Experimental study of minimum cut algorithms
SODA '97 Proceedings of the eighth annual ACM-SIAM symposium on Discrete algorithms
Chaff: engineering an efficient SAT solver
Proceedings of the 38th annual Design Automation Conference
NuSMV 2: An OpenSource Tool for Symbolic Model Checking
CAV '02 Proceedings of the 14th International Conference on Computer Aided Verification
Labeling images with a computer game
Proceedings of the SIGCHI Conference on Human Factors in Computing Systems
On Intelligence
Computer
Proceedings of the 45th annual Design Automation Conference
Proceedings of the 46th Annual Design Automation Conference
What is Twitter, a social network or a news media?
Proceedings of the 19th international conference on World wide web
Electronic design automation for social networks
Proceedings of the 47th Design Automation Conference
Physics-based field-theoretic design automation tools for social networks and web search
Proceedings of the 48th Design Automation Conference
UNTANGLED: A Game Environment for Discovery of Creative Mapping Strategies
ACM Transactions on Reconfigurable Technology and Systems (TRETS)
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Two misconceptions have been plaguing the electronic design automation (EDA) industry for decades: i) EDA solutions scale to larger complexities at an insufficient rate to keep pace with improvements in silicon designs; and ii) since EDA applications target silicon chip developments, the growth of EDA as an industry is bounded by the growth of the semiconductor industry. With this paper we address these misconceptions and we argue that they can both be overcome. To this end, we overview a number of initial studies highlighting possible directions that EDA can pursue to (i) break off from its traditional ways of scaling solutions and applications to larger complexity, that is, by developing better heuristics for its complex algorithms. (ii) We also discuss alternative domains where EDA technology can be applied, beyond that of silicon design, so that the semiconductor industry is no longer the limit of EDA growth.