Balancing SSD wear in data storage systems

What is claimed is: 1. A method for use in balancing flash drive wear in data storage systems, the method comprising: identifying multiple sets of flash drives, wherein each set of flash drives store data arranged in multiple slices striped across the set of flash drives; predicting, for each set of flash drives, a write rate at which data will be written to the multiple slices stored on the set of flash drives during a next time interval; determining, for each set of flash drives, a number of bytes that can be written to each set of flash drives, wherein the number is based on a remaining program/erase (PE) cycle count for each respective set of flash drives; determining, for each set of flash drives, a metric representative of a wear rate, the metric based on a respective flash drive's determined predicted write rate and the determined number of bytes that can be written to each set of flash drives; and balancing the wear rate of the multiple sets of flash drives based on each respective flash drives wear rate. 2. The method as claimed in claim 1 , wherein predicting the write rate includes identifying one or more actual write rates occurring during one or more corresponding time intervals occurring substantially immediately prior to the next time interval. 3. The method as claimed in claim 1 , wherein predicting the write rate includes identifying one or more actual write rates occurring during one or more corresponding time intervals occurring substantially immediately prior to the next time interval, wherein the predicted write rate is a function of the identified one or more actual write rates. 4. The method as claimed in claim 1 , wherein balancing includes identifying a first set of flash drives having a higher wear rate than a second set of flash drives and remapping one or more slices from the first set of flash drives to the second set of flash drives. 5. A system for use in balancing flash drive wear in data storage systems, the system comprising: a storage processor and memory configured to: identify multiple sets of flash drives, wherein each set of flash drives store data arranged in multiple slices striped across the set of flash drives; predict, for each set of flash drives, a write rate at which data will be written to the multiple slices stored on the set of flash drives during a next time interval; determine, for each set of flash drives, a number of bytes that can be written to each set of flash drives, wherein the number is based on a remaining program/erase (PE) cycle count for each respective set of flash drives; determine, for each set of flash drives, a metric representative of a wear rate, the metric based on a respective flash drive's determined predicted write rate and the determined number of bytes that can be written to each set of flash drives; and balance the wear rate of the multiple sets of flash drives based on each respective flash drives wear rate. 6. A computer-program product including a non-transitory computer-readable storage medium encoded with computer-program code that, when executed on a processor of a computer, causes the computer to manage data storage in a data storage system, the computer-program product further comprising: identifying multiple sets of flash drives, wherein each set of flash drives store data arranged in multiple slices striped across the set of flash drives; predicting, for each set of flash drives, a write rate at which data will be written to the multiple slices stored on the set of flash drives during a next time interval; determining, for each set of flash drives, a number of bytes that can be written to each set of flash drives, wherein the number is based on a remaining program/erase (PE) cycle count for each respective set of flash drives; determining, for each set of flash drives, a metric representative of a wear rate, the metric based on a respective flash drive's determined predicted write rate and the determined number of bytes that can be written to each set of flash drives; and balancing the wear rate of the multiple sets of flash drives based on each respective flash drives wear rate.