Patent Document ID: 9805170
Application ID: 13643844
Patent Flag: 1

Claim One:
1. A method of determining distributions of energy deposition and fluence due to ionizing radiation comprising the steps of: providing a client computer and a network, wherein the network includes a data storage, a virtual computer cluster comprising a plurality of nodes and a master node; uploading Monte Carlo calculation parameters by the client computer to the data storage of the network, wherein the Monte Carlo calculation parameters consisting essentially of a patient anatomy, a time constraint, and a beam configuration for determining distributions of energy deposition and fluence due to ionizing radiation; using two or more of the Monte Carlo calculation parameters to determine by the master node a number of nodes needed to complete Monte Carlo calculations to define a virtual computer cluster, wherein the number of nodes determined by the master node to define a virtual computer cluster includes a number of additional nodes, the number of additional nodes determined by a threshold amount; retrieving by the master node the Monte Carlo calculation parameters; distributing by the master node to each node of the virtual computer cluster one or more Monte Carlo calculation parameters; using the Monte Carlo calculation parameters to perform by each node of the virtual computer cluster at least one Monte Carlo calculation to compute a dose calculation result; combining by the master node the dose calculation result from each node of the virtual computer cluster to calculate a final dose calculation result, wherein said combining step further includes the step of using a tree-based distribution model to obtain the final result, said combining step performed when the number of nodes of the virtual computer cluster that completes the computation of the dose calculation result meets a threshold value; and returning by the master node to the client computer the final dose calculation result.