Title :
Dependable Controller Design Using Polymorphic Counters
Author :
Ruzicka, Richard
Author_Institution :
Fac. of Inf. Technol., Brno Univ. of Technol., Brno, Czech Republic
Abstract :
This paper proposes utilisation of polymorphic electronics to design dependable digital circuit controllers. The controller of a general digital circuit is an implementation of a finite state machine. One of most popular implementation is based on a synchronous digital counter. The counter consists of flip-flops and some glue logic. In proposed approach, the glue logic is designed using polymorphic gates. Polymorphic gates exhibit two or more logic functions in according to a specific condition (e.g. Vdd level or special signals). This allows to make a smart reconfiguration of the circuit designed using polymorphic gates. The controller based on this approach can be then reconfigured very easily and by this, it can respond to (potentially inconvenient) environment circumstances.
Keywords :
counting circuits; digital control; finite state machines; flip-flops; network synthesis; sequential circuits; digital circuit controller; finite state machine; flip-flops; glue logic; logic functions; polymorphic counter; polymorphic gates; sequential controllers; smart reconfiguration; synchronous digital counter; Adaptive systems; CMOS technology; Control systems; Counting circuits; Digital circuits; Flip-flops; Hardware; Logic design; Logic functions; Reconfigurable logic; dependable controller; polymorphic counter; polymorphic electronics; reconfiguration;
Conference_Titel :
Digital System Design, Architectures, Methods and Tools, 2009. DSD '09. 12th Euromicro Conference on
Conference_Location :
Patras
Print_ISBN :
978-0-7695-3782-5
DOI :
10.1109/DSD.2009.227
