An embodiment provides a method for transferring information utilizing a serial communication command structure over an unreliable or a non-continuous communication channel, including: establishing a serial command structure, wherein the establishing comprises defining a package structure having a predefined format, wherein the serial command structure comprises bounded data; and transmitting, over the unreliable or the non-continuous communication channel, data from a sending entity to a receiving entity utilizing the serial command structure and in the predefined format. Other aspects are described and claimed.

An embodiment provides a method for transferring information utilizing a serial communication command structure over an unreliable or a non-continuous communication channel, including: establishing a serial command structure, wherein the establishing comprises defining a package structure having a predefined format, wherein the serial command structure comprises bounded data; and transmitting, over the unreliable or the non-continuous communication channel, data from a sending entity to a receiving entity utilizing the serial command structure and in the predefined format. Other aspects are described and claimed.

In an embodiment, header information of messages is altered to specify a window within which to receive information, so that the messages sent by a remote device will be sent at a rate that a network can receive messages. The sending of acknowledgements of messages are paced to control window growth. Bandwidth is allocated to a plurality of flows such that the satisfied flows require less bandwidth than an amount of bandwidth allocated to each unsatisfied flow.

In an embodiment, header information of messages is altered to specify a window within which to receive information, so that the messages sent by a remote device will be sent at a rate that a network can receive messages. The sending of acknowledgements of messages are paced to control window growth. Bandwidth is allocated to a plurality of flows such that the satisfied flows require less bandwidth than an amount of bandwidth allocated to each unsatisfied flow.

Embodiments of the present invention provide a system for autopartitioning and processing electronic resources. The system is configured for receiving one or more electronic resources from one or more third party systems, determining that the one or more electronic resources match one or more predetermined characteristics, moving the one or more electronic resources that match the one or more predetermined characteristics into a first pipeline and processing the one or more electronic resources.

Embodiments of the present invention provide a system for autopartitioning and processing electronic resources. The system is configured for receiving one or more electronic resources from one or more third party systems, determining that the one or more electronic resources match one or more predetermined characteristics, moving the one or more electronic resources that match the one or more predetermined characteristics into a first pipeline and processing the one or more electronic resources.

A network communication device includes a plurality of ports, a memory, and a processor. The plurality of ports is configured to receive a packet. A memory is configured to store a first lookup table and a second lookup table. An entry of the first lookup table includes a flag field. An entry of the second lookup table includes an entry address of the first lookup table. The processor is coupled to the memory and the plurality of ports. The network communication device is configured to: analyze the packet by a software or hardware to obtain a source Media Access Control (MAC) address; obtain, according to the source MAC address of the packet, the entry of the first lookup table; read the flag field of the entry; and determine, according to the flag field, whether the entry is referred by the second lookup table.

A network communication device includes a plurality of ports, a memory, and a processor. The plurality of ports is configured to receive a packet. A memory is configured to store a first lookup table and a second lookup table. An entry of the first lookup table includes a flag field. An entry of the second lookup table includes an entry address of the first lookup table. The processor is coupled to the memory and the plurality of ports. The network communication device is configured to: analyze the packet by a software or hardware to obtain a source Media Access Control (MAC) address; obtain, according to the source MAC address of the packet, the entry of the first lookup table; read the flag field of the entry; and determine, according to the flag field, whether the entry is referred by the second lookup table.

A network device may receive, from a first network, a network packet of a first network packet type that encapsulates a fragment of a second network packet of a second network packet type, where the network packet includes an extension header that indicates a source port and a destination port for the second network packet. The network device may perform an anti-spoof check on the fragment of the second network packet based at least in part on at least one of: the source port or the destination port for the second network packet that is indicated by the extension header. The network device may, based on the fragment passing the anti-spoof check, forward the fragment of the second network packet to a second network.

A network device may receive, from a first network, a network packet of a first network packet type that encapsulates a fragment of a second network packet of a second network packet type, where the network packet includes an extension header that indicates a source port and a destination port for the second network packet. The network device may perform an anti-spoof check on the fragment of the second network packet based at least in part on at least one of: the source port or the destination port for the second network packet that is indicated by the extension header. The network device may, based on the fragment passing the anti-spoof check, forward the fragment of the second network packet to a second network.