Reducing power consumption by migration of data within a tiered storage system

What is claimed is: 1. A method, in a data processing system, for managing data segments in a tiered storage system, comprising: recording first usage pattern information for storage devices in a first tier of the tiered storage system using a counter with a first set of counters for each given storage device that measures an operations per second rate for the entire given storage device; recording second usage pattern information for data segments in the storage devices using a second set of counters that measure an operations per second rate the data segments; analyzing the recorded first usage pattern information and the recorded second usage pattern information for a period of time of off-peak utilization of the tiered storage system; identifying, based on results of the analysis of the recorded first usage pattern information for the period of time of off-peak utilization of the tiered storage system, one or more first storage devices in the first tier of the tiered storage system that are accessed during the period of time of off-peak utilization of the tiered storage system at an operations per second rate lower than a cold storage device threshold and may be placed in a minimal power consumption state; identifying, based on results of the analysis of the recorded second usage pattern information for the period of time of off-peak utilization of the tiered storage system, one or more data segments stored on the identified one or more first storage devices that are most likely to be accessed during a period of time in which the one or more first storage devices are in the minimal power consumption state; migrating the one or more data segments to one or more second storage devices in one of the first tier or a second tier of the storage system; and placing the one or more first storage devices in the minimal power consumption state, wherein access requests to the one or more data segments are serviced by the one or more second storage devices while the one or more first storage devices are in the minimal power consumption state. 2. The method of claim 1 , wherein the one or more first storage devices are rotating disk based storage devices, and wherein the one or more second storage devices are non-rotating disk based storage devices. 3. The method of claim 2 , wherein the one or more second storage devices are solid state drives. 4. The method of claim 1 , wherein the first tier is a lower tier in the tiered storage system than the second tier, and wherein migrating the one or more data segments to the one or more second storage devices comprises migrating the one or more data segments from the one or more first storage devices in the first tier to the one or more second storage devices in the second tier. 5. The method of claim 1 , wherein a total number of storage devices in the one or more second storage devices is less than a total number of storage devices in the one or more first storage devices. 6. The method of claim 1 , wherein identifying the one or more first storage devices in the first tier of the tiered storage system that may be placed in a minimal power consumption state comprises: providing application integration for analyzing operations of at least one application to determine which storage devices and data segments within storage devices are targeted by operations of the at least one application; and identifying the one or more first storage devices based on a determination as to which storage devices are targeted by operations of the at least one application as identified by the application integration. 7. The method of claim 6 , wherein the at least one application is a data backup application. 8. The method of claim 1 , wherein identifying the one or more data segments stored on the one or more first storage devices that are most likely to be accessed during the period of time in which the one or more first storage devices are in the minimal power consumption state comprises: associating a counter within the second set of counters with each data segment in the one or more first storage devices; incrementing, over the period of time of off-peak utilization of the tiered storage system, the counters associated with the data segments in the one or more first storage devices in response to accesses to data segments corresponding to the counters; comparing values of the counters associated with the data segments in the one or more first storage devices to a hot spot threshold; and identifying the one or more data segments as data segments having corresponding counter values that meet or exceed the hot spot threshold. 9. The method of claim 1 , further comprising: determining whether a number of accesses to the one or more data segments, during the period of time that the one or more first storage devices are in the minimal power consumption state, and which have been migrated to the one or more second storage devices, meet or exceed a predetermined threshold; and in response to the number of accesses to the one or more data segments meeting or exceeding the predetermined threshold, returning the one or more first storage devices to a normal power consumption state and migrating the one or more data segments back to the one or more first storage devices from the one or more second storage devices. 10. The method of claim 1 , wherein the data processing system is a cloud computing system in which the method is implemented as a service provided by the cloud computing system. 11. The method of claim 1 , wherein the first tier is a lower tier in the tiered storage system than the second tier, and wherein migrating the one or more data segments to the one or more second storage devices comprises migrating the one or more data segments from the one or more first storage devices in the first tier to the one or more second storage devices in the first tier. 12. A computer program product comprising a non-transitory computer storage medium having a computer readable program stored thereon, wherein the computer readable program, when executed on a data processing system, causes the data processing system to: record first usage pattern information for storage devices in a first tier of the tiered storage system using a counter with a first set of counters for each given storage device that measures an operations per second rate for the entire given storage device; record second usage pattern information for data segments in the storage devices using a second set of counters that measure an operations per second rate the data segments; analyze the recorded first usage pattern information and the recorded second usage pattern information for a period of time of off-peak utilization of the tiered storage system; identify, based on results of the analysis of the recorded first usage pattern information for the period of time of off-peak utilization of the tiered storage system, one or more first storage devices in the first tier of the tiered storage system that are accessed during the period of time of off-peak utilization of the tiered storage system at an operations per second rate lower than a cold storage device threshold and may be placed in a minimal power consumption state; identify, based on results of the analysis of the recorded second usage pattern information for the period of time of off-peak utilization of the tiered storage system, one or more data segments stored on the identified one or more first storage devices that are most likely to be accessed during a period of time in which the one or more first storage devices are in the minimal power consumption state; migrate the one or more data segments to one or more second storage devices in