A method for managing data in a NAND flash storage system is provided. The method includes one or more of receiving an empty data segment directive at a storage controller, returning a data string including data of a predetermined logic level in response to a read command requesting to read data associated with a logical identifier included in the empty data segment directive, maintaining an index of mapping between the logical identifier and a physical storage location, updating the index to indicate data at the physical storage location does not need to be preserved, monitoring one or more physical storage locations, including the physical storage location, to determine a percentage of the one or more physical storage locations that do not need to be preserved, and initiating garbage collection on the one or more physical storage locations in response to the percentage reaching a threshold. The empty data segment directive includes a logical identifier associated with the physical storage location.

An apparatus, system, and method are disclosed for managing a non-volatile storage medium. A storage controller receives a message that identifies data that no longer needs to be retained on the non-volatile storage medium. The data may be identified using a logical identifier. The message may comprise a hint, directive, or other indication that the data has been erased and/or deleted. In response to the message, the storage controller records an indication that the contents of a physical storage location and/or physical address associated with the logical identifier do not need to be preserved on the non-volatile storage medium.

An apparatus, system, and method are disclosed for managing a non-volatile storage medium. A storage controller receives a message that identifies data that no longer needs to be retained on the non-volatile storage medium. The data may be identified using a logical identifier. The message may comprise a hint, directive, or other indication that the data has been erased and/or deleted. In response to the message, the storage controller records an indication that the contents of a physical storage location and/or physical address associated with the logical identifier do not need to be preserved on the non-volatile storage medium.

A structure for a network switch. The network switch may include a plurality of spine chips arranged on a plurality of spine cards, where one or more spine chips are located on each spine card; and a plurality of leaf chips arranged on a plurality of leaf cards, wherein one or more leaf chips are located on each leaf card, where each spine card is connected to every leaf chip and the plurality of spine chips are surrounded on at least two sides by leaf cards.

Apparatuses, systems, methods, and computer program products are disclosed for destaging cached data. A method includes caching write in a nonvolatile solid-state cache by appending the data to a log of the nonvolatile solid-state cache. The log includes a sequential, log-based structure preserved in the nonvolatile solid-state cache. A method includes destaging at least a portion of the data from the nonvolatile solid-state cache to the backing store in a cache log order. The cache log order comprises an order in which the data was appended to the log of the nonvolatile solid-state cache.

A bracket for mounting a processor and a support structure for receiving bracket-supported processors for cluster computing are provided. In some embodiments, a bracket may be configured to receive a processor and fasten the processor to the bracket. The bracket may be configured to mount the processor to a support structure. The support structure may be configured to receive an array of brackets. The support structure may be configured to be stacked in combination with additional support structures.

A bracket for mounting a processor and a support structure for receiving bracket-supported processors for duster computing are provided. In some embodiments, a bracket may be configured to receive a processor and fasten the processor to the bracket. The bracket may be configured to mount the processor to a support structure. The support structure may be configured to receive an array of brackets. The support structure may be configured to be stacked in combination with additional support structures.

A bracket for mounting a processor and a support structure for receiving bracket-supported processors for cluster computing are provided. In some embodiments, a bracket may be configured to receive a processor and fasten the processor to the bracket. The bracket may be configured to mount the processor to a support structure. The support structure may be configured to receive an array of brackets. The support structure may be configured to be stacked in combination with additional support structures.

One method includes streaming a data segment to a write buffer corresponding to a virtual page including at least two physical pages. Each physical page is defined within a respective solid-state storage element. The method also includes programming contents of the write buffer to the virtual page, such that a first portion of the data segment is programmed to a first one of the physical pages, and a second portion of the data segment is programmed to a second one of the physical pages.

The disclosure provides a server including a housing, a plurality of hash boards, a power module and an electrical connection board. Each hash board is slidably arranged in a first accommodating space. The plurality of hash boards and the power module are respectively connected to the electrical connection board. The power module supplies power to the plurality of hash boards through the electrical connection board. The electrical connection board includes two conductive connection boards, each of which is provided with a plurality of conductive pins. The pins form multiple pairs of conductive pins in one-to-one correspondence. Each pair of conductive pins corresponds to each hash board and is electrically connected to supply power to the hash board. Each pair of conductive pins is detachably matched with each hash board to connect or disconnect the power supply path of the hash board.