Podcast #435 - Qualcomm aptX, FSP Twin 500w PSU, Micro 5100 Enteprise SSDs, AMD Fiscal Results, ASUS Tinker Board, ZeniMax

Subject: Editorial | February 2, 2017 - 10:34 AM |
Tagged: podcast, zenimax, UHD Blu-Ray, toshiba, tinker board, Reundant PSU, qualcomm, micron, Laser Networking, fsp, enterprise ssd, DirectX, delidding, asus, aptX, amd

PC Perspective Podcast #435 - 02/02/17

Join us this week as we discuss Qualcomm aptX, FSP Reundant PSUs, Micron Enterprise SSDs, 5G LTE, AMD Fiscal Year, ZeniMax lawsuit, and more!

You can subscribe to us through iTunes and you can still access it directly through the RSS page HERE.

The URL for the podcast is: http://pcper.com/podcast - Share with your friends!

Hosts: Allyn Malventano, Ken Addison, Josh Walrath, Jermey Hellstrom, Sebastian Peak

Program length: 1:46:22

Podcast topics of discussion:
  1. Week in Review:
  2. News items of interest:
  3. Hardware/Software Picks of the Week
  4. Closing/outro
 

Source:

Asus Enters Single Board Computer Market with Tinker Board

Subject: General Tech | January 29, 2017 - 12:53 AM |
Tagged: asus, tinker board, Rockchip, rk3288, cortex a17, Raspberry Pi, sbc, 4k, kodi, xbmc

Asus is jumping into the single board computer market with its 90MB0QY1-M0EAY0 Tinker Board. With a physical layout matching the latest Raspberry Pi 3, the Tinker Board offers up faster hardware including support for 4K H.264 video decode.

Asus Tinker Board.jpg

The single board PC offers up the following I/O options:

  • 4 x USB 2.0
  • 1 x Gigabit Ethernet
  • 1 x HDMI 2.0
  • 1 x Micro SD (UHS-1)
  • 1 x Micro USB (for power)
  • 1 x Audio (192 Hz / 24 bit)
  • 40 pin header (28 pin GPIO)
  • 1 x CSI (camera)
  • 1 x DSI (display)
  • PWM and S/PDIF solder points

Asus has opted to use a 32-bit ARM processor to power the device rather than the 64-bit SoC found in the Raspberry Pi 3. Specifally, Asus is using the Rockchip RK3288 which features four ARM Cortex A17 CPU cores clocked at 1.8 GHz and a Mali-T764 GPU. The SoC is paired with 2GB of LPDDR3 memory and wireless radios for 802.11n and Bluetooth 4.0.

Compared to the Raspberry Pi, the Asus Tinker Board has twice the RAM and allegedly twice the processing power with GeekBench score of 3,925 versus the Pi’s 2,092. The Mali-T764 GPU is capable of 4K H.264 (and 10-bit H.265) video decoding which makes it better than the Pi which can only do 1080p in hardware. The cores are clocked faster on the Tinker Board but obviously do not support 64-bit instructions. The increase of system memory is perhaps the biggest boon for those looking to use it for a cheap desktop or media streamer. And for those using analog audio, Asus has included its own audio solution that is, at least on paper, much better than the Pi's.

The Asus SBC reportedly uses up to 5 watts of power with an average power usage of 2.25 watts when playing back a 1080p video with a HDMI display attached.

The Tinker Board at launch is compatible with Debian OS and Kodi media playback software.
The physical layout matches that of the Pi meaning it should be compatible with cases and is potentially a drop in replacement for products powered by a Pi so long as it can supply enough power.

It is currently available from British retailer Farnell for ‎£45.83 ($56.91) or ‎£55 ($68.30) with VAT. It does not appear to be avaiable on this side of the pond quite yet but you can import it if you want to get your hands on it.

More competition in the single board PC space is a good thing, but I do wonder how successful the Asus Tinker Board will be. It is faster, but it is also nearly twice as expensive as the Pi. A lot is going to depend on how well it is received by the software and modding communities and how well Asus supports that Rockchip processor with various Linux distributions and applications at launch and over time. The Pi’s VideoCore IV GPU is closed source and getting information from Broadcom is a pain, but at least it is a known quantity at this point and the boards using it (like the Pi) have the market share and community support to get things working with it. I am also curious how well the audio solution works and whether or not the Gigabit Ethernet port can actually hit gigabit speeds.

What are your thoughts on the Asus Tinker Board?

Source: Farnell