Building control based on uneven load distribution

What is claimed is: 1. A controller for an energy plant, the controller comprising: a processing circuit comprising a processor and memory storing instructions executed by the processor, the processing circuit configured to: obtain a target load of a branch of the energy plant, the branch including at least a first device and a second device coupled to each other in parallel, distribute the target load of the branch across at least the first device and the second device according to multiple different sets of load distributions comprising a first set of load distributions and a second set of load distributions; adjust the second set of load distributions in response to a determination that the second set of load distributions would cause at least one of the first device or the second device to violate a minimum operating load constraint, wherein adjusting the second set of load distributions causes a combined load of the branch resulting from the second set of load distributions to exceed the target load of the branch; predict a first power consumption of the first device and the second device, the first power consumption predicted to result from operating the first device and the second device according to a first combination of set points to satisfy the first set of load distributions, the first combination of set points including first set points of the first device and second set points of the second device, predict a second power consumption of the first device and the second device, the second power consumption predicted to result from operating the first device and the second device according to a second combination of set points to satisfy the second set of load distributions, the second combination of set points including third set points of the first device and fourth set points of the second device, compare the first power consumption and the second power consumption, select, one of the first combination of set points and the second combination of set points according to which combination of set points is predicted to result in lower power consumption based on the comparing, and operate the energy plant according to the selected one of the first combination of set points and the second combination of set points. 2. The controller of claim 1 , wherein: a first load of the first device operating according to the first set points is different from a second load of the second device operating according to the second set points, and a third load of the first device operating according to the third set points is different from a fourth load of the second device operating according to the fourth set points. 3. The controller of claim 1 , wherein the processing circuit is further configured to: enable the first device and disable the second device, according to the selected one of the first combination of set points and the second combination of set points. 4. The controller of claim 1 , wherein the processing circuit is further configured to: determine whether the target load is less than a maximum operating load of the first device and a maximum operating load of the second device, and in response to determining that the target load is less than the maximum operating load of the first device and the maximum operating load of the second device: determine the first set points of the first device corresponding to a first load satisfying the target load, and determine the second set points of the second device corresponding to a zero load. 5. The controller of claim 4 , wherein the processing circuit is further configured to: in response to determining that the target load is less than the maximum operating load of the first device and the maximum operating load of the second device: determine the third set points of the first device corresponding to a second load less than the first load, and determine the fourth set points of the second device corresponding to a third load, a combination of the second load and the third load satisfying the target load, the third load being at least a minimum operating load of the second device. 6. The controller of claim 5 , wherein the second load is at least a minimum operating load of the first device. 7. The controller of claim 5 , wherein the second load is the zero load. 8. The controller of claim 1 , wherein the processing circuit is further configured to: determine whether the target load is higher than a maximum operating load of the first device and a maximum operating load of the second device, and in response to determining that the target load is higher than the maximum operating load of the first device and the maximum operating load of the second device: determine the first set points of the first device corresponding to a minimum operating load of the first device, and determine the second set points of the second device corresponding to a first load, a combination of the minimum operating load of the first device and the first load satisfying the target load. 9. The controller of claim 8 , wherein the processing circuit is further configured to: in response to determining that the target load is higher than the maximum operating load of the first device and the maximum operating load of the second device: determine the third set points of the first device corresponding to a second load higher than the minimum operating load of the first device, and determine the fourth set points of the second device corresponding to a third load, the third load less than the first load, a combination of the second load and the third load satisfying the target load, the third load being at least a minimum operating load of the second device. 10. The controller of claim 1 , wherein the processing circuit is further configured to: determine whether the target load is less than a maximum operating load of the first device and is higher than a maximum operating load of the second device, in response to determining that the target load is less than the maximum operating load of the first device and is higher than the maximum operating load of the second device: determine the first set points of the first device corresponding to a first load satisfying the target load, and determine the second set points of the second device corresponding to a zero load. 11. The controller of claim 10 , wherein the processing circuit is further configured to: in response to determining that the target load is less than the maximum operating load of the first device and is higher than the maximum operating load of the second device: determine the third set points of the first device corresponding to a second load less than the first load, the second load being at least a minimum operating load of the first device, and determine the fourth set points of the second device corresponding to a third load, a combination of the second load and the third load satisfying the target load, the third load being at least a minimum operating load of the second device. 12. A non-transitory computer readable medium storing instructions to operate an energy plant, the instructions when executed by one or more processors cause the one or more processors to: obtain a target load of a branch of the energy plant, the branch including at least a first device and a second device coupled to each other in parallel, distribute the target load of the branch across at least the first device and the second device according to multiple different sets of load distributions comprising a first set of load distributions and a second set of load distributions, adjust the second set of load distributions in response to a determination that the se