A data processing device includes an internal volume divided into isolated portions and a thermal management portion. The data processing device further includes an isolator that electromagnetically isolates a first isolated portion of the isolated portions from a second isolated portion of the isolated portions. The data processing device also include a thermal bus, disposed in the thermal management portion, that thermally manages the first portion.

A lightweight and low-cost electromagnetic pulse (EMP) protection rack includes a front door, a rear door disposed to face the front door, a left outer wall disposed between the front door and the rear door, a right outer wall disposed to face the left outer wall, a top outer wall positioned on top parts of the front door, the rear door, the left outer wall, and the right outer wall, a bottom outer wall disposed to face the top outer wall, and a main frame disposed to connect, into a single unit, the front door, the rear door, the left outer wall, the right outer wall, the top outer wall and the bottom outer wall, wherein at least one of the front door and the rear door is implemented as a roller blind having a shielding member.

A housing device for isolating electromagnetic interference emitting devices includes a structural frame for housing the electromagnetic interference emitting devices. The housing device further includes a non-structural electromagnetic interference isolating enclosure. The non-structural electromagnetic interference isolating enclosure is for encapsulating the structural frame. The non-structural electromagnetic interference isolating enclosure includes an access portion that enables the structural frame to be accessed. The access portion includes a vent.

A housing device for isolating electromagnetic interference emitting (EMI) devices includes an EMI isolating enclosure and a power manager. The power manager includes a filter mounted to a first portion of the EMI isolating enclosure. The power manager further includes a path, through the EMI isolating enclosure, that is isolated from an interior of the EMI isolating enclosure. The power manager further includes a power provider adapted to provide power to the filter by obtaining the power using the path.

A data processing device includes an internal volume that is electromagnetic interference (EMI) isolated for housing EMI emitting devices, the internal volume is isolated by at least 80 decibels. The data processing device further includes a thermal management system adapted to control a flow of gas through the internal volume. The data processing device further includes a chassis, adapted to mount to a frame. The chassis includes the internal volume and the thermal management system. The thermal management system is disposed outside of the internal volume.

A data processing device includes an internal volume divided into isolated portions and a thermal management portion. The data processing device further includes an isolator that electromagnetically isolates a first isolated portion of the isolated portions from a second isolated portion of the isolated portions. The data processing device also include a thermal bus, disposed in the thermal management portion, that thermally manages the first portion.

A system for providing electromagnetic interference (EMI) suppression for data processing devices includes a frame adapted to receive a data processing device of the data processing devices. The system further includes the data processing device that includes a payload module adapted to suppress EMI from an internal volume to an ambient environment by greater than 80 decibels. The data processing device further includes the internal volume adapted to house EMI emitting devices that generate EMI.

A data processing device includes an internal volume for housing devices and an isolation test system. The isolation test system makes a determination that an electromagnetic interference suppression state of the data processing device is to be determined; in response to the determination: suppresses generation of electromagnetic radiation by the devices; while the generation of the electromagnetic radiation by the devices is suppressed: identifies a quantity of second electromagnetic radiation that propagated through a boundary of the internal volume; makes a second determination, based at least in part on the quantity, that the electromagnetic interference suppression state of the data processing device is an electromagnetic interference suppression compromised state; and initiates performance of an action set to remediate the electromagnetic interference suppression compromised state of the data processing device based on the second determination.

A data processing device includes an internal volume that is electromagnetic interference (EMI) isolated and a communication system, disposed in the internal volume, that: determines a first EMI state of at least one device of devices disposed in the internal volume; makes a determination that the first EMI state is an EMI emitting state; and disables communications by the communication system using a high-speed connection while allowing the communications using a low-speed connection.

A system for providing electromagnetic interference (EMI) suppression includes a data processing device. The data processing device includes a payload module that suppresses EMI from an internal volume to an ambient environment by greater than 90 decibels; the internal volume adapted to house EMI emitting devices that generate EMI; and an input control system disposed within the internal volume. The input control system includes a command input device translatable along axes and adapted to mechanically input commands into the EMI emitting devices.