Patent Number: 
Section: claims

1. A method for modeling and monitoring system performance, the method comprising:defining system metrics;measuring defined system metrics;storing the measured system metrics;identifying correlations between pairs of measured system metrics;modeling system performance based upon at least one pair of system metrics having an identified correlation between them, wherein modeling system performance comprises:modeling a primary pair of system metrics, the primary pair comprising a first metric and a second metric, as the first metric changing as a non-linear function of the second metric;modeling a secondary pair of system metrics, the secondary pair comprising a second metric and a third metric, as the third metric changing as a non-linear function of the second metric, the second metric of the secondary pair being the same as the second metric of the primary pair; anddefining a relationship between the first metric and the third metric, such that a distance may be computed between the first metric and the third metric at a value of the second metric;determining the value of the second metric at which the distance between the first metric and the third metric is maximized;defining an optimal range around the determined value of the second metric; anddetermining that the measured value of the second metric does not fall within the optimal range and issuing an alarm. 2. At least one computer readable media having computer readable code embodied thereon for causing a computer to perform a method for modeling and monitoring system performance, the method comprising:defining system metrics;measuring defined system metrics;storing the measured system metrics;identifying correlations between pairs of measured system metrics;modeling system performance based upon at least one pair of system metrics having an identified correlation between them, wherein modeling system performance comprises:modeling a primary pair of system metrics, the primary pair comprising a first metric and a second metric, as the first metric changing as a non-linear function of the second metric;modeling a secondary pair of system metrics, the secondary pair comprising a second metric and a third metric, as the third metric changing as a non-linear function of the second metric, the second metric of the secondary pair being the same as the second metric of the primary pair; anddefining a relationship between the first metric and the third metric, such that a distance may be computed between the first metric and the third metric at a value of the second metric;determining the value of the second metric at which the distance between the first metric and the third metric is maximized;defining an optimal range around the determined value of the second metric; anddetermining that the measured value of the second metric does not fall within the optimal range and issuing an alarm. 3. The method for modeling and monitoring system performance of claim 1, wherein defining an optimal range comprises determining a range for which the distance between the first metric and the second metric is within a predetermined fraction of the maximum distance. 4. The method for modeling and monitoring system performance of claim 1, wherein defining an optimal range comprises defining a range of values for the second metric above the determined value of the second metric. 5. The method for modeling and monitoring system performance of claim 1, wherein defining an optimal range comprises defining a range of values for the second metric below the determined value of the second metric. 6. The method for modeling and monitoring system performance of claim 1, wherein defining an optimal range comprises defining an upper range of values for the second metric above the determined value of the second metric and defining a lower range of values for the second metric below the determined value of the second metric. 7. The at least one computer readable media of claim 2, wherein defining an optimal range comprises determining a range for which the distance between the first metric and the second metric is within a predetermined fraction of the maximum distance. 8. The at least one computer readable media of claim 2, wherein defining an optimal range comprises defining a range of values for the second metric above the determined value of the second metric. 9. The at least one computer readable media of claim 2, wherein defining an optimal range comprises defining a range of values for the second metric below the determined value of the second metric. 10. The at least one computer readable media of claim 2, wherein defining an optimal range comprises defining an upper range of values for the second metric above the determined value of the second metric and defining a lower range of values for the second metric below the determined value of the second metric.