When an unfair gaming currency is delivered to a dealer from a player, the currency is detected as unfair. The inspection system for inspecting the gaming currency, in which an RF tag is built, comprises: a gaming currency tray for housing the gaming currencies of the dealer in a casino game; an RF reader for reading the RF tags of the plural gaming currencies housed in the gaming currency tray; plural photosensors for detecting at least the number of the plural gaming currencies housed in the gaming currency tray at a constant time interval or always in a method other than RFID; and an inspection/alarm part for generating alarms when the number of the gaming currencies whose RF tags are read by the RF reader is not equal to the number of the gaming currencies detected by the plural photosensors.

Embodiments of the present disclosure relate to storage processor and storage system. A storage processor comprises a housing provided with a cover and a main power supply input, which, for example, connects an external power source to supply power to the storage processor. A battery is disposed within the housing and configured to continue supplying power to the storage processor in response to the main power supply input being cut off. A protection device is disposed within the housing and configured to disable the battery to supply power to the storage processor in response to determining that the cover is opened.

The present invention provides a solid-state hard disk lug-in device, including: a main body; a solid-state hard disk installation slot arranged on one side of the main body; and plug-in components. The plug-in components include an operating switch and an operating handle. When the operating switch is closed, the operating handle is restricted to a closed position, and when the operating switch is open, the operating handle is released to an extended position; when the operating handle in the closed position is pushed by an external force, the solid-state hard disk can be inserted into the hard disk slot of the solid-state hard disk system; when the operating handle in the extended position is pulled by an external force, the solid-state hard disk can be pulled out of the hard disk slot.

A microcomputer calculates a predicted CPU ambient temperature which predicts an ambient temperature in the future by using a heat generation amount of a drive, an outside air temperature detected by an outside air temperature sensor, and a CPU ambient temperature detected by a CPU ambient temperature sensor. The microcomputer controls a rotation number of the fan on the basis of the predicted CPU ambient temperature so that a junction temperature of a CPU does not exceed a temperature-specification upper limit value.

A device includes an interposer card that includes a processor, such as a system on a chip (SoC), and memory devices. The interposer card mounts to a mass storage device and has a shape that corresponds to a size of an end of the mass storage device to which the interposer card is mounted. The SoC of the interposer card is configured to implement an individual server for the mass storage device to which the interposer card is mounted. In some embodiments, a data storage system includes multiple mass storage devices mounted in a chassis and coupled to one or more backplanes, wherein interposer cards are connected between the mass storage devices and the one or more backplanes.

An inspection system inspects gaming chips each having a color or a display indicating a value on an outer surface in a state where the gaming chips are stored in a case in which a maximum of the number of gaming chips to be stored is limited, and a radio tag storing gaming chip information is embedded in each of the gaming chips. The gaming chips are stored in the case capable of containing a row of gaming chips stacked in a thickness direction, and the inspection system includes a reading device that reads the radio tag of the gaming chip in the case and acquires gaming chip information of the gaming chip and a determining unit that compares the gaming chip information with a maximum of the number of gaming chips storable in the case and determines an abnormality of the gaming chip in the case when the number of gaming chips obtained from the gaming chip information is different from a maximum of the number of storable gaming chips.

Examples of a load beam are described herein that include a lifter tab extending towards a distal end, a dustpan defined by a dustpan forming line at a proximal end and the lifter tab at a distal end and a first and second plurality of rail sections separated by a longitudinal axis. The first and second plurality rail sections including a rear rail, an intermediate rail, and a front rail. The rear rail extends from a proximal end of the load beam to the first intermediate rail, the intermediate rail extends from the first rear rail to the dustpan forming line, and the front rail extends from the dustpan forming line to a proximal end of the lifter tab.

An interconnecting module (1) configured to be mounted in a High-Performance Computing cabinet, thereafter HPC cabinet, in order to interconnect a plurality of computing units (A1-A4) located in the HPC cabinet, the interconnecting module (1) comprising a chassis configured to be mounted horizontally within housings (H1-H4) defined in the computing units (A1-A4), a plurality of connection units (M1-M4) spaced vertically, each connection unit (M1-M4) being configured to be connected to a motherboard of a computing unit (A1-A4), the connection units (M1-M4) being interconnected, each connection unit (M1-M4) comprising at least a fastening member configured to cooperate with a housing (H1-H4) of a computing unit (A1-A4), a vertical rack cooperating with all the fastening members and at least a main lever (2) mounted pivotally on the chassis, the main lever (2) being configured to move the vertical rack vertically in order to engage/disengage all the fastening members (51-54) simultaneously.

A server includes a backplane, and a hard disk in the server may be housed on the backplane. The backplane is disposed between an air exhaust vent and an air intake vent of the server, and the backplane may be parallel to an air inflow direction of the air intake vent or an air outflow direction of the air exhaust vent. The backplane is parallel to the air direction.

A modular mounting for a computer motherboard. An outer cabinet is designed to provide a protective enclosure for electrical components, and designed to permit throughhole drilling to facilitate mounting on a wall while avoiding disturbance of contents to be mounted within the outer cabinet. A subpanel plate is designed to detachably and securely attach a computer motherboard and cage assembly, and designed to removably mount the motherboard and cage assembly within the outer cabinet as a modular component, mounting of the motherboard and cage assembly being independent of power supply and nonvolatile storage. An inner cage is designed to protectably mount and enclose a computer motherboard and heat sink, and mount to the subpanel plate. A multipole switch may have a set of contacts for each conductor of a network cable entering the outer cabinet, one throw of the switch connecting all conductors of the cable, another throw of the switch disconnecting all contacts of the cable.