A host port is enabled for security. In response to a determination by the host port that authentication or security association negotiation with a storage port cannot be completed successfully, the host port determines whether an audit mode indicator has been enabled in a login response from the storage port. The host port preserves input/output (I/O) access to the storage port based on determining whether the audit mode indicator has been enabled in the login response from the storage port.

Disclosed herein are two-wire communication systems and applications thereof. In some embodiments, a slave node transceiver for low latency communication may include upstream transceiver circuitry to receive a first signal transmitted over a two-wire bus from an upstream device and to provide a second signal over the two-wire bus to the upstream device; downstream transceiver circuitry to provide a third signal downstream over the two-wire bus toward a downstream device and to receive a fourth signal over the two-wire bus from the downstream device; and clock circuitry to generate a clock signal at the slave node transceiver based on a preamble of a synchronization control frame in the first signal, wherein timing of the receipt and provision of signals over the two-wire bus by the node transceiver is based on the clock signal.

A system, computer-readable media and computer-implemented method for automated network adapter activation in connection with fibre channel uplink mapping. The system includes a non-virtualized storage area network switch having a plurality of fibre channel ports. Each of the fibre channel ports is coupled to a corresponding cable to at least partly define a fibre channel uplink. The system also includes a plurality of client devices. Each client device has a network adapter. The system also includes a processing element and non-transitory computer-readable media having computer-readable instructions instructing the processing element to complete the following steps: (1) automatically execute an algorithm to determine a sequence for mapping the network adapters to respective fibre channel uplinks; (2) automatically determine a network adapter activation pattern based on the sequence to include a time delay between the network adapters; (3) automatically map the network adapters to respective fibre channel uplinks according to the sequence; and (4) automatically activate the network adapters based on the network adapter activation pattern.

A device has a plurality of CAN XL communication systems, a bus, and a switching circuit. The bus has a transmission node and reception node, and receives from each CAN XL communication system a respective second transmission signal and drives the logic level at the transmission node as a function of the logic levels of the second transmission signals, and provides to each CAN XL communication system a respective second reception signal having a logic level determined as a function of the logic level at the reception node. The switching circuit supports a plurality of modes. In a first mode, the switching circuit is configured to provide the NRZ encoded transmission signals of the CAN XL communication systems as the second transmission signals to the bus system, and provide the respective second reception signal received from the bus to the CAN XL protocol controllers of the CAN XL communication system.

According to various embodiments, systems and methods are provided that relate to shared access to Storage Area Networks (SAN) devices. In one embodiment, a Storage Area Network (SAN) host is provided, comprising: a server component: a first host bus adapter configured to be connected to a SAN client over a first SAN; a second host bus adapter configured to be connected to a SAN storage device over a second SAN; and wherein the server component is configured to manage a data block on the SAN storage device, receive a storage operation request from the SAN client through the first host bus adapter, and in response to the storage operation request, perform a storage operation on the data block, the storage operation being performed over the second SAN through the second host bus adapter.

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.

A system is provided. The system includes a solid state storage including a plurality of banks, a first controller that directs one or more commands to a queue of a set of a plurality of queues, and a second controller configured to receive the one or more commands from the plurality of queues. The one or more commands are separated into the set of the plurality of queues based on a command type of each command of the one or more commands, and each set of the plurality of queues includes a first queue configured to store management commands and a second queue configured to store other commands. Each bank of the plurality of banks corresponds to a different set of the plurality of queues. The second controller is configured to generate subcommands based on the commands and direct the subcommands to a bank of the solid state storage.

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 device for correcting a time parameter in a first node in accordance with a second node is provided. The device includes a clock pulse generator unit configured to provide periodic clock pulses in the first node. The device further includes a peripheral unit configured to decode symbols of an asynchronously transmitted telegram from the second node and to measure a number of clock pulses during the transmission of a symbol sequence of consecutive symbols of the telegram. The device also includes a correction unit configured to correct the time parameter as a function of a ratio of the measured number of clock pulses and the number of consecutive symbols in the symbol sequence.

An apparatus in one embodiment comprises at least one processing device. The at least one processing device is configured to monitor performance of respective ones of a plurality of paths for accessing a logical storage device, and responsive to detection of at least one specified condition in the monitored performance relating to at least a subset of the paths, to move at least one application from a first container that utilizes a first access protocol to access the logical storage device to a second container that utilizes a second access protocol different than the first access protocol to access the logical storage device. For example, in some embodiments, the at least one processing device is configured to move an application from first container that utilizes a SCSI access protocol to a second container that utilizes an NVMe access protocol, and vice versa, responsive to detected performance issues.