Slot die position adjustment and return to baseline

What is claimed is: 1. A controller configured to control a slot die, the slot die including: an applicator slot extending about a width of the slot die, wherein the applicator slot is in fluid communication with a fluid flow path through the slot die, and a plurality of actuators spaced about the width of the slot die, wherein each actuator in the plurality of actuators is operable to adjust a cross-directional thickness of the fluid flow path at its respective location to provide a local adjustment of fluid flow through the applicator slot, wherein the controller is configured to set the position of each actuator according to one of a plurality of discrete settings, positioning each of the actuators according to a set of discrete settings selected from the plurality of discrete settings, wherein the controller is further configured to change the position of the actuators to change the cross-directional thickness of the fluid flow path adjacent each of the actuators while the extrudate continues to pass through the fluid flow path and out the applicator slot, wherein the controller includes a user interface, the user interface includes a selectable button configured to initiate a slot-clearing operation by changing the position of the actuators to increase the cross-directional thickness of the fluid flow path adjacent each of the actuators while the extrudate continues to pass through the fluid flow path and out the applicator slot to allow an impurity in the extrudate to pass through the slot die, and prior to changing the position of the actuators to increase the cross-directional thickness of the fluid flow path adjacent each of the actuators, observing a defect associated with the impurity in a profile of the extrudate after the extrudate flows out of the applicator slot, and wherein the controller is further configured to, after changing the cross-directional thickness of the fluid flow path adjacent each of the actuators, while the extrudate continues to pass through the fluid flow path and out the applicator slot, reposition each of the actuators according to the set of discrete settings to resume operating the slot die with the actuators positioned according to the set of discrete settings. 2. The controller of claim 1 , wherein the user interface of the controller further includes a second selectable button configured to resume operation of the slot die after the slot-clearing operation by, while the extrudate continues to pass through the fluid flow path and out the applicator slot, repositioning each of the actuators according to the set of discrete settings to resume operating the slot die with the actuators positioned according to the set of discrete settings. 3. The controller of claim 1 , wherein the controller is further configured to change the position of the actuators to substantially close the fluid flow path adjacent the actuators while the extrudate continues to pass through the fluid flow path and out the applicator slot. 4. The controller of claim 3 , wherein the controller is further configured to control a purge valve to purge the extrudate from the purge valve while the fluid flow path is substantially closed adjacent the actuators. 5. The controller of claim 4 , wherein the controller is further configured to control the purge valve to close the purge valve once the controller has repositioned each of the actuators according to the set of discrete settings to resume operating the slot die with the actuators positioned according to the set of discrete settings. 6. The controller of claim 1 , being further configured to observe the defect associated with the impurity of gels or particulates. 7. A system comprising: a slot die, wherein the slot die includes: an applicator slot extending about a width of the slot die, wherein the applicator slot is in fluid communication with a fluid flow path through the slot die, and a plurality of actuators spaced about the width of the slot die, wherein each actuator in the plurality of actuators is operable to adjust a cross-directional thickness of the fluid flow path at its respective location to provide a local adjustment of fluid flow through the applicator slot; a controller configured to set the position of each actuator according to one of a plurality of discrete settings, positioning each of the actuators according to a set of discrete settings selected from the plurality of discrete settings; and a plurality of measurement instruments, each one configured to provide a local measurement of the slot die corresponding to the cross-directional thickness of the fluid flow path at the location of the respective measurement instrument, the measurements being monitored by the controller, wherein the controller is further configured to change the position of the actuators to change the cross-directional thickness of the fluid flow path adjacent each of the actuators based on input from the measurement instruments while the extrudate continues to pass through the fluid flow path and out the applicator slot, wherein the controller includes a user interface, the user interface includes a selectable button configured to initiate a slot-clearing operation by changing the position of the actuators to increase the cross-directional thickness of the fluid flow path adjacent each of the actuators while the extrudate continues to pass through the fluid flow path and out the applicator slot to allow an impurity in the extrudate to pass through the slot die, and prior to changing the position of the actuators to increase the cross-directional thickness of the fluid flow path adjacent each of the actuators, observing a defect associated with the impurity in a profile of the extrudate after the extrudate flows out of the applicator slot, and wherein the controller is further configured to, after increasing the cross-directional thickness of the fluid flow path adjacent each of the actuators to allow the impurity in the extrudate to pass through the slot die, while the extrudate continues to pass through the fluid flow path and out the applicator slot, reposition each of the actuators according to the set of discrete settings to resume operating the slot die with the actuators positioned according to the set of discrete settings. 8. The system of claim 7 , wherein the user interface of the controller further includes a second selectable button configured to resume operation of the slot die after the slot-clearing operation by, while the extrudate continues to pass through the fluid flow path and out the applicator slot, repositioning each of the actuators according to the set of discrete settings to resume operating the slot die with the actuators positioned according to the set of discrete settings. 9. The system of claim 7 , wherein the controller is further configured to change the position of the actuators to substantially close the fluid flow path adjacent the actuators while the extrudate continues to pass through the fluid flow path and out the applicator slot. 10. The system of claim 9 , wherein the slot die further includes a purge valve, and the controller is further configured to control the purge valve to purge the extrudate from the purge valve while the fluid flow path is substantially closed adjacent the actuators. 11. The system of claim 10 , wherein the controller is further configured to control the purge valve to close the purge valve once the controller has repositioned each of the actuators according to the set of discrete settings to resume operating the slot die with the actuators positioned according to the set of discrete settings. 12. The system of claim 7 , wherein the controller is further configured to