles, and electro-mobility. The track offers the automotive community the opportunity to capitalize on existing tools and methodologies and also play an active role in defining solutions for future challenges and the road ahead.