An information processing device having a processor and memory, and including one or more accelerators and one or more storage devices, wherein: the information processing device has one network for connecting the processor, the accelerators, and the storage devices; the storage devices have an initialization interface for accepting an initialization instruction from the processor, and an I/O issuance interface for issuing an I/O command; and the processor notifies the accelerators of the address of the initialization interface or the address of the I/O issuance interface.

A processing device can determine a configuration parameter based on a memory type of a memory component that is managed by a memory system controller. The processing device can receive data from a host system. The processing device can generate, by performing a memory operation using the configuration parameter, an instruction based on the data. The processing device can identify a sequencer of a plurality of sequencers that are collocated, within a single package external to the memory system controller, wherein each sequencer of the plurality of sequencers interfaces with a respective memory component. The processing device can send the instruction to the sequencer.

A method and system configured to receive a first report from a computer peripheral device by a receiver, determine that the first report is corrupted or received at a rate slower than the first report rate, compute a current trajectory of the computer peripheral device based on one or more intervals of movement data in the first report, compute a predicted trajectory of the computer peripheral device based on the first report, compute an incremental displacement of the computer peripheral device based on the predicted trajectory. The method and system can further generate data indicative of a position or displacement of the computer peripheral device based on the predicted trajectory of the computer peripheral device and send the data indicative of a position or displacement of the computer peripheral device at an interval that is less than twice a period of the first report rate to the host computing device.

A control device and an electronic control device are provided. The control device according to the disclosure includes a CPU bus, first to Nth (N is an integer equal to or greater than 2) peripheral devices, respectively operating in accordance with an address sent out from a CPU or respectively operating in a case of receiving respectively corresponding first to Nth operation start signals, a memory that stores sequence information indicating a procedure of operating the first to Nth peripheral devices, and a sequencer circuit that supplies the first to Nth operation start signals to the corresponding peripheral devices in order according to the sequence information when the CPU is abnormal or a load amount of the CPU exceeds a predetermined threshold.

A system can include a plurality of sequencers each configured to provide a number of sequenced output signals responsive to assertion of a respective sequencer enable signal provided thereto. The system can include chaining circuitry coupled to the plurality of sequencers. The chaining circuitry can comprise logic to: responsive to assertion of a primary enable signal received thereby, assert respective sequencer enable signals provided to the plurality of sequencers in accordance with a first sequence; and responsive to deassertion of the primary enable signal, assert the respective sequencer enable signals provided to the plurality of sequencers in accordance with a second sequence.

Methods and apparatus for an extended inter-kernel communication protocol for discovery of accelerator pools configured in a non-star mode. Under a discovery algorithm, discovery requests are sent from a root node to non-root nodes in the accelerator pool using an inter-kernel communication protocol comprising a data transmission protocol built over a Media Access Control (MAC) layer and transported over links coupled between IO ports on accelerators. The discovery requests are used to discover each of the nodes in the accelerator pool and determine the topology of the nodes. During this process, MAC address table entries are generated at the various nodes comprising (key, value) pairs of MAC IO port addresses identifying destination nodes and that may be reached by each node and the shortest path to reach such destination nodes. The discovery algorithm may also be used to discover storage related information for the accelerators. The accelerators may comprise FPGAs or other processing units, such as GPUs and Vector Processing Units (VPUs).

Devices, methods, and systems for secure communications on a computing device. A host operating system (OS) runs on a host processor in communication with a host memory. A secure OS runs on a coprocessor in communication with a secure memory. The coprocessor receives information from an external device over a secure peer-to-peer (P2P) connection. The secure P2P connection is managed by the secure OS and is not accessible by the host OS.

A universal peripheral extender architecture, system, and method is disclosed that addresses the need of communicatively connecting peripheral I/O devices and the smart host devices in legacy, medical, and industrial applications. As disclosed, a universal peripheral extender includes an I/O device translation & management module that has a device-side utility, a host-side I/O device translation & management utility, and a host/device translation & management scheduler utility.

A computer system, remote control monitoring system, and remote control monitoring method are provided to instantly provide the local display screen of the local computer to the remote computer for remote real-time display. The remote control monitoring system is arranged in the local computer and has a signal receiver and a remote controller. The signal receiver receives the video signal from the processor, executes the signal transforming process to generate the video signal in different standards. The remote controller executes a network compressing process on the transformed video signal to generate the network transportable video data, and transmits the data to the remote computer for displaying the corresponding remote display screen on the remote computer. The present disclosure enables the implementing of the out-of-band remote displaying.

A storage device including: a bridge board to receive a first command; an authenticator to receive user information; and a memory device to receive the first command from the bridge board, the memory device includes a memory controller which determines a status of the memory device, provides status information including the determined status of the memory device to the bridge board, determines the status of the memory device as an unlocked status or a locked status, the bridge board includes a transceiver which communicates with the host through an interface, a register which stores interface information, and a bridge board controller which generates a first response to the first command in a format corresponding to the interface using the interface information, and provides the first response to a host, the first response includes a status bit which inhibits or allows a write operation with respect to the memory device.