Automatic serial starting of resource groups on failover based on the prediction of aggregate resource usage

What is claimed is: 1. A computer system, comprising: one or more computing nodes having a memory and a processor; and a computer readable non-transitory storage medium of the one or more computing nodes having program instructions embodied therewith, the program instructions executable by the processor to cause the computer system to: monitor system resource usage of a first set of applications in a first resource group of a set of at least two resource groups executing on a first computing node at a first time, wherein each resource group of the set of at least two resource groups includes one or more related applications that execute on the first computing node and utilize system resources of the first computing node; monitor system resource usage of a second set of applications in a second resource group of the set of at least two resource groups executing on the first computing node at the first time; generate, based on the monitored system resource usage of the first set of applications, a first resource usage model, wherein the first resource usage model comprises, for each application in the first set of applications, a first resource usage score which aggregates monitored system resource usage of two or more system resources used by the each application in the first set of applications; generate, based on the monitored resource usage of the second set of applications, a second resource usage model, wherein the second resource usage model comprises, for each application in the second set of applications, a second resource usage score which aggregates monitored system resource usage of two or more system resources used by the each application in the second set of applications; generate, based on the first resource usage model and in response to an occurrence of a migration event, a first resource group usage score for the first resource group, wherein, the migration event is an event requiring each resource group of the set of at least two resource groups to be moved from executing on the first computing node to executing on a second computing node, and the first resource group usage score is a prediction of aggregate system resource usage of applications in the first resource group subsequent to the occurrence of the migration event; generate, based on the second resource usage model and in response to the occurrence of the migration event, a second resource group usage score for the second resource group, wherein the second resource group usage score is a prediction of aggregate system resource usage of applications in the second resource group subsequent to the occurrence of the migration event; determine, based on at least the first resource group usage score and second resource group usage score, that the first resource group is predicted to have greater likelihood of being in use after the migration event than the second resource group; and serially load, in response to the determination, the first resource group on the second computing node before the second resource group. 2. The computer system of claim 1 , wherein the program instructions executable by the processor further cause the computer system to: determine, based on the monitored system resource usage of the first set of applications, a resource usage score for a first application of the first set of applications by executing operations to determine a first resource usage value that indicates a quantity of a first system resource used by the first application, determine a second resource usage value that indicates quantity of a second system resource used by the first application, determine a first weight and a second weight to additively combine, respectively, the first resource usage value and the second resource usage value in a first mathematical expression, wherein the first weight and the second weight respectively indicate a relative importance, with respect to all system resources used by the first application, of the first system resource and the second system resource for determining the resource usage score for the first application, and evaluate the first mathematical expression to determine the resource usage score for the first application. 3. The computer system of claim 2 , wherein the program instructions executable by the processor further cause the computer system to: store, for each application in the first set of applications, the first resource usage score in a usage score history in a non-transient memory of a third computing node; and generate the first resource usage model using the usage score history. 4. The computer system of claim 2 , wherein the program instructions executable by the processor further cause the computer system to: determine, based on the monitored system resource usage of the first set of applications, a resource usage score for a second application of the first set of applications by executing operations to determine a third resource usage value that indicates a quantity of a third system resource used by the second application, determine a fourth resource usage value that indicates quantity of a fourth system resource used by the second application, determine a third weight and a fourth weight to additively combine, respectively, the third resource usage value and the fourth resource usage value in a second mathematical expression, wherein the third weight and the fourth weight respectively indicate a relative importance, with respect to all system resources used by the second application, of the third system resource and the fourth system resource for determining the resource usage score for the second application, and evaluate the second mathematical expression to determine the resource usage score for the second application; determine a fifth weight and a sixth weight to additively combine, respectively, the resource usage score for the first application and the resource usage score for the second application in a third mathematical expression, wherein the fifth weight and the sixth weight respectively indicate a relative importance, with respect to all applications in the first set of applications, of the first application and the second application to determining the first resource group usage score; and evaluate the third mathematical expression to determine the first resource group usage score. 5. The computer system of claim 1 , wherein the program instructions executable by the processor further cause the computer system to monitor system resource usage of the first set of applications by executing operations to measure at least one of central processor usage, memory utilization, storage utilization, and network utilization. 6. The computer system of claim 1 , wherein the program instructions executable by the processor further cause the computer system to: serially load the first resource group by executing operations to execute each application in the first set of applications on the second computing node. 7. A computer program product including a computer readable storage medium having program instructions embodied therewith, wherein the computer readable storage medium is not a transitory signal, the program instructions executable by a processing circuit to cause the processing circuit to perform a method comprising: monitoring system resource usage of a first set of applications in a first resource group of a set of at least two resource groups executing on a first computing node at a first time, wherein each resource group of the set of at least two resource groups includes one or more related applications that execute on the first computing node and utilize system resources of the first computing node; monitoring system resource usage of a second set of applications in a second resource group of the set