Error detection, correction, and media management on a dram device

What is claimed is: 1. A tangible, non-transitory, computer readable storage medium comprising instructions which, when executed by a processor of a computer system, causes the processor to execute a method comprising: reading a data block from a first memory address of a dynamic random-access memory of the computer system; identifying an error in the data block via the processor of the computer system; correcting the error via the processor generating a corrected data; writing the corrected data to the first memory address; reading data back from the first memory address to obtain a read-back data; identifying whether the read-back data has an error or not; upon determining that the read-back data has an error: identifying that the first memory address is in need of repair; upon identifying that the first memory address is in need of repair, repairing the first memory address; recording the first memory address of the error in a long-term historical storage of memory errors; and upon determining that the read-back data does not have an error, determining that the first memory address has a historical storage record of read errors or that the first memory address does not have a historical storage record of read errors. 2. The computer readable storage medium of claim 1 , wherein the method further comprises: upon determining that the read-back data does not have an error, and that the first memory address does not have a history of read errors, recording the address of the memory error in the long-term historical error storage. 3. The computer readable storage medium of claim 1 , wherein the method further comprises: upon determining that the read-back data does not have an error, and that the first memory address does have a history of read errors, identifying that the first memory address is in need of repair or that the first memory address is not in need of repair; and recording the location of the memory error in the long-term historical error storage. 4. The computer readable storage medium of claim 3 , wherein the method block of identifying that the first memory address is in need of repair or that the first memory address is not in need of repair further comprises: identifying from the long-term historical storage of memory errors at least one of: a number of historical memory errors for the first memory address and a time frequency of historical memory errors for the first memory address; and determining that the first memory address is in need of repair based upon at least one of: the number of historical memory errors exceeding a designated error threshold and the time frequency of historical memory errors exceeding a designated time frequency threshold. 5. The computer readable storage medium of claim 4 , wherein the method further comprises: upon determining that the first memory address is in need of repair, performing either a soft post package repair or a hard post package repair. 6. The computer readable storage medium of claim 1 , wherein the method block of repairing the memory address further comprises performing either a soft post package repair or a hard post package repair. 7. A tangible, non-transitory, computer readable storage medium comprising instructions which, when executed by a processor of a computer system, causes the processor to execute a method comprising: reading a data block from a first memory address of a dynamic random access memory of the computer system; identifying via the processor of the computer system an error in the data block; correcting the error via a processor generating a corrected data; writing the corrected data to the first memory address; reading data back from the first memory address to obtain a read-back data; identifying whether the read-back data has an error or not; upon determining that the read-back data has an error, identifying that the first memory address is in need of post package repair (PPR); upon identifying that the first memory address is in need of PPR, wherein a repair comprises identifying a second memory address to replace the first memory address, establishing a priority among errors and repairs to the errors; upon prioritizing the repairs, determining when a matching respective soft PPR memory location or a respective hard PPR memory location is available; and upon determining that the respective soft or hard PPR memory location is available, storing a corrected data block in the respective soft or hard PPR memory location. 8. The computer readable storage medium of claim 7 , wherein the method further comprises: for a repair which has been prioritized as a soft PPR, and upon determining that a soft PPR memory location is not available, storing the corrected data block in the hard PPR memory location; and for a repair which has been prioritized as a hard PPR, and upon determining that a hard PPR memory location is not available, storing the corrected data block in a soft PPR memory location. 9. The computer readable storage medium of claim 7 , wherein the method further comprises: maintaining a long-term historical storage of memory errors; and wherein the prioritizing the repair as a soft PPR or as a hard PPR further comprises determining a probability that the memory location is prone to becoming an uncorrectable memory location, wherein a memory location determined based on its error history to have a higher probability of becoming an uncorrectable memory is designated for a higher priority for hard PPR. 10. The computer readable storage medium of claim 7 , wherein the method block of determining a probability that the memory location is prone to becoming an uncorrectable memory location comprises determining when the first memory address has more than a threshold number of memory errors based on its history of memory errors in the long-term historical error storage. 11. The computer readable storage medium of claim 7 , wherein the method block determining a likelihood the memory location is likely to become an uncorrectable memory location further comprises determining when the first memory address has more than a threshold frequency of memory errors based on its history of memory errors in the long-term historical storage. 12. The computer readable storage medium of claim 7 , wherein the method block determining a likelihood the memory location is likely to becoming an uncorrectable memory location further comprises determining a historical type of memory error for the first memory address. 13. A tangible, non-transitory, computer readable storage medium comprising instructions which, when executed by a processor of a computer system, causes the processor to execute a method comprising: reading a data block from a first memory address of a dynamic random access memory of the computer system; identifying via the processor of the computer system an error in the data block; correcting the error via a processor generating a corrected data; writing the corrected data to the first memory address; reading data back from the first memory address to obtain a read-back data; identifying whether the read-back data has an error or not; upon determining that the read-back data has an error, identifying that the first memory address is in need of repair; receiving error data pertaining to read errors in memory read operations from a dynamic random access memory (DRAM); storing in a long-term historical error storage of a persistent storage module a listing of memory addresses associated with past errors in memory read operations; receiving a current memory address associated with a current error in a memory read operation; and