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How to Install Windows 8 in Linux with QEMU

Microsoft has just released Windows 8 Consumer Preview. Here’s a method to install Windows 8 in Linux using KVM and Qemu. You can use this beta version of Windows 8 until the 15th of January 2013, after which it will be unusable. Here are the requirements to install Windows 8: 1 GHz Processor or greater 1 GB RAM 20 GB free storage for the 64-bit version Before you start, make sure your processor supports Intel Virtualization Technology (VT) or AMD’s AMD V CPU virtualization extensions. Type this command to check vmx or svm flags:

If this is the case, you can install KVM. Type the following command for RPM-based distributions such as Fedora:

or the following command for Debian or Ubuntu:

Then download the ISO image of Windows 8 on Microsoft website (64-bit version) :

Create a 20 GB virtual hard drive to install Windows 8: […]

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Boundary Devices Unveils Nitrogen6X Freescale i.MX6 Development Kit (aka i.MX6q Sabre Lite)

Arrow Electronics and Boundary Devices have launched the Nitrogen6X, a low cost development kit based on Freescale i.MX6 quad-core cortex A9 processor. Here are the technical specifications of the Nitrogen6X board: Quad-Core ARM Cortex A9 processor at 1GHz (i.mx6Quad) 1 GB of 64-bit wide DDR3 @ 532MHz Board Dimensions: 4.5″ x 3″ 2MB Serial Flash Three display ports (PRGB, LVDS, HDMI) Parallel camera port with OV5642 Interface Multi-stream-capable HD video engine delivering 1080p60 decode, 1080p30 encode and 3-D video playback in HD Superior 3-D graphics performance with quad shaders for up to 200 Mt/s Separate 2-D and/or Vertex acceleration engines for an optimal user interface experience Serial ATA (SATA) Dual SDHC card slots PCI express port Analog (headphone/mic) Audio 10/100/1G Ethernet with Power over Ethernet support 2 RS-232 Serial ports 10-pin JTAG interface I2C/GPIO/SPI 3 High speed USB ports (2xHost, 1xOTG) CAN port TiWi 802.11 b/g/n WiFi+BT optional Supports Android […]

ArmSoM RK3588 AIModule7 NVIDIA Jetson Nano-compatible SOM
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Embedded Artists and NXP Release The First ARM Cortex-M Android Open Accessory Development Kit

Embedded Artists and NXP introduced the TN-20764, a board that can be used with Android Open Accessory Application (AOAA) development kit that features 2 NXP Cortex-M MCUs, at Embedded World 2012. The board includes Ethernet, CAN and IEEE 802.15.4 interfaces as well as a remote CAN node, enabling designers to develop accessories for consumer applications,  as well as home, building and industrial automation applications requiring different types of connectivity. There are already Arduino and PIC-based Android Open Accessories, but this board is the first AOAA kit based on ARM Cortex-M micro-controllers. As mentioned above, the board features 2 Cortex M micro-controllers: The NXP LPC1769, a 120-MHz Cortex-M3 based MCU, provides the interface to the Android mobile device via its full-speed USB transceiver . The LPC1769 also includes 512 KB flash and 64 KB on-chip SRAM, an Ethernet MAC, a CAN 2.0B controller, an 8-channel, a 12-bit ADC, a 10-bit DAC, […]

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Play Angry Birds For Real with Mbed NXP Cortex-M0 Slingshot

If you’re just bored to play Angry Birds with the touchscreen of your smartphone or with your mouse in Angry Birds for Chrome, you can now bring the fun back to the game by playing with a real slingshot ! mbed designed a USB slingshot with an mbed NXP LPC11U24 (Cortex-M0 MCU) board that emulates a USB mouse. mbed measures the angle and strength applied with: An accelerometer that measure the tilt by tracking the gravity vector A rubber stretch sensor used as the sling, and measure how much it is stretched. They built the slingshot with the following hardware components: mbed NXP LPC11U24 board – 59 USD 3-axis Accelerometer – ADXL345 Accelerometer connect via SPI  – 14.95 USD Stretch Sensor connected to pin 15 (analog input) – 9.95 USD USB B connector Handcrafted Slingshot Here’s how mbed describes their NXP board: The mbed NXP LPC11U24 MCU module is a […]

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Ubuntu on ARM: Improvements and Optimizations Done by Linaro – ELCE 2012

Ricardo Salveti de Araujo, developer platform lead for Linaro, displays the improvements Linaro have added to Ubuntu on ARM. Abstract: Since Linaro’s start, there was a need to have a supported platform for ARM, that could use the Linaro changes, to improve the ARM experience in general and to show the results of the work done by Linaro. In this session, it’ll be presented why Ubuntu was selected as the base platform for Linaro, describing the benefits and the areas Linaro is continuously investing to improve it. It’ll also be described the current state of the platform, showing some of Linaro’s achievements and also how we’re working to support the main SoC boards available, like Panda, Beagle, Origen, iMX53 and Snowball with the latest development by Ubuntu and Canonical, like Ubuntu TV, Phone and Tablet. You can also download the presentation slides.

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Status of Embedded Linux – ELC 2012

Tim Bird, software engineer at Sony, discusses recent development in embedded Linux at the Embedded Linux Conference 2012. Abstract:  Tim discusses changes to the kernel, improvements to embedded-related sub-systems, and new industry initiatives likely to affect embedded Linux developers in the future. Also, Tim discusses the direction of the Linux Foundation CE Workgroup, and their contract work and projects for this year. Last year highlights are also discussed, as well as ways to continue to improve Linux going forward. Here are the key points of this presentation: Linux Kernel Version changes: 2.6.38 to 3.3-rc3 Technology Areas: Bootup Time  – With improvement in the kernel, bootloader and user-space Graphics – 2D/3D implementation. New /dev/ion and CMA graphics stuffs Accelerated Rendering – e.g. Renderscript Graphics Drivers – e.g. PowerVR Multimedia – Gstreamer, Android Media Layer (stagefright) and codec wars (e.g. patent issues with WebM/VP8 that interferes open source licenses). File systems – […]

Rockchip RK3568, RK3588 and Intel x86 SBCs and SoMs in 2025
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Linaro 12.02 Release with Kernel 3.3-rc

Linaro has just released version 12.02 based on Linux Kernel 3.3-rc and Android 4.0.3. Among the key points, they have started to work on Freescale i.MX6 SabreLite board, included libav 0.8 to Ubuntu images which provides up to 160% performance improvement while playing real-media videos and XBMC is available via PPA. Here are the highlights of the release: Android Linaro Android can now be built with current GCC 4.7 snapshots. A 4.7 based toolchain build preview is also available. Linaro Android can boot on iMX6 Sabrelite boards. All test result spreadsheets have been streamlined and are now easier to use. Bluetooth enablement have been completed for the Origen board. A Prototype of using camera on Snowball was made. Presentations Given by Linaro Android Team this cycle “Binary Blobs Attack!!!” – Embedded Linux Conference. “What Android and Embedded Linux can learn from each other” – Embedded Linux Conference. “Integrating Projects Using […]

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Android Builder Summit and Embedded Linux Conference 2012 Videos

The Android Builders Summit and the Embedded Linux Conference took place on February 13-17 2012, in San Francisco. The Linux Foundation has now posted videos of the talks as well as presentation slides on their website. Android Builder Summit 2012 Buildbot and Gerrit Integration, Improved CI Automation Using Android Outside the Mobile Phone Space The Android Ecosystem Case Study of Android Ice Cream Sandwich Rapid Bringup Towards a Standard Audio HAL for Android Topics in Designing An Android Sensor Subsystem: Pitfalls and Considerations A Novel Approach to In-Vehicle Infotainment (IVI) Based on Android Android Services Black Magic The Case For Security Enhanced (SE) Android Hardware and Android App Testing & Tuning Exposing the Android Camera Stack Usable Hardware Security for Android on ARM devices Using OpenOCD JTAG in Android Kernel Debugging The AllJoyn Open Source Project ADB: (Android Debug Bridge) : How It Works Android OTA Software Updates USB Device […]

Boardcon LGA3576 Rockchip RK3576 System-on-Module designed for AI and IoT applications