Shelf-mounted modular computing unit

What is claimed is: 1. A system, comprising: a rack; one or more mounting components coupled to the rack; two or more computing modules, wherein each of at least one of the computing modules comprises: a chassis configured to couple with at least one of the mounting components; one or more circuit board assemblies in a first orientation coupled to the chassis; and one or more mass storage devices in second orientation coupled to the chassis, wherein the first orientation and the second orientation are different orientations; wherein at least one of the two or more computing modules is at least partially removable from the at least one mounting component such that the chassis, the one or more circuit board assemblies and the one or more mass storage devices move together when the at least one computing module is at least partially removed. 2. The system of claim 1 , wherein the chassis for at least one of the computing modules comprises one or more guides for at least one of the mass storage devices, wherein the at least one mass storage device is configured to slide on at least one of the guides to remove the mass storage device from the chassis. 3. The system of claim 1 , wherein the one or more circuit board assemblies of at least one of the computing modules comprises a left circuit board assembly coupled to the chassis and a right circuit board assembly coupled to the chassis. 4. The system of claim 1 , wherein the at least one of the mounting components comprises a vertical member between at least two adjacent computing modules. 5. The system of claim 1 , wherein the one or more mounting components comprise two or more mounting components coupled to the rack, wherein each of at least one of the mounting components is configured to nest with at least one other of the mounting components. 6. The system of claim 1 , wherein the one or more mounting components comprise two or more mounting components coupled to the rack, wherein each of at least two of the mounting components comprises two or more computing modules, wherein at least two of the mounting components are configured to interlock with one another. 7. The system of claim 1 , further comprising one or more air moving devices configured to move air from front to back through at least one of the computing modules. 8. A computing module, comprising: a chassis configured to be installed in a rack; one or more circuit board assemblies in a first orientation coupled to the chassis; and one or more mass storage devices in a second orientation coupled to the chassis, wherein the computing module is at least partially removable from the rack such that the chassis, the one or more circuit board assemblies and the one or more mass storage devices move together when the computing module is at least partially removed. 9. The computing module of claim 8 , wherein the first orientation is a primarily vertical orientation. 10. The computing module of claim 8 , wherein the chassis comprises one or more guides for at least one of the mass storage devices, wherein the at least one mass storage device is configured to slide on at least one of the guides to remove the mass storage device from the chassis. 11. The computing module of claim 8 , further comprising two or more mass storage devices in the first orientation coupled to at least one of the circuit board assemblies. 12. The computing module of claim 8 , wherein the one or more circuit board assemblies comprise a left circuit board assembly coupled to the chassis and a right circuit board assembly coupled to the chassis. 13. The computing module of claim 12 , wherein the chassis comprises a left chassis member and a right chassis member coupled to one another, wherein the left circuit board assembly is coupled to the left chassis member and the right circuit board assembly is coupled to the right chassis member. 14. The computing module of claim 13 , further comprising: a first set of one or more mass storage devices coupled to the left chassis member and operably coupled to the left circuit board assembly; and a second set of one or more mass storage devices coupled to the right chassis member and operably coupled to the right circuit board assembly. 15. The computing module of claim 12 , further comprising a power supply unit coupled to the chassis, wherein the power supply unit is configured to supply electrical power to the left circuit board assembly and the right circuit board assembly. 16. The computing module of claim 8 , wherein the computing module comprises a left computing unit configured to perform computing operations and a right computing unit configured to perform computing operations independent of the left computing unit. 17. The computing module of claim 8 , further comprising a power supply under at least a portion of the left computing unit and at least a portion of the right computing unit. 18. The computing module of claim 8 , further comprising two or more rows of two or more mass storage devices and an air passage between at least two adjacent rows. 19. A method, comprising: providing a rack and two or more computing modules coupled in a slot of the rack, each of at least one of the two or more computing modules comprising one or more circuit board assemblies in a first orientation and one or more mass storage device in a second orientation; performing computing operations with at least one of the computing modules in the rack; at least partially removing at least one of the two or more computing modules from the slot in the rack, wherein the at least one computing module is configured such that the one or more circuit board assemblies and the one or more mass storage devices move together with the computing module when the computing module is removed from the slot in the rack. 20. The method of claim 19 , wherein when at least partially removing the computing module from the slot in the rack one or more other computing modules coupled in the slot of the rack do not move with the computing module.