Abstract: The present invention provides a METHOD AND APPARATUS FOR HOLISTIC POWER MANAGEMENT TO DYNAMICALLY AND AUTOMATICALLY TURN SERVERS, NETWORK EQUIPMENT AND FACILITY COMPONENTS ON AND OFF INSIDE AND ACROSS MULTIPLE DATA CENTERS BASED ON A VARIETY OF PARAMETERS WITHOUT VIOLATING EXISTING SERVICE LEVELS. This method and apparatus pertains specifically to a method and apparatus for power management in data centers and large server environments. Until today all servers running a specific application or virtualized environment are kept turned on to support various levels of application demand. With the invention of Holistic Power Management this invention completely automates the tasks required to shutdown and turn off servers not needed and to turn them on and start them up independent of their physical location. Furthermore this invention makes such changes dynamically based on application load, environmental conditions and energy pricing and availability and can adjust cooling services accordingly.

Abstract: The present invention provides a METHOD TO CALCULATE AN ENERGY EFFICIENCY RATING for information technology equipment. This method specifically pertains to information technology equipment that doubles its capabilities in a predetermined timeframe according to Moore's Law. This method uses a formula to calculate an energy efficiency rating based on power consumption and transactions per second. It further calculates a normalized rating where the absolute rating is adjusted based on Moore's Law prediction of improvements. As a result the method invented is the first and only method to compare information technology from various generations of hardware, processor and component architecture with each other in terms of their energy efficiency.

Abstract: The present invention provides a METHOD TO CALCULATE AN ENERGY EFFICIENCY RATING for information technology equipment. This method specifically pertains to information technology equipment that doubles its capabilities in a predetermined timeframe according to Moore's Law. This method uses a formula to calculate an energy efficiency rating based on power consumption and transactions per second. It further calculates a normalized rating where the absolute rating is adjusted based on Moore's Law prediction of improvements. As a result the method invented is the first and only method to compare information technology from various generations of hardware, processor and component architecture with each other in terms of their energy efficiency.

Abstract: The present invention provides a METHOD TO CALCULATE AN ENERGY EFFICIENCY RATING for information technology equipment. This method specifically pertains to information technology equipment that doubles its capabilities in a predetermined timeframe according to Moore's Law. This method uses a formula to calculate an energy efficiency rating based on power consumption and transactions per second. It further calculates a normalized rating where the absolute rating is adjusted based on Moore's Law prediction of improvements. As a result the method invented is the first and only method to compare information technology from various generations of hardware, processor and component architecture with each other in terms of their energy efficiency.