Slot-to-slot circulation in a fluid ejection device

1 - 17 . (canceled) 18 . A fluid ejection device, comprising: a substrate including first and second fluid slots; a fluid ejection chamber to a side of the first fluid slot, the fluid ejection chamber having a fluid ejection actuator communicated therewith; and a pump chamber to a side of the second fluid slot, the pump chamber having a fluid pump actuator communicated therewith to circulate fluid along the substrate, wherein the fluid ejection actuator comprises a first type of actuator, and the fluid pump actuator comprises a second type of actuator different than the first type of actuator. 19 . The fluid ejection device of claim 18 , wherein the fluid ejection actuator comprises one of a thermal resistive actuator, a piezoelectric actuator, an electrostatic actuator, an impact driven actuator, a voice coil actuator, and a magneto-strictive drive actuator, and wherein the fluid pump actuator comprises a different one of a thermal resistive actuator, a piezoelectric actuator, an electrostatic actuator, an impact driven actuator, a voice coil actuator, and a magneto-strictive drive actuator. 20 . The fluid ejection device of claim 18 , wherein the fluid ejection actuator comprises a thermal resistive actuator, and the fluid pump actuator comprises a piezoelectric actuator. 21 . The fluid ejection device of claim 18 , wherein the fluid ejection actuator comprises a piezoelectric actuator, and the fluid pump actuator comprises a thermal resistive actuator. 22 . The fluid ejection device of claim 18 , wherein the fluid ejection chamber comprises a first fluid ejection chamber to a first side of the first fluid slot, wherein the pump chamber is to a second side of the second fluid slot, and further comprising: a second fluid ejection chamber to a second side of the first fluid slot, the second fluid ejection chamber having a second fluid ejection actuator communicated therewith; and a third fluid ejection chamber to a first side of the second fluid slot, the third fluid ejection chamber having a third fluid ejection actuator communicated therewith. 23 . The fluid ejection device of claim 22 , wherein the second side of the second fluid slot is located between the second fluid slot and a center of the substrate. 24 . The fluid ejection device of claim 22 , wherein the second side of the second fluid slot is located between the second fluid slot and an edge of the substrate. 25 . The fluid ejection device of claim 22 , further comprising: a first fluid ejection nozzle communicated with the first fluid ejection chamber; a second fluid ejection nozzle communicated with the second fluid ejection chamber nozzle; and a third fluid ejection nozzle communicated with the third fluid ejection chamber. 26 . The fluid ejection device of claim 18 , further comprising: a fluidic channel extended between the first and second fluid slots, the fluid pump actuator to circulate fluid between the first and second fluid slots through the fluidic channel. 27 . The fluid ejection device of claim 18 , further comprising: a perimeter fluidic channel extended around a perimeter of the substrate, the fluid pump actuator to circulate fluid around the perimeter of the substrate through the perimeter fluidic channel. 28 . A fluid ejection device, comprising: a first fluid slot; a second fluid slot spaced from the first fluid slot; a fluid ejection actuator adjacent one side of the first fluid slot to eject fluid through a nozzle; and a fluid pump actuator adjacent one side of the second fluid slot to circulate fluid among the first and second fluid slots, wherein the fluid ejection actuator comprises one of a thermal resistive actuator and a piezoelectric actuator, and the fluid pump actuator comprises a different one of the thermal resistive actuator and the piezoelectric actuator. 29 . The fluid ejection device of claim 28 , wherein the fluid ejection actuator comprises a first fluid ejection actuator adjacent a first side of the first fluid slot, wherein the fluid pump actuator is adjacent a second side of the second fluid slot, and further comprising: a second fluid ejection actuator adjacent a second side of the first fluid slot to eject fluid through a second nozzle; and a third fluid ejection actuator adjacent a first side of the second fluid slot to eject fluid through a third nozzle. 30 . The fluid ejection device of claim 29 , wherein the second fluid ejection actuator and the fluid pump actuator are located between the first and second fluid slots. 31 . The fluid ejection device of claim 29 , wherein the second and third fluid ejection actuators are located between the first and second fluid slots. 32 . A method of circulating fluid within a fluid ejection device, comprising: circulating fluid between first and second fluid slots of a substrate of the fluid ejection device with a fluid pump actuator adjacent one side of the second fluid slot, the second fluid slot having a fluid ejection actuator adjacent an opposite side thereof, the fluid ejection actuator comprising a first type of actuator, and the fluid pump actuator comprising a second type of actuator different than the first type of actuator. 33 . The method of claim 32 , wherein the fluid ejection actuator comprises one of a thermal resistive actuator, a piezoelectric actuator, an electrostatic actuator, an impact driven actuator, a voice coil actuator, and a magneto-strictive drive actuator, and wherein the fluid pump actuator comprises a different one of a thermal resistive actuator, a piezoelectric actuator, an electrostatic actuator, an impact driven actuator, a voice coil actuator, and a magneto-strictive drive actuator. 34 . The method of claim 32 , wherein the fluid ejection actuator comprises a thermal resistive actuator, and the fluid pump actuator comprises a piezoelectric actuator. 35 . The method of claim 32 , wherein the fluid ejection actuator comprises a piezoelectric actuator, and the fluid pump actuator comprises a thermal resistive actuator. 36 . The method of claim 32 , wherein circulating the fluid includes circulating fluid with the fluid pump actuator positioned between the second fluid slot and a central region of the substrate. 37 . The method of claim 32 , wherein circulating the fluid includes circulating fluid with the fluid pump actuator positioned between the second fluid slot and an edge of the substrate.