Screw compressor drive control

What is claimed is: 1. A method to control operation of a compressor of a refrigeration system, comprising: receiving status signals regarding a pulsing torque generated by one or more rotors of the compressor; determining an operating point of the compressor based upon the received status signals; determining a torque profile for the compressor based upon the operating point, wherein the determined torque profile represents variance in torque applied to the compressor during a revolution of the one or more rotors of the compressor; and adjusting torque applied to the compressor per the determined torque profile. 2. The method of claim 1 , wherein determining the torque profile comprises obtaining a torque profile for the determined torque profile that matches the pulsing torque generated by the one or more rotors. 3. The method of claim 1 , wherein the adjusting comprises timing a switch to the determined torque profile to coincide with torque pulsations of the pulsing torque generated by the one or more rotors. 4. The method of claim 1 , wherein determining the torque profile comprises: selecting one or more torque profiles based on the operating point as determined; and interpolating the determined torque profile from the one or more selected torque profiles. 5. A control system for controlling an electric motor and a compressor of a refrigeration system, comprising: a memory with a plurality of stored torque profiles for the compressor; and a controller that: (a) receives status signals regarding a pulsing torque generated by one or more rotors of the compressor, (b) determines an operating point of the compressor based upon the received status signals, (c) determines a torque profile for the compressor based upon the operating point and the plurality of stored torque profiles, wherein the determined torque profile represents variance in torque applied to the during a revolution of the one or more rotors of the compressor, and (d) generates one or more control signals, per the determined torque profile, that adjust torque applied by an electric motor to the compressor per the determined torque profile. 6. The control system of claim 5 , wherein the controller further obtains a torque profile for the determined torque profile that matches the pulsing torque generated by the one or more rotors. 7. The control system of claim 5 , wherein the controller further times a switch to the determined torque profile to coincide with torque pulsations of the pulsing torque generated by the one or more rotors. 8. The control system of claim 5 , wherein the controller further: selects one or more torque profiles based on the operating point; and interpolates the determined torque profile from the one or more selected torque profiles. 9. A compressor system, comprising: a compressor comprising one or more rotors configured to compress a fluid; a controller that: (a) receives status signals indicative of a pulsing torque generated by the one or more rotors of the compressor, (b) determines a torque profile based upon the operating point of the compressor, and (c) generates command signals that request torque be delivered to the compressor per the determined torque profile; and an electric motor system that receives the command signals from the controller and varies torque delivered to the compressor per the determined torque profile requested by the received command signals, wherein the determined torque profile represents variance in torque between the electric motor system and the compressor during a revolution of the electric motor system. 10. The compressor system of claim 9 , wherein the controller further obtains a torque profile for the determined torque profile that matches the pulsing torque generated by the one or more rotors. 11. The compressor system of claim 9 , wherein the controller further times a switch to the determined torque profile to coincide with torque pulsations of the pulsing torque generated by the one or more rotors. 12. The compressor system of claim 9 , wherein the controller further: selects one or more torque profiles based on the operating point; and interpolates the determined torque profile from the one or more selected torque profiles. 13. A compressor system, comprising: a compressor comprising one or more rotors configured to compress a fluid; an electric motor that receives control signals and to drive the one or more rotors per the received control signals; a controller that receives status signals indicative of a pulsing torque generated by the one or more rotors of the compressor, determines a torque profile based upon the operating point of the compressor, and generates command signals that request the electric motor be driven per the determined torque profile; and a variable frequency drive that receives the command signals and generates the control signals that vary torque between the electric motor and the compressor per the determined torque profile, wherein the determined torque profile represents variance in torque between the electric motor and the compressor during a revolution of the electric motor. 14. The compressor system of claim 13 , wherein the controller further obtains a torque profile for the determined torque profile that matches the pulsing torque generated by the one or more rotors. 15. The compressor system of claim 13 , wherein the controller further times a switch to the determined torque profile to coincide with torque pulsations of the pulsing torque generated by the one or more rotors. 16. The compressor system of claim 13 , wherein the controller further: selects one or more torque profiles based on the operating point; and interpolates the determined torque profile from the one or more selected torque profiles.