Cooling systems for devices arranged in rows

What is claimed is: 1. A cooling system for a datacenter, wherein the datacenter includes a plurality of computers arranged in a row within a building, the row of computers disposed between a cold aisle and a hot aisle, the row of computers defining an air passageway between the cold aisle and the hot aisle, the row of computers associated with a top surface that is below and spaced apart from an overhead surface of the building to define a gap between the top surface associated with the row of computers and the overhead surface of the building, the cooling system comprising: an inflatable air duct to be disposed within the gap, the inflatable air duct having selectively an inflated state and a deflated state, the inflatable air duct filling more of the gap when the inflatable air duct is in the inflated state than when the inflatable air duct is in the deflated state, wherein the inflatable air duct is to rest upon the top surface associated with the row of computers such that a weight of the inflatable air duct is supported by the top surface. 2. The cooling system of claim 1 , wherein the inflatable air duct includes an upper section facing toward the overhead surface when the inflatable air duct is in the inflated state, and the upper section is closer to the top surface associated with the row of computers when the inflatable air duct is in the deflated state than when the inflatable air duct is in the inflated state. 3. The cooling system of claim 1 , further including a sensor to be disposed within the building and being responsive to at least one of a fire, a temperature limit, or a presence of smoke, the inflatable air duct changing from the inflated state to the deflated state in response to the sensor detecting the at least one of the fire, the temperature limit, or the presence of smoke. 4. The cooling system of claim 1 , wherein the cooling system is to cause a current of air to flow sequentially from the hot aisle, lengthwise through the inflatable air duct, and downward from the inflatable air duct into the cold aisle. 5. The cooling system of claim 1 , wherein the inflatable air duct includes an air permeable pliable wall and a nozzle attached to the air permeable pliable wall, the nozzle providing a discharge air path from an interior of the inflatable air duct toward the cold aisle, the nozzle to guide a discharge current of air through the discharge air path, the discharge current of air to direct a secondary current of air discharging outwardly through the air permeable pliable wall. 6. The cooling system of claim 1 , wherein the inflatable air duct includes an air permeable pliable outer wall and an internal baffle that is elongate along a length of the inflatable air duct, the internal baffle separating an interior space of the inflatable air duct into an upstream chamber and a downstream chamber, the cooling system to cause a current of air to flow sequentially from the hot aisle, lengthwise through the upstream chamber, through the internal baffle, through the downstream chamber, through the air permeable pliable outer wall, and downward from the inflatable air duct into the cold aisle. 7. The cooling system of claim 1 , wherein the inflatable air duct spans the entire gap between the top surface and the overhead surface when in the inflated state. 8. The cooling system of claim 1 , further including an internal restraint to couple a first sidewall of the inflatable air duct to a second sidewall of the inflatable air duct, the first sidewall to face toward the hot aisle and the second sidewall to face toward the cold aisle, the internal restraint to limit outward movement of the first and second sidewalls when the inflatable air duct is in the deflated state. 9. The cooling system of claim 1 , wherein the inflatable air duct is secured to the top surface associated with the row of computers. 10. A cooling system comprising: an inflatable air duct to be disposed within a gap between an overhead surface of a building and a top surface associated with a row of devices interposed between a first aisle of the building and a second aisle of the building, the first and second aisles to be in fluid communication across the gap, the devices emitting heat to a surrounding area during operation, the row of devices defining an air passageway below the gap to place the first aisle in fluid communication with the second aisle, the inflatable air duct having selectively an inflated state and a deflated state, the inflatable air duct substantially blocks dispersion of gas within the building across the gap between the first and second aisles when the inflatable air duct is in the inflated state and enables dispersion of gas across the gap when the inflatable air duct is in the deflated state; and a blower to be connected in fluid communication with the inflatable air duct, the blower to force a current of air sequentially from the second aisle, lengthwise through the inflatable air duct, and downward from the inflatable air duct into the first aisle. 11. The cooling system of claim 10 , wherein the inflatable air duct includes an upper section facing toward the overhead surface when the inflatable air duct is in the inflated state, and the upper section is closer to the top surface associated with the row of devices when the inflatable air duct is in the deflated state than when the inflatable air duct is in the inflated state. 12. The cooling system of claim 10 , wherein the inflatable air duct is to change from the inflated state to the deflated state in response to a sensor detecting at least one of a fire, a temperature limit, or a presence of smoke. 13. The cooling system of claim 10 , wherein the inflatable air duct includes an air permeable pliable wall and a nozzle attached to the air permeable pliable wall, the nozzle providing a discharge air path from an interior of the inflatable air duct toward the first aisle, the nozzle to guide a discharge current of air through the discharge air path, the discharge current of air to direct a secondary current of air discharging outwardly through the air permeable pliable wall. 14. The cooling system of claim 10 , wherein the inflatable air duct includes an air permeable pliable outer wall and an internal baffle that is horizontally elongate, the internal baffle separating an interior space of the inflatable air duct into an upstream chamber and a downstream chamber, the cooling system to cause the current of air to flow sequentially from the second aisle, lengthwise through the upstream chamber, through the internal baffle, through the downstream chamber, through the air permeable pliable outer wall, and downward from the inflatable air duct into the first aisle. 15. The cooling system of claim 10 , wherein the first aisle is cooler than the second aisle. 16. The cooling system of claim 10 , wherein the inflatable air duct is to be in contact with both the overhead surface of the building and the top surface associated with the row of devices when in the inflated state. 17. The cooling system of claim 10 , wherein a weight of the inflatable air duct is supported by the top surface associated with the row of devices. 18. A cooling system comprising: an inflatable air duct to be disposed within a gap between an overhead surface of a building and a top surface associated with a row of devices interposed between a first aisle of the building and a second aisle of the building, the devices emitting heat to a surrounding area during operation, the row of devices defining an air passageway below the gap to place the first aisl