Various multi-processor unified memory management systems and methods are detailed herein. In embodiments detailed herein, inter-chip memory management modules may be executed by processors that are in communication via an inter-chip link. A flat memory map may be used across the multiple processors of the system. Each inter-chip memory management module may analyze memory transactions. If the memory transaction is directed to a portion of the flat memory map managed by another processor, the memory-transaction may be translated to a non-memory mapped transaction and transmitted via an inter-chip communication link.

The present disclosure relates to a method for controlling a timing controller and a timing controller. The method for controlling the timing controller includes: acquiring a bus address in a bus signal transmitted over an I2C bus, the I2C bus being connected to the timing controller; if the timing controller determining that the bus address matches an address of the timing controller, acquiring data information in the bus signal; acquiring an address of a target function circuit according to the data information; generating and transmitting a query instruction to a memory according to the address of the target function circuit, and receiving switch control data corresponding to the target function circuit fed back by the memory; controlling, according to the switch control data, a switch connected to the target function circuit to be turned on.

Embodiments of the present disclosure include techniques for transferring non-power of two (2) bytes of data between modules of an integrated circuit over an on-chip communication fabric. In one embodiment, the present disclosure includes an on-chip communication fabric, a first module comprising an interface coupled to the fabric having a first data width, and a second module comprising an interface coupled to the fabric having a second data width smaller than the first data width. The non-power of two (2) bytes of data are sent between the first and second modules through the fabric, and the fabric maps the non-power of two (2) bytes of data between the first and second data widths.

Computing architectures, platforms, and systems are provided herein. In one example, system is provided. The system includes a management processor configured to initiate a communication arrangement between a first endpoint device coupled to a communication fabric and a second endpoint device coupled to the communication fabric. The communication arrangement is configured to redirect a transfer from the first endpoint device based on an address corresponding to an address range of the second endpoint device without passing the transfer through a host processor coupled to the communication fabric that executes an application initiating the transfer.

A non-volatile memory express (NVMe)-based data read method, apparatus, and system are provided. In various embodiments, a read instruction can be triggered by a host. The read instruction carries indication information of a first address opened by the host to an NVMe controller for addressing and accessing. In those embodiments, the host after obtaining the read instruction can send a data packet to the host. The data packet carries the first address and payload data. Still in those embodiments, the host can, after receiving the data packet, determine a second address based on the first address, and store the payload data into storage space indicated by the second address. The second address may be a private memory address of the host. Because a relationship between the second address and a communication protocol is broken, and the host may access the second address without being restricted by the communication protocol.

A control method and apparatus are disclosed in this application. The method includes: After determining a target device that needs to be controlled, a host may send indication information, a control command, and an address of a register of the target device to a control device through an I2C interface, so that the control device may encapsulate the indication information, the control command, and the address of the register of the target device, and send the indication information, the control command, and the address of the register of the target device that are encapsulated to a slave device connected to the control device.

A data processing method for a network adapter includes the network adapter that obtains a first input/output (I/O) command. The first I/O command instructs to write data stored in a local server to at least one remote server, and the first I/O command includes address information and length information that are of the data and that are stored in the local server. The network adapter splits the data based on the address information and the length information to obtain a plurality of groups of address information and length information. The network adapter obtains, from the local server based on the groups of address information and length information, data corresponding to the groups of address information and length information, and sends the data to the at least one remote server.

An adaptation method between PCIE and SPI realized based on FPGA, comprising following steps: S01: a PCIE equipment sends PCIE information to a mapping module through a PCIE module; S02: the mapping module extracts SPI information from the PCIE information and transmits the SPI information to a SPI equipment through an SPI module; all of the PCIE module, the mapping module and the SPI module are located on a FPGA chip; S03: the SPI equipment performs a read/write operation according to the SPI information, and feeds back SPI operation information subjected to the read/write operation to the mapping module; S04: the mapping module modifies PCIE information according to the SPI operation information to obtain PCIE feedback information; S05: the PCIE equipment reads the PCIE feedback information through the PCIE module. The present invention provides a conversion adapter and a method between PCIE and SPI realized based on FPGA to realize conversion for a PCI interface and a SPI interface, so as to perform a read/write operation of an AD chip with the SPI interface or a DA chip with the SPI interface, which has universal applicability.

Provided are a method and apparatus for multi-bus device fused access. The method includes: receiving, by a bus, an instruction for accessing a fused node of a device, which instruction containing a matching word, an initial address, and an offset; performing matching according to the matching word and activating a fused drive; acquiring, by the fused drive, the initial address and the offset from the instruction on the bus respectively; computing an address of a first bus of the device according to the initial address, and computing an address of a second bus of the device according to the initial address and the offset; and accessing the device according to the address of the first bus so as to acquire first information, and accessing the device according to the address of the second bus so as to acquire second information.

Techniques are disclosed for tracking memory page accesses in a unified virtual memory system. An access tracking unit detects a memory page access generated by a first processor for accessing a memory page in a memory system of a second processor. The access tracking unit determines whether a cache memory includes an entry for the memory page. If so, then the access tracking unit increments an associated access counter. Otherwise, the access tracking unit attempts to find an unused entry in the cache memory that is available for allocation. If so, then the access tracking unit associates the second entry with the memory page, and sets an access counter associated with the second entry to an initial value. Otherwise, the access tracking unit selects a valid entry in the cache memory; clears an associated valid bit; associates the entry with the memory page; and initializes an associated access counter.