System and method of managing ECG data for user defined map

What is claimed is: 1. An electrocardiogram (ECG) data management system comprising: a first memory portion configured to store portions of ECG data, each portion having values corresponding to an electrical signal of a heart of a patient acquired, over a same time period as the other portions, via a corresponding one of a plurality of electrodes disposed at different areas of the heart of the patient; and a second memory portion configured to store each portion of the ECG data corresponding to the electrical signals of the heart of the patient acquired over the same time period; a processing device configured to manage mapping of the ECG data by: performing a mapping procedure including generating and displaying map data corresponding to each portion of the ECG data acquired over the same period of time; concurrently storing each portion of the ECG data, acquired over the same period of time, in the first memory portion and the second memory portion; and in response to a request to export each portion of the ECG data, stopping the storing of the ECG data in the second memory portion and synchronizing the ECG data stored in the second memory portion with the map data while continuing to perform the mapping procedure. 2. The system of claim 1 , wherein the processing device is further configured to manage the mapping of the ECG data by: importing new ECG data comprising new values which replace values of the map data; and performing the mapping procedure by generating new map data from the new ECG data and providing the new map data for displaying a new map. 3. The system of claim 1 , further comprising a catheter which comprises the plurality of electrodes, wherein the catheter is maneuverable to place each of the plurality of electrodes at the different areas of the heart. 4. The system of claim 1 , wherein the second memory portion is a removable storage device. 5. The system of claim 1 , wherein the processing device is further configured to manage mapping of the ECG data by: providing a plurality of selectable acquisition time intervals, each comprising a different time period for acquiring the electrical signals of the heart; receiving a selection to acquire the electrical signals of the heart using one of the plurality of selectable acquisition time intervals; and acquiring the electrical signals of the heart using one of the plurality of selectable acquisition time intervals for the mapping procedure. 6. The system of claim 1 , wherein synchronizing the ECG data stored in the second memory portion with the map data comprises causing the ECG data currently stored in the second memory portion to match the map data generated prior to receiving the request to export the ECG data. 7. The system of claim 6 , wherein causing the ECG data currently stored in the second memory portion to match the map data generated prior to receiving the request to export the ECG data further comprises at least one of deleting a current portion of the ECG data stored in the second memory portion and adding an additional portion of ECG data to the ECG data stored in the second memory portion. 8. The system of claim 6 , further comprising a display device, wherein the processing device is further configured to manage mapping of the ECG data by providing the map data and the one or more maps to the display device for display, and the display device is configured to display at least one of the map data and the one or more maps. 9. A method of managing electrocardiogram ECG data for a user defined map, the method comprising: acquiring portions of ECG data, each portion corresponding to an electrical signal of a heart acquired over a same time period as the other portions, via a corresponding one of a plurality of electrodes disposed at different areas of the heart; performing a mapping procedure including generating and displaying map data corresponding to each portion of the ECG data acquired over the same period of time; concurrently storing each portion of the ECG data, acquired over the same period of time, in a first memory portion and a second memory portion; and in response to a request to export each portion of the ECG data, stopping the storing of the ECG data in the second memory portion and synchronizing the ECG data stored in the second memory portion with the map data while continuing to perform the mapping procedure. 10. The method of claim 9 , further comprising: importing new ECG data comprising new values which replace values of the map data; and performing the mapping procedure by generating new map data from the new ECG data and providing the new map data for displaying a new map; and displaying the new map data and the new map. 11. The method of claim 9 , further comprising: providing a plurality of selectable acquisition time intervals, each comprising a different time period for acquiring the electrical signals of the heart; receiving a selection to acquire the electrical signals of the heart using one of the plurality of selectable acquisition time intervals; and acquiring the electrical signals of the heart using one of the plurality of selectable acquisition time intervals for the mapping procedure. 12. The method of claim 9 , wherein synchronizing the ECG data stored in the second memory portion with the map data comprises causing the ECG data currently stored in the second memory portion to match the map data generated prior to receiving the request to export the ECG data. 13. The method of claim 12 , wherein causing the ECG data currently stored in the second memory portion to match the map data generated prior to receiving the request to export the ECG data further comprises at least one of deleting a current portion of the ECG data stored in the second memory portion and adding an additional portion of ECG data to the ECG data stored in the second memory portion. 14. The method of claim 9 , further comprising: providing the map data and the one or more maps to a display device for display, and displaying at least one of the map data and the one or more maps at the display device. 15. The method of claim 9 , further comprising using a catheter comprising the plurality of electrodes to acquire the electrical signals of the heart. 16. A non-transitory computer readable medium comprising instructions for causing a computer to execute a computer vision acceleration method, the instructions comprising: acquiring portions of ECG data, each portion corresponding to an electrical signal of a heart acquired over a same time period as the other portions, via a corresponding one of a plurality of electrodes disposed at different areas of the heart; performing a mapping procedure including generating and displaying map data corresponding to each portion of the ECG data acquired over the same period of time; concurrently storing each portion of the ECG data, acquired over the same period of time, in a first memory portion and a second memory portion; and in response to a request to export each portion of the ECG data, stopping the storing of the ECG data in the second memory portion and synchronizing the ECG data stored in the second memory portion with the map data while continuing to perform the mapping procedure. 17. The computer readable medium of claim 16 , the instructions further comprising: importing new ECG data comprising new values which replace values of the map data; and performing the mapping procedure by generating new map data from the new ECG data and providing the new map data for displaying a new map; and displaying the new