Systems and methods for bufferbloat recovery and avoidance are provided herein. A portion of the buffer can be compressed based on one or more thresholds without changing an order of packet transmission and without dropping packets. The method includes storing, by a device, a plurality of packets received by the device to a buffer. The buffer can be configured with a minimum threshold and a maximum threshold. The method includes detecting that a size of the buffer has reached at least the maximum threshold and compressing one or more packets of the plurality of packets stored between the minimum threshold and the maximum threshold while transmitting, during compression, at least a portion of one or more packets of the plurality of packets stored in the buffer below the minimum threshold.

A technique for processing messages in a message-based communication scenario is described. In the communication scenario, messages are received from an input message stream, multiplied and forwarded to multiple message consumers, and persisted together with at least one of a time stamp and a message identifier in a persistent storage for later replay to the message consumers. A method aspect of this technique comprises detecting a replay triggering event associated with a message consumer. The method aspect further comprises, in response to detecting the replay triggering event, creating a replay function for the message consumer. The replay function is configured to receive persisted messages from the persistent storage and to send the persisted messages to the message consumer.

The disclosure provides a new content server framework in which functionalities of a content server are implemented as lightweight microservices. At startup of the content server framework, a content server container and a set of microservices are launched. The content server container only has a content server application programming interface (API) which has a controller that can instantiate controller applications, each having a master module and worker(s). When a request is received, the content server API routes it to an appropriate microservice which stores the request in a repository. The master module retrieves the request from the repository and places it in a queue. The worker picks up the request from the queue and processes it. The controller keeps track of details of each controller application container that it instantiated (e.g., load and status) and automatically scale up or down the number of instances.

A network device includes a receive processor configured to store, in a packet memory, a payload of a packet received from a communication network. The network device also includes a packet processor configured to modify one or more fields of a header of the packet to generate a modified header, perform egress classification of the packet based on the modified header, and store the modified header in the packet memory. The network device further includes a transmit processor configured to transmit the packet in accordance with the egress classification. The transmit processor is configured to, in response to a decision that the packet is to be transmitted from the network device, generate a transmit packet from the payload retrieved from the packet memory and the modified header retrieved from the packet memory and cause the transmit packet to be transmitted to a destination in the communication network.

Embodiments of the present invention relate to an architecture that uses hierarchical statistically multiplexed counters to extend counter life by orders of magnitude. Each level includes statistically multiplexed counters. The statistically multiplexed counters includes P base counters and S subcounters, wherein the S subcounters are dynamically concatenated with the P base counters. When a row overflow in a level occurs, counters in a next level above are used to extend counter life. The hierarchical statistically multiplexed counters can be used with an overflow FIFO to further extend counter life.

The disclosed systems and methods provide methods and systems for providing power throttling adapted for high performance network switches. A method includes determining, for each of a plurality of measurement periods within a thermal average period, an energy usage estimate for a packet processing block configured to process ingress packets at a power gated clock rate. The method includes determining, for each of the plurality of measurement periods, a target clock rate for the packet processing block based on the determined energy usage estimates to meet a target energy value that is averaged for the thermal average period. The method includes adjusting, for each of the plurality of measurement periods, the power gated clock rate towards the target clock rate, wherein the adjusting causes the packet processing block to process the ingress packets at the adjusted power gated clock rate.

An IC card has a communication unit, a storage unit, and a controller. The communication unit communicates with an external apparatus. A communication buffer for communication between the communication unit and the external apparatus is set in the storage unit. If the size of a buffer used in communication is designated by the external apparatus, the controller sets a receive buffer that stores reception data and a transmit buffer that stores transmission data in the communication buffer, and notifies the external apparatus of the size of the set receive buffer and the size of the set transmit buffer.

A packet transfer device includes a circuit configured to include a first queue to store a first packet classified into a high priority class and a second queue to store a second packet classified into a low priority class, a memory configured to store data configured to indicate possibilities of output for the first packet and the second packet for each time slot, a processor coupled to the memory and configured to control the output of the first packet and the second packet for each time slot according to the data stored in the memory, count a number of discards of the second packet within the second queue in a predetermined cycle, and change the data stored in the memory, when the number of discards is less than a first predetermined value, so as to reduce an output period of the second packet every the time slot.

A relay device accumulates received frames that are not determined as a specific frame in a queue and transfers the frames accumulated in the queue one by one according to a predetermined rule. The relay device transfers a received frame that is determined as a specific frame priority to the frames accumulated in the queue without accumulating the specific frame in the queue.

Methods and apparatus for dynamic offline end-to-end packet processing based on traffic class. An end-to-end connection is set up between an application on a client including a processor and host memory and an application on a remote server. An offline packet buffer is allocated in host memory. While the processor and/or a core on with the client application is executed is in a sleep state, the client is operated in an interrupt-less and polling-less mode as applied to a predetermined traffic class. Under the mode, a Network Interface Controller (NIC) at the client receives network traffic from the remote server and determines whether the network traffic is associated with the predetermined traffic class. When it is, the NIC writes packet data extracted from the network traffic to an offline packet buffer. Descriptors are generated and provided to the NIC to inform the NIC of the location and size of the offline packet buffer.