%0 Journal Article %1 IJACSA.2012.031215 %A Abbas, M A %D 2012 %J International Journal of Advanced Computer Science and Applications(IJACSA) %K Complexity; Computers; Distributed Egress; Graph Knowledge Quantum acquisition; systems. theory; %N 12 %T Computing the Exit Complexity of Knowledge in Distributed Quantum Computers %U http://ijacsa.thesai.org/ %V 3 %X Distributed Quantum computers abide from the exit complexity of the knowledge. The exit complexity is the accrue of the nodal information needed to clarify the total egress system with deference to a distinguished exit node. The core objective of this paper is to compile an arrogant methodology for assessing the exit complexity of the knowledge in distributed quantum computers. The proposed methodology is based on contouring the knowledge using the unlabeled binary trees, hence building an benchmarked and a computer based model. The proposed methodology dramatizes knowledge autocratically calculates the exit complexity. The methodology consists of several amphitheaters, starting with detecting the baron aspect of the tree of others entitled express knowledge and then measure the volume of information and the complexity of behavior destining from the bargain of information. Then calculate egress resulting from episodes that do not lead to the withdrawal of the information. In the end is calculated total egress complexity and then appraised total exit complexity of the system. Given the complexity of the operations within the Distributed Computing Quantity, this research addresses effective transactions that could affect the three-dimensional behavior of knowledge. The results materialized that the best affair where total exit complexity as minimal as possible is a picture of a binary tree is entitled at the rate of positive and negative cardinal points medium value. It could be argued that these cardinal points should not amass the upper bound apex or minimum.

@article{IJACSA.2012.031215, abstract = {Distributed Quantum computers abide from the exit complexity of the knowledge. The exit complexity is the accrue of the nodal information needed to clarify the total egress system with deference to a distinguished exit node. The core objective of this paper is to compile an arrogant methodology for assessing the exit complexity of the knowledge in distributed quantum computers. The proposed methodology is based on contouring the knowledge using the unlabeled binary trees, hence building an benchmarked and a computer based model. The proposed methodology dramatizes knowledge autocratically calculates the exit complexity. The methodology consists of several amphitheaters, starting with detecting the baron aspect of the tree of others entitled express knowledge and then measure the volume of information and the complexity of behavior destining from the bargain of information. Then calculate egress resulting from episodes that do not lead to the withdrawal of the information. In the end is calculated total egress complexity and then appraised total exit complexity of the system. Given the complexity of the operations within the Distributed Computing Quantity, this research addresses effective transactions that could affect the three-dimensional behavior of knowledge. The results materialized that the best affair where total exit complexity as minimal as possible is a picture of a binary tree is entitled at the rate of positive and negative cardinal points medium value. It could be argued that these cardinal points should not amass the upper bound apex or minimum.}, added-at = {2014-02-21T08:00:08.000+0100}, author = {Abbas, M A}, biburl = {https://www.bibsonomy.org/bibtex/2b74b2b84334ee5fb8c60596bbf7da012/thesaiorg}, interhash = {5188b3208b9d918747da0b38bcc3284f}, intrahash = {b74b2b84334ee5fb8c60596bbf7da012}, journal = {International Journal of Advanced Computer Science and Applications(IJACSA)}, keywords = {Complexity; Computers; Distributed Egress; Graph Knowledge Quantum acquisition; systems. theory;}, number = 12, timestamp = {2014-02-21T08:00:08.000+0100}, title = {{Computing the Exit Complexity of Knowledge in Distributed Quantum Computers}}, url = {http://ijacsa.thesai.org/}, volume = 3, year = 2012 }