RU2013123327A - METHOD FOR OPTIMIZING DEVICE STRUCTURE - Google Patents

Abstract

A way to optimize the structure of the device, which consists in the fact that in the graph consisting of V nodes interconnected by E edges, the source node 1 is determined, it is assigned the label [0; -], where the first label element represents the shortest distance to the source node 1 , and the second element is the node preceding the shortest path to the source node 1, include it in the set of marked nodes Y = {1}, for each node ν∉ Y, where i = 1 ... M is the number of the node ν at the jth step ; j = 1 ... N is the step number, set the sum of the bond weights for the path from the given node to the original D (ν) = c (1, ν), for each step find the node ν∉ Y for which D (ν) is minimal, assign label [D (ν) + c (ν, ν); ν] and add the node ν to the set Y, update D (ν) for all nodes ν∉ Y according to the rule D (ν) = min {D (ν) + c (ν, ν)} until all nodes are in the set Y, determine the shortest routes from the nodes ν, for which j = N, to the initial node 1 by passing the nodes in the opposite direction using the information presented in the labels, characterized in that the graph I describe t the structure of the digital system, while the odd nodes of the graph, for which j = 2n + 1, are the functional elements of the digital system, the even nodes of the graph, for which j = 2n, are switching devices, edges are the connections between functional elements and switching devices and weights of the vertices — the optimization criterion, after the shortest routes are determined from the graph, remove all nodes ν for which two conditions are simultaneously satisfied: j = 2n, and the number of edges connecting this node ν with nodes ν is 1, put in obstacle nodes resulting graph functional elements of a digital system

Claims (1)

A way to optimize the structure of the device, which consists in the fact that in the graph consisting of V nodes interconnected by E edges, the source node 1 is determined, it is assigned the label [0; -], where the first label element represents the shortest distance to the source node 1 , and the second element is the node preceding the shortest path to the source node 1, include it in the set of marked nodes Y = {1}, for each node ν _ij ∉ Y, where i = 1 ... M is the number of the node ν _ij on j m step; j = 1 ... N is the step number, the sum of the bond weights is established for the path from the given node to the initial D (ν _ij ) = c (1, ν _ij ), for each step the node ν _ij ∉ Y is found for which D (ν _ij ) minimally, assign the label [D (ν _ij ) + c (ν _{i (j-1)} , ν _ij ); ν _{i (j-1)} ] and add the node ν _ij to the set Y, update D (ν _ij ) for all nodes ν _ij ∉ Y according to the rule D (ν _ij ) = min {D (ν _ij ) + c (ν _{i (j-1)} , ν _ij )} until all nodes are in the set Y, determining the shortest routes from node ν _ij for which j = N, to the source node 1 through node passing in the opposite direction using the information provided in the met ah, characterized in that the graph describes the structure of the digital system, while assigning the odd nodes of the graph for which j = 2n + 1, the functional elements of the digital system, the even nodes of the graph for which j = 2n, switching devices, edges - connection between the functional elements and switching devices, and the weights of the vertices - optimization criterion after determining the shortest routes from the obtained graph removed all nodes ν _ij, for which two conditions are simultaneously satisfied: j = 2n, and the number of edges connecting yes ny node ν _ij with nodes ν _{i (j + 1)} is 1, sets in accordance nodes obtained graph functional elements of the digital system and the switching devices, and the edges - the connection between the functional elements and switching devices.