Ramping subsystem for a machine with a dual path electronically controlled hydrostatic transmission

What is claimed is: 1. A method for controlling a machine with a dual path electronically controlled hydrostatic transmission, the method comprising: providing a machine having an engine and an electronically controlled hydrostatic transmission, the electronically controlled hydrostatic transmission including an input device, a first drive system and a second drive system, each of the first drive system and the second drive system having at least one pump and at least one motor, the input device providing a speed setting value for the first drive system and the second drive system; generating at least one command for the at least one pump and the at least one motor of each of the first drive system and the second drive system with a controller; determining a change in the at least one generated command using the controller; determining a ramping parameter controlling the rate of change of the pump displacement to avoid abrupt commands to the said at least one pump based on the speed setting value provided by the input device; applying the determined ramping parameter to the at least one generated command to generate at least one modified command in response to the determination of a change in the at least one generated command; and applying the at least one modified command to the at least one pump and the at least one motor of each of the first drive system and the second drive system. 2. The method of claim 1 wherein said determining a ramping parameter includes determining whether the provided speed setting value is less than a maximum speed setting value. 3. The method of claim 2 wherein said determining a ramping parameter includes scaling the ramping parameter in response to a determination that the provided speed setting value is less than the maximum speed setting value. 4. The method of claim 3 wherein said scaling the ramping parameter includes selecting a scaling factor corresponding to the provided speed setting value. 5. The method of claim 4 wherein the provided speed setting value is selected from a predefined number of discrete speed setting values arranged between the maximum speed setting value and a minimum speed setting value and each predefined discrete speed setting value has a corresponding scaling factor. 6. The method of claim 5 wherein the corresponding scaling factor has a linear relationship with the predefined discrete speed setting value. 7. The method of claim 5 wherein the corresponding scaling factor has a non-linear relationship with the predefined discrete speed setting value. 8. The method of claim 1 wherein said determining a change in the at least one generated command includes determining whether a value of the at least one generated command has increased, decreased or changed sign compared to a value of a corresponding command at a previous time stamp. 9. The method of claim 8 wherein said determining a ramping parameter includes determining a ramping parameter based on the determination of whether the value of the at least one generated command has increased, decreased or changed sign compared to the value of the corresponding command at the previous time stamp. 10. The method of claim 9 wherein said determining a ramping parameter includes: selecting an acceleration ramping parameter in response to a determination that the value of the at least one generated command has increased compared to the value of the corresponding command at the previous time stamp; selecting a deceleration ramping parameter in response to a determination that the value of the at least one generated command has decreased compared to the value of the corresponding command at the previous time stamp; and selecting a change direction ramping parameter in response to a determination that the value of the at least one generated command has changed sign compared to the value of the corresponding command at the previous time stamp. 11. The method of claim 10 wherein said determining a ramping parameter includes scaling the acceleration ramping parameter, the deceleration ramping parameter or the change direction ramping parameter with a scaling factor in response to the determination that the provided speed setting value is less than the maximum speed setting value. 12. The method of claim 1 further comprising applying a prior ramping parameter to the at least one generated command in response to a determination that a value of the at least one generated command has not changed. 13. The method of claim 1 wherein said generating at least one command includes generating at least one of an acceleration command, a deceleration command or a direction change command. 14. A machine with a dual path electronically controlled hydrostatic transmission comprising: a first drive system comprising: a first pump solenoid and a first motor solenoid; a first pump controlled by the first pump solenoid; and a first motor controlled by the first motor solenoid and powered by the first pump; a second drive system comprising: a second pump solenoid and a second motor solenoid; a second pump controlled by the second pump solenoid; and a second motor controlled by the second motor solenoid and powered by the second pump; an input device, the input device generating a speed setting value in response to a user selecting a predefined discrete speed setting value with the input device from a range of predefined discrete speed setting values bounded by a maximum speed setting value and a minimum speed setting value; and a control device to generate pump and motor commands for the first pump solenoid, the first motor solenoid, the second pump solenoid and the second motor solenoid, the control device generates the pump and motor commands using a selected ramping parameter controlling the rate of change of the pump displacement to avoid abrupt commands to the said first and second pumps based on the speed setting value and modifies the rate of change of the pump and motor commands, the selected ramping parameter being scaled in response to the selected speed setting value being other than the maximum speed setting value. 15. The machine of claim 14 wherein the scaled selected ramping parameter is determined by applying a scaling factor corresponding to the selected speed setting value to a ramping parameter associated with the maximum speed setting value. 16. The machine of claim 15 wherein each predefined discrete speed setting value has a corresponding scaling factor. 17. The machine of claim 16 wherein the corresponding scaling factor has one of a linear relationship or a non-linear relationship with the predefined discrete speed setting value. 18. The machine of claim 14 wherein the control device determines whether value of the pump and motor commands have increased, decreased or changed sign compared to values of corresponding pump and motor commands at a previous timestamp. 19. The machine of claim 18 wherein the selected ramping parameter includes: an acceleration ramping parameter in response to a determination that the values of the pump and motor commands have increased compared to values of the corresponding pump and motor commands at the previous time stamp; a deceleration ramping parameter in response to a determination that the values of the pump and motor commands have decreased compared to values of the corresponding pump and motor commands at the previous time stamp; and a change direction ramping parameter in response to a determination that the values of the pump and motor commands have changed sign co