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Posts Tagged ‘bluetooth’

Zidoo H6 Pro (Allwinner H6) TV Box Review – Part 1: Unboxing & Teardown

October 12th, 2017 6 comments

Allwinner H6 is a quad core Cortex A53 processor designed for 4K HDR set-top boxes and TV boxes that also comes with high speed interfaces like USB 3.0 and PCIe. While at least one other company is working on an Allwinner H6 development board, Zidoo is the only company that I can find whose made a TV box based on the processor: Zidoo H6 Pro.

They’ve just send me a sample from their local supplier for review, and as usual, I’ll start by checking out the hardware inside out, before testing the firmware and multimedia capabilities in the second part of the review in a few weeks.

Zidoo H6 Pro Unboxing

The company has slightly changed the design of their retail package. It also shows some icons with the main features like 4K, 3D,  H.265, 2GB DDR4, Android 7.0 with ZIUI, etc…

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The box ships with a HDMI cable, a 5V/2A power supply, a Bluetooth + Infrared remote control taking two AAA batteries, a user guide in English, a guarantee card, and a “qualified certificate”.

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The main body of the case is made of metal, but the top is glass. We’ll find a window on the front panel that looks to be for an LCD display, but as we’ll see below it’s only for an IR receiver, and a small hole is used for the power LED.

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The two sides includes two USB 2.0 ports, including one OTG port, one USB 3.0 port, and a micro SD card slot. The rear panel features an AV (composite + stereo audio) jack, an HDMI 2.0a port, Gigabit Ethernet, optical S/PDIF, and the power jack.

Zidoo H6 Pro Teardown

We can peak inside the device after loosening four screws on the bottom of the case.

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Not much to see here, except a metal shield placed on the bottom side of the processor and RAM chips. A sticker makes sure I got a board with 2GB RAM, and 16GB flash. I wonder what the orange rectangle with a hole in the middle is for. Any idea?

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If we take out for more screws we can completely remove the board from the case. We’ll find the WiFi antenna attached to a sticky surface (if you look closely, an ant also got captured, not sure a Chinese or Thai ant though :)), and cooling is achieving with a small heatsink placed on top of Allwinner H6 SoC.

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Two 8Gb (512MB x 16) SKHynix H5AN8G6NAFR-UHC DDR4-2400 brings us 2GB RAM, while a 16GB Samsung KLMAG2GEND-B031 eMMC 5.0 flash is used for storage. Its theoretical performance is: 230/50 MB/s for sequential R/W, and 6.5K/6K R/W IOPS, which should allow for a responsive system, free of “app not responding” issues. Ampak AP6255 module enables 802.11 b/g/n/ac WiFi and Bluetooth 4.2, while Realtek RTL8211E transceiver and SG24002 transformer are used for Gigabit Ethernet. X-Powers AXP805 should be Allwinner H6 companion chip to handle power management.  Other potentially details include the recovery button hidden behind the AV port, and the 3-pin connector close to the processor should be the serial console.

 

I normally leave the remote control alone in my reviews. But since Zidoo decided to include a Bluetooth remote, it went through the “operation table” too.

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We can see both the IR transmitter, and the Bluetooth antenna inside the remote control. The brain of the input device is Realtek RTL8762AG Bluetooth 4.2 Low Energy chip, part of RTL8762A family, based on an ARM Cortex-M0 MCU with 256KB eFlash, and 80KB RAM.

I can see the chip supports an “OTA (Over-the-Air) programming mechanism for firmware upgrade”, so in theory Zidoo could send OTA firmware updates to the remote control, but I doubt this will happen 🙂

I’d like to thank Zidoo for sending a review sample. Distributors and resellers may inquire the company via the product page, and individuals can purchase the TV box for around $90 on various websites including GearBest, GeekBuying, ChinaVasion, Banggood, and others.

U-Blox announces NINA-B3 Bluetooth 5 Wireless MCU Modules

October 4th, 2017 5 comments

Bluetooth 5 promises to quadrupling the range and double the bandwidth of Bluetooth LE connection. However, we’ve seen not all Bluetooth 5 solutions will provide all features in a comparison between Nordic Semi nRF52840 vs nRF52832 vs nRF52810 Bluetooth 5 ready SoCs, as while all three platforms will handle the higher bandwidth just fine, only the nRF52840 will extend the range up to 4 times.

That’s why you want want to make sure you get recent hardware capable of fully handling Bluetooth 5, and U-blox has just announced NINA-B3 Bluetooth 5 module series, based on nRF52840 SoC, that will both provide longer range and higher bandwidth.

U-blox NINA-B3 module comes in two family flavors:

  • NINA‑B31, comes pre‑flashed with u‑blox’s Connectivity Software, eliminating the need for embedded programming. Support for AT command set, and u-Blox low energy serial port service
  • NINA‑B30 using nRF52840’s ARM Cortex-M4F as an “Open CPU” that allows for more customization, including support for Bluetooth mesh and Thread, and reduce the need for external hardware. Those module also support OTA updates.

Each variant support either internal or external antenna, and we end up with four models:

  • NINA-B301 – “Open CPU” with internal antenna
  • NINA-B302 – “Open CPU” with external antenna
  • NINA-B311 – U-blox software with internal antenna
  • NINA-B312 – U-blox software with external antenna

All are quite tiny, with the internal antenna modules measuring 10.0 x 11.6 x 1.9 mm, and the ones with external antenna only slightly bigger and thicker at 10.0 x 15.0 x 3.5 mm.

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As shown in the products matrix above, all modules from the family support Bluetooth 5 with GATT profile, NFC for touch to pair, 1x or 2x UART, 3x SPI, 38x GPIO pins, and secure boot. The NINA-B30 variants add several I/Os including 2x I2C, 1I2S, 1x USB, 1 QDEC, 1x PDM, 1 PWN, and 8x ADC.

U-blox expects the first samples to be available in Q1 2018. More details can be found in the product page.

STMicro BlueNRG-MESH SDK for Bluetooth Mesh to Include Code for Firmware, Android and iOS Apps

October 2nd, 2017 2 comments

Earlier this summer, the Bluetooth SIG announced Bluetooth Mesh, which supports many-to-many (m:m) device communications for up 32,767 unicast addresses per mesh network (in theory), and is compatible with Bluetooth 4.0 or greater hardware.  Several companies immediately unveiled Bluetooth Mesh SDK at the time including Qualcomm, Nordic Semi, and Silicon Labs.

ST Micro has now unveiled their own BlueNRG-MESH SDK which the company claims is “the market’s only three-part SDK that provides two app developer packages for Android and iOS, and the embedded-development software for building smart objects such as light fittings and sensors”.

Sadly, details about the SDK are near inexistent now, except – as one would expect – BlueNRG-MESH SDK will work with ST BlueNRG Bluetooth low energy wireless network processor based on an ARM Cortex M0 core, and corresponding development kits. [Update: STSW-BNRG-Mesh page has many more details about the SDK including the architecture diagram below.

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The solution was showcased at Bluetooth Asia in Shenzhen last week, with some selected customers already working with the SDK, before the public release scheduled for Q4 2017.

Thanks to Jon for the tip.

TECHBASE Moduino X Series Industrial IoT Modules / Endpoints are Based on ESP32 WiSoC

September 27th, 2017 3 comments

We’ve previously covered TECHBASE ModBerry industrial IoT gateways leveraging Raspberry Pi 3, FriendlyELEC NanoPi M1 Plus, or AAEON’s UP Linux boards. The company has now launched Moduino X series modules powered by Espressif ESP32 WiFi + Bluetooth SoC to be used as end points together with their ModBerry gateways.

Moduino X1

Two models have been developed so far, namely Moduino X1 and X2, with the following specifications:

  • Wireless Module – ESP32-WROVER with ESP32 dual-core Tensilica LX6 processor @ 240 MHz, 4MB pSRAM (512KB as option), 4MB SPI flash;
  • External Storage – X2 only: micro SD card slot
  • Connectivity
    • 802.11 b/g/n WiFi up to 16 Mbps + Bluetooth 4.2 LE with u.FL antenna connector
    • X2 only: 10/100M Ethernet
    • Options: LoRa (Semtech SX1272); Sigfox (TI CC1125); LTE Cat M1/NB1; Zigbee
  • Serial – 2x RS-232/485
  • Display – Optional 0.96″ OLED display with 128×64 resolution
  • Expansion I/Os
    • 4x Digital I/O (0 ~ 3V)
    • 2x Analog Input:
    • A2 Only: 2x analog output (optional)
    • A2 only: support for Techbase ExCard add-on modules for extr RS-232/485 ports, Ethernet ports, PCIe slots, analog input and output, digital I/Os, relays, M-Bus interface, etc…
  • Battery – Optional battery power support (A1 only); optional UPS function with LiPo battery or Supercapacitor
  • Power Supply -5V DC
  • Dimensions
    • A1 – ABS: 90 x 36 x 32 mm (LxWxH); Aluminum: 95 x 35 x 41 mm (LxWxH)
    • A2 – ABS: 90 x 71 x 32 mm (LxWxH); Aluminum: 95 x 71 x 41 mm (LxWxH)

Moduino A1 consumes less than A2, and can be powered by batteries only, but both models can use battery as UPS. The modules support Espressif ESP-IDF SDK, Zephyr Project, Arduino programming, MicroPython, Mongoose OS, and more, and would typically be used as meters & sensor nodes capable of reporting temperature, humidity, pressure, acceleration, & light with attached sensors. More sensors are being developed by the company.

Moduino X2 (right)

Moduino X1 & X2 appear to be available now, but you’d need to contact the company to get price information. Visit Moduino X series product page for more details.

Linaro Connect SF 2017 Welcome Keynote – New Members, Achievements, the Future of Open Source, and More…

September 26th, 2017 No comments

Linaro Connect San Francisco 2017 is now taking place until September 29, and it all started yesterday with the Welcome Keynote by George Grey, Linaro CEO discussing the various achievements since the last Linaro Connect in Budapest, and providing an insight to the future work to be done by the organization.

The video is available on YouTube (embedded below), and since I watched it, I’ll provide a summary of what was discussed:

  • Welcoming New Members – Kylin (China developed FreeBSD operating systems) joined LEG (Enterprise Group), NXP added LHG (Home Group) membership, and Xilinx joined LITE (IoT and Embedded).
  • Achievements
    • OPTEE open portable trusted environment execution more commonly integrated into products. Details at optee.org.
    • LEG 17.08 ERP release based on Linux 4.12, Debian 8.9 with UEFI, ACPI, DPDK, Bigtop, Hadoop, etc…
    • LITE group has been involved in Zephyr 1.9 release, notably contributing to LwM2M stack
    • More projects to be found on download page.
  • Open source future with many fields involved including artificial intelligence, security, automotive, automation, etc.
    • Security requires software/hardware combination, and with a single global standard such as OPTEE desirable
    • Artificial Intelligence / Machine Learning
      • Trend is to move out of the CPU to off-load tasks to GPU, FPGA, or NNA (Neural Network Accelerators)
      • Not single API, for example TensorFlow supports CPU and NVIVIA CUDA, using other platforms require heavy customization
      • Linaro to work abstraction layer/ common API for machine learning
      • A.I will bring many benefits, but also potential dangers/issues: privacy, military use, etc… Development in the open is better.
    • Automotive
      • Currently Intel and NVIDIA provides ADAS / autonomous driving platform, both closed sources
      • More open platform needed, maybe a 96Boards Automotive platform with 6x cameras, GPS, touch screen display, processing power good enough for ADAS and IVI (In Vehicle-Entertainment)
      • Linux now mostly handles non-safety critical code, will change in the future. Containers will help.
      • Currently working on proof-of-concept with StreetDrone One autonomous driving development platform, DragonBoard 410c and Gumstix AeroCore 2 mezzanine. More details, maybe demo, at next Linaro Connect
  • 96Boards
    • Recently (and soon to be) announced – Hikey 960, Orange Pi i96, Uranus (WiFi board based on TI CC3220, to run Zephyr OS)
    • Mezzanine boards – NeonKey with sensors and LEDs, Secure96 with crypto chips & TPM (used to play with OPTEE)
  • ARM Platforms for developers – Three types:
  • Microplatforms
    • Definition – open source, minimal, secure, OTA upgradeable distributions
    • Cortex M platforms will use Zephyr OS, Cortex A support will be based on OpenEmbedded with a unified multi-SoC kernel
    • Currently tested on Hikey, DragonBoard 410c, and Raspberry Pi 3, more platforms to be supported in the future
    • Demos with 6x Carbon + Nitrogen board with BLE running Zephyr OS, Raspberry Pi 3 IoT gateway:
      • 1. Use Linaro Developer Cloud (running LED Enterprise Reference Platform) + Hawkbit dash to monitor temperature sensors on the board
      • 2. Switch Raspberry Pi 3 gateway to use Softbank cloud using Alibaba infrastructure on-the-fly, and control lights from Japan severs.
      • The two demos above shows how a multi-standard automation gateway could be implemented solving the problem of incompatibility of devices from different manufacturers
      • BLE mesh demo with six board controlling lights
      • Source code for demos can be found on Github
    • Going forwards downstream microplatforms will be developed by a separate entity: Open Source Foundries, unrelated to Linaro which will keep on focusing on upstream work
  • Linaro also launched the Associate Program for OEMs, ODMs, service providers, startups, and university who want to join Linaro. No details were provided, only an email address [email protected]

You’ll also find the presentation slides on Slideshare.

A First Look at ESP32 PICO Core Development Board Powered by ESP32-PICO-D4 SiP

August 30th, 2017 11 comments

Last week, I wrote about ESP32-PICO-D4 system-in-package (SiP) that contains ESP32 WiSoC, 4MP SPI flash, a crystal oscilloscator and some passive components in a single 7×7 mm package in order to allow smaller designs based on ESP32. The company noticed the post, and asked me whether I’d be interested in receiving “some development boards based on ESP32 PICO”, an offer hard to refuse :), and within a couple of days I received the package below.

So I  ended up with 10 identical development kits, the company probably thought it was no worth paying for DHL to only send one or two development boards… The boards may also be part of some contests… We’ll see 😉

So let’s take two, and have a closer look at “ESP32_PICO_Core_Board_V3″… It comes with two rows of 20 pins with access to all I/Os, and features three main chips: ESP32-PICO-D4 SiP, AMS1117 voltage regulator, and Silabs CP2102 USB to UART controller for programming and debugging.

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There’s also an antenna, a EN and BOOT buttons, and a micro USB port. The board measures 52x20mm. On actual product, the USB bridge part would be there, so you could have something around half size or even much smaller…

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… something like the ESP32-PICO-D4 module below whose picture I found on the web.

ESP32-PICO-D4 features are basically the same of ESP32 ones, just more compact, so how does ESP32 PICO Core board compares to other breadboard friendly board based on ESP32? To find out, I compare it to ESP32-T board with ESP32-Bit module, and ESPino32 board with ESP-WROOM-32 module, which I plan to review/play with in about 2 weeks.

ESPino32 vs ESP32 Pico Core vs ESP32-T – Click to Enlarge

ESP32 Pico Core is clearly smaller. Compared to ESP32-T it’s about the same length, but much thinner, and include 2 extra pins, while in terms on functionality it’s more comparable to ESPino32 both with 40-pins, two button, and micro USB port, but the size difference is even greater.

ESP32 Pico Core on Breadboard – Click to Enlarge

If you wonder, the board is breadboard compatible, and since it’s thinner leave two rows of pins free on each side, compared to just one for most boards.

The boards are not for sale right now, and there’s no info on their website about them. You’ll however find some more details in ESP32-PICO-D4 datasheet.

Zidoo X7 Review – Part 2: Android 7.1 Firmware, ZDMC, WiFi, and More

August 29th, 2017 9 comments

Zidoo X7 is an Android TV box powered by Rockchip RK3328 processor similar to Bqeel MVR9 with 2GB RAM, but instead of provide Gigabit Ethernet, and 802.11 b/g/n WiFi, it comes with Fast Ethernet, and 802.11 b/g/n/ac WiFi, so is better suited to people using WiFi instead of Ethernet for media streaming. You’ll find plenty of photos in the first part of the review entitled “Zidoo X7 TV Box Review – Part 1: Unboxing & Teardown“, and I’ll report my experience with Android 7.1.2 firmware in this second part.

First Boot, Setup, and First Impressions

I connected two RF dongles for  MINIX NEO A2 Lite air mouse and Tronsmart Mars G01 gamepad via a USB hub, a USB keyboard to take screenshot, and a Seagate USB 3.0 hard drive to the single USB 3.0 port on the box. I perform tests with Ethernet in most reviews, but with Zidoo X7, I’ve decided to use 802.11ac WiFi instead, so I only connected the Ethernet cable when required for some tests. I completed the hardware setup with HDMI, and power cables with the box starting automatically when connecting power.

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The boot normally takes around 19 seconds to the new version of the company’s ZIUI launcher, largely inspired from Android Leanback launcher, but I find Zidoo design more pleasing to the eyes.

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Click for Original Size

The notification and status bars will show automatically when you move the mouse pointer to the top of bottom of the screen, and hides automatically when you move away. That’s my favorite way of handling those.

Pre-installed apps include the Play Store, ZDMC (Kodi fork), some settings apps. YouTube, Vimeo, Hulu… apps shown in the main launcher are not installed by default but you can download them if you click on the icons.

The setting app have four main sections, starting with Network to configure WiFi, Ethernet, or Bluetooth…

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Display to adjust the screen resolution from 720x480p-60 up to 4096x2160p-60, adjust overscan, and set your own wall paper…

Sound to configure audio output to PCM, or S/PDIF / HDMI audio pass-through, and disable/enable system sounds…

Other to set language, reset to factory settings, switch to “advanced settings” (i.e. Android Nougat settings), or learn more about the system info.

The About section of the advanced settings shows ZIDOO_X7 model runs Android 7.1.2 on top of Linux 3.10.104 with the security patch level dated April 5, 2017.

The device has a 7.28GB internal storage partition with 2.91GB used at the beginning of the review. The system also detected and mounted exFAT, EXT-4 and NTFS partitions on my USB hard drive, but could not handle BTRFS.

I went to the Update app but no new firmware was available ,so I tested Zidoo X7 with firmware v1.2.5.

Google Play worked fine, and I could install most apps I needed for the review, but I did notice Smart Movement app for a Bluetooth LE smartwatch could not be installed via the store, so maybe BLE is not supported. I could also install Riptide GP2 with Amazon Underground, but the first time I launched the latter is crashed. (Riptide GP2 only). I had a funny issues with apps installed from Google Play, not but Amazon Underground,  as they would show twice in the list of apps.

The included IR remote control worked well up to 10 meters, and I could use the IR learning function to record some of my TV remote control buttons like power and volume. I did not use it very long though, as I used a more convenient air mouse most of the time.

A short press on the remote control power button will bring a menu to select between Power off, Standby, or Reboot.


But a long press will allow you to select between showing this menu (Ask me) go to power off and standby mode directly.

So while power handling is nicely implemented, I found power consumption to be rather high in power off mode:

  • Power off – 2.3 to 2.4 Watts (although once I somehow managed 1.0 Watt)
  • Standby – 3.3 Watts
  • Idle – 3.2 Watts
  • Power off + USB HDD – 5.0 to 6.2 Watts (even after 3 hours). The Ethernet port can establish a link if I connect the cable…
  • Standby – 5.0 to 6.4 Watts
  • Idle + USB HDD – 6.4 to 7.0 Watts

So it looks like something is wrong with power off mode.

Zidoo X7 gets a little less hot than MVR9, but I still measured up to 45 and 52ºC max measured on the top and bottom covers after playing a 2-hour 1080p video in ZDMC (Kodi fork), and 47 and 55ºC after playing Riptide GP2 for about 15 minutes. CPU-Z reported respectively 74.6°C and 83.9°C after the tests. The ambient temperature was around 28°C, and I did not experience any noticeable slowdowns during the review.

Zidoo X7 works pretty well, and I’m especially pleased with the new ZIUI launcher that’s both beautiful and convenient to use, and attention to details like option for power handling. But not everything is prefect, as power consumption in power off mode is rather high, and apps installed with Google Play show twice in the list of apps.

Video & Audio Playback – ZDMC, MediaCenter, DRM, and YouTube

Zidoo X7 comes with the compan’y own Kodi fork named ZDMC (ZiDoo MediaCenter) based on Kodi 16.1.

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For some reasons, “Accelerate VP9” and “Enable fractional HDMI (23.976, 59.67)” were disabled in Settings->Videos->RKMC, so I enabled them, as well as automatic frame rate switching before starting to test videos.

As mentioned in the introduction, I used 802.11ac WiFi for testing with my router about 4 meters away and behind a wall, but since I came across buffering issues in some videos, I tested with three methods in case of problems, stopping at the first successful attempt:

  1. ZDMC + 802.11ac WiFI (WiFi)
  2. ZDMC + 10/100M Ethernet (Ethernet)
  3. ZDMC + USB NTFS partition (HDD)

Those are the results for 4K videos:

  • HD.Club-4K-Chimei-inn-60mbps.mp4 (H.264, 30 fps)

    • WiFi – Some buffering, then video OK, but no audio
    • Ethernet – Video OK, but no audio
    • HDD – OK
  • sintel-2010-4k.mkv (H.264, 24 fps, 4096×1744)
    • WiFi – Frequent buffering
    • Ethernet – OK (24 Hz video output)
  • Beauty_3840x2160_120fps_420_8bit_HEVC_MP4.mp4 (H.265) –  OK
  • Bosphorus_3840x2160_120fps_420_8bit_HEVC_MP4.mp4 (H.265) – OK
  • Jockey_3840x2160_120fps_420_8bit_HEVC_TS.ts (H.265) – OK
  • MHD_2013_2160p_ShowReel_R_9000f_24fps_RMN_QP23_10b.mkv (10-bit HEVC) – OK (24 Hz video output)
  • phfx_4KHD_VP9TestFootage.webm (VP9) – OK
  • BT.2020.20140602.ts (Rec.2020 compliant video; 36 Mbps; 59.97 Hz)
    • WiFi – Not smooth, no audio
    • Ethernet – Video + Audio OK for a while, then lost audio
    • HDD – OK
  • big_buck_bunny_4k_H264_30fps.mp4 – OK
  • big_buck_bunny_4k_H264_60fps.mp4 – Tested with WiFi only: Not smooth, audio delay (Note: H.264 @ 4K60fps is not supported by RK3328 VPU)
  • Fifa_WorldCup2014_Uruguay-Colombia_4K-x265.mp4 (4K, H.265, 60 fps)
    • WiFi – Long buffering after 2 seconds, then some infrequent audio cuts, infrequent short image freezes
    • Ethernet – Mostly OK, but one short audio cut during the first 3 minutes
    • HDD – OK
  • Samsung_UHD_Dubai_10-bit_HEVC_51.4Mbps.ts (10-bit HEVC / MPEG-4 AAC)
    • WiFi – Not smooth at all, no audio (buffer = 0%)
    • Ethernet – Not smooth at all, no audio (buffer = 0%)
    • HDD – OK
  • Astra-11479_V_22000-Canal+ UHD Demo 42.6 Mbps bitrate.ts (10-bit H.265 from DVB-S2 stream)
    • WiFi – Not smooth at all, no audio (buffer = 0%)
    • Ethernet – Not smooth at all, no audio (buffer = 0%)
    • HDD – OK
  • 暗流涌动-4K.mp4 (10-bit H.264; 120 Mbps)
    • WiFi – Constant buffering (as should be expected)
    • Ethernet – Constant buffering (as should be expected)
    • HDD – OK
  • Ducks Take Off [2160p a 243 Mbps].mkv (4K H.264 @ 29.97 fps; 243 Mbps; no audio) – HDD: Not smooth
  • tara-no9-vp9.webm (4K VP9 YouTube video @ 60 fps, Vorbis audio)
    • WiFi – Frequent buffering, then artifacts starts to show on the whole screen after 10 seconds, and audio lost
    • Ethernet – Some buffering, artifacts after a while, and some apparently AV sync issues
    • HDD – OK
  • The.Curvature.of.Earth.4K.60FPS-YT-UceRgEyfSsc.VP9.3840×2160.OPUS.160K.webm (4K VP9 @ 60 fps + opus audio)
    • WiFi – Frequent buffering, artifacts on the whole screen for 1 or 2 seconds from time to time
    • Ethernet – Plays OK most of the time, but artifacts on the whole screen appears from time to time (e.g. at 00:50, then 1:20, etc..)
    • HDD – Played OK at the beginning, but then massive artifacts between 1:06 to 1:36, before resuming normally

So finally, I could play most videos with automatic frame rate switching from the hard drive, but 802.11ac WiFi is just not fast enough to play many 4K videos from a SAMBA share. Some of it may be improved by using a UPnP/DLNA server instead of SAMBA. However, I was still it surprised by the number of videos not playing fine over Fast Ethernet, so there may still be some issues here, notably with videos where the buffer suddenly dropped to 0% as reported by Kodi log overlay as shown in the screenshot below.

Click for Original Size

Another oddity is that when I take screenshots on other platform, it will only capture the OSD / user interface, since the video is rendered on a separate 4K video buffer. Could that mean the video is downscaled? Before answering this question, I played the 4K video samples with MediaCenter app from the USB drive:

  • HD.Club-4K-Chimei-inn-60mbps.mp4 (H.264, 30 fps) – OK
  • sintel-2010-4k.mkv (H.264, 24 fps, 4096×1744) –  OK with 24 Hz video output, but I could not select the subtitles like I normally do in this video
  • Beauty_3840x2160_120fps_420_8bit_HEVC_MP4.mp4 (H.265) –  OK
  • Bosphorus_3840x2160_120fps_420_8bit_HEVC_MP4.mp4 (H.265) – OK
  • Jockey_3840x2160_120fps_420_8bit_HEVC_TS.ts (H.265) – OK
  • MHD_2013_2160p_ShowReel_R_9000f_24fps_RMN_QP23_10b.mkv (10-bit HEVC) – OK, but 1080p @ 24 Hz video output, instead of 4K @ 24Hz
  • phfx_4KHD_VP9TestFootage.webm (VP9) – OK
  • BT.2020.20140602.ts (Rec.2020 compliant video; 36 Mbps; 59.97 Hz) – OK.
  • big_buck_bunny_4k_H264_30fps.mp4 – OK
  • big_buck_bunny_4k_H264_60fps.mp4 – Almost smooth, but audio delay (H.264 @ 4K60fps is not supported by RK3328 VPU)
  • Fifa_WorldCup2014_Uruguay-Colombia_4K-x265.mp4 (4K, H.265, 60 fps) – OK
  • Samsung_UHD_Dubai_10-bit_HEVC_51.4Mbps.ts (10-bit HEVC / MPEG-4 AAC) – OK
  • Astra-11479_V_22000-Canal+ UHD Demo 42.6 Mbps bitrate.ts (10-bit H.265 from DVB-S2 stream) –  OK
  • 暗流涌动-4K.mp4 (10-bit H.264; 120 Mbps) – OK
  • Ducks Take Off [2160p a 243 Mbps].mkv (4K H.264 @ 29.97 fps; 243 Mbps; no audio) – Not 100% smooth
  • tara-no9-vp9.webm (4K VP9 YouTube video @ 60 fps, Vorbis audio) – OK
  • The.Curvature.of.Earth.4K.60FPS-YT-UceRgEyfSsc.VP9.3840×2160.OPUS.160K.webm (4K VP9 @ 60 fps + opus audio) – OK, expect for some specific scenes (source issue?).

The results with MediaCenter are very good, except for a few problem for subtitles, automatic frame rate switching for one video using 1080p24 output, and a very high bitrate video not as smooth as it could be.

Click to Enlarge

Coming back to the screenshot concern in ZDMC, I did a screenshot again with MediaCenter, and the video was again included. So it could either be the video is rendered to a 1920×1080 surface, or the system does something clever during the screenshot by copying the video hardware buffer to the framebuffer to include both. let’s find with a 4K resolution test sample, which I used previously on other 4K TV boxes. The sample would not play in MediaCenter, so I played in in ZDMC, and took a picture with my camera, and zoomed in closely on a part of the movie to find out if there was any issues.

Ignore the green line, as it’s a problem with my TV.

The samples is comprised of a grid of black and white dots, and if the video is scaled to a lower resolution we would only see white/greay or black dots, but here we can see black and white dots as expected, so Zidoo X7 indeed supports 4K properly…

So I carried on the review with audio test for both PCM 2.0 (stereo audio) for people who connected the box directly to their TV or other stereo speakers, and HDMI audio pass-through for those with A/V receivers. For the latter test, I enabled pass-through settings in ZDMC and Android, and tested both configuration with ZDMC and MediaCenter using my TV and Onkyo TX-NR636 A/V receiver.

Audio Codec in Video PCM 2.0 Output
(ZDMC 16.1)
PCM 2.0 Output
(MediaCenter)
HDMI Pass-through
(ZDMC 16.1)
HDMI Pass-through
(MediaCenter)
AC3 / Dolby Digital 5.1 Audio OK,
Video 1:1 aspect ratio
Audio OK,
Video 1:1 aspect ratio
Audio OK,
Video 1:1 aspect ratio
Audio OK,
Video 1:1 aspect ratio
E-AC-3 / Dolby Digital+ 5.1 OK OK OK OK
Dolby Digital+ 7.1 OK OK OK OK
TrueHD 5.1 OK OK OK OK
TrueHD 7.1 OK OK OK OK
Dolby Atmos 7.1 OK No audio TrueHD 7.1* TrueHD 7.1*
DTS HD Master OK No audio DTS-HD MSTR 7.1 DTS-HD MSTR 7.1
DTS HD High Resolution OK OK DTS 5.1 DTS 5.1
DTS:X OK 2x No audio, 1x OK DTS-HD MSTR 7.1* DTS-HD MSTR 7.1*

* My A/V receiver does not support DTS:X nor Dolby Atmos, so it correctly falls to be best option in this case.
Zidoo X7 handles audio much better than Bqeel MVR9 in my case, with the only real issues because the lack of reliable DTS HD MA downsampling support, and DTS-HD HR pass-through is not supported.

I played a 2-hour 1080p movie in ZDMC using WiFi and SAMBA, and I had no problem, however, there was no option to adjust the zoom level, only 3D options.

Click to Enlarge

There’s no support for Widevine or PlayReady DRM, but CENC ClearKey is supported, and actually appears to be supported in all Android TV boxes (TBC).

YouTube is working fine up to 1080p, but you can’t select 2160p.

Networking & Storage Performance

I tested 802.11ac WiFi with SAMBA by copying a 278MB file between the server and the internal flash, and vice versa, with ES File Explorer. The download results are excellent, but for some reasons the upload much weaker:

  1. Server to flash (average): 1 minutes 7 seconds, or around 4.15 MB/s
  2. Flash to server (average): 3 minutes 13 seconds, or around 1.44 MB/s

So if I used the download + upload total average of around 2.14 MB/s, Zidoo X7’s WiFi performance is somewhat disappointing.

WiFi Throughput in MB/s – Click to Enlarge

But luckily the upload issue seems to be related to SAMBA, as there’s no such issues with iperf:

  • 802.11ac WiFi Upload:

  • 802.11ac WiFi Download:

Zidoo X7 has a performance similar to some other WiFi AC capable devices I’ve reviewed recently.

iperf throughput in Mbps

Switching to storage performance, A1 SDbench app shows good write speed for the internal memory (as expected), but as is often the case the read speed is cached with an invalid result. However, I had no trouble with slow I/O during testing, the box boots rapidly (< 20 seconds), apps are loading fine, and I did not get any “app is not responding” pop-ups.

Click to Enlarge

USB 3.0 performance is acceptable for EXT-4 and NTFS file systems, but exFAT is basically unusable, which may explain why some competitors disabled it.

Gaming

I could play both Beach Buggy Racing (BBR) and Riptide GP2 on the device using Mars G01 game controller. BBR was usable even with max settings, but just like in Bqeel MVR9, Riptide GP2 was only really enjoyable with default settings, while if you set the graphics settings to “max resolution” the frame rate feels like 10 to 25 fps. I played the game for around 15 minutes, and the performance was constant throughout, so there was no apparent throttling due to overheating.

So if you use such RK3328 TV box for gaming, you’ll either have to accept default settings, or decrease quality for better performance, or get a model with 1280×720 user interface, instead of 1920×1080. Ideally, this should be an option in the settings.

Bluetooth

I had no troubles at all with Bluetooth, as I could pair my  Android smartphone, and transfer some photos over Bluetooth, and X1T Bluetooth earbuds to watch and listen to YouTube videos. I did not try Sixaxis since the firmware is not rooted.

Zidoo X7 CPU-Z System Info and Antutu Benchmark

CPU-Z still shows “Rockchip RK3066” for most Rockchip device, but apart from that it properly detected a quad core ARM Cortex A53 r0p4 processor clocked @ 408 MHz to 1.51 GHz with a Mali-450MP, as well as 1998 MB total RAM, and 5.27 GB internal storage

Click to Enlarge

The Antutu 6.x score of 33,264 points is comparable to Bqeel MVR9 and A95X R2 scores of respectively 35,994 and 33,117 points. The former slightly higher score may be due to the DDR4 used, as Zidoo X7 relies on DDR3 SDRAM instead.

Conclusion

Overall I find that Zidoo X7 offers a better experience than the other Rockchip RK3328 devices I have tested so far, especially if you rely on WiFi, and HDMI audio pass-through is important to you, and 4K video playback is working decently well as long as you play from a hard drive. I also really like the new ZIUI launcher that’s quite eye pleasing, and similar to Leanback launcher with the “Suggested videos” section replaced by icon for the main apps. Attention to details, like flexibility for power options, and automatic handling of notifications and status bar. But there are also issues with some troubles playing some video over SAMBA due to unusual buffering issues, high power off consumption, lack of DRM, and so on.

PROS

  • Recent, responsive and stable Android 7.1.2 operating system
  • Nicely designed new ZIUI launcher / user interface
  • Good support for 4K videos played from hard drive in both ZDMC 16.1 (Kodi fork) and MediaCenter with automatic frame rate switching support
  • HDMI pass-through for Dolby TrueHD and DTS HD Master working in ZDMC and MediaCenter
  • Fast eMMC flash storage allowing for fast boot, short app loading times, and good overall performance (e.g. no “aspp not responding” issues)
  • USB 3.0 performance is good with EXT-4 and NTFS file systems
  • Good 802.11ac WiFi performance (except for SAMBA uploads)
  • Built-in Bluetooth working as expected
  • Small details like notifications & status bars automatically shown/hidden, power options,

CONS (and bugs)

  • ZDMC – Some unusual buffering issues while playing from network/samba (either with WiFi and Ethernet); no zoom option while playing video (only 3D options); artifacts with some VP9 videos, even when played from HDD; No DTS HD High Resolution HR pass-through support (uses DTS 5.1 instead)
  • MediaCenter – Selecting embedded subtitles not working in one video; 1080p24 output selected while playing on 4K24 video; No DTS HD High Resolution HR pass-through support (uses DTS 5.1 instead); DTS HD audio down-mixing not working reliably.
  • High power consumption in power off mode, especially when HDD connected (5.0 to 6.4 Watts).
  • Poor SAMBA upload performance when using WiFi
  • Lack of DRM support
  • Google Play – Apps relying on Bluetooth LE cannot be installed; apps show twice is list of apps after installation
  • 3D gaming frame rate may not be very high on some apps, due to the 1920×1080 resolution (instead of 1280×720 on some other RK3328 models)

I’d like to thank Zidoo for sending a review sample. Resellers and distributors can contact the company via Zidoo X7’s product page, and individuals will find the box for sale online for $65 and up on e-retailers such as GearBest, GeekBuying, Amazon US, or Aliexpress.

Embedded Linux Conference & Open Source Summit Europe 2017 Schedule

August 27th, 2017 3 comments

The Embedded Linux Conference & IoT summit 2017 took place in the US earlier this year in February, but there will soon be a similar event with the Embedded Linux Conference *& Open Source Summit Europe 2017 to take up in Europe on October 23 – 25 in Prague, Czech Republic, and the Linux Foundation has just published the schedule. It’s always useful to find out what is being discussed during such events, even if you are not going to attend, so I went through the different sessions, and compose my own virtual schedule with some of the ones I find the most interesting.

Monday, October 23

  • 11:15 – 11:55 – An Introduction to SPI-NOR Subsystem – Vignesh Raghavendra, Texas Instruments India

Modern day embedded systems have dedicated SPI controllers to support NOR flashes. They have many hardware level features to increase the ease and efficiency of accessing SPI NOR flashes and also support different SPI bus widths and speeds.

In order to support such advanced SPI NOR controllers, SPI-NOR framework was introduced under Memory Technology Devices (MTD). This presentation aims at providing an overview of SPI-NOR framework, different types of NOR flashes supported (like SPI/QSPI/OSPI) and interaction with SPI framework. It also provides an overview of how to write a new controller driver or add support for a new flash device.

The presentation then covers generic improvements done and proposed while working on improving QSPI performance on a TI SoC, challenges associated when using DMA with these controllers and other limitations of the framework.

  • 12:05 – 12:45 – Free and Open Source Software Tools for Making Open Source Hardware – Leon Anavi, Konsulko Group

The open source hardware movement is becoming more and more popular. But is it worth making open source hardware if it has been designed with expensive proprietary software? In this presentation, Leon Anavi will share his experience how to use free and open source software for making high-quality entirely open source devices: from the designing the PCB with KiCAD through making a case with OpenSCAD or FreeCAD to slicing with Cura and 3D printing. The talk will also provide information about open source hardware licenses, getting started guidelines, tips for avoiding common pitfalls and mistakes. The challenges of prototyping and low-volume manufacturing with both SMT and THT will be also discussed.

  • 14:20 – 15:00 – Introduction to SoC+FPGA – Marek Vašut, DENX Software Engineering GmbH

In this talk, Marek introduces the increasingly popular single-chip SoC+FPGA solutions. At the beginning, the diverse chip offerings from multiple vendors are introduced, ranging from the smallest IoT-grade solutions all the way to large industrial-level chips with focus on their software support. Mainline U-Boot and Linux support for such chips is quite complete, and already deployed in production. Marek demonstrates how to load and operate the FPGA part in both U-Boot and Linux, which recently gained FPGA manager support. Yet to fully leverage the potential of the FPGA manager in combination with Device Tree (DT) Overlays, patches are still needed. Marek explains how the FPGA manager and the DT Overlays work, how they fit together and how to use them to obtain a great experience on SoC+FPGA, while pointing out various pitfalls.

  • 15:10 – 15:50 – Cheap Complex Cameras – Pavel Machek, DENX Software Engineering GmbH

Cameras in phones are different from webcams: their main purpose is to take high-resolution still pictures. Running preview in high resolution is not feasible, so resolution switch is needed just before taking final picture. There are currently no applications for still photography that work with mainline kernel. (Pavel is working on… two, but both have some limitations). libv4l2 is doing internal processing in 8-bit, which is not enough for digital photography. Cell phones have 10 to 12-bit sensors, some DSLRs do 14-bit depth.

Differences do not end here. Cell phone camera can produce reasonable picture, but it needs complex software support. Auto-exposure / auto-gain is a must for producing anything but completely black or completely white frames. Users expect auto-focus, and it is necessary for reasonable pictures in macro range, requiring real-time processing.

  • 16:20 – 17:00 – Bluetooth Mesh with Zephyr OS and Linux – Johan Hedberg, Open Source Technology Center, Intel

Bluetooth Mesh is a new standard that opens a whole new wave of low-power wireless use cases. It extends the range of communication from a single peer-to-peer connection to a true mesh topology covering large areas, such as an entire building. This paves the way for both home and industrial automation applications. Typical home scenarios include things like controlling the lights in your apartment or adjusting the thermostat. Although Bluetooth 5 was released end of last year, Bluetooth Mesh can be implemented on any device supporting Bluetooth 4.0 or later. This means that we’ll likely see very rapid market adoption of the feature.

The presentation will give an introduction to Bluetooth Mesh, covering how it works and what kind of features it provides. The talk will also give an overview of Bluetooth Mesh support in Zephyr OS and Linux and how to create wireless solutions with them.

  • 17:10 – 17:50 – printk() – The Most Useful Tool is Now Showing its Age – Steven Rostedt, VMware

printk() has been the tool for debugging the Linux kernel and for being the display mechanism for Linux as long as Linux has been around. It’s the first thing one sees as the life of the kernel begins, from the kernel banner and the last message at shutdown. It’s critical as people take pictures of a kernel oops to send to the kernel developers to fix a bug, or to display on social media when that oops happens on the monitor on the back of an airplane seat in front of you.

But printk() is not a trivial utility. It serves many functionalities and some of them can be conflicting. Today with Linux running on machines with hundreds of CPUs, printk() can actually be the cause of live locks. This talk will discuss all the issues that printk() has today, and some of the possible solutions that may be discussed at Kernel Summit.

  • 18:00 – 18:45 – BoF: Embedded Linux Size – Michael Opdenacker, Free Electrons

This “Birds of a Feather” session will start by a quick update on available resources and recent efforts to reduce the size of the Linux kernel and the filesystem it uses.

An ARM based system running the mainline kernel with about 3 MB of RAM will also be demonstrated. If you are interested in the size topic, please join this BoF and share your experience, the resources you have found and your ideas for further size reduction techniques!

Tuesday, October 24

  • 10:55 – 11:35 – Introducing the “Lab in a Box” Concept – Patrick Titiano & Kevin Hilman, BayLibre

Continuous Integration (CI) has been a hot topic for long time. With the growing number of architectures and boards, it becomes impossible for maintainers to validate a patch on all configurations, making it harder and harder to keep the same quality level without leveraging CI and test automation. Recent initiatives like LAVA, KernelCI.org, Fuego, (…) started providing a first answer, however the learning curve remains high, and the HW setup part is not covered.

Baylibre, already involved in KernelCI.org, decided, as part of the AGL project, to go one step further in CI automation and has developed a turnkey solution for developers and companies willing to instantiate a LAVA lab; called “Lab in a Box”, it aims at simplifying the configuration of a board farm (HW, SW).

Motivations, challenges, benefits and results will be discussed, with a demo of a first “Lab in a Box” instantiation.

  • 11:45 – 12:25 – Protecting Your System from the Scum of the Universe – Gilad Ben-Yossef, Arm Holdings

Linux based systems have a plethora of security related mechanisms: DM-Crypt, DM-Verity, Secure Boot, the new TEE sub-system, FScrypt and IMA are just a few examples. This talk will describe these the various systems and provide a practical walk through of how to mix and match these mechanisms and design them into a Linux based embedded system in order to strengthen the system resilience to various nefarious attacks, whether the system discussed is a mobile phone, a tablet, a network attached DVR, a router, or an IOT hub in a way that makes maximum use of the sometime limited hardware resources of such systems.

  • 14:05 – 14:45 – Open Source Neuroimaging: Developing a State-of-the-Art Brain Scanner with Linux and FPGAs – Danny Abukalam, Codethink

Neuroimaging is an established medical field which is helping us to learn more about how the human brain works, the most complex human organ. This talk aims to cover neuroimaging systems, from hobbyist to professional, and how open source has been used to build state-of-the-art systems. We’ll have a look the general problem area, why open source was a good fit, and some examples of solutions including a commercial effort that we have been involved in bringing to market. Typically these solutions consist of specialist hardware, a bespoke software solutions stack, and a suite to manage and process the vast amounts of data generated during the scan. Other points of interest include how we approached building a maintainable and upgradeable system from the outset. We’ll also talk about future plans for neuroimaging, future ideas for hardware & discuss areas lacking good open source solutions.

  • 14:55 – 15:35 – More Robust I2C Designs with a New Fault-Injection Driver – Wolfram Sang, Renesas

It has its challenges to write code for certain error paths for I2C bus drivers because these errors usually don’t happen on the bus. And special I2C bus testers are expensive. In this talk, a new GPIO based driver will be presented which acts on the same bus as the bus master driver under inspection. A live demonstration will be given as well as hints how to handle bugs which might have been found. The scope and limitations of this driver will be discussed. Since it will also be analyzed what actually happens on the wires, this talk also serves as a case study how to snoop busses with only Free Software and OpenHardware (i.e. sigrok).

  • 16:05 – 16:45 – GStreamer for Tiny Devices – Olivier Crête, Collabora

GStreamer is a complete Open Source multimedia framework, and it includes hundreds of plugins, including modern formats like DASH, HLS or the first ever RTSP 2.0 implementation. The whole framework is almost 150MB on my computer, but what if you only have 5 megs of flash available? Is it a viable choice? Yes it is, and I will show you how.

Starting with simple tricks like only including the necessary plugins, all the way to statically compiling only the functions that are actually used to produce the smaller possible footprint.

  • 16:55 – 17:35 – Maintaining a Linux Kernel for 13 Years? You Must be Kidding Me. We Need at Least 30? – Agustin Benito Bethencourt, Codethink Ltd

Industrial grade solutions have a life expectancy of 30+ years. Maintaining a Linux kernel for such a long time in the open has not been done. Many claim that is not sustainable, but corporations that build power plants, railway systems, etc. are willing to tackle this challenge. This talk will describe the work done so far on the kernel maintenance and testing front at the CIP initiative.

During the talk it will be explained how we decide which parts of the kernel to cover – reducing the amount of work to be done and the risk of being unable to maintain the claimed support. The process of reviewing and backporting fixes that might be needed on an older branch will be briefly described. CIP is taking a different approach from many other projects when it comes to testing the kernel. The talk will go over it as well as the coming steps. and the future steps.

Wednesday, October 24

  • 11:05 – 11:45 – HDMI 4k Video: Lessons Learned – Hans Verkuil, Cisco Systems Norway

So you want to support HDMI 4k (3840×2160) video output and/or video capture for your new product? Then this is the presentation for you! I will describe the challenges involved in 4k video from the hardware level, the HDMI protocol level and up to the kernel driver level. Special attention will be given to what to watch out for when buying 4k capable equipment and accessories such as cables and adapters since it is a Wild, Wild West out there.

  • 11:55 – 12:35 – Linux Powered Autonomous Arctic Buoys – Satish Chetty, Hera Systems 

In my talk/presentation, I cover the technical, and design challenges in developing an autonomous Linux powered Arctic buoy. This system is a low cost, COTS based, extreme/harsh environment, autonomous sensor data gathering platform. It measures albedo, weather, water temperature and other parameters. It runs on a custom embedded Linux and is optimized for efficient use of solar & battery power. It uses a variety of low cost, high accuracy/precision sensors and satellite/terrestrial wireless communications.

I talk about using Linux in this embedded environment, and how I address and solve various issues including building a custom kernel, Linux drivers, frame grabbing issues and results from cameras, limited power challenges, clock drifts due to low temperature, summer melt challenges, failure of sensors, intermittent communication issues and various other h/w & s/w challenges.

  • 14:15 – 14:55 – Linux Storage System Bottleneck for eMMC/UFS – Bean Huo & Zoltan Szubbocsev, Micron

The storage device is considered a bottleneck to the system I/O performance. This thinking drives the need for faster storage device interfaces. Commonly used flash based storage interfaces support high throughputs, eg. eMMC 400MB/s, UFS 1GB/s. Traditionally, advanced embedded systems were focusing on CPU and memory speeds and these outpaced advances in storage speed improvements. In this presentation, we explore the parameters that impact I/O performance. We describe at a high level how Linux manages I/O requests coming from user space. Specifically, we look into system performance limitations in the Linux eMMC/UFS subsystem and expose bottlenecks caused by the software through Ftrace. We show existing challenges in getting maximum performance of flash-based high-speed storage device. by this presentation, we want to motivate future optimization work on the existing storage stack.

  • 15:05 – 15:45 – New GPIO Interface for User Space – Bartosz Golaszewski

Since Linux 4.8 the GPIO sysfs interface is deprecated. Due to its many drawbacks and bad design decisions a new user space interface has been implemented in the form of the GPIO character device which is now the preferred method of interaction with GPIOs which can’t otherwise be serviced by a kernel driver. The character device brings in many new interesting features such as: polling for line events, finding GPIO chips and lines by name, changing & reading the values of multiple lines with a single ioctl (one context switch) and many more. In this presentation, Bartosz will showcase the new features of the GPIO UAPI, discuss the current state of libgpiod (user space tools for using the character device) and tell you why it’s beneficial to switch to the new interface.

  • 16:15 – 16:55 – Replace Your Exploit-Ridden Firmware with Linux – Ronald Minnich, Google

With the WikiLeaks release of the vault7 material, the security of the UEFI (Unified Extensible Firmware Interface) firmware used in most PCs and laptops is once again a concern. UEFI is a proprietary and closed-source operating system, with a codebase almost as large as the Linux kernel, that runs when the system is powered on and continues to run after it boots the OS (hence its designation as a “Ring -2 hypervisor”). It is a great place to hide exploits since it never stops running, and these exploits are undetectable by kernels and programs.

Our answer to this is NERF (Non-Extensible Reduced Firmware), an open source software system developed at Google to replace almost all of UEFI firmware with a tiny Linux kernel and initramfs. The initramfs file system contains an init and command line utilities from the u-root project, which are written in the Go language.

  • 17:05 – 17:45 – Unikernelized Real Time Linux & IoT – Tiejun Chen, Vmware

Unikernel is a novel software technology that links an application with OS in the form of a library and packages them into a specialized image that facilitates direct deployment on a hypervisor. But why these existing unikernels have yet to gain large popularity broadly? I’ll talk what challenges Unikernels are facing, and discuss exploration of if-how we could convert Linux as Unikernel, and IoT could be a valuable one of use cases because the feature of smaller size & footprint are good for those resource-strained IoT platforms. Those existing unikernels are not designed to address those IoT characters like power consumption and real time requirement, and they also doesn’t support versatile architectures. Most existing Unikernels just focus on X86/ARM. As a paravirtualized unikenelized Linux, especially Unikernelized Real Time Linux, really makes Unikernels to succeed.


If you’d like to attend the real thing, you’ll need to register and pay a registration fee:

  • Early Registration Fee: US$800 (through August 27, 2017)
  • Standard Registration Fee: US$950 (August 28, 2017 – September 17, 2017)
  • Late Registration Fee: US$1100 (September 18, 2017 – Event)
  • Academic Registration Fee: US$200 (Student/Faculty attendees will be required to show a valid student/faculty ID at registration.)
  • Hobbyist Registration Fee: US$200 (only if you are paying for yourself to attend this event and are currently active in the community)

There’s also another option with the Hall Pass Registration ($150) if you just want to network on visit with sponsors onsite, but do not plan to attend any sessions or keynotes.