Modular pumping unit(s) facilitating cooling of electronic system(s)

What is claimed is: 1. An apparatus comprising: a modular pumping unit to facilitate pumping coolant through a cooling apparatus assisting in removal of heat generated by one or more electronic systems, the cooling apparatus comprising at least one heat exchange assembly discharging heat from coolant passing through the cooling apparatus, and the modular pumping unit being a field-replaceable unit which is external to and coupled in fluid communication with the at least one heat exchange assembly of the cooling apparatus in parallel fluid communication with one or more other modular pumping units, the modular pumping unit being field-replaceable while the cooling apparatus is operational with the one or more other modular pumping units pumping the coolant to the at least one heat exchange assembly, the modular pumping unit comprising: a modular pumping unit housing; a coolant inlet to the modular pumping unit housing; a coolant reservoir tank disposed within the modular pumping unit housing and in fluid communication with the coolant inlet; a coolant pump disposed within the modular pumping unit housing and configured to pump coolant from the coolant reservoir tank; a coolant outlet of the modular pumping unit housing, the coolant pump being coupled in fluid communication between the coolant reservoir tank and the coolant outlet, wherein the coolant inlet and the coolant outlet facilitate coupling of the modular pumping unit in fluid communication with the cooling apparatus, with the coolant outlet being coupled in fluid communication with a coolant inlet of the at least on heat exchange assembly; a controller associated with the modular pumping unit, the controller automatically adjusting operation of the coolant pump based, at least in part, upon one or more sensed parameters; at least one coolant-level sensor associated with the coolant reservoir tank disposed within the modular pumping unit housing, the at least one coolant-level sensor sensing coolant level within the coolant reservoir tank, and the controller automatically adjusting operation of the coolant pump based upon the sensed coolant level within the coolant reservoir tank; and a coolant filter disposed in a coolant return line coupling in fluid communication an outlet of the coolant pump and the coolant reservoir tank, and wherein the coolant return line returns a portion of the coolant pumped by the coolant pump from the coolant reservoir tank back into the coolant reservoir tank via the coolant filter in parallel with a portion of the coolant pumped by the coolant pump being output to the coolant inlet of the at least one heat exchange assembly. 2. The apparatus of claim 1 , wherein the modular pumping unit further comprises at least one coolant temperature sensor within the modular pumping unit housing sensing a temperature of coolant passing through the modular pumping unit, and wherein the controller automatically adjusts an operational speed of the coolant pump based, at least in part, upon coolant temperature sensed by the at least one coolant temperature sensor. 3. The apparatus of claim 1 , wherein the heat exchange assembly comprises a coolant-to-air heat exchanger, and wherein the modular pumping unit farther comprises at least one ambient air temperature sensor within the modular pumping unit housing, the modular pumping unit being disposed so that the at least one ambient air temperature sensor senses temperature of ambient air passing across the coolant-to-air heat exchanger, and wherein the controller automatically adjusts operation of the coolant pump based, at least in part, on ambient air temperature sensed by the at least one ambient air temperature sensor. 4. The apparatus of claim 1 , wherein the modular pumping unit further comprises a coolant inlet quick connect coupling coupled to the coolant inlet of the modular pumping unit housing, and a coolant outlet quick connect coupling coupled to the coolant outlet of the modular pumping unit housing, the coolant inlet quick connect coupling and the coolant outlet quick connect coupling facilitating coupling of the modular pumping unit to the cooling apparatus in parallel fluid communication with the one or more other modular pumping units. 5. The apparatus of claim 1 , wherein the modular pumping unit further comprises a check valve disposed between the coolant pump and the coolant outlet of the modular pumping unit housing, the check valve preventing coolant from flowing back into the modular pumping unit when coupled to the cooling apparatus in parallel fluid communication with the one or more other modular pumping units. 6. The apparatus of claim 1 , wherein the modular pumping unit further comprises a coolant leak detector disposed within the modular pumping unit housing, the coolant leak detector monitoring for a coolant leak within the modular pumping unit housing. 7. The apparatus of claim 1 , wherein the modular pumping unit further comprises at least one fill or drain connection into the coolant reservoir tank within the modular pumping unit housing to facilitate filling or draining coolant from the coolant reservoir tank, and thereby facilitate field-replaceability of the modular pumping unit coupled to the cooling apparatus in parallel fluid communication with the one or more other modular pumping units. 8. A cooling system comprising: a coolant-based cooling apparatus assisting in removal of heat generated by one or more electronic systems, the coolant-based cooling apparatus comprising at least one heat exchange assembly discharging heat from coolant of the coolant-based cooling apparatus; and multiple modular pumping units disposed external to and coupled in fluid communication with the at least one heat exchange assembly and facilitating pumping of the coolant through the coolant-based cooling apparatus to assist in removal of heat generated by the one or more electronic systems and discharge of the heat via the at least one heat exchange assembly, one modular pumping unit of the multiple modular pumping units being a field-replaceable unit, and wherein the multiple modular pumping units are coupled to the coolant-based cooling apparatus in parallel fluid communication to separately provide pumping of coolant through the cooling apparatus, the modular pumping unit being field-replaceable while the cooling apparatus is operational with the one or more other modular pumping units pumping the coolant to the at least one heat exchange assembly, the one modular pumping unit comprising: a modular pumping unit housing; a coolant inlet to the modular pumping unit housing; a coolant reservoir tank disposed within the modular pumping unit housing and in fluid communication with the coolant inlet; a coolant pump disposed within the modular pumping unit housing and configured to pump coolant from the coolant reservoir tank; a coolant outlet of the modular pumping unit housing, the coolant pump being coupled in fluid communication between the coolant reservoir tank and the coolant outlet, wherein the coolant inlet and the coolant outlet facilitate coupling of the one modular pumping unit in fluid communication with the cooling apparatus, with the coolant outlet being coupled in fluid communication with a coolant inlet of the at least one heat exchange assembly; a modular pumping unit controller associated with the one modular pumping unit, the modular pumping unit controller automatically adjusting operation of the coolant pump of the modular pumping unit based, at least in part, upon one or more sensed parameters; at least one coolant-level sensor associated with the coolant reservoir tank disposed within the modular pumping unit housing, the at least one coolant-level sensor sensing coolant level within the coolant rese