HPC/Applications/lumerical: Difference between revisions

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'''Note:''' FDTD does ''not'' support checkpointing (thanks to Julian S. for checking). Select your <code>#PBS -l walltime</code> parameter generously.
'''Note:''' FDTD does ''not'' support checkpointing (thanks to Julian S. for checking). Select your <code>#PBS -l walltime</code> parameter generously.
=== Memory issues ===
; Problem:
The final stage of FDTD, the Data Collection stage, may severely increase the memory requirements of the MPI master process.
For example, while each MPI process during the calculation ("cruising") stage may be happy with 2-4 GB, in the collection stage, the master process may require 10 times as much.
At 48 GB/node, this may cause the node to go into swap, which will be tolerated for only a few minutes.
If the collection cannot finish, the following error will occur:
* standard output stream:
0% complete. Max time remaining: 16 mins, 4 secs. Auto Shutoff: 1
1% complete. Max time remaining: 15 mins, 4 secs. Auto Shutoff: 1
98% complete. Max time remaining: 20 secs. Auto Shutoff: 6.21184e-05
99% complete. Max time remaining: 9 secs. Auto Shutoff: 5.5162e-05
100% complete. Max time remaining: 0 secs. Auto Shutoff: 4.51006e-05
* standard error stream:
'''=>> PBS: job killed: swap rate due to memory oversubscription is too high'''
mpirun: abort is already in progress...hit ctrl-c again to forcibly terminate
mpirun: killing job...
;Workarounds:
* Try to collect less data.
<blockquote>
For example, all field monitors allow you to choose which E/H/P fields to collect.  If you only care about power transmission through a monitor, you can disable all the E/H/P fields and just collect the 'net power'. You can also control the number of frequency points, and you can enable spatial downsampling, and obviously just make the monitors smaller. 
</blockquote>
* Have the master process run on a node of its own. This will trade compute capacity away for memory. '''Caveat:''' Try to keep the total number of cores highly divisible. Example:
: Original request:
#PBS -l nodes=8:ppn=8
: Improved request:
#PBS -l '''nodes=1:ppn=1:bigmem'''+'''1:ppn=7'''+7:ppn=8
#PBS -l naccesspolicy=SINGLEJOB -n
This will request:


== Running the GUI (CAD) ==
== Running the GUI (CAD) ==

Revision as of 20:51, December 12, 2013

Introduction

Lumerical has two main components:

  • CAD: The GUI. We have licensed 2 concurrent seats.
  • FDTD: The compute engine, called either by the GUI or in a PBS job file. We have 2 + 10 concurrent seats.

Manual and Knowledge Base

http://docs.lumerical.com/en/fdtd/knowledge_base.html

Running compute jobs (FDTD)

To run a presumably parallel job, save your input file in CAD as .fsp file. Then copy and customize the following job template, entering your account and file names:

$LUMERICAL_HOME/sample.job

Note: FDTD does not support checkpointing (thanks to Julian S. for checking). Select your #PBS -l walltime parameter generously.

Memory issues

Problem

The final stage of FDTD, the Data Collection stage, may severely increase the memory requirements of the MPI master process. For example, while each MPI process during the calculation ("cruising") stage may be happy with 2-4 GB, in the collection stage, the master process may require 10 times as much. At 48 GB/node, this may cause the node to go into swap, which will be tolerated for only a few minutes. If the collection cannot finish, the following error will occur:

  • standard output stream:
0% complete. Max time remaining: 16 mins, 4 secs. Auto Shutoff: 1
1% complete. Max time remaining: 15 mins, 4 secs. Auto Shutoff: 1
…
98% complete. Max time remaining: 20 secs. Auto Shutoff: 6.21184e-05
99% complete. Max time remaining: 9 secs. Auto Shutoff: 5.5162e-05
100% complete. Max time remaining: 0 secs. Auto Shutoff: 4.51006e-05
  • standard error stream:
=>> PBS: job killed: swap rate due to memory oversubscription is too high
mpirun: abort is already in progress...hit ctrl-c again to forcibly terminate

mpirun: killing job...
Workarounds
  • Try to collect less data.

For example, all field monitors allow you to choose which E/H/P fields to collect. If you only care about power transmission through a monitor, you can disable all the E/H/P fields and just collect the 'net power'. You can also control the number of frequency points, and you can enable spatial downsampling, and obviously just make the monitors smaller.

  • Have the master process run on a node of its own. This will trade compute capacity away for memory. Caveat: Try to keep the total number of cores highly divisible. Example:
Original request:
#PBS -l nodes=8:ppn=8
Improved request:
#PBS -l nodes=1:ppn=1:bigmem+1:ppn=7+7:ppn=8
#PBS -l naccesspolicy=SINGLEJOB -n

This will request:

Running the GUI (CAD)

There are three means to access Carbon's Lumerical licenses:

  1. Run on Carbon and display on your machine over X11 forwarding
  2. Run on Carbon in a VNC virtual desktop and display that desktop on your machine.
  3. Run on your desktop directly and use license port forwarding.

X11

Use the CAD X11 app on a Carbon login node.

CAD &
  • Requires X11 forwarding under SSH.
  • Disadvantage: May run slow or unstable.

VNC

Use CAD on Carbon in a VNC virtual desktop.

  • Requires a VNC client on your side.
  • Advantage: uses compression and hence can be faster than X11.
  • Disadvantage: Limited desktop environment.

Native

Run CAD natively on your desktop, but connect to the Lumerical license server on Carbon.

  • Advantage: Native graphics speed.
  • Caveat: needs an active network connection to a Carbon login node.


Remote license access

To use #Native access, your desktop copy of Lumerical must be configured to connect to Carbon's license server.

The license mechanism has recently changed.

FlexNet Licensing

This is a mechanism [1] in use for Lumerical version 8.6 onwards. To use your Lumerical desktop version, follow these steps:

When inside CNM or using VPN – does not apply to Carbon

  1. Verify that you are inside CNM's network by browsing to http://carbon/
  2. In the Lumerical License configuration, Choose license type: FlexNet Licensing
  3. Set Server to cmgmt3 or cmgmt3.cnm.anl.gov.
HPC 2013-07-24 Lumerical FlexNet client setup inside.png

Note: This section does not apply for running CAD or FDTD on Carbon itself.

When outside CNM

  1. Close any connection to Carbon's login nodes.
  2. Configure port forwarding for your your SSH client (one-time only).
…
Host clogin
    LocalForward 27011 mgmt03:27011 
    LocalForward 27012 mgmt04:27012
    LocalForward 27013 sched1:27013
    …
  1. Log in to clogin using ssh (each time): This will activate the forwarded ports configured in the previous step.
  2. Install or upgrade Lumerical.: When asked for the license information, choose FlexNet licensing and enter host names and port numbers as shown here:
    HPC 2013-07-24 Lumerical FlexNet client setup.png
  3. Start Lumerical.: To inspect the license setting, choose About Lumerical from the application menu.

The license setting is stored on Mac and Linux platforms in ~/.config/Lumerical/FDTD\ Solutions.ini and should read:


[license]
type=flex
flexserver\host=27011@localhost:27012@localhost:27013@localhost

Legacy mechanism - Retired July 2013

This was the license mechanism [2] in use before version 8.6. No license tokens for this mechanism remain active.