System and methods for cycle time management

What is claimed is: 1. A power machine comprising: a frame; a lift arm pivotally mounted to the frame; a hydraulic actuator coupled to the frame and to the lift arm and actuable to move the lift arm relative to the frame; a hydraulic system including a pump in communication with the hydraulic actuator, the pump being powered by an engine and being configured to operate with continuously variable displacement to provide a hydraulic flow to the hydraulic actuator; and a control device configured to: determine an engine speed value; and control a run-time displacement of the pump, based on the determined engine speed value, to maintain a predetermined target hydraulic flow rate from the pump to cause the hydraulic actuator to move the lift arm from a fully lowered position to a fully raised position over a predetermined target duration of time corresponding to the predetermined target hydraulic flow rate. 2. The power machine of claim 1 , further comprising: a valve in communication with the pump and the hydraulic actuator and moveable to meter flow between the pump and the hydraulic actuator; wherein the target duration of time for the movement from the fully lowered position to the fully raised position is associated with the valve being fully opened. 3. The power machine of claim 1 , wherein the control device is configured to control the run-time displacement based on an operator input that indicates the target duration of time; and wherein the control device is further configured to, when the determined engine speed value is constant, control the run-time displacement based on the determined engine speed independent of the operator input. 4. The power machine of claim 3 , wherein the target duration of time is a minimum duration of time to move the lift arm from the fully lowered position to the fully raised position. 5. The power machine of claim 1 , further comprising: a sensor configured to indicate an orientation of the power machine relative to gravity; wherein the control device is further configured to control the run-time displacement of the pump based on the orientation of the power machine. 6. The power machine of claim 1 , wherein the control device is further configured to control the run-time displacement of the pump based on a loading of an implement supported by the lift arm. 7. The power machine of claim 6 , further comprising: a force or pressure sensor configured to indicate one or more of a weight or a size of a load on the implement. 8. The power machine of claim 1 , wherein the control device is further configured to control the run-time displacement of the pump based on a characteristic of an implement that is supported by the lift arm. 9. A method for controlling operation of a power machine, the method comprising: operating a pump of a hydraulic system, using power from an engine of the power machine, to provide hydraulic flow to execute hydraulic work functions, the pump being configured to operate with continuously variable displacement to provide the hydraulic flow; determining, using a control device, an engine speed value; controlling, using the control device, a run-time displacement of the pump, based on the determined engine speed value, to provide hydraulic flow to execute at least one of the hydraulic work functions, receiving, at the control device, an operator input to control execution of the at least one of the hydraulic work functions; and during the execution of the at least one of the hydraulic work functions and with the engine at the determined engine speed value, maintaining the run-time displacement of the pump to provide a constant target hydraulic flow rate, corresponding to the determined engine speed value, over a range of operator inputs that command execution of the at least one of the hydraulic work functions with different cycle times. 10. The method of claim 9 , wherein the target hydraulic flow rate corresponds to a target cycle time for the at least one of the hydraulic work functions. 11. The method of claim 10 , wherein the target cycle time is a target minimum cycle time. 12. The method of claim 11 , further comprising: determining, using the control device, the target minimum cycle time based on a run-time operator input. 13. The method of claim 10 , wherein the at least one of the hydraulic work functions includes moving a lift arm of the power machine from a fully lowered position to a fully raised position. 14. The method of claim 10 , wherein controlling the run-time displacement of the pump includes reducing the run-time displacement based on increasing engine speed. 15. The method of claim 9 , further comprising: receiving, at the control device, an operator input to control execution of the at least one of the hydraulic work functions using a hydraulic actuator; and during the execution of the at least one of the hydraulic work functions and with the pump providing the target hydraulic flow, controlling a valve, with the control device, based on the operator input, to meter flow from the pump for the at least one of the hydraulic work functions, thereby reducing flow that is directed from the pump to the hydraulic actuator to below the target hydraulic flow rate. 16. A hydraulic work system for use in a power machine with an engine, the hydraulic work system comprising: a hydrodynamic work actuator circuit that includes a pump that is configured to provide hydraulic flow to execute hydraulic work functions, the pump being powered by the engine and being configured to operate with continuously variable displacement to provide the hydraulic flow; and a control device that is configured to: determine a target maximum hydraulic flow rate of the pump for execution of at least one of the hydraulic work functions; determine an engine speed value; receive an operator input to control execution of the at least one of the hydraulic work functions; and independent of the operator input, control a run-time displacement of the pump based on the determined engine speed value, over a range of engine speed values and, to prevent a run-time flow rate of the pump from exceeding the target maximum hydraulic flow rate during execution of at least one of the hydraulic work functions. 17. The hydraulic work system of claim 16 , wherein the target maximum hydraulic flow rate corresponds to a target minimum cycle time for the at least one of the hydraulic work functions. 18. The hydraulic work system of claim 17 , wherein the at least one of the hydraulic work functions includes moving a lift arm of the power machine; and wherein the target minimum cycle time is a cycle time for moving the lift arm from a fully lowered position to a fully raised position. 19. The hydraulic work system of claim 17 , further comprising: a valve in communication with the pump and a hydraulic actuator configured to execute the at least one of the hydraulic work functions, the valve being controllable, based on the operator input, to meter flow between the pump and the hydraulic actuator; wherein the target minimum cycle time corresponds to operation of the hydrodynamic work actuator circuit with the valve fully opened; and wherein the control device is further configured to: when the determined engine speed value is constant, control the run-time displacement of the pump based only on the determined engine speed value.