Threshold selector for flow cytometer

What is claimed is: 1. A flow cytometry apparatus comprising: a detector configured to produce a detector signal responsive to detecting light during operation of the flow cytometer; a first pulse processor configured to receive the detector signal from the detector and to output detector data characterizing pulse heights of pulses in the detector signal; a second pulse processor configured to also receive the detector signal from the detector and to output a pulse height data signal, a pulse width data signal, and a pulse area data signal for desired pulses in the detector signal, wherein, for each desired pulse: the second pulse processor is configured to output the pulse height data signal, the pulse width data signal, and the pulse area data signal for that desired pulse responsive to a set of one or more trigger conditions being met, and the set of one or more trigger conditions at least includes a trigger condition involving a comparison of the pulse height for that desired pulse with a trigger threshold value; a real-time trigger module configured to receive the detector data from the first pulse processor and to generate periodic histogram data from the detector data; and a threshold selector configured to receive the periodic histogram data from the real-time trigger module and to provide the trigger threshold value. 2. The flow cytometry apparatus of claim 1 , wherein the set of one or more trigger conditions is met for each desired pulse when the pulse height for that desired pulse meets or exceeds the trigger threshold value. 3. The flow cytometry apparatus of claim 1 , wherein the first pulse processor is configured to output the detector data characterizing the pulse height of the pulses in the detector signal only for pulses that meet or exceed a baseline trigger value. 4. The flow cytometry apparatus of claim 1 , further comprising a data storage device, wherein the flow cytometry apparatus is configured to store the pulse height data signal, the pulse width data signal, and the pulse area data signal output by the second pulse processor on the data storage device. 5. The flow cytometry apparatus of claim 4 , wherein data from the first pulse processor is not stored on the data storage device. 6. The flow cytometry apparatus of claim 1 , further comprising: one or more additional detectors; and one or more additional second pulse processors, wherein: each additional detector is configured to produce a corresponding additional detector signal responsive to detecting light during operation of the flow cytometer, and each additional second pulse processor is associated with a different one of the one or more additional detectors and is configured to receive the corresponding additional detector signal from that additional detector and to output at least a corresponding additional pulse height data signal, a corresponding additional pulse width data signal, and a corresponding additional pulse area data signal responsive to each time the set of one or more trigger conditions is met. 7. The flow cytometry apparatus of claim 6 , further comprising: an additional first pulse processor configured to receive the corresponding additional detector signal from a particular one of the one or more additional detectors and to output additional detector data characterizing pulse heights of pulses in that corresponding additional detector signal; and an additional real-time trigger module configured to receive the additional detector data from the additional first pulse processor and to generate additional periodic histogram data from the additional detector data, wherein: the threshold selector is further configured to receive the additional periodic histogram data from the additional real-time trigger module and to provide an additional trigger threshold value, and the set of one or more trigger conditions further includes a trigger condition involving a comparison of a pulse height in the corresponding additional detector signal from the particular one of the one or more additional detectors with the additional trigger threshold value. 8. The flow cytometry apparatus of claim 7 , wherein the set of one or more trigger conditions is met for each desired pulse when: the pulse height for that desired pulse meets or exceeds the trigger threshold value, and the pulse height in the corresponding additional detector signal from the particular one of the one or more additional detectors meets or exceeds the additional trigger threshold value during that desired pulse. 9. The flow cytometry apparatus of claim 7 , wherein the set of one or more trigger conditions is met for each desired pulse when a logic statement evaluates to true, the logic statement involving one or more Boolean operators, an evaluation of whether the pulse height for that desired pulse met or exceeded the trigger threshold value, and an evaluation of whether the pulse height in the corresponding additional detector signal from the particular one of the one or more additional detectors met or exceeded the additional trigger threshold value during that desired pulse, wherein the one or more Boolean operators are selected from the group consisting of an AND operator, an OR operator, a NOT operator, and combinations thereof. 10. The flow cytometry apparatus of claim 1 , wherein the real-time trigger module includes: a logarithmic converter; a state machine; a first RAM; and a second RAM, wherein: the logarithmic converter is configured to convert the detector data into logarithmic detector data, the first RAM stores occurrence values, each occurrence value is associated with a different logarithmic pulse height value contained within the logarithmic detector data, and the state machine is configured to: determine the logarithmic pulse height value for each pulse of the pulses represented in the logarithmic detector data during a first predetermined time period, cause, for each logarithmic pulse height value that is determined, the occurrence value associated with that logarithmic pulse height value to be incremented by one, and cause the occurrence values stored in the first RAM at the end of the first predetermined time period to be copied to the second RAM and, subsequent to causing the occurrence values stored in the first RAM to be copied to the second RAM, cause the occurrence values stored in the first RAM to be re-set. 11. The flow cytometry apparatus of claim 1 , further comprising a display device, wherein the threshold selector is configured to: present the periodic histogram data on the display device, receive an input indicating a value for the trigger threshold value, and use the value indicated by the input as the trigger threshold value. 12. The flow cytometry apparatus of claim 11 , further comprising a memory, wherein the threshold selector is configured to: store occurrence values in the memory that are representative of one or more first instances of the periodic histogram data as a background noise template, and subtract the occurrence values of the background noise template from corresponding occurrence values in one or more second instances of the periodic histogram data generated after the one or more first instances of the periodic histogram data before presenting the one or more second instances of the periodic histogram data on the display device. 13. The flow cytometry apparatus of claim 1 , wherein the threshold selector is configured to automatically select the trigger threshold based on the periodic histogram data. 14. The flow cytometry apparatus of claim 13 , wherein the threshold selector is configured t