Intelligent boom control with rapid system cycling

What is claimed is: 1. A work machine comprising: a frame; a boom assembly coupled to the frame and including a hoist boom pivotally connected to the frame and moveable relative to the frame by a hoist actuator, a hoist boom position sensor connected to the hoist boom, a stick boom pivotally connected to the hoist boom and moveable relative to the hoist boom by a stick actuator, a stick boom position sensor connected to the stick boom, and a tool pivotally connected to the stick boom by a stick pin; a pump fluidly coupled to the hoist actuator and operable to fluidly communicate with the hoist actuator through a hoist valve, the pump further fluidly coupled to the stick actuator and operable to fluidly communicate with the stick actuator through a stick valve; a connecting valve positioned fluidly between the hoist actuator and the stick actuator to permit fluid flow between the hoist actuator and the stick actuator when the connecting valve is open, wherein when the connecting valve is closed, fluid flow is inhibited between the hoist actuator and the stick actuator; a user interface configured to receive velocity input commands from an operator for movement of the tool, the user interface being configured to receive the velocity input commands with at least first, second and third degrees of freedom; and a controller configured to: receive information from the hoist boom position sensor and the stick boom position sensor, receive input from the user interface, communicate signals to the hoist actuator and the stick actuator based upon the information from the hoist boom position sensor and the stick boom position sensor, and the input from the user interface, determine, based upon the at least one velocity input command and the sensed indicators, at least one target actuator velocity for actuating one or more of the hoist actuator, and the stick actuator, and command one or more of the hoist actuator and the stick actuator to move with the determined at least one target actuator velocity, such that the tool moves with an aggregate velocity corresponding to the desired movement. 2. The work machine of claim 1 , wherein fluid is permitted to flow from the stick actuator to the hoist actuator when the connecting valve is open. 3. The work machine of claim 2 , wherein the pump is configured to direct fluid flow into the hoist actuator to supplement fluid flow from the stick actuator into the hoist actuator. 4. The work machine of claim 1 , wherein fluid is permitted to flow from the hoist actuator to the stick actuator when the connecting valve is open. 5. The work machine of claim 4 , wherein the pump is configured to direct fluid flow into the stick actuator to supplement fluid flow from the hoist actuator to the stick actuator. 6. The work machine of claim 1 , wherein the pump is operable to direct fluid into the hoist actuator when the hoist valve is in a first position, and the pump is operable to direct fluid into the stick actuator when the stick valve is in a first position. 7. The work machine of claim 6 , further including a reservoir for storing hydraulic fluid, wherein the hoist actuator is configured to direct fluid into the reservoir when the hoist valve is in a second position and the stick actuator is configured to direct fluid into the reservoir when the stick valve is in a second position. 8. A method of controlling fluid flow in a work machine, the method comprising: moving a hoist valve into a first position in which the hoist valve is configured to permit flow of hydraulic fluid between a reservoir and a hoist actuator; moving the hoist valve into a second position in which the hoist valve is configured to inhibit flow of hydraulic fluid between the reservoir and the hoist actuator; moving a stick valve into a first position in which the stick valve is configured to permit flow of hydraulic fluid between the reservoir and a stick actuator; moving the stick valve into a second position in which the stick valve is configured to inhibit flow of hydraulic fluid between the reservoir and the stick actuator; moving a connecting valve into a first position in which the connecting valve is configured to permit flow of hydraulic fluid between the hoist actuator and the stick actuator; moving the connecting valve into a second position in which the connecting valve is configured to inhibit flow of hydraulic fluid between the hoist actuator and the stick actuator; sensing a position of the hoist boom with a hoist boom position sensor; sensing a position of the stick boom with a stick boom position sensor; receiving velocity input commands for a desired movement of a tool; communicating the sensed positions to a controller; receiving, with the controller, input from a user interface; determining, based upon the velocity input commands and the sensed positions, a first target velocity of the hoist actuator and a second target velocity of the stick actuator; communicating signals to the hoist actuator and the stick actuator, with the controller, based upon the sensed position of the hoist boom, the sensed position of the stick boom, and the input from the user interface. 9. The method of claim 8 , further comprising directing fluid from the stick actuator to the hoist actuator when the connecting valve is in the first position. 10. The method of claim 9 , further comprising directing fluid into the hoist actuator with the pump to supplement fluid flow from the stick actuator into the hoist actuator. 11. The method of claim 10 , further including directing fluid into a reservoir from the stick actuator to store hydraulic fluid. 12. The method of claim 8 , further comprising directing fluid from the hoist actuator to the stick actuator when the connecting valve is in the first position. 13. The method of claim 12 , further comprising directing fluid into the stick actuator with the pump to supplement fluid flow from the hoist actuator to the stick actuator. 14. The method of claim 13 , further including directing fluid into a reservoir from the hoist actuator to store hydraulic fluid. 15. A hydraulic circuit and control system for a work machine that includes a machine frame and a boom assembly coupled to the machine frame, the boom assembly including a hoist boom pivotally connected to the machine frame and moveable relative to the machine frame by a hoist actuator, and a stick boom pivotally connected to the hoist boom and moveable relative to the hoist boom by a stick actuator, the hydraulic circuit and control system comprising: a pump operable to move hydraulic fluid within the hydraulic circuit; a hoist valve fluidly positioned between the pump and the hoist actuator to permit fluid flow from the pump into the hoist actuator when the hoist valve is in a first position and to inhibit fluid flow from the pump into the hoist actuator when the hoist valve is in a second position; a stick valve fluidly positioned between the pump and the stick actuator to permit fluid flow from the pump into the stick actuator when the stick valve is in a first position and to inhibit fluid flow from the pump into the stick actuator when the stick valve is in a second position; a connecting valve fluidly positioned between the hoist actuator and the stick actuator to permit fluid flow between the hoist actuator and the stick actuator when the connecting valve is in a first position and to inhibit fluid flow between the hoist actuator and the stick actuator when the connecting valve is in a second position; a user interface configured to receive velocity input commands from an operator for moveme