Patent ID: 8818840

Claim:
A computer implemented method that derives an algorithm for a Capacity Management Index (CMI) that is used in an enterprise strategy process for managing capacity, comprising the steps of: defining Capacity Management Index (K) as a sum of all Service Indices (S S ), weighted according to a predetermined significance of their individual contributions; defining a Service Index (S S ) as a sum of all Component Indices (C C ) for that Service, weighted according to a relative importance of their individual contributions; defining a Component Index (C C ) for a given component as a ratio of a demand (D C ) for that Component to a capacity (k C ) of that Component; interpreting, by at least one computing device, the Component Index (C C ) as follows: C C <1 Capacity exceeds Demand; C C =1 Capacity equals Demand; and C C >1 Demand exceeds Capacity; inserting, by the at least one computing device, the definition of the Component Index (C C ) into the definition for the Service Index (S S ) and inserting the definition of the Service Index (S S ) into the definition for the CMI (K) and obtaining a CMI (K) that represents an aggregate index over all Lines of Business (L); incorporating, by the at least one computing device, additional Demand considerations by recognizing them as demands of a Technology Infrastructure Group (TIG); incorporating, by the at least one computing device, demand forecasting upon the Lines of Business; wherein if using measured data, then K represents an Actual CMI; wherein if using forecast data, then K represents any of an Historical or a Future forecast CMI, respectively depending on a predetermined time interval; including, by the at least one computing device, a confidence factor (F) that is based upon an observed deviance of historical forecast values from values that are actual and measured; adjusting, by the at least one computing device, the confidence factor (F) by a time-based factor (T); including, by the at least one computing device, external factors by establishing a correlation between external factor and internal business metric, by establishing a correlation between internal business metric and service metric, and by using derivations to define a relationship between external factors and service demand; combining, by the at least one computing device, a set of internal Future forecasts (K Future ) with a set of External Indicators (K Ee ), weighted such that a given forecasts contribution to a Combined forecast (K combined ) is proportional to a relative strength of its correlation to the Actual CMI (K Actual ); and adding, by the at least one computing device, Overhead demand (D O ) and Buffer demand (D B ) for each component to form a resultant K; responsive to adding Overhead demand and Buffer demand, using said resultant K in an enterprise strategy process for managing capacity.