Title :
Size versus robustness in evolved sorting networks: is bigger better?
Author :
Masner, Jason ; Alieri, John Cav ; Frenzel, James F. ; Oster, James F.
Author_Institution :
Dept. of Comput. Sci., Idaho Univ., Moscow, ID, USA
Abstract :
We are interested in discovering how and why circuits developed using evolutionary methods tend to be more robust than hand designed ones. To this end, we compare evolved circuits to known, minimal sorting networks. We introduce a new, size-independent metric, called bitwise stability (BS), which measures how well a network performed when subjected to real-world types of errors. In particular, we examine stuck-on-one, stuck-on-zero and passthrough errors, a generalization of a short circuit. Networks were evolved using tree structured and linear encoded chromosomes. We found that evolution improves bitwise stability and that tree structures tend to confer more bitwise stability than linear structured chromosomes. We discuss how the size of a sorting network affects its robustness and our discovery that bigger does not necessarily mean better
Keywords :
logic design; robust control; sorting; bitwise stability; evolutionary methods; evolved sorting networks; linear encoded chromosomes; minimal sorting networks; passthrough errors; robustness; stuck-on-one; stuck-on-zero; tree structures; Biological cells; Circuit faults; Circuit stability; Computer science; Encoding; Hardware; Intelligent networks; Microelectronics; Robustness; Sorting;
Conference_Titel :
Evolvable Hardware, 2000. Proceedings. The Second NASA/DoD Workshop on
Conference_Location :
Palo Alto, CA
Print_ISBN :
0-7695-0762-X
DOI :
10.1109/EH.2000.869345
