High-efficiency data center cooling

What is claimed is: 1. A controller comprising: a memory medium comprising instructions; a bus coupled to the memory medium; and a processor coupled to the memory medium via the bus that when executing the instructions causes the controller to: analyze an environmental condition of a data center; activate a heat exchanger that is directly physically attached to a first liquid loop and not directly physically attached to a second liquid loop and that provides outside air free cooling in response to the environmental condition to maintain a predetermined set point for the first liquid loop of a first cooling system, the first cooling system including a first pump, in the case that an outside wet-bulb temperature surrounding the data center is below a free cooling set point; activate a chiller of a second cooling system, the chiller being directly physically attached to a second liquid loop and not directly physically attached to the first liquid loop, the second cooling system including a second pump, operable to maintain a pre-determined set point of the second liquid loop that is lower than the set point for the first liquid loop to address the environmental condition in the case that the outside ambient temperature surrounding the data center is above the free cooling set point; operate, in response to an activation of the chiller of the second cooling system, a flow control device that is switched to allow a lower temperature flow from the second liquid loop into the first liquid loop that mixes fluid from a second flow cooled by the chiller of the second cooling system that is generated by the second pump with fluid from a first flow that is generated by the first pump in the first liquid loop immediately before an entry into the data center to maintain the predetermined set point for the first liquid loop, wherein there is no flow between the second liquid loop and the first liquid loop when the flow control device has been switched to not allow flow; and activate a chiller of the first cooling system to address the environmental condition in the case that the activation of the chiller of the second cooling system is unable to maintain the predetermined set point for the first liquid loop. 2. The controller according to claim 1 , wherein the instructions, when executed, further cause the controller to activate the heat exchanger in response to the environmental condition to maintain a predetermined set point for the second liquid loop of the second cooling system in the case that the outside ambient temperature surrounding the data center is below the free cooling set point. 3. The controller according to claim 2 , wherein the instructions, when executed, further cause the controller to: activate the chiller of the second cooling system to address the environmental condition in the case that the free cooling heat exchanger is unable to maintain the predetermined set point for the second cooling system; and operate the flow control device to maintain the predetermined set point for the second liquid loop. 4. The controller according to claim 1 , wherein the instructions, when executed, further cause the controller to intermix the first liquid loop and the second liquid loop using the flow control device in the case that the heat exchanger is unable to maintain the predetermined set point for the first liquid loop of the first cooling system such that the flow is from the data center to the first pump, from the first pump to the flow control device, from the flow control device to the second pump, and from the second pump to the data center. 5. The controller according to claim 1 , wherein the instructions, when executed, further cause the controller to activate the chiller of the first cooling system to: determine whether combined operation of the second cooling system and the heat exchanger is able to maintain the predetermined set point for the first cooling system; and activate the chiller of the first cooling system in the case that the combined operation of the second cooling system and the heat exchanger is unable to maintain the predetermined set point for the first cooling system. 6. The controller according to claim 1 , wherein the instructions, when executed, further cause the controller to operate the chiller of the second cooling system to control humidity in the data center in response to dew point control in an HVAC unit coupled to the second cooling system. 7. The controller according to claim 1 , wherein the instructions, when executed, further cause a communication that is two-way to be performed between the controller and a set of sensors that capture data representing attributes of an environment surrounding and within the data center that is used to analyze the environmental condition of the data center. 8. The controller according to claim 1 , wherein the second liquid loop includes a set of thermal energy storage units.