An information processing method, an Ethernet switching chip and a storage medium are provided. The method includes: executing, by a master IP core, one of following operations: updating a global information table of the master IP core according to first information corresponding to the information processing request, and sending the first information to each slave IP core; updating a dedicated information table of the master IP core according to second information corresponding to the information processing request, or, sending, to a corresponding slave IP core, third information corresponding to the information processing request; or acquiring fourth information from the global information table or the dedicated information table of the master IP core based on the information processing request and sending the fourth information to a processor, or, acquiring fifth information from a corresponding slave IP core and sending the fifth information to the processor.

An information processing method, an Ethernet switching chip and a storage medium are provided. The method includes: executing, by a master IP core, one of following operations: updating a global information table of the master IP core according to first information corresponding to the information processing request, and sending the first information to each slave IP core; updating a dedicated information table of the master IP core according to second information corresponding to the information processing request, or, sending, to a corresponding slave IP core, third information corresponding to the information processing request; or acquiring fourth information from the global information table or the dedicated information table of the master IP core based on the information processing request and sending the fourth information to a processor, or, acquiring fifth information from a corresponding slave IP core and sending the fifth information to the processor.

A networking system may include a switch coupled to a computing resource. A resource management system may control the computing resource. A controller may be coupled to the switch. The controller may include a resource management interface that is coupled to the resource management system via a communications link. The resource management interface may receive computing resource information for the computing resource via the communications link. The controller may provide control data to the switch to update a cloud network for the computing resource based on the received computing resource information.

A networking system may include a switch coupled to a computing resource. A resource management system may control the computing resource. A controller may be coupled to the switch. The controller may include a resource management interface that is coupled to the resource management system via a communications link. The resource management interface may receive computing resource information for the computing resource via the communications link. The controller may provide control data to the switch to update a cloud network for the computing resource based on the received computing resource information.

A software switch and a method performed by the software switch are disclosed. The software switch receives, from a node deploying a virtual machine, a request for a virtual port to be polled by the virtual machine. The request includes a Central Processing Unit “CPU” identity identifying a CPU on which the virtual machine executes. The request includes an indication of a clock frequency at which the CPU is set to operate. The software switch determines a number of packets in a queue associated with the virtual port. The software switch adjusts the clock frequency of the CPU based on the number of packets in the queue. A corresponding computer program and a computer program carrier are also disclosed.

An information processing method, an Ethernet switching chip, and a storage medium are provided. The method includes: receiving, by a master module of an Ethernet switching chip, a message information processing request, and executing, by the master module in response to the message information processing request, a self-learning operation corresponding to the message information processing request, so as to obtain a message information learning result; updating, by the master module according to the message information learning result, a message processing information table of an IP core where the master module is located; and/or, sending, by the master module, the message information learning result to a corresponding slave module, so that the corresponding slave module updates, according to the message information learning result, a message processing information table of an IP core where the slave module is located.

An information processing method, an Ethernet switching chip, and a storage medium are provided. The method includes: receiving, by a master module of an Ethernet switching chip, a message information processing request, and executing, by the master module in response to the message information processing request, a self-learning operation corresponding to the message information processing request, so as to obtain a message information learning result; updating, by the master module according to the message information learning result, a message processing information table of an IP core where the master module is located; and/or, sending, by the master module, the message information learning result to a corresponding slave module, so that the corresponding slave module updates, according to the message information learning result, a message processing information table of an IP core where the slave module is located.

An embedded communications network of a vehicle is a deterministic switched Ethernet network using virtual links, including a set of subscribers and a set of switches. A first subscriber is connected to a first switch and a third switch, and a second subscriber is connected to a second switch and to a fourth switch. A first virtual link is formed from the first subscriber to at least the second subscriber via a first subset of switches, and a second virtual link is formed from the first subscriber to at least the second subscriber via a second subset of switches, the switches of the first subset of switches all being separate from the switches of the second subset of switches. The communications network includes at least one connection, used by a third virtual link, between a switch of the first subset and a switch of the second subset.

An Ethernet transceiver is disclosed. The Ethernet transceiver includes transceiver circuitry having receiver circuitry to receive refresh signals during corresponding refresh cycles from a link partner during a low-power idle mode of operation. Each refresh signal has a refresh period, and where a quiet period is interposed between successive refresh cycles. Signal quality detection circuitry, during the low-power idle mode, determines a measure of signal quality associated with the received refresh signals. Subsequent refresh cycles exhibit at least one of an adjusted refresh period or an adjusted quiet period based on the measure of signal quality.

A communication control system includes a plurality of layer 2 switches (SWs); and a communication control device that controls communication of the SWs. Each SW includes one or more queues that each have a variable queue length for accumulating input frames, and a transmission unit that has a shaping function of transmitting the frames accumulated in the queues to a desired destination at a desired rate. The communication control device includes a correction processing unit that acquires an amount of discarded data generated in each queue of the SW, and multiplies the acquired amount of discarded data by a correction coefficient weighted by the cumulative number of times of discarding occurrences for which the amount of discarded data is not 0 to obtain a corrected amount of discarded data; and an adjustment processing unit that determines adjustment values for the queue length of each queue and shaping rate of the SW based on the corrected amount of discarded data, and notifies each SW of the adjustment values.