Provided are a window overlay display processing method and apparatus, and an electronic device. The method comprises: in a process of overlay-displaying a following window on a main window, capturing an image of display content of the following window according to an image capture time interval (S501); and displaying the captured image at a display position corresponding to the following window in the main window (S502). By means of the above method, when the display level of the main window is higher than that of the following window, the main window still displays the captured image corresponding to the display content of the following window. In this way, the user will think that he/she is continuing to view the display content of the following window, and will not feel flickering visually, thus improving the display effect of the following window and enhancing the user experience of viewing the following window.

An apparatus for managing input/output (I/O) data may include a streaming I/O controller to receive data from a load/store domain component and output the data as first streaming data of a first data type comprising a first data movement type and first data format type. The apparatus may also include at least one accelerator coupled to the streaming I/O controller to receive the first streaming data, transform the first streaming data to second streaming data having a second data type different than the first data type, and output the second streaming data. In addition, the apparatus may include a streaming interconnect to conduct the second data to a peer device configured to receive data of the second data type.

An apparatus for managing input/output (I/O) data may include a streaming I/O controller to receive data from a load/store domain component and output the data as first streaming data of a first data type comprising a first data movement type and first data format type. The apparatus may also include at least one accelerator coupled to the streaming I/O controller to receive the first streaming data, transform the first streaming data to second streaming data having a second data type different than the first data type, and output the second streaming data. In addition, the apparatus may include a streaming interconnect to conduct the second data to a peer device configured to receive data of the second data type.

A memory module includes at least two memory devices. Each of the memory devices perform verify operations after attempted writes to their respective memory cores. When a write is unsuccessful, each memory device stores information about the unsuccessful write in an internal write retry buffer. The write operations may have only been unsuccessful for one memory device and not any other memory devices on the memory module. When the memory module is instructed, both memory devices on the memory module can retry the unsuccessful memory write operations concurrently. Both devices can retry these write operations concurrently even though the unsuccessful memory write operations were to different addresses.

A memory module includes at least two memory devices. Each of the memory devices perform verify operations after attempted writes to their respective memory cores. When a write is unsuccessful, each memory device stores information about the unsuccessful write in an internal write retry buffer. The write operations may have only been unsuccessful for one memory device and not any other memory devices on the memory module. When the memory module is instructed, both memory devices on the memory module can retry the unsuccessful memory write operations concurrently. Both devices can retry these write operations concurrently even though the unsuccessful memory write operations were to different addresses.

A memory module includes at least two memory devices. Each of the memory devices perform verify operations after attempted writes to their respective memory cores. When a write is unsuccessful, each memory device stores information about the unsuccessful write in an internal write retry buffer. The write operations may have only been unsuccessful for one memory device and not any other memory devices on the memory module. When the memory module is instructed, both memory devices on the memory module can retry the unsuccessful memory write operations concurrently. Both devices can retry these write operations concurrently even though the unsuccessful memory write operations were to different addresses.

A memory module includes at least two memory devices. Each of the memory devices perform verify operations after attempted writes to their respective memory cores. When a write is unsuccessful, each memory device stores information about the unsuccessful write in an internal write retry buffer. The write operations may have only been unsuccessful for one memory device and not any other memory devices on the memory module. When the memory module is instructed, both memory devices on the memory module can retry the unsuccessful memory write operations concurrently. Both devices can retry these write operations concurrently even though the unsuccessful memory write operations were to different addresses.

A system, method and computer readable medium for operating a First In, First Out (FIFO) buffer that transfers data between a host and a plurality of endpoints using chip select is disclosed. The method includes receiving a current value of a read pointer and a status for an active endpoint and reading data at a location to which the read pointer points and setting a tag associated with the location to which the read pointer points to indicate availability.

A system, method and computer readable medium for operating a First In, First Out (FIFO) buffer that transfers data between a host and a plurality of endpoints using chip select is disclosed. The method includes receiving a current value of a read pointer and a status for an active endpoint and reading data at a location to which the read pointer points and setting a tag associated with the location to which the read pointer points to indicate availability.

An apparatus for managing input/output (I/O) data may include a streaming I/O controller to receive data from a load/store domain component and output the data as first streaming data of a first data type comprising a first data movement type and first data format type. The apparatus may also include at least one accelerator coupled to the streaming I/O controller to receive the first streaming data, transform the first streaming data to second streaming data having a second data type different than the first data type, and output the second streaming data. In addition, the apparatus may include a streaming interconnect to conduct the second data to a peer device configured to receive data of the second data type.