DIGITS DevBox

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Documentation

Hardware

We mostly followed the original hardware spec from NVIDIA, updating the capacity of the drives and other minor things, as we had many of these parts available as salvage from other boxes. Though we had to buy the ASUS X99-E WS motherboard (as well as some new drives) just for this project.

We opted to use a Xeon e5-2620v3 processor, rather than the Core i7-5930K (which we did have available). Both support 40 channels and mount in the LGA 2011-v3 socket, and both have 6 cores, 15mb caches etc. The i7 has a faster clock speed but the Xeon takes registered (buffered), ECC DDR4 RDIMMs, which means we can put 256Gb on the board, rather than just 64Gb. For the GPUs we have a TITAN RTX and an older TITAN Xp available to start, and we can add a 1080Ti later, or buy some additional GPUs if needed. We also put the whole thing in a Rosewill RSV-L4000 case.

Quantity Part
1 ASUS X99-E WS/USB 3.1 LGA 2011-v3 Intel X99 SATA 6Gb/s USB 3.1 USB 3.0 CEB Intel Motherboard
1 Intel Haswell Xeon e5-2620v3, 6 core @ 2.4ghz, 6x256k level 1 cache, 15mb level 2 cache, socket LGA 2011-v3
8 Crucial DDR4 RDIMM, 2133Mhz , Registered (buffered) and ECC, 32GB
1 NVIDIA TITAN RTX DirectX 12 900-1G150-2500-000 SB 24GB 384-Bit GDDR6 HDCP Ready Video Card
1 NVIDIA TITAN Xp Graphics Card (900-1G611-2530-000)
1 SAMSUNG 970 EVO PLUS 500GB Internal Solid State Drive (SSD) MZ-V7S500B/AM
1 Samsung 850 EVO 500GB 2.5-Inch SATA III Internal SSD (MZ-75E500/EU)
3 WD Red 4TB NAS Hard Disk Drive - 5400 RPM Class SATA 6Gb/s 64MB Cache 3.5 Inch - WD40EFRX
1 DVDRW: Asus 24x DVD-RW Serial-ATA Internal OEM Optical Drive DRW-24B1ST
1 EVGA SuperNOVA 1600 T2 220-T2-1600-X1 80+ TITANIUM 1600W Fully Modular EVGA ECO Mode Power Supply
1 Rosewill RSV-L4000 - 4U Rackmount Server Case / Chassis - 8 Internal Bays, 7 Cooling Fans Included
1 Rosewill RSV-SATA-Cage-34 - Hard Disk Drives - Black, 3 x 5.25" to 4 x 3.5" Hot-Swap - SATA III / SAS - Cage
1 Rosewill RDRD-11003 2.5" SSD / HDD Mounting Kit for 3.5" Drive Bay w/ 60mm Fan
3 Corsair ML120 PRO LED CO-9050043-WW 120mm Blue LED 120mm Premium Magnetic Levitation PWM Fan
2 ARCTIC F8 PWM Fluid Dynamic Bearing Case Fan, 80mm PWM Speed Control, 31 CFM at 22dBA

Old notes on a prior look at a GPU Build are on the wiki too.

There weren't any particularly noteworthy things about the hardware build. The GPUs need to go in slots 1 and 3, which means they sit tight on each other. I put the Titan XP in slot 1 (and plugged the monitor into its HDMI port), because then the fans for the Titan RTX (which I expect will get heavier use) are in the clear.

The initial BIOS boot was weird - the machine ran at full power for a short period then powered off multiple times before finally giving a single system beep and loading the BIOS. It may have been memory checking or some such.

BIOS

The machine boots to BIOS. I made the following changes:

  • The GPUs are being recognized - see the tool section!
  • All of the SATA drives are being recognized
  • Set the three hard disks to hotswapable enable
  • Set the fans to PWM, which drastically cuts down the noise, and set the lower thresholds to 200 (not that it seemed to matter, they seem to be idling at around 1k)
  • Listed the OS as OS rather than windows, and set enhanced mode to disabled
  • Delete the PK to disable secure boot
  • Change the boot order to be CD first (not as UEFI, and then the Samsung 850)


Notes:

  • We will do RAID 5 array in software, rather using X99 through the BIOS
  • The m.2 drive is visible in the BIOS and will be used as a cache for the RAID 5 array (using bcache)

Software

Main OS Install

Install Ubuntu 18.04 (note that the original DiGIT DevBox ran 14.04), not the live version, from a freshly burnt DVD. If you install the HWE version, you don't need to run apt-get install --install-recommends linux-generic-hwe-18.04 at the end.

In the installer

Choose the first network hardware option and make sure that the second (right most) network port is connected to a DHCP broadcasting router.

Under partitions:

  1. Put one large partition, formatted as ext4, mounted as /, bootable on the 850
  2. Partition each SATA drive as RAID
  3. Put one large partition, formatted as ext4, not mounted on the 970 (for later)
  4. Put software RAID5 over the 3 SATA drives, format the RAID as ext4 and mount as /bulk

Install SSH and Samba. When prompted, add the MBR to the front of the 850.

First boot

After a reboot, the screen freezes if you didn't install HWE. Either change the bootloader, adding nomodeset (see https://www.pugetsystems.com/labs/hpc/The-Best-Way-To-Install-Ubuntu-18-04-with-NVIDIA-Drivers-and-any-Desktop-Flavor-1178/#step-4-potential-problem-number-1), or just SSH onto the box and fix that now.

Run as root:

apt-get update
apt-get dist-upgrade
apt-get install --install-recommends linux-generic-hwe-18.04 

Check the release:

lsb_release -a

Give the box a reboot!

Video Drivers

Hardware check

Check that the hardware is being seen:

lspci -vk

05:00.0 VGA compatible controller: NVIDIA Corporation GP102 [TITAN Xp] (rev a1)              (prog-if 00 [VGA controller])
       Subsystem: NVIDIA Corporation GP102 [TITAN Xp]
       Flags: bus master, fast devsel, latency 0, IRQ 78, NUMA node 0
       Memory at fa000000 (32-bit, non-prefetchable) [size=16M]
       Memory at c0000000 (64-bit, prefetchable) [size=256M]
       Memory at d0000000 (64-bit, prefetchable) [size=32M]
       I/O ports at d000 [size=128]
       Expansion ROM at 000c0000 [disabled] [size=128K]
       Capabilities: [60] Power Management version 3
       Capabilities: [68] MSI: Enable+ Count=1/1 Maskable- 64bit+
       Capabilities: [78] Express Legacy Endpoint, MSI 00
       Capabilities: [100] Virtual Channel
       Capabilities: [250] Latency Tolerance Reporting
       Capabilities: [128] Power Budgeting <?>
       Capabilities: [420] Advanced Error Reporting
       Capabilities: [600] Vendor Specific Information: ID=0001 Rev=1 Len=024
       Capabilities: [900] #19
       Kernel driver in use: nouveau
       Kernel modules: nvidiafb, nouveau
 
06:00.0 VGA compatible controller: NVIDIA Corporation Device 1e02 (rev a1) (prog             -if 00 [VGA controller])
       Subsystem: NVIDIA Corporation Device 12a3
       Flags: fast devsel, IRQ 24, NUMA node 0
       Memory at f8000000 (32-bit, non-prefetchable) [size=16M]
       Memory at a0000000 (64-bit, prefetchable) [size=256M]
       Memory at b0000000 (64-bit, prefetchable) [size=32M]
       I/O ports at c000 [size=128]
       Expansion ROM at f9000000 [disabled] [size=512K]
       Capabilities: [60] Power Management version 3
       Capabilities: [68] MSI: Enable- Count=1/1 Maskable- 64bit+
       Capabilities: [78] Express Legacy Endpoint, MSI 00
       Capabilities: [100] Virtual Channel
       Capabilities: [250] Latency Tolerance Reporting
       Capabilities: [258] L1 PM Substates
       Capabilities: [128] Power Budgeting <?>
       Capabilities: [420] Advanced Error Reporting
       Capabilities: [600] Vendor Specific Information: ID=0001 Rev=1 Len=024
       Capabilities: [900] #19
       Capabilities: [bb0] #15
       Kernel modules: nvidiafb, nouveau

This looks good. The second card is the Titan RTX (see https://devicehunt.com/view/type/pci/vendor/10DE/device/1E02).

Currently we are using the nouveau driver for the Xp, and have no driver loaded for the RTX.

You can also list the driver using ubuntu-drivers, which is supposed to tell you which NVIDIA driver is recommended:

apt-get install ubuntu-drivers-common
ubuntu-drivers devices
 == /sys/devices/pci0000:00/0000:00:03.0/0000:03:00.0/0000:04:10.0/0000:05:00.0 ==
 modalias : pci:v000010DEd00001B02sv000010DEsd000011DFbc03sc00i00
 vendor   : NVIDIA Corporation
 model    : GP102 [TITAN Xp]
 driver   : nvidia-driver-390 - distro non-free recommended
 driver   : xserver-xorg-video-nouveau - distro free builtin

But the 390 is the only driver available from the main repo. Add the experimental repo for more options:

add-apt-repository ppa:graphics-drivers/ppa
apt update
ubuntu-drivers devices
 == /sys/devices/pci0000:00/0000:00:03.0/0000:03:00.0/0000:04:10.0/0000:05:00.0 ==
 modalias : pci:v000010DEd00001B02sv000010DEsd000011DFbc03sc00i00
 vendor   : NVIDIA Corporation
 model    : GP102 [TITAN Xp]
 driver   : nvidia-driver-418 - third-party free
 driver   : nvidia-driver-415 - third-party free
 driver   : nvidia-driver-430 - third-party free recommended
 driver   : nvidia-driver-396 - third-party free
 driver   : nvidia-driver-390 - distro non-free
 driver   : nvidia-driver-410 - third-party free
 driver   : xserver-xorg-video-nouveau - distro free builtin

You could install the driver directly now using, say, apt install nvidia-430. But don't!

CUDA

Get CUDA 10.1 and have it install its preferred driver (418.67):

Essentially, first install build-essential, which gets you gcc. Then blacklist the nouveau driver (see https://docs.nvidia.com/cuda/cuda-installation-guide-linux/index.html#runfile-nouveau) and reboot (to a text terminal, if you have deviated from these instructions and already installed X Windows) so that it isn't loaded.

apt-get install build-essential
gcc --version
wget https://developer.nvidia.com/compute/cuda/10.1/Prod/local_installers/cuda_10.1.168_418.67_linux.run
vi /etc/modprobe.d/blacklist-nouveau.conf
 blacklist nouveau
 options nouveau modeset=0
update-initramfs -u
shutdown -r now
lspci -vk
 Shows no kernel driver in use!

Then run the installer script.

sh cuda_10.1.168_418.67_linux.run

===========
= Summary =
===========

Driver:   Installed
Toolkit:  Installed in /usr/local/cuda-10.1/
Samples:  Installed in /home/ed/, but missing recommended libraries

Please make sure that
 -   PATH includes /usr/local/cuda-10.1/bin
 -   LD_LIBRARY_PATH includes /usr/local/cuda-10.1/lib64, or, add /usr/local/cuda-10.1/lib64 to /etc/ld.so.conf and run ldconfig as root

To uninstall the CUDA Toolkit, run cuda-uninstaller in /usr/local/cuda-10.1/bin
To uninstall the NVIDIA Driver, run nvidia-uninstall

Please see CUDA_Installation_Guide_Linux.pdf in /usr/local/cuda-10.1/doc/pdf for detailed information on setting up CUDA.
Logfile is /var/log/cuda-installer.log

Fix the paths:

export PATH=/usr/local/cuda-10.1/bin:/usr/local/cuda-10.1/NsightCompute-2019.1${PATH:+:${PATH}}
export LD_LIBRARY_PATH=/usr/local/cuda-10.1/lib64${LD_LIBRARY_PATH:+:${LD_LIBRARY_PATH}}

Start the persistence daemon:

/usr/bin/nvidia-persistenced --verbose

This should be run at boot, so:

vi /etc/rc.local
 #!/bin/sh -e
 /usr/bin/nvidia-persistenced --verbose
 exit 0
chmod +x /etc/rc.local

Verify the driver:

cat /proc/driver/nvidia/version

Test the installation

Make the samples in:

cd /usr/local/cuda-10.1/samples
make

Change into the sample directory and run the tests:

cd /usr/local/cuda-10.1/samples/bin/x86_64/linux/release
./deviceQuery
./bandwidthTest 

And yes, it's a thing of beauty!

X Windows

Now install the X window system. The easiest way is:

tasksel
 And choose your favorite. We used Ubuntu Desktop.

And reboot again to make sure that everything is working nicely.

Bcache

Dev Tools

DIGITS

This section follows https://developer.nvidia.com/rdp/digits-download. Install Docker CE first, following https://docs.docker.com/install/linux/docker-ce/ubuntu/

Then follow https://github.com/NVIDIA/nvidia-docker#quick-start to install docker2, but change the last command to use cuda 10.1

...
sudo apt-get install -y nvidia-docker2
sudo pkill -SIGHUP dockerd
# Test nvidia-smi with the latest official CUDA image
docker run --runtime=nvidia --rm nvidia/cuda:10.1-base nvidia-smi

Then pull DIGITS using docker (https://hub.docker.com/r/nvidia/digits/):

docker pull nvidia/digits

Finally run DIGITS inside a docker container (see https://github.com/NVIDIA/nvidia-docker/wiki/DIGITS for other options):

docker run --runtime=nvidia --name digits -d -p 5000:5000 nvidia/digits

And open a browser to http://localhost:5000/ to see DIGITS Documentation:

cuDNN

Documentation:

Python Based

  • Anaconda
    • Tensorflow
  • Theano
  • Torch

Other packages

The following are not yet installed:

Samba

Configure the Samba Server Create researcher account