To perform a system restore using a backup, use these steps: While in the firmware interface, find the "Boot" section, and configure the boot order to start from the USB bootable drive (or CD-ROM drive), and save the new changes. So make sure to check your device manufacturer's support website for more specific instructions. The only caveat is that the process is often different depending on the manufacturer and even the computer model. Usually, the process involves pressing one of the function keys (F1, F2, F3, F10, or F12), the ESC, or Delete key as soon as the device starts. However, before you can proceed, you have to make sure the computer can start from USB (or CD-ROM drive), which means that you may need to change the boot order inside the Basic Input/Output System (BIOS) or Unified Extensible Firmware Interface (UEFI) on your device. If your computer doesn't boot or you're replacing the hard drive, you can restore your device using the most recent backup. Once you complete the steps, you'll be able to access the files and folders from the location that you specified during the recovery process. Under the "Looking for an older backup" section, click the Go to Backup and Restore option.To free up space on the backup drive, use these steps: How to manage backup settings on Windows 10Īfter configuring the automatic backup feature on Windows 10, you can manage many of the settings to prevent running out of space in the backup drive and changing the schedule to a different date and time. After the backup is complete, in the "Backup" section, you'll be able to view the current size of the backup and drive location as well as the date and time of the next and previous backup. Once you complete the steps, an initial backup of your device will be created, and then incremental backups will be performed on the schedule you specified.ĭuring the process, you can click the View details button to see more information about the files being copied and an option to interrupt the process (if necessary). Click the Save settings and exit button.Moreover minimum and maximum temperature of the CPU and system is available, as well as HDD S.M.A.R.T information- all of which can be used to analyze system or module failure in detail.Source: Windows Central (Image credit: Source: Windows Central) ![]() error number, flags, restart event, power cycles, boot count, status, CPU temperature and board temperature. The BMC Power-Up Error Log function provides detailed information about history of failures that may have occurred during power-up sequences. The SEMA GUI and SEMA Command Line Interface allow monitoring, control and use of the SEMA parameters and functions directly on your device for test and demonstration purposes.Optionally SEMA supports also remote procedure calls – please refer to SEMA Software Installation Guide.ĭetailed forensic information is available after system or module failures. The SEMA Extended EAPI provides access to all functions and can be integrated into the user’s own applications. ![]() The module is equipped with SPI AMI EFI BIOS with CMOS backup, supporting embedded features such as remote console, CMOS backup, hardware monitor, and watchdog timer.Īt the heart of SEMA is the Board Management Controller (BMC) supporting SEMA functions. The cExpress-HL features a single onboard Gigabit Ethernet port, two USB 3.0 ports and six USB 2.0 ports, and 4 SATA 6 Gb/s ports. The cExpress-HL is specifically designed for customers with high-performance processing graphics requirements who want to outsource the custom core logic of their systems for reduced development time. Graphics outputs include dual-channel 18/24-bit LVDS and two DDI ports supporting HDMI / DVI / DisplayPort. Integrated Intel Generation 7.5 Graphics includes features such as OpenGL 3.1, DirectX 11, Intel Clear Video HD Technology, Advanced Scheduler 2.0, 1.0, XPDM support, and DirectX Video Acceleration (DXVA) support for full AVC/VC1/MPEG2 hardware decode. ![]() The cExpress-HL features the Intel Core i7/i5/i3 processor supporting Intel Hyper-Threading Technology (up to 2 cores, 4 threads) and up to 16 GB of DDR3L dual-channel memory at 1333/1600 MHz in dual stacked SODIMM sockets to provide excellent overall performance. Leveraging the benefits provided by the Intel Core i7/i5/3 ULT System-on-Chip, the cExpress-HL is specifically designed for customers who need optimum processing and graphics performance with low power consumption in a long product life solution. The cExpress-HL is a COM Express COM.0 R2.1 Type 6 Compact size module supporting the 64-bit 4th Generation Intel Core i7/i5/3 ULT Processors with CPU (codename: Haswell), memory controller, graphics processor and I/O hub on the same chip.
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