8. Memory Inspector

The ParaView Memory Inspector panel provides users with a convenient way to monitor ParaView’s memory usage during interactive visualization. It also provides developers with a point-and-click interface for attaching a debugger to local or remote client and server processes. As explained earlier, both the Information panel and the Statistics Inspector are prone to over and under estimate the total memory used for the current pipeline. The Memory Inspector addresses those issues through direct queries to the operating system. A number of diagnostic statistics are gathered and reported, including the total memory used by all processes on a per-host basis, the total cumulative memory use by ParaView on a per-host basis, and the individual per-rank use by each ParaView process. When memory consumption reaches a critical level, either cumulatively on the host or in an individual rank, the corresponding GUI element will turn red, alerting you that you are in danger of potentially being shut down. This gives you a chance to save state and restart the job with more nodes to avoid losing your work. On the flip side, knowing when you’re not close to using the full capacity of available memory can be useful to conserve computational resources by running smaller jobs. Of course, the memory foot print is only one factor in determining the optimal run size.

../_images/Meminsp-pv-gui.png

Fig. 8.12 The main UI elements of the Memory Inspector panel. A: Process Groups, B: Per-Host statistics, C: Per-Rank statistics, and D: Update controls.

8.1. User interface and layout

The Memory Inspector panel displays information about the current memory usage on the client and server hosts. Fig. 8.12 shows the main UI elements labeled A-D. A number of additional features are provided via specialized context menus accessible from the Client and Server group, Host, and Rank’s UI elements. The main UI elements are:

  1. Process Groups

    1. Client : There is always a client group that reports statistics about the ParaView client.

    2. Server : When running in client-server mode, a server group reports statistics about the hosts where pvserver processes are running.

    3. Data Server : When running in client-data-render server mode, a data server group reports statistics about the hosts where pvdataserver processes are running.

    4. Render Server : When running in client-data-render server mode, a render server group reports statistics about the hosts where pvrenderserver processes are running.

  2. Per-Host Statistics : Per-host statics are reported for each host where a ParaView process is running. Hosts are organized by host name, which is shown in the first column. Two statics are reported: 1) total memory used by all processes on the host and 2) ParaView’s cumulative usage on this host. The absolute value is printed in a bar that shows the percentage of the total available memory used. On systems where job-wide resource limits are enforced, ParaView is made aware of the limits via the PV_HOST_MEMORY_LIMIT environment variable, in which case, ParaView’s cumulative percent used is computed using the smaller of the host total and the resource limit.

  3. Update Controls : By default, when the panel is visible, memory use statistics are updated automatically as pipeline objects are created, modified, or destroyed and after the scene is rendered. Updates may be triggered manually by using the refresh button. Automatic updates may be disabled by un-checking the Auto-update check box. Queries to remote systems have proven to be very fast even for fairly large jobs. Hence, the auto-update feature is enabled by default.

  4. Host Properties Dialog : The Host context menu provides the Host Properties dialog, which reports various system details such as the OS version and the CPU version, as well as the memory installed and available to the host context and process context. While the Memory Inspector panel reports memory use as a percent of the available in the given context, the Host Properties dialog reports the total memory installed and available in each context. Comparing the installed and available memory can be used to determine if you are impacted by resource limits.

../_images/PV_MemoryInspectorProperties.png

Fig. 8.13 Host properties dialog.

8.2. Advanced debugging features

8.2.1. Remote commands

../_images/Meminsp-remote-command.png

Fig. 8.14 The remote command dialog.

The Memory Inspector Panel provides a remote (or local) command feature, allowing you to execute a shell command on a given host. This feature is exposed via a specialized Rank item context menu. Because we have information such as a rank’s process id, individual processes may be targeted. For example, this allows you to quickly attach a debugger to a server process running on a remote cluster. If the target rank is not on the same host as the client, then the command is considered remote. Otherwise, it is considered local. Therefore, remote commands are executed via ssh , while local commands are not. A list of command templates is maintained. In addition to a number of pre-defined command templates, you may add templates or edit existing ones. The default templates allow you to:

  • Attach gdb to the selected process

  • Run top on the host of the selected process

  • Send a signal to the selected process

Prior to execution, the selected template is parsed, and a list of special tokens are replaced with runtime-determined or user-provide values. User-provided values can be set and modified in the dialog’s parameter group. The command, with tokens replaced, is shown for verification in the dialog’s preview pane.

The following tokens are available and may be used in command templates as needed:

  1. $TERM_EXEC$ : The terminal program that will be used to execute commands. On Unix systems, xterm is typically used. On Windows systems, cmd.exe is typically used. If the program is not in the default path, then the full path must be specified.

  2. $TERM_OPTS$ : Command line arguments for the terminal program. On Unix, these may be used to set the terminals window title, size, colors, and so on.

  3. $SSH_EXEC$ : The program to use to execute remote commands. On Unix, this is typically ssh. On Windows, one option is plink.exe. If the program is not in the default path, then the full path must be specified.

  4. $FE_URL$ : Ssh URL to use when the remote processes are on compute nodes that are not visible to the outside world. This token is used to construct command templates where two ssh hops are made to execute the command.

  5. $PV_HOST$ : The hostname where the selected process is running.

  6. $PV_PID$ : The process-id of the selected process.

Note: On Windows, the debugging tools found in Microsoft’s SDK need to be installed in addition to Visual Studio (e.g., windbg.exe). The ssh program plink.exe for Windows doesn’t parse ANSI escape codes that are used by Unix shell programs. In general, the Windows- specific templates need some polishing.

8.2.2. Stack trace signal handler

The Process Group’s context menu provides a back trace signal handler option. When enabled, a signal handler is installed that will catch signals such as SEGV, TERM, INT, and ABORT and that will print a stack trace before the process exits. Once the signal handler is enabled, you may trigger a stack trace by explicitly sending a signal. The stack trace signal handler can be used to collect information about crashes or to trigger a stack trace during deadlocks when it’s not possible to ssh into compute nodes. Sites that restrict users’ ssh access to compute nodes often provide a way to signal running processes from the login node. Note that this feature is only available on systems that provide support for POSIX signals, and we currently only have implemented stack trace for GNU-compatible compilers.

8.3. Compilation and installation considerations

If the system on which ParaView will run has special resource limits enforced, such as job-wide memory use limits, or non-standard per-process memory limits, then the system administrators need to provide this information to the running instances of ParaView via the following environment variables. For example, those could be set in the batch system launch scripts.

  1. PV_HOST_MEMORY_LIMIT : For reporting host-wide resource limits.

  2. PV_PROC_MEMORY_LIMIT : For reporting per-process memory limits. that are not enforced via standard Unix resource limits.

A few of the debugging features (such as printing a stack trace) require debug symbols. These features will work best when ParaView is built with CMAKE_BUILD_TYPE=Debug or, for release builds, CMAKE_BUILD_TYPE=RelWithDebugSymbols.