Methods, systems, and apparatuses for improving drop velocity uniformity, drop mass uniformity, and drop formation

What is claimed is: 1. A print head, comprising: an ink jet module that comprises, a plurality of droplet ejection devices to eject droplets of a fluid; and a control circuitry coupled to the plurality of droplet ejection devices, wherein during operation, the control circuitry is configured to drive the plurality of droplet ejection devices by applying a multi-level waveform comprising a first level and a second level to the plurality of droplet ejection devices and using the multi-level waveform in one of the plurality of droplet ejection devices to eject one or more droplets, wherein the second level includes a first section having at least one compensating edge and a second section having at least one drive pulse and the first level includes the second section without the first section, wherein the at least one compensating edge has a compensating effect to compensate for systematic variation in a droplet parameter across the plurality of the droplet ejection devices, wherein the control circuitry is configured to determine a spatial distribution of a droplet ejection parameter across a plurality of droplet ejection devices, wherein the control circuitry is configured to identify a first group of the plurality of droplet ejection devices and a distribution, wherein the control circuitry is configured to determine a mapping for mapping image pixel levels of the multi-level waveform based on the spatial of the plurality of droplet ejection devices into the second level of the multi-level waveform while the pixels in the first group of the plurality of droplet election devices remain in the first level of the multi-level waveform. 2. The print head of claim 1 , wherein the spatial distribution of the droplet ejection parameter comprises a spatial distribution of a droplet velocity across the plurality of the droplet ejection devices. 3. The print head of claim 1 , wherein the spatial distribution of the droplet ejection parameter comprises a spatial distribution of a droplet mass across the plurality of the droplet ejection devices. 4. The print head of claim 1 , wherein the first section includes a plurality of compensating edges or a plurality of compensating pulses. 5. The print head of claim 1 , wherein the at least one compensating edge causes an increase or decrease in drop mass of droplets ejected by the droplet ejection devices. 6. The print head of claim 1 , wherein the at least one compensating edge is configured to improve drop formation of droplets ejected by the droplet ejection devices. 7. The print head of claim 1 , wherein the at least one compensating edge is configured to reduce frequency response variation of droplets ejected by the droplet ejection devices. 8. The print head of claim 1 , wherein the at least one drive pulse in the multilevel waveform comprises a plurality of drive pulses having a separation between adjacent drive pulses that corresponds to a resonance time period of the plurality of droplet ejection devices for ejecting the one or more droplets of a fluid. 9. The print head of claim 1 , wherein the at least one compensating edge is designed to not eject a droplet. 10. The print head of claim 1 , wherein the at least one compensating edge is designed to compensate for systematic variation of the droplet parameter across different die locations for the plurality of droplet ejection devices. 11. The print head of claim 1 , wherein the at least one compensating edge in the first section has a peak voltage that is approximately ten percent of a peak voltage of the at least one drive pulse in the second section of the multi-level waveform. 12. The print head of claim 1 , wherein the at least one drive pulse of the multilevel waveform comprises five drive pulses for ejecting the one or more droplets of the fluid. 13. The print head of claim 12 , wherein at least one of the five drive pulses has a different peak voltage level than peak voltage levels of the other drive pulses. 14. A print head, comprising: an ink jet module that comprises, a plurality of droplet ejection devices to eject droplets of a fluid; and control circuitry coupled to the plurality of droplet ejection devices, wherein during operation, the control circuitry to drive the plurality of droplet ejection devices by applying a multi-level waveform to the plurality of droplet ejection devices and using the multi-level waveform in one of the plurality of droplet ejection devices to eject one or more droplets, the multi-level waveform includes a first section having at least one compensating edge and a second section having at least one drive pulse, the at least one compensating edge has a compensating effect to compensate for systematic variation in a droplet parameter across the plurality of the droplet ejection devices, wherein the multi-level waveform further comprises a non-drop-firing portion that includes a jet straightening edge having a droplet straightening function and at least one cancellation edge having an energy canceling function. 15. The print head of claim 14 , wherein the at least one compensating edge comprises a compensating pulse with a time period from firing of the compensating pulse and a subsequent firing of a first drive pulse of the plurality of drive pulses is approximately in resonance with the resonance time period.