Post by odroid » Tue Feb 06, 2018 1:37 pm



Edit:

N1 sub-forum has been created. : viewforum.php?f=148

Blue

Red

Blue

Red

Introduced in 2014, the Samsung Exynos5422 used for the XU4 is still very competitive against other single board computers.We currently plan to keep producing the XU4, HC1, MC1 and HC2 with continuous Kernel update for a few more years.Many forum members are inquiring about a new ODROID board, and the time to talk about the next ODROID has arrived.The major features requested are:- Faster CPU- More DRAM memory- Faster GPU- Faster storage IO- More Linux friendlyWe have internally evaluated the S912, RTD1295, and RK3399 in 2017.Only the RK3399 meets the requirements from our community and will be used as the basis of a new ODROID.We call it. The “N” stands for Next.ODROID-N1 key features:- Rockchip AArch64 RK3399 Hexa-core processor- Dual-core ARM Cortex-A72 2Ghz processor and Quad-core ARM Cortex-A53 1.5Ghz processor, big-LITTLE architecture- Mali-T860MP4 GPU, support OpenGL ES1.1/2.0/3.0, OpenCL 1.2- 4Gbyte DDR3-1866 RAM, Dual channel interface for 64bit data bus width- 2 x SATA3 port, native SATA implementation via PCIe-gen2 to SATA3 interface- eMMC 5.0 (HS400) Flash storage and a UHS capable micro-SD slot.- 2 x USB 3.0 host port- 2 x USB 2.0 host port.- Gigabit Ethernet port- HDMI 2.0 for 4K display- 40-Pin GPIO port- OS: Ubuntu 18.04 or Debian Stretch with Kernel 4.4 LTS, Android 7.1- Size: 90 x 90 x 20 mm approx. (excluding cooler)- Power: 12V/2A input (Attaching two 3.5inch HDD requires a 12V/4A PSU)- Price: US$110 (To be adjusted based on DRAM market price changes)- Mass production schedule: TBDIn the next several days, we will send 30 pre-selected members of our community a free N1 engineering sample board to test. We call it a “Debug Party”.We hope that mass production will begin in May or June if the “Debug Party” is successful.However, if the N1 board is not affordable, or there are too many unresolved issues then mass production will be delayed.If there is enough demand, we can consider an ODROID-N1-Lite model. It will have 2GByte RAM and omit the SATA ports at a $75 price point.We have run a few basic benchmark tests on N1 with Ubuntu 18.04 nightly build.All coresWhen we ran UnixBench with all the CPU cores in parallel. The performance was not significantly different from XU4.If your application software uses all the cores in parallel, the performance difference between XU4 and N1 will likely be minimal.64bit DRAM bus is implemented with fully independent two 32bit bus channels. Therefore, the DRAM bandwidth is very high.Single, Big CoreThe single core Nbench and memory-bandwidth benchmark show a larger difference in the ODROID-N1 performance.Due to significant improvements in the newer ARM architecture, the N1’s Cortex-A72 CPUs are much faster than the XU4’s Cortex-A15 CPUs.When we ran the same benchmarks with only one big-core, we see this in the results. Therefore, we can say A72 is 20~30% faster than A15.Single, Little CoreThe FPU performance in A53 is much better than A7, as expected.There will be two different N1 models. One will have an active heatsink while the other will have a passive heatsink like the previous ODROID-XU4 and ODROID-XU4Q.We ran some thermal tests with the following conditions:Big Cluster - Cortex-A72, 1.992Ghz 2cores (Performance governor)Little Cluster - Cortex-A53, 1.512Ghz 4cores (Performance governor)Fan - ODROID-XU4 FanHeatsink - ODROID-XU4Q HeatsinkDefault test time – over 30 minTest Case 1: Stress test with a passive cooler- Big cluster frequency : 2Ghz clock downs to 1.8Ghz or 1.6Ghz from time to time due to the thermal throttling– Temperature (maximum : 81.6 °C, minimum : 47.5 °C, Average : 74.5 °C)Test Case 2: Stress test with an active cooler fan- Big cluster frequency: 2Ghz stock frequency doesn’t change.– Temperature ( maximum : 55.5 °C, minimum: 43.3 °C, Average: 53.6 °C)If you want to keep running your heavy software continuously, consider using an active cooling fan.Otherwise, a passive heatsink should be enough for many use cases.The N1’s GPU is 1.5~1.8 times faster than XU4’s.XU4 has six shader units while N1 has four, but the N1’s Mali-T860 has a much more advanced architecture than XU4’s Mali-T628.We ran the Android Antutu 3D GPU benchmark on XU4 and N1 with the same 1080p resolution for the comparison.There are two native SATA3 ports on the N1 board. The SATA3 interface is implemented using 1 x PCIe link in the RK3399.Two SATA3 storage devices can connect to the N1 board via standard SATA data and power cables. The PCIe host can be configured in Gen1or Gen2 mode.When we ran the IOZONE test with a SSD, we could get around 380MB/sec with Gen2 mode even though we expected more than 450MB/sec.We suspect that the SoC internal bus connection has a bottleneck. Further investigation is needed to find any room for improvement.Despite this, 380MB/sec is not a bad number in the ARM SBC world.As expected, the JMS578 UAS bridged SSD showed around 380MB/sec transfer speed just as on the XU4 board.With the iperf test, we achieved the expected Ethernet performance results. All the ODROID boards consistently have over 920Mbps of bidirectional transfer speed.Samba/CIFS network storage performance is also reasonably fast with a HDD/SSD on the SATA ports.We tested Linux platform support with Debian Stretch 9.3 in addition to Ubuntu 18.04 nightly build.Because Ubuntu 18.04 is still under very active development (tons of updates every day), we decided to wait until Canonical’s official release in late April before supporting it.Therefore, our “Debug Party” will use Debian instead of Ubuntu for the initial few months.LXDE based simple Debian runs quite well.Mali T860 GPU runs with r13p0 driver on X11. The “es2gears” OpenGL-ES2 test application works with ~60FPS due to VSYNC.1080p video playback on Youtube in Chromium Browser is also accelerated with well-implemented VDPAU and V4L2 video codec drivers and libraries.It gives us a PC-like desktop experience.VPU acceleration on Gstreamer and VLC seems to be a high possibility too.WebGL GPU acceleration on Chromium Browser is also working reasonably well.We’ve ported and tested Kernel 4.14 as well as 4.4. The latest Kernel 4.14 works fine except for some VPU/GPU driver glitches.Due to this, we may keep using Kernel 4.4 until Rockchip releases a stable 4.14 BSP. Kernel 4.4 LTS will be maintained until Feb, 2022 by Greg Kroah-Hartman.“Debug Party”The engineering sample gift box will contain the following items:- N1 board (4GB RAM + SATA + Active Cooler)- 16GB Orange eMMC with pre-installed Debian image.- 12V/2A PSU with proper AC power cable for your region.- SATA power cable- Laser cut acrylic case for evaluation. (We will design an official case based on community member’s feedback later)Known issues in the engineering sample PCB:- Because the SATA power connector has no 12Volt rail and only 2.5” SSD/HDD storage devices can be used. The 12V rail will be added to the mass production version PCB for 3.5” HDD support.- The UART port on the 40pin GPIO header doesn’t work due to a missing power line in the level-shifter circuit. We will solder a wire on the PCB to solve this issue which will be corrected on the mass production version.- A 128Mbit(16MB) SPI flash memory chip will be added if our SPI boot implementation is successful.- Other unidentified issues likely exist.We may start to ship the engineering samples early next week and there will be a sub-forum for N1 Debug Party.The list of community members will be available this Friday.