Abstract: A load balancing method for multi-thread forwarding includes determining a first thread and a second thread from a plurality of threads, where the plurality of threads are all used to process data packets in virtual network interface card queues, wherein a load of the first thread is greater than a first threshold, wherein a load of the second thread is less than a second threshold, and wherein the first threshold is greater than the second threshold; determining a first queue from a plurality of virtual network interface card queues corresponding to the first thread, where the first thread is used to process data packets in the plurality of virtual network interface card queues; and switching the first queue to the second thread, so that the second thread processes a data packet in the first queue.

Abstract: A system and method for monitoring coordination/control of a multi-output integrated charger for electric automobiles, comprising a voltage/current demand collection module, an optimal-policy design module, and a policy execution module. The voltage/current demand collection module transmits demand information to the optimal-policy design module; the optimal-policy design module provides policy design results to the policy execution module; the policy execution module feeds back execution results to the optimal-policy design module; and, the optimal-policy design module feeds back the results to the voltage/current demand collection module. By means of real-time selection of an optimal power output policy, the present invention solves the safety, timeliness, and versatility issues concerning demand for power, voltage, and current during the charging process.

Abstract: A smart, integrated charging device for electric vehicles is provided. The alternating current input module is connected to an electricity metering module via an alternating current input switch. The charging module is connected to the electricity metering module via a module alternating current switch and an alternating current bus, and is connected to an output monitoring module via a direct current bus. The output monitoring module is connected to the monitoring and general control module (13). The direct current output module is connected to the output monitoring module (4) via a direct current output switch. The lightning protection module is connected to the direct current bus. The charging module utilizes smart power combination and multiple output coordination to enable output with current sharing and the automatic balance control technology.

Abstract: A system and method for monitoring coordination/control of a multi-output integrated charger for electric automobiles, comprising a voltage/current demand collection module, an optimal-policy design module, and a policy execution module. The voltage/current demand collection module transmits demand information to the optimal-policy design module; the optimal-policy design module provides policy design results to the policy execution module; the policy execution module feeds back execution results to the optimal-policy design module; and, the optimal-policy design module feeds back the results to the voltage/current demand collection module. By means of real-time selection of an optimal power output policy, the present invention solves the safety, timeliness, and versatility issues concerning demand for power, voltage, and current during the charging process.

Abstract: A smart, integrated charging device for electric vehicles is provided. The alternating current input module is connected to an electricity metering module via an alternating current input switch. The charging module is connected to the electricity metering module via a module alternating current switch and an alternating current bus, and is connected to an output monitoring module via a direct current bus. The output monitoring module is connected to the monitoring and general control module. The direct current output module is connected to the output monitoring module via a direct current output switch. The lightning protection module is connected to the direct current bus. The charging module utilizes smart power combination and multiple output coordination to enable output with current sharing and the automatic balance control technology.