A storage controller includes a processing device to send a Non-Volatile Memory Express over Fibre Channel (NVMe/FC) command to a submission queue without routing the NVMe/FC command through a kernel space, the submission queue being reserved for direct access by an initiator device to a user space of the storage controller.

Example embodiments of this application provide a method and an apparatus for transmitting a service flow based on FlexE. The method includes: sending, by a first network device, a first FlexE overhead frame to a second network device, where the first network device and the second network device transmit a service flow using a first FlexE group, and the first FlexE overhead frame includes FlexE group adjustment identification information and PHY information of a physical layer (PHY) included in a second FlexE group; receiving, by the first network device, a second FlexE overhead frame sent by the second network device, where the second FlexE overhead frame includes FlexE group adjustment acknowledgment identification information; adjusting, by the first network device, the first FlexE group to the second FlexE group; and sending, by the first network device, the service flow to the second network device based on the second FlexE group, to dynamically adjust a FlexE group.

According to various aspects of the present disclosure, an apparatus is provided. In an aspect, the apparatus includes an optical transceiver having a first port, a second port and an optical switch coupled to the first port and the second port. The optical switch is switchable between a unidirectional port operation mode and a bidirectional port operation mode. When the optical switch is in the unidirectional port operation mode, the first port is configured to send a first optical signal, and the second port configured to receive a second optical signal. When the optical switch is in the bidirectional port operation mode, the first port configured to send the first optical signal and receive the second optical signal, and the second port configured to receive a third optical signal and not send the first signal. Furthermore, a second bidirectional port operation mode is supported with the second port configured to send the first optical signal and receive the second optical signal, and the first port configured to receive a third optical signal and not send the first signal.

Embodiments are generally directed apparatuses, methods, techniques and so forth to select two or more processing units of the plurality of processing units to process a workload, and configure a circuit switch to link the two or more processing units to process the workload, the two or more processing units each linked to each other via paths of communication and the circuit switch.

Techniques for a virtualized fabric management server for a storage area network are described herein. An aspect includes operating a storage area network, the storage area network including a hybrid control plane. Another aspect includes managing, using a virtualized fabric management server and the hybrid control plane, the storage area network, wherein the virtualized fabric management server is disposed in a container that is hosted on an element of the storage area network.

A Fibre Channel (FC) N_Port virtualization (NPV) gateway apparatus includes an NP_Port to connect to an F_Port of an FC switch of an FC fabric, a first F_Port to connect to a host device, and a second F_Port to connect to a target device. The apparatus includes shortcut path logic to create a shortcut path between the host and target devices to permit the host and target devices to communicate with one another without the communication traversing the switch. In response to receiving communication from the host device addressed to the target device, the apparatus diverts the communication to the target device over the shortcut path in lieu of sending it to the switch. In response to receiving communication from the target device addressed to the host device, the apparatus diverts the communication to the host device over the shortcut path in lieu of sending it to the switch.

A method for dynamically allocating buffer credits between a system and a storage area network (SAN). The method includes one or more computer processors determining a forecast of a change related to a pattern of network traffic that originates from a computing system that links to a storage area network (SAN) via a network connection. The method further includes determining whether the forecast change related to the pattern of network traffic dictates a change to a buffer credit allocation associated with the network connection. The method further includes responding to determining that the forecast change related to the pattern of network traffic dictates the buffer credit allocation change by determining a value for the buffer credit allocation associated with the change. The method further includes transmitting a request to a switch of the SAN to modify a buffer credit allocation value corresponding to a port of the switch linked to the network connection.

A non-transitory processor-readable medium storing code representing instructions to be executed by a processor can cause the processor to receive an indication to load balance a group of sessions associated with a network node and a switch across a group of links between a gateway device and the switch at a first time. The code causes the processor to calculate at a second time, a load based on the group of sessions and associated with a first set of links in an active configuration before the first time. The code causes the processor to send a signal to cause a set of sessions from the group of sessions to re-establish themselves at a third time based on a threshold value calculated based on the load such that the set of sessions are load balanced across a second set of links in the active configuration at the third time.

Embodiments may be generally direct to apparatuses, systems, method, and techniques to determine a configuration for a plurality of connectors, the configuration to associate a first interconnect protocol with a first subset of the plurality of connectors and a second interconnect protocol with a second subset of the plurality of connectors, the first interconnect protocol and the second interconnect protocol are different interconnect protocols and each comprising one of a serial link protocol, a coherent link protocol, and an accelerator link protocol, cause processing of data for communication via the first subset of the plurality of connectors in accordance with the first interconnect protocol, and cause processing of data for communication via the second subset of the plurality of connector in accordance with the second interconnect protocol.

A first device transmits a first Fibre Channel frame with a first priority to a second device. The first device receives a second Fibre Channel frame from the second device, where the second Fibre Channel frame has a second priority indicated by the second device. The first device determines whether to adopt the second priority indicated by the second device or whether to continue to use the first priority for transmitting subsequent Fibre Channel frames to the second device.