Distributed data collection for large field of view positron emission tomography

The invention claimed is: 1. A distributed data collection architecture for a positron emission tomography (PET) imaging system, comprising: a plurality of data collection boards, wherein each data collection board of the plurality of data collection boards is coupled to a respective gantry segment of the PET imaging system, wherein the PET imaging system comprises a modular gantry having a plurality of gantry segments that are physically separate from each other, and each gantry segment of the plurality of gantry segments comprises a plurality of detector modules coupled to a respective data collection board of the plurality of data collection boards; and wherein each respective data collection board of the plurality of data collection boards is configured to acquire all detector event data from a respective plurality of detector modules of the respective gantry segment the respective data collection board is coupled to, and only one data collection board of the plurality of data collection boards is configured to act as a master data collection board that collects all of the detector event data from each data collection board of the plurality of data collection boards and to generate coincidence pairs from all of the detector event data. 2. The distributed data collection architecture of claim 1 , wherein each data collection board of the plurality of data collection boards comprises a mezzanine board, and each mezzanine board has a common hardware structure. 3. The distributed data collection architecture of claim 2 , wherein each data collection board of the plurality of data collection boards is configured so that all outputs are outputted directly from the mezzanine board. 4. The distributed data collection architecture of claim 2 , wherein each data collection board of the plurality of data collection boards except the master data collection board comprises the mezzanine board coupled to a carrier board. 5. The distributed data collection architecture of claim 1 , wherein the plurality of detector modules in each gantry segment of the plurality of gantry segments is electrically coupled in a daisy-chain architecture. 6. The distributed data collection architecture of claim 1 , wherein at least one data collection board of the plurality of data collection boards in addition to the master data collection board is configured to perform coincidence event sorting on the detector event data acquired from the respective gantry segment of the plurality of gantry segments that the at least one data collection board is coupled to. 7. The distributed data collection architecture of claim 1 , wherein only the master data collection board is configured to perform coincidence event sorting on all of the detector event data collected from each data collection board of the plurality of data collection boards. 8. The distributed data collection architecture of claim 1 , wherein each respective data collection board of the plurality of data collection boards is configured to distribute power to the respective plurality of detector modules of the respective gantry segment of the plurality of gantry segments that the respective data collection board is coupled to. 9. The distributed data collection architecture of claim 1 , wherein the master data collection board is configured to provide a system-wide clock signal to the other data collection boards of the plurality of data collection boards, and each of the other data collection boards is configured to provide the system-wide clock signal to the respective plurality of detector modules of the respective gantry segment that the respective other data collection board is coupled to. 10. The distributed data collection architecture of claim 1 , wherein the distributed data collection architecture is configured to be scalable for the modular gantry, wherein the modular gantry comprises two or more gantry segments of the plurality of gantry segments. 11. A positron emission tomography (PET) imaging system, comprising: a modular gantry comprising a plurality of gantry segments that are physically separate from each other, wherein each gantry segment of the plurality of gantry segments comprises a plurality of detector modules; and a distributed data collection architecture comprising a plurality of data collection boards, each respective data collection board of the plurality of data collection boards is coupled to a respective plurality of detector modules of a respective gantry segment of the plurality of gantry segments, each respective data collection board comprises a mezzanine board, each mezzanine board has a common hardware structure, and only one data collection board of the plurality of data collection boards is configured to act as a master data collection board that collects all detector event data from each data collection board of the plurality of data collection boards and to generate coincidence pairs from all of the detector event data. 12. The PET imaging system of claim 11 , wherein each respective data collection board of the plurality of data collection boards is configured to acquire all detector event data from a respective plurality of detector modules of the respective gantry segment the respective data collection board is coupled to. 13. The PET imaging system of claim 12 , wherein at least one data collection board of the plurality of data collection boards in addition to the master data collection board is configured to perform coincidence event sorting on the detector event data acquired from the respectively gantry segment of the plurality of gantry segments that the at least one data collection board is coupled to. 14. The PET imaging system of claim 12 , wherein only the master data collection board is configured to perform coincidence event sorting on all of the detector event data collected from each data collection board of the plurality of data collection boards. 15. The PET imaging system of claim 11 , wherein each data collection board of the plurality of data collection boards is configured so that all outputs are outputted directly from the mezzanine board. 16. The PET imaging system of claim 11 , wherein each data collection board of the plurality of data collection boards except the master data collection board comprises the mezzanine board coupled to a carrier board. 17. The PET imaging system of claim 11 , wherein the distributed data collection architecture is configured to be scalable for the modular gantry, wherein the modular gantry comprises two or more gantry segments of the plurality of gantry segments. 18. The PET imaging system of claim 11 , wherein the master data collection board is configured to provide a system-wide clock signal to the other data collection boards of the plurality of data collection boards, and each of the other data collection boards is configured to provide the system-wide clock signal to the respective plurality of detector modules of the respective gantry segment that the respective other data collection board is coupled to. 19. The PET imaging system of claim 11 , wherein the plurality of data collection boards is electrically coupled in a daisy-chain architecture. 20. A set of data collection boards for a distributed data collection architecture for a positron emission tomography (PET) imaging system, comprising: a first data collection board configured to couple to a first plurality of detector modules of a first gantry segment of the PET imaging system, wherein the PET imaging system comprises a modular gantry having a pl