$89 Sheeva64 Plug Computer is Powered by Marvell ARMADA 3720 Armv8 Processor

Sheeva64 plug computer

Sheevaplug is a Linux plug computer powered by Marvell Kirkwood 6281 ARM9 processor that was launched in 2009 with Ubuntu 9.04. As the name implies, Sheevaplug looks like a power adapter that’s plug directly into your mains socket, but it’s actually a headless computer, i.e. without video output, and instead coming with a USB port, Gigabit Ethernet, and an SD card slot. The device got fairly popular at the time, so it ended up in several hardware projects, and was supported by a long list of open source software projects as you’ll find out in the Wikipedia page. Ten years have passed, and Globalscale Technologies has just introduced an upgraded version with the Sheeva64 plug computer based on the same Marvell ARMADA 3720 dual core Armv8 processor as found in ESPRESSOBin board. Sheeva64 plug computer specifications: SoC – Marvell ARMADA 3720 dual core 64bit Arm processor up to 1.2GHz System Memory – 1GB DDR4 Storage – 4GB eMMC flash, 4MB …

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ODROID-N2 Amlogic S922X SBC Coming in April for $63 and Up

ODROID N2

Due to RAM supply issues, Hardkernel canceled RK3399 based ODROID-N1 board last year, and decided to replace it with ODROID-N2 using a “newer SoC .. with faster CPU/GPU cores and native DDR4 support”, but they did not provide any details about the processor, and we speculated it could be the upcoming Amlogic S922X processor. Hardkernel has now formally unveiled ODROID-N2, the first Amlogic S922X SBC to be announced, with 2 to 4GB DDR4 RAM, 4x USB 3.0 ports, Gigabit Ethernet, HDMI 2.0a video output up to 4K 60p and more. ODROID-N2 SBC specifications: SoC – Amlogic S922X hexa-core big.LITTLE processor with 4x Arm Cortex A73 cores @ up to 1.8 GHz, 2x Arm Cortex A53 cores @ 1.9 GHz, Arm Mali-G52 GPU @ 846MHz; 12nm manufacturing process System Memory – 2GB or 4GB DDR4 RAM @ 1320 MHz Storage – 8MB SPI flash, eMMC flash module socket, micro SD card slot Video & Audio Output – HDMI up to 4K …

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MediaTek MT8183 Octa-core Cortex A73/A53 SoC Targets Chromebooks

MediaTek MT8183

MediaTek processors have been found in a few Chromebooks notably in MediaTek MT8173 powered Acer Chromebook R13, but the quad-core Cortex A72/A53 processor hasn’t made it into many models like the hexa-core Rockchip RK3399 “OP1” processor. However, I’ve been informed there are a few patchsets that have been submitted to mainline Linux and V4L2 mailing lists about MediaTek MT8183 octa-core Cortex A73/A53 processor. The latter adds a Digital Image Processing (DIP) driver on MediaTek MT8183 SoC, “which will be used in camera features on CrOS application” and some code related to MT8183 is found in Chromium OS repository, so those clues should confirm the octa-core processor will end up in Chromebooks, with the current MT8183 reference board being named Kukui. There aren’t any product pages for MT8183 on MediaTek website just yet, but by looking at the source code (e.g. Device tree file), and some clues around the web, we can derive the main features of the processor: CPU – …

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Ubuntu 18.04 Now Boots on Some Snapdragon 835 Arm Laptops

Snapdragon 835 Ubuntu Arm Laptop

The first “proper” Windows 10 Arm laptops were unveiled at the end of 2017 and beginning of 2018, all based on Qualcomm Snapdragon 835 processor with always-on LTE connectivity, 20+ hour battery life, a fairly expensive price tag, and somewhat underwhelming performance. Qualcomm was not interested in supporting Linux, but there was interest from the community, and now it seems Ubuntu 18.04 images are available for Lenovo Miix 630, HP Envy x2, and ASUS Novago TP370 thanks to Aarch64-laptop project currently hosted on Github. Now the prebuilt images are not really ready for end users since UFS storage and WiFi are not working on any laptop yet, the touchpad is not working on the ASUS laptop, and accelerated graphics needs to be implemented. Interestingly WiFi is related to UFS on those laptops, and Marc Gonzalez is said to be being actively worked on UFS upstream support, which should enable for internal storage and WiFi. That means now you’d need to …

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Nitrogen8M_Mini is the First NXP i.MX8 8M Mini SBC

Having just written about one of the first NXP i.MX 8M Mini systems-on-module, let’s stay with NXP’s latest 14-nm processor as Boundary Devices have been working on a variant of their Nitrogen8M SBC based on MXP i.MX 8M Mini processor and aptly called Nitrogen8M_Mini. The board is also known as the less human-friendly Nit8MQ_Mini_2r8e SBC, and comes with the following specifications: SoC – NXP i.MX 8M Mini with 4x Cortex A53 cores, 1x Cortex-M4F real-time core, Vivante GCNanoUltra 3D GPU, Vivante GC320 2D GPU System Memory –  2GB LPDDR4 (Optional 4GB version) Storage – 8GB eMMC flash, expandable up to 128GB, UHS SD card slot Display – 4-lane MIPI DSI interface up to 1080p Video Encode / Decode – 1080p H.264, VP8/1080p60 H.265, H.264, VP8, VP9 Audio – 3.5mm headphone jack, analog MIC jack, 2W audio amplifier, L&R speaker headers Camera Interface – 1x 4-lane MIPI-CSI interface Connectivity Gigabit Ethernet (RJ-45) Optional QCA9377 BD-SDMAC 802.11 ac version + Bluetooth 4.1 …

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F&S Elektronik PicoCore MX8MM System-on-Module Features NXP i.MX 8M Mini Processor

FS i.MX 8M Mini SoM

Embedded World 2019 will take place at the end of this month on February 26-28 in Nuremberg, Germany, and we can expect plenty of news related to embedded systems. It’s very likely NXP i.MX 8M Mini processor will officially be launched, and we’ll see several modules and boards announced with the lower cost 14-nm processor. F&S Elektronik Systeme has already been promoting their upcoming PicoCore MX8MM system-on-module based on NXP i.MX 8M in their newsletter ahead of Embedded World, where they’ll showcase their solutions at booth 621 in hall 2. PicoCore MX8MM specifications: SoC – NXP i.MX 8M Mini single, dual, quad core Arm Cortex-A53 @ 1.8 GHz processor, Cortex-M4 real-time core @ 400 MHz, 512KB L2-Cache, 2D/3D GPU System Memory – Up to 8GB LPDDR4 Storage – Up to 512MB SLC NAND flash or up to 32GB eMMC flash Video Decode – 1080p60 HEVC H.265, VP9, H.264, VP8 Connectivity 802.11ac + Bluetooth 5.0 module Atheros AR8035 Gigabit Ethernet transceiver Interfaces …

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Adding Machine Learning based Image Processing to your Embedded Product

Convert model tensorflow runtime to NNEF

CNXSoft: This is a guest post by Greg Lytle, V.P. Engineering, Au-Zone Technologies. Au-Zone Technologies is part of the Toradex Partner Network. Object detection and classification on a low-power Arm SoC Machine learning techniques have proven to be very effective for a wide range of image processing and classification tasks. While many embedded IoT systems deployed to date have leveraged connected cloud-based resources for machine learning, there is a growing trend to implement this processing at the edge. Selecting the appropriate system components and tools to implement this image processing at the edge lowers the effort, time, and risk of these designs. This is illustrated with an example implementation that detects and classifies different pasta types on a moving conveyor belt. Example Use Case For this example, we will consider the problem of detecting and classifying different objects on a conveyor belt. We have selected commercial pasta as an example but this general technique can be applied to most other …

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LIVA Q2 Review – ECS Micro PC Tested with Windows 10 and Ubuntu 18.10

ECS LIVA Q2 Teardown

ECS (Elitegroup Computer Systems) is a Taiwanese company that has been offering mini PCs for several years now. Last year they announced their ‘pocket-sized’ model the LIVA Q. Originally featuring Apollo Lake SoCs it has now been upgraded and renamed as the LIVA Q2 and offers a choice of Gemini Lake SoCs. The distinguishing feature of the LIVA Q series however is the form-factor. Compared with Intel Compute ‘stick’ PCs and Intel NUC ‘mini’ PCs the LIVA Q2 is a ‘micro’ PC. This micro PC is like a minimalist mini PC that includes just the minimum number of useful ports namely a couple of USB ports (3.1 and 2.0) on one side, a micro SD card slot on another and finally an HDMI (2.0) and gigabit Ethernet at the rear. The resultant micro PC is beautifully small consisting of a 70mm (2.76″) square case by 33.4mm (1.31”) tall which can still be mounted on the back of a monitor using …

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