A data storage enclosure for storing data on digital storage media has a lid that secures to a base. The enclosure has an upper insulating block that is located adjacent the lid and a lower insulating block that is located in the base. Each insulating block has a corresponding cover that overlays and protects its respective block. A storage unit has outer thermal management layers and a center layer located therebetween. The thermal management layers each contain a corresponding heat absorber that absorbs energy and changes from solid to liquid as the temperature of the storage unit begins to rise to excessive temperatures. The center layer contains a digital storage drive that is connected to a flexible cable that is connected to a sacrificial connector. When assembled, the insulating blocks and covers constrain and hold the storage unit and flexible cable.

Disclosed is a computing server that is housed in a cabinet assembly. The computing server includes at least a power supply module, a first processing module, a second processing module, a motherboard module, a communication module, and a fan module. The computing server is the next-generation residential mini-supercomputers connected to other ServerCube (SC) Devices around the world forming the SC P2P swarm network. Set-up is simple, for example, plug and-play into any standard (1200-Watt) household outlet, requiring only a basic consumer broadband connection to connect to the internet. The SC Device offers commercial strength hash rate processing power (162 MH/s for ETH up to a maximum 225 MH/s), running over a basic 3 (three) Mbps connection. The SC device is also designed to be more energy efficient and uses 95% (ninety five percent) of its cubic space.

Improved support systems, including seismic isolation platforms, tracks and flooring systems are disclosed for protecting a payload, for example, data center racks containing delicate computer equipment such as a hard disk drive, from damage due to vibrations such as seismic vibrations and the like. The systems are modular in design, and can be assembled and changed quickly, while being strong and robust enough to support heavy loads.

A self-actuating device and method for facilitating preventing product tip over are provided. The self-actuating device includes an anti-tip mechanism associated with a product to facilitate preventing tip over of the product when in an extended state. Further, the self-actuating device includes an actuator associated with the product. The actuator is configured and operatively coupled to automatically switch the anti-tip mechanism from a retracted state to the extended state based on the actuator detecting a tilt of a specified tilt angle.

A self-actuating device and method for facilitating preventing product tip over are provided. The self-actuating device includes an anti-tip mechanism associated with a product to facilitate preventing tip over of the product when in an extended state. Further, the self-actuating device includes an actuator associated with the product. The actuator is configured and operatively coupled to automatically switch the anti-tip mechanism from a retracted state to the extended state based on the actuator detecting a tilt of a specified tilt angle.

A system according to one embodiment includes a pair of members for mounting to a computer rack in a parallel orientation relative to one another, at least two bezels configured for extending between the members and mounting to the members, and at least two locks for selectively locking the bezels to at least one of the members. A system according to another embodiment includes a frame for mounting to a computer rack. The frame includes members oriented in a rectangular configuration, at least two bezels configured for extending between opposite members of the frame, and at least two locks for selectively locking the bezels to at least one of the members. A system according to another embodiment includes a pair of members for mounting to a computer rack in a parallel orientation relative to one another, and an array of locks coupled to one of the members.

Embodiments of the present invention are directed to systems and methods for preventing unauthorized access to server racks. In one example, the security system includes a plurality of electronic keys and a plurality of electronic locks each configured to secure a respective server rack. Each of the electronic locks is configured to communicate with any one of the electronic keys for determining whether the electronic key is authorized to unlock the electronic lock for accessing the server rack. The security system also includes a ticketing system configured to assign one or more server racks to users of each of the plurality of electronic keys for authorizing the plurality of electronic keys to unlock one or more of the plurality of electronic locks for the assigned server racks.

A system includes a volumetric container having a first aft-facing wall and configured with an information technology (IT) compartment. The container is designed for placement on a trailer capable of being moved in at least an aft-facing direction at different velocities. The container includes at least one heat generating information technology (IT) equipment that operates to provide large scale data computation when provided with a flow of cooling air sufficient to maintain the IT equipment below a maximum operating temperature value. An air intake opening placed in the aft-facing wall provides an air intake path at which exterior air ingresses into the container at a high velocity to provide a flow of cooling air through the IT compartment, maintaining the ambient condition required by the heat generating IT equipment to continue large scale data processing whenever the container is moving in the aft-facing direction at a minimum threshold velocity.

A self-actuating device and method for facilitating preventing product tip over are provided. The self-actuating device includes an anti-tip mechanism associated with a product to facilitate preventing tip over of the product when in an extended state. Further, the self-actuating device includes an actuator associated with the product. The actuator is configured and operatively coupled to automatically switch the anti-tip mechanism from a retracted state to the extended state based on the actuator detecting a tilt of a specified tilt angle.

A system includes a volumetric container having a first aft-facing wall and configured with an information technology (IT) compartment. The container is designed for placement on a trailer capable of being moved in at least an aft-facing direction at different velocities. The container includes at least one heat generating information technology (IT) equipment that operates to provide large scale data computation when provided with a flow of cooling air sufficient to maintain the IT equipment below a maximum operating temperature value. An air intake opening placed in the aft-facing wall provides an air intake path at which exterior air ingresses into the container at a high velocity to provide a flow of cooling air through the IT compartment, maintaining the ambient condition required by the heat generating IT equipment to continue large scale data processing whenever the container is moving in the aft-facing direction at a minimum threshold velocity.