Computer controlled hydraulic conditioner roll tensioning adjustment

At least the following is claimed: 1. A system, comprising: one or more pairs of oppositely rotatable, laterally extending rolls, wherein for each pair, at least one of the rolls is moveable relative to the other of the rolls; a hydraulic circuit, comprising: a tensioner circuit comprising: for each pair of rolls, one or more pairs of hydraulic cylinders arranged in parallel, each configured to resist movement of the at least one of the rolls at a respective end of the at least one of the rolls; an accumulator arranged in parallel to the hydraulic cylinders; and plural control valves; and a computing system configured to cause the one or more pairs of hydraulic cylinders to adjust the resistance to movement of the at least one of the rolls of the respective pair of rolls by sending signals to one or more of the plural control valves. 2. The system of claim 1 , wherein the computing system is configured to cause, based on sending signals to the one or more of the plural control valves, an increase or decrease in pressure. 3. The system of claim 2 , further comprising a pressure sensor configured to sense hydraulic pressure at the accumulator, wherein the computing system is configured to cause the one or more pairs of hydraulic cylinders to adjust the resistance to movement of the at least one of the rolls of the respective pair of rolls based on a difference between the sensed hydraulic pressure and a hydraulic pressure set-point. 4. The system of claim 3 , further comprising a user interface having a display screen, wherein the computing system is configured to render on the display screen a visual indication of the sensed hydraulic pressure. 5. The system of claim 4 , wherein the visual indication further includes visually distinctive ranges of acceptable operating hydraulic pressures bounded by less acceptable operating hydraulic operating pressures. 6. The system of claim 4 , wherein the display screen comprises one or more selectable options to enable an adjustment in the hydraulic pressure set-point, wherein the computing system is configured to cause the one or more pairs of hydraulic cylinders to adjust the resistance to movement of the at least one of the rolls of the respective pair of rolls based on input received for the selectable option. 7. The system of claim 3 , wherein the computing system is configured to activate the one or more control valves based on comparing the sensed hydraulic pressure to the hydraulic pressure set-point. 8. The system of claim 7 , wherein the computing system is further configured to determine a presence of a leak or thermo-expansion based on the comparison, wherein the computing system is configured to determine the presence of the leak when the hydraulic pressure drops a predetermined amount of times from the hydraulic set-point in a predetermined interval, the control valves are activated a predetermined amount of times in a predetermined interval, based on a historical data, or based on manufacturer or industry specifications. 9. The system of claim 8 , wherein the computing system is further configured to present an alert to an operator based on the leak. 10. The system of claim 1 , wherein the computing system is further configured to: receive an indication of a header reverse function; responsive to receipt of the indication, cause a first control valve of the plural valves to open; and cause the first control valve to close based on a received instruction. 11. The system of claim 10 , wherein the computing system is further configured to: receive an indication of engagement of the header in the forward direction; cause a second control valve of the plural valves to open; and responsive to receiving an indication that the hydraulic pressure in the hydraulic circuit reaches a hydraulic pressure set-point, cause the second control valve to close. 12. The system of claim 1 , wherein the computing system is further configured to: receive a first indication of a flotation pressure dump mode activation; responsive to receipt of the first indication, cause a first control valve of the plural valves to open; and cause the first control valve to close based on a received instruction. 13. The system of claim 12 , wherein the computing system is further configured to: receive a third indication of engagement of the header in the forward direction; cause a second control valve of the plural valves to open response to receipt of the third indication; receive a fourth indication that the hydraulic pressure in the hydraulic circuit has reached a hydraulic pressure set-point; and cause the second control valve to close responsive to receipt of the fourth indication. 14. A computer-controlled method for conditioner roll tensioning adjustment in a windrower, the method comprising: at a computing system, the computing system comprising one or more processor-based electronic control units: receiving an input signal; and based on receipt of the input signal, causing an adjustment in a resistance to movement of one or more pairs of oppositely rotatable, laterally extending rolls, wherein causing the adjustment comprises, for each pair, actuating one or more pairs of hydraulic cylinders to adjust the resistance to movement of the at least one of the rolls of the respective pair of rolls by sending signals to one or more of plural control valves hydraulically coupled to the one or more pairs of hydraulic cylinders. 15. The method of claim 14 , wherein receiving an input signal comprises receiving input corresponding to sensed hydraulic pressure in the hydraulic circuit. 16. The method of claim 15 , wherein sending the signals is based on comparing the sensed hydraulic pressure to a hydraulic pressure set-point. 17. The method of claim 14 , further comprising, at the computing system: receiving an indication of a header reverse function; responsive to receipt of the indication, signaling a first control valve of the plural valves to open; signaling the first control valve to close based on a received instruction; receiving an indication of engagement of the header in the forward direction; signaling a second control valve of the plural valves to open; and responsive to receiving an indication that the hydraulic pressure in the hydraulic circuit reaches a hydraulic pressure set-point, signaling the second control valve to close. 18. The method of claim 14 , further comprising, at the computing system: receiving a first indication of a flotation pressure dump mode activation; responsive to receipt of the first indication, signaling a first control valve of the plural valves to open; signaling the first control valve to close based on a received instruction; receiving a third indication of engagement of the header in the forward direction; signaling a second control valve of the plural valves to open response to receipt of the third indication; receiving a fourth indication that the hydraulic pressure in the hydraulic circuit has reached a hydraulic pressure set-point; and signaling the second control valve to close responsive to receipt of the fourth indication. 19. The method of claim 14 , further comprising presenting, by the computing system, for display to an operator a sensed hydraulic pressure, a hydraulic pressure set-point, and selectable options for changing the hydraulic pressure set-point.