More Technical Details & Benchmarks about Nvidia Tegra K1 “Denver” 64-bit ARM SoC

The 32-bit version of Nvidia Tegra K1 have generally received good reviews in terms of performance, especially GPU performance, and the company has also provided good developer’s documentation and Linux support, including open source drivers for the Kepler GPU (GK20A) found in the SoC. But as initially announced, Tegra K1 with also get a 64-bit ARM version codenamed “Denver”, and Nvidia provided more details at Hotchips conference. The 64-bit Tegra K1 will still feature a 192-core Kepler GPU, but replace the four ARM Cortex A15 cores found in the 32-bit version, by two ARMv8 “Project Denver” cores custom-designed by Nvidia. The multi-core performance of the dual core 64-bit Tegra K1 @ 2.5 GHz may end up being equivalent to the quad core 32-bit Tegra K1 @ 2.1 GHz, but the single core performance will be much better thanks to a  a 7-way superscalar microarchitecture (vs 3-way for Cortex A15), as […]

Vigekwear is a Modularized, Open source, Wearable BLE Development Kit (Crowdfunding)

[Update: Atomwear has been renamed to Vigekwear due to (Intel’s) copyrights infringement]. Giayee is a company mainly manufacturing Android tablets, thin clients, and mini PCs, but their latest product, called Atomwear, is a Bluetooth Low Energy (BLE) development kit based on Nordic nRF51822 chipset that comes with various modules such as battery charger, accelerometer, gyroscope, OLED display, heart rate monitor, etc… which connect together via 24-pin connector on a standard rigid baseboard or a flexible printed circuit (FPC). All modules are connected via the same 24-pin connector with power, I2C, SPI, UART, ADC, and GPIOs signals. The baseboard and FPC both contain 6 such connectors connected in parallel for up to 6 modules, and two baseboard can be connected together via a bridge circuit to accept more modules. The minimum configuration is with a BLE MCU module, and a power module. The different boards and modules are listed as follows: […]

ArmSoM CM5 Raspberry Pi CM4 alternative with Rockchip RK3576 SoC

How to Root Rockchip RK3288 Devices

As Rockchip RK3288 based tablets and TV boxes are slowly starting to reach end-users, it may be a good time to post instructions showing how to root your Android device. Geekbuying has just published a guide to root RK3288 tablets and media players. The instructions below require a PC or Virtual Machine running Windows XP/7/8, but hopefully instructions to root under Linux similar the ones for RK3066/RK3188 will surface soon. Install Rockchip USB drivers by downloading the latest DriverAssistant which adds support for Rockchip RK3288. Simply extract the files and click on DriverInstall.exe to complete the installation. Download the latest version of VRoot tools. and basically follow the same instructions as for Amlogic S802 root which I’ll summarize below. Make sure USB debugging is enabled in your device (Settings->Developer Options->USB Debug) Connect your RK3288 device to your PC via a USB cable. (OTG port) Start VRoot. It should detect your […]

Parallax Propeller 1 P8X32A Open Source Multi-core MCU

Lots of electronics devices are now powered by open source software such as Linux, open source hardware is not as wide-spread, but gaining tracking traction thanks to the like of Arduino, Beagleboard.org, Olimex, and many  projects on crowdfunding websites, and now we even start seeing some open source silicon. Existing open source processors include LEON3 (SparkV8) MCU, OpenRisc, and just very recently, LowRISC, based on 64-bit RISC-V instruction set architecture, has been announced with the backing of some of Raspberry Pi co-founders, Google ATAP, etc… and is currently being developed at the University of Cambridge, UK. Parallax Propeller 1 P8X32A is another MCU which has been open sourced last week.   Propeller 1 P8X32A had however been released in April 2006, and can be sourced as a 40-pin DIP chip for prototyping, and 44-pin QFP and QFN for production, and come with the following key features: Power Requirements: 3.3 VDC […]

Android-x86 4.4 Stable Released for x86 Computers, Laptops, Netbooks…

There are several methods to run Android in an x86 computer or laptop, but Android-x86 could be one of the best to do that, and the developers have just released the first stable release for Android-x86 4.4 Kitkat. This release includes support for OpenGL ES hardware acceleration for AMD Radeon and Intel graphics, ffmpeg integration to support HD video playback in apps, and more. The file to download is android-x86-4.4-r1.iso, which you can then install on a USB flash drive:

where /dev/sdX is the device name of your usb drive. If you are a Windows users you can use Win32DiskImager utility instead. Android should then boot from USB, and you can decide to run it from USB or install it on you hard drive. I haven’t done this, but instead, I’ve created a new Linux 32-bit virtual machine in VirtualBox without internal storage to try it out quickly in […]

Rockchip RK3288 Temperature Testing and Antutu Benchmarks

There are many upcoming Rockchip RK3288 based devices, and in the listing the CPU frequency varies from 1.6 GHz to 2.0 Ghz. so it’s difficult to know exactly what to expect. Ugoos has done some testing with their UT3 board measuring temperature after Antutu benchmark for different CPU clock frequencies and fan/fanless combinations. The board comes with a rather tiny heatsink which may explain some of the results below. They also added a small fan on top in about half the tests to compare the temperature against an heatsink only solution. Without further delays let’s go through the results: Frequency Antutu Score Temperature (heatsink) Temperature (Back of PCB) Heatsink only Heatsink + fan Heatsink only Heatsink + fan 1.608 GHz 38655 67 °C N/A 70 °C N/A 1.704 GHz 39853 72 °C 50 °C 75 °C 60 °C 1.800 GHz 41440 83 °C 52 °C 85 °C 62 °C 1.920 […]

Rockchip RK3568, RK3588 and Intel x86 SBCs abd SoMs

Navdy is an Android Head Up Display for your Car Controlled by Voice and Gestures

Following up on yesterday’s Android rear view mirrors (ARVM), where I and others mentioned safety of such devices in comments, it has been brought to my attention that there’s a possibly safer alternative with Navdy, a 5.1″ Head-Up Display (HUD) running Android 4.4, that’s placed right in front of your eyes on the top of the dashboard, and coming with both common and different features compared to ARVM. Navdy’s preliminary specifications: Processor – Unnamed dual core processor System Memory – N/A Storage – N/A Display – 5.1″ wide transparent Head-Up Display (HUD) with high quality projector Camera – IR camera for touchless gesture control Connectivity – WiFi (802.11 b/g/n), Bluetooth 4.0/LE Sensors – Accelerometer, e-compass, ambient light sensor Audio – Via Bluetooth or 3.5mm minijack mini-USB port, Internal speaker and microphone with noise canceling DSP Data / Power interface – OBD-II power and data connection to car computer, with optional […]

Android Rear View Mirrors Feature Dual Cameras for DVR Function, GPS, Bluetooth, and More

I first heard about Android rear view mirrors back in 2012 with a solution designed by Huawei running Android 2.3. But this morning, DealExtreme listed three Android rear view mirrors, with model names like EL-H100, EL-H200, and EL-H800 selling between $120 to $216 depending on the features. The mirrors feature 4.3″ to 5″ displays, and all come with dual camera support, run Android 4.0, and seem powered by AllWinner A10 or A13 ARM Cortex A8 processor, with the most expensive (EL-H800) also supporting Bluetooth and GPS. One model also support IR night vision (EL-H100). Features and specifications for EL-H800 model are listed as follows: SoC – AllWinner A13 ARM Cortex A8 @ 1.2GHz with Mali-400 GPU System Memory – 512MB DDR3 Storage – 8GB flash and micro SD slot up to 32GB Display – 5″ TFT Touch Screen, 800×480 resolution Connectivity – Wi-Fi and Bluetooth earphone support, FM radio Video […]

Boardcon Rockchip RK3588S SBC with 8K, WiFI 6, 4G LTE, NVME SSD, HDMI 2.1...