TY - GEN
T1 - Dependabilities in a high-performance quantum real-time distributed system
AU - Chou, Yao Hsin
AU - Tsai, I. Ming
AU - Fahn, Chin Shyurng
AU - Horng, Shi Jinn
AU - Kuo, Sy Yen
PY - 2007
Y1 - 2007
N2 - Two processors jointly provide a real-time service which can be completed by exactly one processor. Assuming each processor is allowed to announce only a one-bit information in a distributed way to decide which one should process the job, inevitably some of the jobs will get lost if only classical resources are used. An example of this distributed system problems in real life can be found in baseball. Assume Alice and Bob are two outfielders in a baseball game. When the batter hits an outfield fly ball, they run toward the ball and try to make a catch. At the same time, depending on their confidence, Alice and Bob announce their intention to catch the ball by shouting "I'll get it". However, when both of them want to catch the ball, they will collide, fall down, and drop the ball. Or, in order not to collide with each other, sometimes neither of them will attempt to catch the ball and the ball will drop. Worse yet, if the ball drops, they will blame each other for having made the same decision. In this paper, we show the system dependability can be enhanced if those processors share quantum entanglement.
AB - Two processors jointly provide a real-time service which can be completed by exactly one processor. Assuming each processor is allowed to announce only a one-bit information in a distributed way to decide which one should process the job, inevitably some of the jobs will get lost if only classical resources are used. An example of this distributed system problems in real life can be found in baseball. Assume Alice and Bob are two outfielders in a baseball game. When the batter hits an outfield fly ball, they run toward the ball and try to make a catch. At the same time, depending on their confidence, Alice and Bob announce their intention to catch the ball by shouting "I'll get it". However, when both of them want to catch the ball, they will collide, fall down, and drop the ball. Or, in order not to collide with each other, sometimes neither of them will attempt to catch the ball and the ball will drop. Worse yet, if the ball drops, they will blame each other for having made the same decision. In this paper, we show the system dependability can be enhanced if those processors share quantum entanglement.
KW - Distributed system
KW - Fault-identified
KW - Quantum entanglement
KW - Real-time system
KW - System dependability
UR - http://www.scopus.com/inward/record.url?scp=34548137777&partnerID=8YFLogxK
U2 - 10.1109/ITNG.2007.64
DO - 10.1109/ITNG.2007.64
M3 - 会议稿件
AN - SCOPUS:34548137777
SN - 0769527760
SN - 9780769527765
T3 - Proceedings - International Conference on Information Technology-New Generations, ITNG 2007
SP - 1107
EP - 1112
BT - Proceedings - International Conference on Information Technology-New Generations, ITNG 2007
T2 - 4th International Conference on Information Technology-New Generations, ITNG 2007
Y2 - 2 April 2007 through 4 April 2007
ER -