Novena Issue Log

From Studio Kousagi Wiki
Revision as of 10:43, 24 December 2012 by Bunnie (talk | contribs) (Linux)
Jump to: navigation, search

Bringup status by subsystem

Bringup status by subsystem
Subsystem basic status extended status notes
PMIC base OK voltages nominal, but on high side for CPU (1.35V) -- need PMIC DVFS driver to dial it back
PMIC advanced needs driver for further testing
RTC backup battery
RTC (extended status should also measure clock drift)
debug console OK OK
SDHC3 (microSD boot) OK
SDHC3 power switch
DDR3 base OK functions at 1066 MT/s, 1 GB configured
DDR3 extended need to test multiple DIMM/mfg configs
I2C1 (SMB) OK can read out DDR3 I2C config using i2cdump
I2C2 OK can read out accelerometer, PMIC bits using i2cdump
I2C3 OK
reset button OK
USB hub 1 OK tested with thumb drive, needs performance testing
USB hub 2 OK ditto
USB ext1 OK
USB ext1 power switch
USB ext2 OK
USB ext2 power switch
ASIX ethernet OK OK 84,085,191 bytes in 18.53s = 36 Mbps (limited by external fiber uplink speed)

note that MAC address must be generated and assigned (not fixed in hardware ROM)

Gbit ethernet OK FAIL 80+Mbps performance @ 100Mbit connection speed. 240+ Mbps performance @ 10000Mbit speed, possibly limited by test server capability or router saturation. Gbit ethernet extended status needs detailed NEXT, FEXT, jitter, etc. characterization before it can get a clean bill of health, I suspect there is more tuning to do.

note that MAC address must be generated and assigned (not fixed in hardware ROM)

SDHC4
utility EEPROM OK use 16-bit mode for access. eeprom tools need some tweaking, just wrote a couple bytes and declared success.
audio base
audio power switch
speakers
headphone
analog mic in
digital mic
USB keyboard/mouse port
USB keyboard/mouse power switch
USB high current (1.5A) charging
USB OTG
HDMI
FPGA
FPGA apoptosis option
on-board USB wifi
wifi power switch
PCI-express
PCI-express power switch
PCI-express embedded USB
USIM
USIM power switch
LCD port
LCD port USB
LCD VCC power switch
LCD backlight power switch
touchscreen
user function button
uart 3
uart 4
accelerometer OK i2cset -y 0 0x1d 0x16 0x01; i2cdump -y -r 6-8 0 0x1d . seems to accelerometate just fine.
SATA
SATA power switch
battery interface
boot option headers
JTAG
FPGA SPI memory
FPGA SPINOR memory
FPGA ADC
Rapsberry Pi peripheral header

Power consumption notes

System at idle with no PM code running and 1GB standard RAM consumes 11.3V, 0.34A (measured at input regulator cap)

Known issues

Hardware

  • Inrush current limiting for 3.3V_DELAYED turnon: R38N should be increased to about 30k. Need to verify with experiment turn-on timing margin (i.e. put smaller values in until failure to determine how much margin is available at 30k to ensure consistency across process variation)
    • SN001 has 33k -- revised to 10k to match other boards
    • SN004 has 10k (CPU did not boot at all with 47k)
    • SN003 has 10k (PMIC does not respond to commands post-boot with 47k)
    • SN002 has 10k, but has other problems preventing boot
  • Fix bug where reset button does not work due to FPGA pulling boot fuses to look at SATA instead of SD card. Resolution is to change HSWAPEN to high, which turns off FPGA pull-ups. ECO applied to all 5 boards.
  • 1Gbit PHY reset circuit (per Micrel datasheet) interferes with driver timing. The reset rises too slowly, driver checks MII status immediately and never retries dynamically (does a static read-out of MII data). Fix is to remove the local reset circuit. ECO applied to all 5 boards.
  • PCIE_PWRON signal wasn't connected. Oops! In next rev, it will go to GPIO_16, pad R1. For now, it will be hard-wired to powered on. Fix done on all 5 boards.
  • 1Gbit PHY magnetics termination is incorrect. Remove R14G to improve performance to gigabit-speeds. This was a lucky shot in the dark, however, I don't actually understand what's going on with the center-tap termination, and what the trade-offs are. The link still needs to be deeply characterized for NEXT, FEXT, etc. to verify that it is optimally terminated.

ECO list

  • R38N change to 10k, 1% 0402 (resolve inrush current limit issue)
  • R12F to DNP, R13F to 4.7k, 1% 0402 (resolve boot fuse issue with FPGA pull-ups)
  • remove C32G, D12G, R20G, D11G; short across D12G with wire jumper or 0805 resistor, 0 ohm (resolve gbit ethernet reset issue)
  • remove R11X, tie gate of Q10X to P3.3V_DELAYED (off of pin 2 of Q11X) (resolve PCIE power on issue)

Software

U-boot

  • DDR3: need to come up with alternate poke files for different SO-DIMM types
  • DDR3: need to figure out how to configure u-boot to recognize greater amounts of DRAM
  • MMC: USDHC3 has to have the CD check return 1 at all times.

Linux

  • MMC: device tree novena.dts descriptor edited to note that USDHC3 port is non-removable in order to enable boot
  • Power: Driver for power currently assumes fixed regulators, an incorrect assumption. This needs to be changed to use the PFUZE PMIC. Currently, no drivers exist in the source tree (based off of the sabrelite). Recommend using Sabre board for smart devices as the base image instead of sabrelite - todo xobs
  • USB/Power: PMIC does not turn on the USB VBUS by default, which causes internal root hub to fail. To fix this:
    • add i2c2 to device tree (added to novena.dts)
    • run this command to turn on the boost regulator:
i2cset 1 0x08 0x66 0x48
  • once USB is on, I can verify/see USB drives in both USB ports. See this:
root@novena:~# lsusb 
Bus 002 Device 002: ID 05e3:0614 Genesys Logic, Inc. 
Bus 002 Device 001: ID 1d6b:0002 Linux Foundation 2.0 root hub
Bus 002 Device 007: ID 0b95:772b ASIX Electronics Corp. 
Bus 002 Device 004: ID 05e3:0614 Genesys Logic, Inc. 
Bus 002 Device 006: ID 058f:6387 Alcor Micro Corp. Transcend JetFlash Flash Drive
Bus 001 Device 001: ID 1d6b:0002 Linux Foundation 2.0 root hub
  • ASIX driver module isn't built into current image. Need to figure out how to turn that on.
    • Configuring ASIX:
ip link set dev eth1 down
ip link set dev eth1 address de:ad:fe:ed:00:01
ip link set dev eth1 up
  • Performance results benchmarking 1000Gbit ethernet (run on SN004):
bunnie@crashbox:/var/www/bunnie$ iperf -s
------------------------------------------------------------
Server listening on TCP port 5001
TCP window size: 85.3 KByte (default)
------------------------------------------------------------
[  4] local 10.0.39.142 port 5001 connected with 10.0.39.241 port 55445
------------------------------------------------------------
Client connecting to 10.0.39.241, TCP port 5001
TCP window size: 47.0 KByte (default)
------------------------------------------------------------
[  6] local 10.0.39.142 port 38307 connected with 10.0.39.241 port 5001
[ ID] Interval       Transfer     Bandwidth
[  6]  0.0-10.0 sec   280 MBytes   234 Mbits/sec
[  4]  0.0-11.0 sec  6.01 MBytes  4.57 Mbits/sec
[  5] local 10.0.39.142 port 5001 connected with 10.0.39.241 port 55446
------------------------------------------------------------
Client connecting to 10.0.39.241, TCP port 5001
TCP window size: 47.0 KByte (default)
------------------------------------------------------------
[  6] local 10.0.39.142 port 38308 connected with 10.0.39.241 port 5001
[  6]  0.0-10.0 sec   286 MBytes   239 Mbits/sec
[  5]  0.0-10.1 sec  3.77 MBytes  3.12 Mbits/sec
[  4] local 10.0.39.142 port 5001 connected with 10.0.39.241 port 55447
------------------------------------------------------------
Client connecting to 10.0.39.241, TCP port 5001
TCP window size: 47.0 KByte (default)
------------------------------------------------------------
[  6] local 10.0.39.142 port 38309 connected with 10.0.39.241 port 5001
[  6]  0.0-10.0 sec   286 MBytes   240 Mbits/sec
[  4]  0.0-10.1 sec  3.48 MBytes  2.88 Mbits/sec
[  5] local 10.0.39.142 port 5001 connected with 10.0.39.241 port 55448

from running

root@novena:~# iperf -c 10.0.39.142 -d

three times over

Server is a Supermicro X9SCL with a Xeon E3-1230 CPU and 8GB ram, running off of an SSD using Ubuntu 12.04.1 LTS.

Both client and server are plugged into a TP-Link 5-port gigabit desktop switch, TL-SG1005D.

Not sure why the asymmetry in the result. Seems to be real, the upload speed from Novena is pretty slow.

Note that the fastest speed I've ever seen on my network is about 240 Mbps, even between "big, mature" computers. Maybe it's the $20 switches that I buy.

Poor Tx performance is board-specific, indicating a hardware issue on Tx path.

running on SN 001 gives

------------------------------------------------------------
Client connecting to 10.0.239.142, TCP port 5001
TCP window size: 20.7 KByte (default)
------------------------------------------------------------
[  5] local 10.0.239.241 port 54666 connected with 10.0.239.142 port 5001
[  4] local 10.0.239.241 port 5001 connected with 10.0.239.142 port 38386
[ ID] Interval       Transfer     Bandwidth
[  4]  0.0-10.0 sec    230 MBytes    193 Mbits/sec
[  5]  0.0-10.2 sec  55.3 MBytes  45.5 Mbits/sec

One possible culprit is the TX clock signal integrity (on the RGMII side) looks pretty bad. The Tx signal jitter is also correspondingly poor. This could be because of bad PLL stability inside the iMX6, or could be because of ground bounce, power supply unsteadiness, etc.

Note RGMII_REF_CLK also has likewise unstability. Odd. Measuring RGMII_REF_CLK causes bitrate of Tx side to drop dramatically. Seems like we have some correlation here.