A portable server data center and server rack system, includes a carrying case sized to allow the carrying case to be carried onboard an aircraft. A server tray rack rail apparatus is disposed within the carrying case to accommodate a plurality of server trays that are slidable along the rack rail apparatus. Each of the server trays are capable of accommodating a motherboard section and its components, a power supply section and its components, and a cooling apparatus for the motherboard and power supply sections.

This invention describes the use of pre-packaged air shipping containers for delivery of edge data center equipment. The containers are capable of rapid deployment and positioning at the edge data center delivery site to minimize time between the order of equipment and deployment of a functioning edge data center. The containers allow for easy access, and rapid repair/replacement of modular edge data center equipment.

According to one embodiment, a containment system for an electronics rack that includes a top structure that is movably coupled on top of the electronics rack, a first side structure that is movably coupled to a first side of the electronics rack, and a second side structure that is movably coupled to a second side of the electronics rack that is opposite to the first side, each of the structures is arranged to move along an axis and at least partially beyond either a front end or a back end of the electronics rack creating a containment region that is at least partially surrounded by the top structure, the first side structure, and the second side structure.

A mixing module may be used in a modular data center to provide cooling of air by mixing exterior environment air with warm air exhausted from information handling systems in other modules of the modular data center. The mixing module may include a mixing aisle that provides a low-impedance path for warm and cool air to mix and for a homogenous air mass for cooling IT equipment. The mixing aisle may be divided into two portions separated by dampers to allow for control over the mixing of air in the mixing aisle. The dampers in the mixing aisle, as well as dampers on an intake and exhaust from the mix module, may be controlled to obtain a desired temperature and/or humidity level.

This disclosure describes systems for arranging racks within a data center for a smaller and/or more flexible footprint, more efficient and/or resilient cooling, and/or easier installation. In some examples, this disclosure describes a data center rack system that includes an aisle and a plurality of rack stations adjacent to the aisle. The aisle includes an aisle guidance track defining an aisle axis. Each rack station of the plurality of rack stations includes a station guidance track defining a station axis. The station guidance track is configured to receive a rack from the aisle guidance track and position the rack in the respective rack station at a rack angle formed between the aisle axis and the station axis that is less than 90 degrees.

A data center may be organized into modules, wherein the modules are purchased pre-configured to provide certain functionality of an information handling system. The modules may include utility modules, information technology (IT) modules, and air handling unit (AHU) modules. The utility module may provide infrastructure for other modules, such as electrical power service infrastructure. The utility module may be passively cooled through openings to controlled environments in other modules. For example, the utility module may include openings for airflow to and from the warm air aisle and the cool air aisle of an information technology (IT) module that has an attached air handing unit (AHU) module. Space in the utility module may be cooled through airflow to and from the cooled IT module.

In one example, a shell includes walls that collectively define an interior space of the shell, the interior space sized and configured to receive heat generating equipment. An internal heat exchanger disposed within the interior space is arranged for thermal communication with heat generating equipment when heat generating equipment is located in the interior space. Additionally, an external heat exchanger is located outside of the shell and arranged for fluid communication with the internal heat exchanger. Finally, a prime mover is provided that is in fluid communication with the internal heat exchanger and the external heat exchanger, and the prime mover is operable to circulate a flow of coolant through the internal heat exchanger and the external heat exchanger.

A portable data center is configured to be supported by any suitable self-propelled motor vehicle, and transported to a client location, such that a large volume of data can be transmitted to, and stored on, computing devices of the portable data center via a hard wire communication link. The portable data center can then be transported to a data center building so as to store the data received at the client location on one or more computing devices housed in the data center building.

A cooling system for a datacenter is disclosed. An evaporative cooling subsystem provides blown air for cooling the datacenter and a repurposable refrigerant cooling subsystem controls moisture of the blown air in a first configuration and independently cools the datacenter in a second configuration.

A modular housing encloses a data center and a modular cooling system. The modular cooling system includes a modular cooling pallet on which cooling modules are installed. Each cooling module can have different cooling properties and may cool air to a different temperature than that of air cooled by other cooling modules. This can fulfill the different cooling needs among different computers that reside in the data center. The modular housing may also provide features that enable it to be quickly assembled at an operating site. The modular housing may comprise wall structures, roof structures, and a floor structure that are embedded with fastening features, which eliminates use of loose fasteners used for assembly. The floor structure may be made of rack pallets that provide wire ways through which connections can be routed, which simplifies the wiring process when assembling the modular housing on site.