A smart network interface controller (NIC) implemented using a stacked die configuration is provided. The NIC may include user-customizable networking circuits formed in a top programmable die and primitive network function blocks formed in a bottom application-specific integrated circuit (ASIC) die. The top programmable die may provide a flexible packet processing pipeline to facilitate efficient control and data communication between the user-customizable networking circuits and the primitive network function blocks. The bottom ASIC die may also include an array of memory blocks operable as lookup tables and intermediate buffers for other network processing circuitry in the NIC. A NIC configured in this way provides both performance, power, and area benefits and superior customer configurability.

An information handling system is provided. The information handling system includes an information handling device having one or more processors in communication with a network interface card. The network interface card includes one or more interfaces for receiving frames the information handling device is coupled to an external network device. The device also includes a memory that is in communication with the one or more processors and stores a classification matrix. The classification matrix is used to generate a current interrupt throttling rate from a plurality of candidate interrupt throttling rates that are applied to the received frames according to at least two properties of each frame of the received frames. A method for providing adaptive interrupt coalescing is also provided.

Method and apparatus for implementing an optimized credit return mechanism for packet sends. A Programmed Input/Output (PIO) send memory is partitioned into a plurality of send contexts, each comprising a memory buffer including a plurality of send blocks configured to store packet data. A storage scheme using FIFO semantics is implemented with each send block associated with a respective FIFO slot. In response to receiving packet data written to the send blocks and detecting the data in those send blocks has egressed from a send context, corresponding freed FIFO slots are detected, and a lowest slot for which credit return indicia has not be returned is determined. The highest slot in a sequence of freed slots from the lowest slot is then determined, and corresponding credit return indicia is returned. In one embodiment an absolute credit return count is implemented for each send context, with an associated absolute credit sent count tracked via software that writes to the PIO send memory, with the two absolute credit counts used for flow control.

A ladder-library management apparatus that manages a library used in a machine connected via a network includes an incorporated-information storage area that stores incorporated information in which the machine is associated with identification information of a device connected to the machine and a version number of the library used for the device, a library storage area that stores library data in which the identification information, information about the device, and information about the library are associated with each other, and a library server that adds or updates the library provided in the machine on the basis of the library data stored in the library storage area and that updates the incorporated information stored in the incorporated-information storage area.

An image processing apparatus includes a plurality of memories and a hardware processor which controls an execution operation of a first function including an image processing function and an execution operation of a second function including a server function, by using the plurality of memories. The hardware processor estimates a required bandwidth which is a memory bandwidth required for the execution operation of the first function on the basis of a current operation mode of the image processing apparatus among a plurality of operation modes of the image processing apparatus, and determines a bandwidth securing channel for first function which is a channel capable of being used for the execution operation of the first function and incapable of being used for the execution operation of the second function, out of a plurality of channels used to access the plurality of memories, on the basis of the required bandwidth.

Methods and systems for efficiently processing input/output requests are provided. A network interface card (NIC) is coupled to a storage device via a peripheral link and accessible to a processor of a computing device executing instructions out of a memory device. The NIC is configured to receive a read/write request to read/write data; translate the read/write request to a storage device protocol used by the storage device coupled to the NIC; notify the storage device of the read/write request, without using the processor of the computing device, where the storage device reads/writes the data and notifies the NIC; and then the NIC prepares a response to the read/write request without having to use the processor of the computing device.

In accordance with some embodiments, a method is performed at an electronic device with a display, radio frequency (RF) circuitry, and one or more input devices. The device displays a first user interface on the display. While displaying the first user interface, the device detects a pairing request to pair a first peripheral with the electronic device. In response to detecting the pairing request, the device determines whether the first peripheral meets coupling criteria, wherein the coupling criteria require that the first peripheral is coupled to a second peripheral. In accordance with a determination that the first peripheral meets the coupling criteria, the device displays a pairing affordance that initiates pairing of the electronic device with the first peripheral. In accordance with a determination that the first peripheral does not meet the coupling criteria, the device displays information concerning coupling of the first peripheral and the second peripheral.

The present invention provides a method and device thereof for user interaction based on virtual objects. The first user characteristic information of a first user is acquired, wherein the first user characteristic information includes at least one of the action information, the aspect information and the speed information of the first user. A first virtual object is generated corresponding to the first user based on the first user characteristic information, wherein the first virtual object includes the appearance matching with the aspect information of the first user, and an action sequence to be executed which matches the action information of the first user. The first virtual object is provided to the user device corresponding to the first user.

A method for redirecting I/O (Input/Output) sequences. A computer platform is initialized. If the computer platform is enabled for command packet rerouting, the platform firmware may be used to install a runtime enable block I/O interface and a standard UNDI (Universal Network Device Interface) interface for routing I/O requests to a network controller or an out-of-band processor may be used to route I/O requests to a network interface controller. The routing of the I/O requests to the network controller or network interface controller enables the computer platform to boot from a remote block I/O storage device.

Method and apparatus for implementing an optimized credit return mechanism for packet sends. A Programmed Input/Output (PIO) send memory is partitioned into a plurality of send contexts, each comprising a memory buffer including a plurality of send blocks configured to store packet data. A storage scheme using FIFO semantics is implemented with each send block associated with a respective FIFO slot. In response to receiving packet data written to the send blocks and detecting the data in those send blocks has egressed from a send context, corresponding freed FIFO slots are detected, and a lowest slot for which credit return indicia has not be returned is determined. The highest slot in a sequence of freed slots from the lowest slot is then determined, and corresponding credit return indicia is returned. In one embodiment an absolute credit return count is implemented for each send context, with an associated absolute credit sent count tracked via software that writes to the PIO send memory, with the two absolute credit counts used for flow control.