I’ve installed qemu-linaro and run an ARM image based on the instructions on https://wiki.linaro.org/PeterMaydell/QemuVersatileExpress. I used Ubuntu 10.10 desktop edition. First, install the Linaro images tools: sudo apt-get install linaro-image-tools Download the Linaro release and versatile hardware pack: wget http://releases.linaro.org/platform/linaro-n/nano/alpha-3/linaro-natty-nano-tar-20110302-0.tar.gz wget http://releases.linaro.org/platform/linaro-n/hwpacks/alpha-3/hwpack_linaro-vexpress_20110302-0_armel_supported.tar.gz You can download another hwpack for omap3, i.mx51, pandaboard, beagleboard, ST U8500, etc.. if needed at http://releases.linaro.org/platform/linaro-n/hwpacks/alpha-3/ Download the source, extract it, then configure, build and install qemu linaro: wget http://launchpad.net/qemu-linaro/trunk/2011.03-1/+download/qemu-linaro-0.14.50-2011.03-1.tar.gz tar xzvf qemu-linaro-0.14.50-2011.03-1.tar.gz cd qemu-linaro-0.14.50-2011.03-1 ./configure –prefix=/usr make sudo make install Make sure the prefix is set to /usr in order to overwrite any previous version of Qemu (It installed qemu linaro in /usr/local/ instead in my case). Failure to do so may generate the following error during linaro-media-create: qemu: fatal: cp15 insn ee1d6f70 Instead of compiling qemu, you can install qemu-linaro with apt-get (this will avoid possible version issues between linaro-media-create and qemu): sudo add-apt-repository ppa:linaro-maintainers/tools […]
QSeven Form Factor Embedded Boards by Seco
QSeven is a new standard (QSeven Specifications 1.20) that provides pinout, electromechanical description and implementation guidelines so that the main boards (with the MPU) be easily exchanged. So that you can a larger board with all connectors and a QSeven boards based on Intel icore, Atom or other processors based on ARM that simply fits into that larger board. The QSeven concept is defined as follows: Qseven Concept The Qseven concept is an off-the-shelf, multi vendor, Single-Board-Computer that integrates all the core components of a common PC and is mounted onto an application specific carrier board. Qseven modules have a standardized form factor of 70mm x 70mm and have specified pinouts based on the high speed MXM system connector that has a standardized pinout regardless of the vendor. The Qseven module provides the functional requirements for an embedded application. These functions include, but are not limited to, graphics, sound, mass […]
Low Cost Freescale i.MX53 (Cortex A8) Development Board
Possibly inspired by Texas Instruments low cost Beagleboard (OMAP 3 – 129 USD) and Pandaboard (OMAP4 – 179 USD) and the large following in the development community, Freescale announced its own “Quick Start Development Board” based on i.MX53 for a cost of 149 USD. i.MX53 QSD Board Hardware Description Listed Hardware Features of the i.MX53 Quick Start Development Board: Processor i.MX53 1 GHz ARM Cortex-A8 Processor Power management IC 1 GB DDR3 memory Display LVDS connector VGA connector Parallel LCD add-on card (via expansion connector) HDMI add-on card (via expansion connector) Audio SPDIF output via HDMI add-on card Freescale SGTL5000 audio codec Microphone jack Headphone jack Expansion Connector Enables parallel LCD or HDMI output Camera CSI port signals I2C, SSI, SPI signals Connectivity Full-size SD/MMC card slot microSD card slot 7-pin SATA data connector 10/100 Base-T Ethernet port Two High-Speed USB host ports Micro USB device port Debug JTAG connector […]
Freescale Home Energy Gateway Reference Platform
I’ve previously introduced Atmel / Mentor Embedded smart grid solutions, specifically Atmel In-Home Display hardware with Mentor’s Inflexion User Interface. Today, I’ll present Freescale Home Energy Gateway Reference Platform based on i.MX283 ARM 9 MCU, MC13224V Zigbee IC, 9S08QE32 MCU & MC34726 Regulator and running Windows® Embedded Compact 7. The home energy gateway is the interface between the utility-controlled smart grid and energy-consuming in-house objects. The graphical user interface (GUI) has been design with Silverlight. Functions of the Home Energy Gateway Collect real-time energy consumption from smart meter and power consumption data from various in-house objects Control activation/deactivation of home appliances Generate dashboard to provide feedback about power usage Provide control menus to control appliances Provide a ubiquitous link to the broadband Internet Freescale home energy gateway solutions allow every point of the smart home to be connected and controlled from a central point, enabling power efficiency and energy optimization. […]
Freescale i.MX Overview, SDK and Development Boards
Freescale i.MX Processors Overview Freescale i.MX multimedia applications processors are based on ARM9, ARM11 and ARM™ Cortex-A8 and Cortex-A9 core technologies “delivering an optimal balance of performance and long battery life for rich multimedia experiences on the go”. There are quite a few families within the Freescale i.MX Series namely: i.MXS Processors:ARM9 Core @ 100-200Mhz (i.MX1 (not recommended for new designs), i.MXL and i.MXS). i.MX21 Processors: ARM9 Core @ 233-266Mhz (i.MX21 and i.MX21S) i.MX23 Processors: ARM9 Core @ 454 Mhz (i.MX233) i.MX25 Processors: ARM9 Core @ 400MHz for industrial and automotive applications (i.MX251, i.MX253, i.MX255, i.MX257 and i.MX258) i.MX27 Processors: ARM9 Core @ 400Mhz for Video over IP, VoIP, Cordless and Mobile phones… (i.MX27 and i.MX27L) i.MX28 Processors: ARM9 Core @ 454 Mhz for industrial and consumer applications (i.MX281, i.MX283, i.MX285, i.MX286 and i.MX287) i.MX31 Processors: ARM11 Core @ 400-532 Mhz for industrial, consumer and automotive applications (i.MX31 and i.MX31L) […]
Freescale announces i.MX6 ARM Cortex A9 Multi-core Processor
Right before CES 2011, Freescale announced i.MX6 series, its latest multi-core Cortex A9 processor aimed at smartphones, tablets, eReaders and other consumer electronics equipment. Here’s an excerpt of the press release: Freescale delivers dramatic performance advances for tablet, smartphone, eReader, automotive infotainment and other hot consumer marketsCompatible i.MX 6 series scales from one to four cores and raises the bar with a new portfolio of high-performance, low-power multicore processors AUSTIN, Texas – Jan. 3, 2011 – Freescale Semiconductor introduces the i.MX 6 series of quad-, dual- and single-core applications processors designed to deliver outstanding performance and scalability to manufacturers targeting the hottest selling smart mobile, automotive infotainment and embedded device categories. Integrating one, two or four ARM® Cortex™-A9 cores running at up to 1.2 GHz each, the i.MX 6 series delivers up to five times the performance of Freescale’s current generation of applications processors. This performance provides additional headroom for […]