Here's the 16-core ARM Cortex-A15 processor from HiSilicon Huawei on a development board for ARM Powered Networking and Servers coming up. Hacked on in this video by Linaro Toolchain Engineer Rob Savoye (2), who now is climbing the Mount Everest. Linux kernel v3.13 is running on this board, with three SATA ports and two Gigabit ethernet ports driver ready. The BSP code will soon be upgraded to kernel v3.14 and be upstreamed in parallel. Source code and binaries are released through Linaro website. Ubuntu Server is verified on this board. In this demo, it runs a GCC toolchain native build. Linaro Toolchain Working Group plans to use this board to run multiple builds per board, to maximally saturate D01's computing and storage capability.
Kernel source: http://git.linaro.org/landing-teams/working/hisilicon/kernel.git (branch: integration-hilt-d01)
Binary release: http://www.linaro.org/downloads/ (found 'HiSilicon D01')
WiKi page: https://wiki.linaro.org/Boards/D01
Linaro’s validation team demonstrates using LAVA for native toolchain builds and “hack” sessions on Arndale Octa and APM X-Gene ARMv8 platforms
Linaro's automated validation architecture (LAVA) is typically used to execute automated tests to validate Linaro's engineering output. However, LAVA has recently integrated features to automate builds and provide secure remote interactive sessions to developers. Linaro's lab lead Dave Pigott shows a native toolchain build orchestrated by LAVA. This technology enables developers to validate the toolchain on many ARM processor designs as well as other architectures. Tyler Baker a technical architect at Linaro explains how LAVA abstracts the image deployment, boot process, and installation of software needed to support these "hack" sessions.
MHL demonstrates the amazing Sony Xperia Z2 with 4K output through MHL 3.0 with HDCP 2.2 content protection (required by Hollywood for 4K playback), then they show a Qualcomm Snapdragon 800 reference board with Silicon Image Sil8620 doing MHL 3.0 outputting to a MHL 3.0 Docking Board with the SIlicon Image SiI9394 MHL 3.0-to-HDMI 2.0 bridge IC. What's also really awesome is they can stream fast data through the USB Host ports on the MHL 3.0 Dock and back through the phone. This is absolutely awesome and I have been waiting for this type of 600mbitps bandwidth on USB Host to be added to MHL, thus potentially using Smartphones as desktops and laptops when docked in desktop docks and laptop docks like the Acer Extend featured in my other MHL 3.0 video about productivity: http://armdevices.net/2014/02/28/mhl-for-productivity-acer-extend-mediatek-mt6592-mhl-optimizations-and-dellroku-mhl-hdmi-sticks/
Allwinner launches A80 Octa Core ARM Cortex-A15 with ARM Cortex-A7 in big.LITTLE MP OctaCore configuration with the PowerVR6 series GPU with OpenGL 3.0 with GPU Compute. With potential support for Chrome OS, ultra-fast Ubuntu, advanced ARM projects to use extreme parallel processing. Allwinner is shipping these boards in Q1 2014, if anyone is interested to start developing with A80, they should contact Allwinner here (please tell them you saw this video)
- A80 OptimusBoard Features AllWinner Octa-Core big.LITTLE SoC (cnx-software.com)
- Allwinner A80 Optimus Board (liliputing.com)
- Allwinner A80 Optimus Board With Octa-core Processor Unveiled (geeky-gadgets.com)
- Allwinner Introduces The A80 Optimus Board, Comes With Octa-Core CPU (thedroidguy.com)
- Allwinner unveils octa-core A80 equipped Optimus Board (gizchina.com)
This new Intrinsic Dragonboard uses as Snapdragon 800 processor and has an optional display. The Dragonboard is capable of playing 4k video. The Dragonboard can even run Ubuntu. The dragonboard is already available for a price of 499 USD. INTRINSYC makes both system on module designs for 200 USD as well as development boards.
Atmel shows their latest Sensor Hub microcontroller solutions. Here showing a demo showing accurate controlling and measuring with 3d tracking. Showing also a true virtual reality augmented reality 3D accelerated software demo.
Toradex shows their Apalis T30 module is a module computer with a Nvidia Tegra 3 processor with 2gb of ram. The price of the Apalis T30 is 169 USD individually. The Appalis T30 can be connected to a desktop motherboard with a desktop Nvidia graphics card and can be used with a desktop linux environment with CUDA support. Nvidia Tegra 4 is not available for embedded use so Tegra 5 will be the next platform available.
Omnitek is a UK based manufacturer of video testing and measurement systems as well as IP core development with Xilinx. The Xilinx development boards can take full HD video and upscale to 4k. OmniTek has been producing professional video equipment for a long time. Xilinx up-scaling technology will eventually make into consumer hardware. Xilinx technology can also be useful for medical or industrial applications as well general broadcasting. ARM powered devices are largely replacing pcs for embedded applications.
Freescale shows their wearable reference design, tiny to develop i.MX6 based BT4.0 accellerometer, adding ECG, heart-rate monitor, enabling a new range of Freescale powered wearable computers, smartwatches, headmounted computers, fitness devices, more to be announced and integrated. Freescale powers a range of healthcare products, weightscales, heart rate monitors and more. Freescale shows their Freescale One Box Platform, providing a reference Smart Home hub gateway, using Java, all the different wireless technologies integrated.