ADAPTIVE DYNAMIC BUFFERING SYSTEM FOR POWER MANAGEMENT IN SERVER CLUSTERS

1. A computer program product for managing power consumption in a system comprising at least two computing devices including a first group of active computing devices each adapted for processing a computational workload, the computer program comprising a computer readable medium having computer usable program code embodied therewith, the computer usable program code comprising:

• computer usable code configured to sense a state of processing operations at said active computing devices,computer usable code configured to receive, at said control device, a signal requesting that additional computing devices from a second group of inactive computing devices be added to the first group of active computing devices, or that computing devices from the first group of active computing devices be placed in the second group of inactive computing devices according to said state of processing operations;
  
  computer usable code configured to determine a system transition time TT value for moving one or more computing devices from the second group of ready computing devices to said first group of active devices, and comparing said TT value against a minimum value, M_min, representing a minimum acceptable delay time for switching a standby computing device from said second group of ready computing devices to said first group of active computing devices and, against a maximum value, M_max, representing a maximum delay interval when all computing devices are in a powered off state;
  
  said computer usable code configured to enable the control device to further dynamically generate a readiness index parameter RI_t at a current time indicating a state of system readiness where RI_t is a real number from 0 to 1, where 0 represents minimum readiness and 1 represents maximum readiness, said RI_t calculated according to one of;
  
  RI_t=RI<sub>t−
  
  1</sub>+(TT−
  
  M_min)/M_max, when increasing system readiness according to a predetermined system response time policy, or,RI_t=RI<sub>t−
  
  1</sub>−
  
  (TT−
  
  M_min)/M_max, when decreasing system readiness according to a predetermined system response time policy, and, where RI<sub>t−
  
  1</sub> is a RI value prior to said current time; and
  
  ,computer usable code configured to dynamically allocate one or more computing devices in said second group of ready computing devices in various stages of stand-by, hibernating and power-off readiness according to a value of said readiness index parameter, whereinif RI=0, all N ready computing devices in the second group are in powered-off state where N=number of total ready computing devices in the second group; and
  
  ,if RI=1, all N ready computing devices in the second group are in one of;
  
  standby state or hibernating state;
  
  wherein, a time it takes to bringing a computing device from said second group of ready computing device to an active readiness state in said first group is minimized, while maximizing energy savings in said system.