Set/reset methods for crystallization improvement in phase change memories

What is claimed is: 1. An apparatus, comprising: a write circuit configured to connect to a set of phase change memory cells; and one or more control circuits configured to be in communication with the write circuit, the one or more control circuits are configured to cause the write circuit to perform a SET operation on the set of phase change memory cells and determine a number of SET/RESET cycles that have been applied to the set of phase change memory cells, the one or more control circuits are configured to detect that a two-step RESET operation should be applied to the set of phase change memory cells in response to detection that the number of SET/RESET cycles that have been applied to the set of phase change memory cells is greater than a threshold number of cycles, the one or more control circuits are configured to cause the write circuit to perform the two-step RESET operation in response to detection that the two-step RESET operation should be applied to the set of phase change memory cells. 2. The apparatus of claim 1 , wherein: the one or more control circuits are configured to determine an amount of time that has elapsed since the SET operation was performed and detect that the two-step RESET operation should be applied to the set of phase change memory cells in response to detection that the amount of time that has elapsed since the SET operation was performed is greater than a threshold amount of time and detection that the number of SET/RESET cycles that have been applied to the set of phase change memory cells is greater than the threshold number of cycles. 3. The apparatus of claim 1 , wherein: the one or more control circuits are configured to determine a first slope for a falling edge of the two-step RESET operation based on the number of SET/RESET cycles that have been applied to the set of phase change memory cells. 4. The apparatus of claim 1 , wherein: the one or more control circuits are configured to determine a number of data write errors that have occurred when SETTING the set of phase change memory cells and determine a first slope for a falling edge of the two-step RESET operation based on the number of data write errors that have occurred. 5. The apparatus of claim 1 , wherein: the one or more control circuits are configured to detect that an amount of time since the SET operation was performed on the set of phase change memory cells has exceeded a threshold amount of time. 6. The apparatus of claim 1 , wherein: the one or more control circuits are configured to determine a data retention time for data stored using the set of phase change memory cells and determine a first slope for a falling edge of the two-step RESET operation based on the data retention time. 7. The apparatus of claim 1 , wherein: the one or more control circuits are configured to determine an amount of time until the set of phase change memory cells will be written to or erased and determine a first slope for a falling edge of the two-step RESET operation based on the amount of time until the set of phase change memory cells will be written to or erased. 8. The apparatus of claim 1 , wherein: the one or more control circuits are configured to determine a first slope for a falling edge of the two-step RESET operation based on a data retention time and a number of data write errors that have occurred to the set of phase change memory cells. 9. The apparatus of claim 8 , wherein: the one or more control circuits are configured to apply a two-step RESET pulse with the first slope for the falling edge to the set of phase change memory cells. 10. The apparatus of claim 9 , wherein: the one or more control circuits are configured to determine a second slope different from the first slope for the falling edge of the two-step RESET operation and apply the two-step RESET pulse with the first slope and the second slope to the set of phase change memory cells. 11. The apparatus of claim 1 , wherein: the set of phase change memory cells includes a chalcogenide-based memory material. 12. The apparatus of claim 1 , wherein: the write circuit is arranged on a first die; and the set of phase change memory cells is arranged on a second die. 13. The apparatus of claim 1 , wherein: the one or more control circuits are configured to detect that the two-step RESET operation should be applied to the set of phase change memory cells in response to detection that the amount of time that has elapsed since the SET operation was performed is greater than a threshold amount of time. 14. A method, comprising: performing a SET operation on a set of phase change memory cells; determining a number of SET/RESET cycles that have been applied to the set of phase change memory cells; detecting that a two-step RESET operation should be applied to the set of phase change memory cells in response to detecting that the number of SET/RESET cycles that have been applied to the set of phase change memory cells is greater than a threshold number of cycles; determining a first slope for a falling edge of the two-step RESET operation based on the number of SET/RESET cycles that have been applied to the set of phase change memory cells; and performing the two-step RESET operation with the first slope for the falling edge to the set of phase change memory cells. 15. The method of claim 14 , further comprising: determining an amount of time that has elapsed since the SET operation was performed, the detecting that the two-step RESET operation should be applied to the set of phase change memory cells is performed in response to detecting that the amount of time that has elapsed since the SET operation was performed is greater than a threshold amount of time and detecting that the number of SET/RESET cycles that have been applied to the set of phase change memory cells is greater than the threshold number of cycles. 16. The method of claim 14 , wherein: the set of phase change memory cells includes a chalcogenide-based memory material. 17. An apparatus, comprising: one or more control circuits configured to be connected to one or more phase change memory cells, the one or more control circuits are configured to determine a first number of SET/RESET cycles that have been applied to the one or more phase change memory cells and determine a first slope for a falling edge of a first RESET pulse based on the first number of SET/RESET cycles, the one or more control circuits are configured to detect that the first number of SET/RESET cycles that have been applied to the one or more phase change memory cells is greater than a first threshold number of cycles and apply the first RESET pulse with the first slope for the falling edge of the first RESET pulse to the one or more phase change memory cells in response to detection that the first number of SET/RESET cycles that have been applied to the one or more phase change memory cells is greater than the first threshold number of cycles, the one or more control circuits are configured to determine a second number of SET/RESET cycles that have been applied to the one or more phase change memory cells and determine a second slope different from the first slope for a falling edge of a second RESET pulse based on the second number of SET/RESET cycles, the one or more control circuits are configured to apply the second RESET pulse with the second slope for the falling edge of the second RESET pulse to the one or more phase change memory cells. 18. The apparatus of claim 17 , wherein: the application of the first RESET pulse with the first