How to Boot a Headless Linux Image on Amlogic S802 TV Boxes (Tronsmart Vega S89 Elite)

As some of you already know, I’ve been playing around with Tronsmart Vega S89 Elite, an Android TV Box powered by Amlogic S802 quad-core ARM Cortex A9r4 processor at 2 GHz. Today, I’ll show how to boot a headless Linux image on any Amlogic-based S802 TV Box from the network. The instructions can mainly be used as a starting point for developers, as it requires access to a serial terminal via  UART, but if you’ve never done it before, the instructions should be easy enough to follow. Everything is loaded from the network, the kernel (via boot.img) is loaded via TFTP, and the rootfs (Linaro ALIP image) is mounted via NFS, so it’s nearly impossible to brick your device using the method provided. Linaro ALIP rootfs comes with LXDE, but at this stage, the desktop environment is not showing, even though my HDMI TV is properly detected by the drivers. […]

AMD Announces ARM and x86 pin-to-pin Compatible APUs and SoCs for 2015, ARM K12 Core for 2016 and Beyond

AMD has designed x86 processor since its inception, and recently they’ve announced ARM Cortex A57 “Seatlle” SoCs targeting servers would be available later this year. They’ve now decided to merge their product line-up even further with Project Skybridge that aims to provide pin-to-pin compatible ARM and x86 SoCs and APUs by 2015, manufactured using a 20nm process. That means AMD’s customers should be able to leverage AMD’s “ambidextrous computing” solutions to design one and only board for x86 and ARM processors for server, embedded, semi-custom and ultra-low power applications. Processors of the “Project Skybridge” family will also be the first ARM based AMD processors to include a GPU (Graphics Core Next GPU), contrary to Seatlle SoCs, which are destined to be used for the server market, and do not come with a GPU. ARM processor will be based on low power ARM Cortex A57 cores and x86 processors will make […]

Huawei D01 Server Board Features 16 ARM Cortex A15 Cores with up to 64 GB RAM, 3 SATA, 2 GbE Ports

During Linaro 14.02 release, I noticed a Huawei D01 board with 16 ARM Cortex A15 core, but details were lacking. Charbax was a Linaro Connect Asia earlier this month, and he could film the board in action, and interview the development team about this server board, and software development. Huawei D01 specifications: Processor HiSilicon SoC with16 x ARM Cortex-A15 CPU Core @ max. 1.5GHz (up to 84000 DMIPS) Support for CPU configuration as AMP/SMP Configurable Big or Little endian. Default: Little endian System Memory – 2x 64bit DDR3 DRAM Dual Inline Memory up to 1600 MHz, Module(DIMM) sockets:(2)&(3) . Default capacity: 8GB, upgradeable to 64GB Storage – 2x 1Gb NOR Flash, 2x 512MB NAND Flash, 3x SATA III for 2.5″ hard drives or SSD, 1x SD card Connectivity – 2x 10/100/1000Mbit/s Gigabit Ethernet ports, 1x 10/100Mbit/s FE port Other Peripheral Interfaces 2x USB 2.0 Host ports 2x UART, 4x I2C, […]

Dedicated Hosting Services on ARM Development Boards (Cubieboard2, Raspberry Pi, ODROID…)

At least two companies have recently launched hosting services using dedicated ARM servers based on low cost development boards: NanoXion with its NX-BOX service powered by PiBox (Raspberry Pi) and CubieBox (Cubieboard 2) microservers, and miniNodes with servers based on Cubieboard2 first, then ODROID development boards, and possibly AllWinner OptimusBoard once/if it becomes available. The PiBox will feature a Raspberry Pi Model B with 512 MB RAM, and 16GB Class 10 UHS-1 microSD card by Samsung, and the dual core Cubiebox comes with 1GB RAM and a Crucial M500 SATA III 120GB SSD. Both NX-BOXes run Linux Debian Server NX distribution, support instant remote reboot, with guaranteed 10 Mbps connectivity for IPv4 & IPv6, and unlimited bandwidth. The boards are all hosted in France. The company expects their ARM servers to be used as private cloud servers, backup servers, private chat servers, web servers, mail servers, DNS Servers, monitoring servers, and […]

PC Engines APU System Boards Feature AMD G-Series T40E APU, 3 Gigabit Ethernet Ports

Up to now there were basically two embedded board based on x86 architecture available to hobbyists: Gizmo Board (AMD T40E) and Minnowboard (Intel Atom). There’s now another solution with PC Engines system boards, namely APU.1C and APU.1C4, that comes with AMD G-Series T40E dual core APU, 2 to 4 GB RAM, 3 Gigabit Ethernet ports, an mSATA connector, and more. Contrary to the other two boards however, there’s no video output, and that makes these APU boards suitable for routers, firewalls, VOIP, dedicated servers, special purpose network plumbing, etc.. PC Engines APU boards specifications: APU – AMD G -Series T40E dual core APU @ 1 GHz with 64 bit support, 32K data + 32K instruction + 512KB L2 cache per core, with Radeon HD6250 GPU. System Memory APU.1C – 2 GB DDR3-1066 DRAM APU.1C4 – 4 GB DDR3-1066 DRAM Storage – SD card (connected through USB), m-SATA, and one SATA […]

Linaro Connect Asia 2014 Opening Keynote – Status and Future of ARMv8 Linux & Android [Video]

Linaro Connect Asia 2014 has just started in Macau today and will take place until Friday. You can follow the sessions live and/or their recordings via Linaro OnAir YouTube Channel. I’ve watched the opening keynote, and embedded the video at the bottom of this post. The keynote focuses on ARMv8 for Linux and Android on servers, mobile devices, digital home, and more, and involves two main speakers: George Grey, Linaro CEO , and Jon Masters, Chief ARM Architecture at Red Hat. The speaker beginning of the video provides some practical information and the schedule for Linaro Connect. The keynote itself really starts around 15:50 with George Grey who spends the first 10 minutes introducing the latest Linaro members: Qualcomm, Mediatek, ZTE, AllWinner and Comcast. He then talks about the new Mobile sub-committee (MOBSCOM) that will focus on big.LITTLE, Android optimization and Android on ARMv8, as well as the soon-to-be-announced Linaro […]

Applied Micro X-Gene X-C1 ARMv8 Server Development Board is Now Available for Pre-order

Applied Micro X-Gene is the very first processor to use ARM 64-bit architecture (ARMv8), not Cortex A53 or Cortex A57, but a custom implementation, and last year we’ve seen the company’s ARMv8 development board running 4 Linux virtual machines via KVM. The platform, called X-Gene X-C1, can now be pre-ordered to develop private cloud, public cloud, and enterprise applications. There’s limited public information for now, but I could derive specifications from a few places on the web and available pictures: SoC – Applied Micro X-Gene eight core ARMv8 processor @ 2+GHz System Memory – 2x DDR3 memory slots Storage – 4x SATA 2/3 ports + SD card slot Connectivity – 3x 10 Gb Ethernet ports USB – 2x SuperSpeed USB 3.0 ports, 1x mini USB port Expansion – PCIe Gen 3 Monitoring  DB9 Serial port Power – ATX I don’t know what’s the metallic connector with holes between the two […]

ARM Unveils Server Base System Architecture Specification (SBSA) to Standardize ARM based Servers

64-bit ARM based servers should hit the market later this year or earlier in 2015 with SoCs such as Applied Micro X-Gene or AMD Opteron A1100. ARM still has the lead in terms of efficiency with a lower dollar per watt ratio, but Intel is closing in with their new Avoton server-on-chips. However, there’s one aspect where Intel is clearly in the lead: standardization and compatibility. ARM is very flexible, and allow SoC designers to create more or less what they want, but it comes at the cost that most ARM based systems are not capable of running mainline Linux, and instead use vendor trees.  With many applications, that may not be critical, but when it comes to data-centers, companies want to be able to run the latest Linux version with the latest security patches as soon as possible, and want to lower the total cost of ownership (TCO), so […]

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