Abstract: Processing data in a distributed data storage system generates a sparse check matrix correlating data elements to data syndromes. The system receives notification of a failed node in the distributed data storage system, accesses the sparse check matrix, and determines from the sparse check matrix a correlation between a data element and a syndrome. The system processes a logical operation on the data element and the syndrome and recovers the failed node.

Abstract: A method where the spin factor is looked up in a table; the slip factor is measured and the clamping pressure is adjusted to achieve a slip/spin ratio provided in a desired range is described herein. According to another aspect, an active mechanical clamping mechanism using a longitudinally movable contact point is also described.

Abstract: A Next Generation Form Factor (NGFF) connector apparatus can include a plurality of upper signal pins and an upper ground (GND) pin that is longer than other upper pins. The NGFF connector apparatus can also include a plurality of lower signal pins and a lower power (PWR) pin that is longer than other lower pins.

Abstract: The present disclosure relates to semiconductor structures and, more particularly, to a method to control depth of etch in deep via etching and related structures. The method includes: forming an interface within the substrate between an etch control dopant and material of the substrate; etching a via within substrate; and terminating the etching of the via at the interface upon detection of the interface.

Abstract: Example implementations relate to partitioning memory modules into volatile and non-volatile portions. For example, a system includes a memory controller to partition a memory module into a non-volatile portion and a volatile portion and to identify persistent data to be backed up during a power loss condition. The memory controller is further to transfer the persistent data from the volatile portion of the memory module to the non-volatile portion of the memory module, in response to the power loss condition.

Abstract: Example implementations relate to backup power communication. For example, a system includes a shared backup power supply coupled to a node, where the shared backup power supply includes a first communication interface. The system also includes a plurality of loads supported by the node, where each load of the plurality of loads includes a second communication interface. The first and second communication interfaces support peer-to-peer (P2P) communication between the shared backup power supply and the plurality of loads.

Abstract: Various examples described herein provide for causing operation of a cooling system of a computing device to be adjusted (e.g., reduced or disabled) during at least a portion of a backup operation, where data is copied from volatile memory of the computing device to non-volatile memory of the computing device. Some examples can be implemented with respect to a type 10 (T10) non-volatile dynamic inline memory module (NVDIMM) configuration.

Abstract: In one example, a processor may include a processor core with a central processing unit as well as a processor cache separate from the processor core. The processor may also include flushing circuitry. The flushing circuitry may identify a power loss event for the processor. In response, the flushing circuitry may selectively power the processor by providing power to the processor cache but not to the processor core. The flushing circuitry may further flush data content of the processor cache to a non-volatile memory separate from the processor.

Abstract: Example implementations relate to a parallel backup power supply. For example, a parallel backup power supply system can include a plurality of backup power supply cells that support a plurality of loads. Each of the backup power supply cells can include a charging module to charge an associated backup power supply cell among the plurality of backup power supply cells and a cell controller. The cell controller is to can be configured to control the charging module and communicate with a management module. The parallel backup power supply system can also include the management module to activate each of the plurality of backup power supply cells to provide backup power in parallel to the plurality of loads as each of the plurality of backup power supply cells is fully charged.

Abstract: A shower liner system configured to engage a shower rod having a rib with a strut slidably engaging the shower rod and a panel disposed approximately perpendicular to the strut having a top end and a bottom end. A liner can include a waterproof body with a top header disposed approximate the shower rod and having an engagement point, and a second header disposed away from the first header toward the floor. The top end of the panel engages the first header and the second end of the panel engages the second header. The rib is configured to hang at least a portion of the liner at an angle to the shower rod.

Abstract: Example implementations relate to data backup. For example, a data backup can include tracking a location of a data block on a first node and initiating a transfer, utilizing a backup power supply, of the data block to a non-volatile memory location on a second node in response to an interruption of a primary power supply. In addition, the data block can be restored to the tracked location of the first node responsive to a restoration of the primary power supply.

Abstract: Example implementations relate to server node shutdown. For example, a server node shutdown can include detecting a secondary power supply integrated into a server node, receiving a primary power supply interruption signal from the secondary power supply, and initiating a sequenced shutdown of the server node in response to receiving the signal using the secondary power supply.

Abstract: A Next Generation Form Factor (NGFF) connector apparatus can include a plurality of upper signal pins and an upper ground (GND) pin that is longer than other upper pins. The NGFF connector apparatus can also include a plurality of lower signal pins and a lower power (PWR) pin that is longer than other lower pins.

Abstract: Example implementations relate to placing loads in a self-refresh mode using a shared backup power supply. For example, a shared backup power supply system can include a node coupled to a shared backup power supply. The node can include a plurality of loads that include volatile memory and a processing resource to place the plurality of loads in a self-refresh mode in response to a failure of a primary power supply. A shared backup power supply system can also include the shared backup power supply to provide backup power to the plurality of loads in the self-refresh mode in response to the failure of the primary power supply.

Abstract: The present disclosure relates to co-crystals comprising N-[2,4-bis(1,1-dimethylethyl)-5-hydroxyphenyl]-1,4-dihydro-4-oxoquinoline-3-carboxamide (Compound 1) and a co-former and methods for their preparation. The present disclosure further relates to pharmaceutical compositions comprising the co-crystal forms, as well as methods of treatment therewith and kits.

Abstract: A test and diagnostics circuit, methods and systems are described. An example test and diagnostics circuit includes a controller and a power monitor coupled to the controller. A load switch on the test and diagnostics circuit selectably implements a load from among multiple load values to test a computing and/or data storage system. The test and diagnostics circuit includes circuitry connecting the controller, the power monitor and the load switch to receive a test enable signal from a non-dedicated pin in a non-volatile dual inline memory module (NV-DIMM) slot to implement a test operation on the system.

Abstract: Example implementations relate to combined backup power. For example, a system for combined backup power can include a combined backup power supply (CBPS) coupled to a node and a plurality of loads supported by the node. The CBPS can include an uninterruptible power supply (UPS) and a backup power supply coupled to the UPS to act as redundancy for the UPS.

Abstract: Example implementations relate to backup power communication. For example, a system for backup power communication can include a shared backup power supply coupled to a node, a plurality of loads supported by the node, and a pass-through device to support multi-master communication between the shared backup power supply and the plurality of loads.

Abstract: A technique for providing backup power can include determining a backup power demand of at least two nodes on a chassis, each node supporting multiple loads. A technique for providing backup power can include selectively enabling an output of power from a battery module to the at least two nodes.

Abstract: Examples of runtime drive detection and configuration are disclosed. In one example implementation according to aspects of the present disclosure, a computer implemented method includes detecting, by a computing system, that a drive is connected to the computing system during a runtime using a sideband signal of the drive. The method further includes determining, by the computing system, a drive type for the drive. Additionally, the method includes configuring, by the computing system, during a runtime, a PCIe multiplexer based on the determined drive type.