Title :
Testing of quantum cellular automata
Author :
Tahoori, Mehdi B. ; Huang, Jing ; Momenzadeh, Mariam ; Lombardi, Fabrizio
Author_Institution :
Dept. of Electr. & Comput. Eng., Northeastern Univ., Boston, MA, USA
Abstract :
There has been considerable research on quantum dot cellular automata (QCA) as a new computing scheme in the nanoscale regimes. The basic logic element of this technology is the majority voter. In this paper, a detailed simulation-based characterization of QCA defects and study of their effects at logic level are presented. Testing of these QCA devices at logic level is investigated and compared with conventional CMOS-based designs. Unique testing features of designs based on this technology are presented and interesting properties have been identified. A testing technique is presented; it requires only a constant number of test vectors to achieve 100% fault coverage with respect to the fault list of the original design. A design-for-test scheme is also presented, which results in the generation of a reduced test set at 100% fault coverage.
Keywords :
CMOS logic circuits; cellular automata; design for testability; logic testing; nanotechnology; quantum computing; CMOS-based design; QCA defect; defect characterization; design-for-testability; fault coverage; logic element; logic level; nanoscale regimes; nanotechnology; quantum dot cellular automata testing; simulation-based characterization; Automatic testing; CMOS technology; Computational modeling; Design for testability; Logic design; Logic devices; Logic testing; Quantum cellular automata; Quantum computing; Quantum dots; Defect characterization; design-for-testability; nanotechnology; quantum dot cellular automata (QCA); testing;
Journal_Title :
Nanotechnology, IEEE Transactions on
DOI :
10.1109/TNANO.2004.834169
