Method and apparatus for using a parameterized cell based circular sorting algorithm

What is claimed is: 1. An imaging apparatus, comprising: processing circuitry configured to detect a first event at a first detector crystal in a detector array including detector crystals grouped into detector blocks, each detector crystal configured to detect primary events of gamma rays and secondary scattering events of the gamma rays, the first event including first time information, first energy information, and first location information, assign the first event and the first time information, the first energy information, and the first location information to a first cell of a demultiplexer, determine, based on the first time information of the first event, a first time window for the first event, the first time window having a predetermined length of time, determine, based on the first location information of the first event, a location of a first detector block including the first detector crystal, determine a first zone assignment of the first event, the first zone assignment including at least the first detector block and defining an area around the first detector block within which additional events can be detected and related to the first event, detect a second event at a second detector crystal, the second event including second time information, second energy information, and second location information, determine, based on the second time information and the second location information of the second event, if the second event is detected within the first time window of the first event and within the first zone assignment of the first event, upon determining the second event is detected within the first time window and the first zone assignment of the first event, group the second event with the first event in the first cell of the demultiplexer, the second event being a detected scatter event of the first event, and upon determining the second event is not detected within the first time window or within the first zone assignment of the first event, assign the second event and the second time information, the second energy information, and the second location information to a second cell of the demultiplexer, the second event being a detected primary event. 2. The apparatus of claim 1 , wherein the processing circuitry is further configured to assign an event pointer configured to determine an activity status of the first cell in the demultiplexer based on the first time window for the first event and route detected events to the first cell for comparison, and upon determining a third event including third time information is detected outside the predetermined length of time of the first time window for the first event: assign the event pointer to the second cell of the demultiplexer, and transmit information in the first cell of the demulitplexer to a receiving device. 3. The apparatus of claim 2 , wherein the processing circuitry is further configured to reconstruct an image based on a dataset including the transmitted information in the cells of the demultiplexer. 4. The apparatus of claim 1 , wherein the processing circuitry is further configured to upon determining the second event is not detected within the first time window or within the first zone assignment of the first event: determine, based on the second time information of the second event, a second time window for the second event, the second time window having the predetermined length of time, determine, based on the second location information of the second event, a location of a second detector block including the second detector crystal, and determine a second zone assignment of the second event, the second zone assignment including at least the second detector block and defining an area around the second detector block within which additional events can be detected and related to the second event. 5. The apparatus of claim 1 , wherein the processing circuitry is communicatively coupled to the detector array and disposed substantially proximal to the detector array, and the processing circuitry is further configured to detect a new event, determine if the new event is detected within the time window and zone assignment of a previously detected event, and assign the new event to a cell in the demultiplexer as each gamma ray is detected. 6. The apparatus of claim 1 , wherein the demultiplexer is implemented in at least one of the group of an FPGA, an ASIC, and an EEPROM. 7. The apparatus of claim 1 , wherein each cell of the multiplexer is configured to group two events for the detected gamma rays, the two event grouping representing a single Compton scattering event following the primary event. 8. The apparatus of claim 1 , wherein each cell of the multiplexer is configured to group three events for the detected gamma rays, the three event grouping representing a double Compton scattering event following the primary event. 9. A method of grouping detection events in an imaging apparatus, comprising: detecting a first event at a first detector crystal in a detector array including detector crystals grouped into detector blocks, each detector crystal configured to detect primary events of gamma rays and secondary scattering events of the gamma rays, the first event including first time information, first energy information, and first location information; assigning the first event and the first time information, the first energy information, and the first location information to a first cell of a demultiplexer; determining, based on the first time information of the first event, a first time window for the first event, the first time window having a predetermined length of time; determining, based on the first location information of the first event, a location of a first detector block including the first detector crystal; determining a first zone assignment of the first event, the first zone assignment including at least the first detector block and defining an area around the first detector block within which additional events can be detected and related to the first event; detecting a second event at a second detector crystal, the second event including second time information, second energy information, and second location information; determining, based on the second time information and the second location information of the second event, if the second event is detected within the first time window of the first event and within the first zone assignment of the first event; upon determining the second event is detected within the first time window and the first zone assignment of the first event, grouping the second event with the first event in the first cell of the demultiplexer, the second event being a detected scatter event of the first event; and upon determining the second event is not detected within the first time window or within the first zone assignment of the first event, assigning the second event and the second time information, the second energy information, and the second location information to a second cell of the demultiplexer, the second event being a detected primary event. 10. The method of claim 9 , further comprising: assigning an event pointer configured to determine an activity status of the first cell in the demultiplexer based on the first time window for the first event and route detected events to the first cell for comparison; and upon determining a third event including third time information is detected outside the predetermined length of time of the first time window for the first event: assigning the event pointer to the second cell of the demultiplexer; and transmitting information in the first cell of the demulitplexer to a receiving device.