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Vampirtrace: Difference between revisions
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The VampirTrace library allows MPI communication events of a parallel program to be recorded as a trace file. Additionally, certain program-specific events can also be included. To record MPI communication events, simply relink the program with the VampirTrace library. A new compilation of the program source code is only necessary if program-specific events should be added. | {{Infobox software | ||
| description = The VampirTrace library allows MPI communication events of a parallel program to be recorded as a trace file. Additionally, certain program-specific events can also be included. To record MPI communication events, simply relink the program with the VampirTrace library. A new compilation of the program source code is only necessary if program-specific events should be added. | |||
| developer = ZIH TU Dresden and JSC/FZ Juelich | |||
| available on = [[NEC Nehalem Cluster]] | |||
| category = [[:Category:Performance Analyzer|Performance Analyzer]] | |||
| license = BSD License | |||
| website = [http://tu-dresden.de/die_tu_dresden/zentrale_einrichtungen/zih/forschung/software_werkzeuge_zur_unterstuetzung_von_programmierung_und_optimierung/vampirtrace/index_html/document_view?cl=enhttp://gcc.gnu.org/ VampirTrace homepage] | |||
}} | |||
== Introduction == | == Introduction == | ||
Tracing with Vampir in three steps: | Tracing an application with Vampir is done in three steps: | ||
# Compiling with the vampirtrace wrappercompiler | # Compiling with the vampirtrace wrappercompiler | ||
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=== Compiling with the vampirtrace wrappercompiler === | === Compiling with the vampirtrace wrappercompiler === | ||
First load the needed software module: | |||
First | |||
{{Command | {{Command | ||
| command = module load performance/vampirtrace | | command = module load performance/vampirtrace | ||
}} | }} | ||
Now you can compile your application using the wrapper compilers <tt>vtcc</tt>, <tt>vtc++</tt> or <tt>vtf90</tt> as described in the user VampirTrace manual. | |||
Now you can compile your application using the wrapper compilers vtcc, vtf90 | |||
{{Note | {{Note | ||
| text = When using vampirtrace in combination with MPI you will need at least to specify the name of your mpi compiler to VampirTrace | | text = When using vampirtrace in combination with MPI you will need at least to specify the name of your mpi compiler to VampirTrace | ||
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vtf90 -vt:f90 mpif90 | vtf90 -vt:f90 mpif90 | ||
vtcc -vt:cc mpicc | vtcc -vt:cc mpicc | ||
vtcxx -vt:cxx mpicxx | |||
</pre> | </pre> | ||
}} | }} | ||
You can specify the amount of instrumentation to be include in the trace using <tt>-vt</tt> options, e.g. <tt>-vt:mpi</tt> for MPI instrumentation, | |||
<tt>-vt:compinst</tt> for compiler-based function instrumentation: | |||
{{Command|command = | |||
vtcc -vt:mpi -vt:inst compinst -o myapp myapp.c | |||
{{ | |||
| | |||
}} | }} | ||
==== Hermit special: ==== | |||
{{Warning|text=On Hermit it is necessary to add the <tt>-vt:mpi</tt> option. Otherwise the wrong vampirtrace libraries will be used.}} | |||
{{Command | {{Command | ||
| command = | | command = vtcc -vt:mpi [other options] my_app | ||
}} | }} | ||
==== BW-Grid special: ==== | |||
On the BW-Grid you first have to login to a node for compilation as some libraries are not accessible from the frontend: | |||
{{Command | {{Command | ||
| command = | | command = qsub -I -l walltime=1:00:00 | ||
}} | }} | ||
=== Generating the trace files === | |||
Run your application as usual. This will generate the needed trace files. | |||
Which data are collected during the run can be controlled with the ''VT_*'' options. Options which may be helpful during analysis are ''VT_BUFFER_SIZE'', ''VT_MAX_FLUSHES'', ''VT_PFORM_LDIR'' or ''VT_METRICS''. See the Vampirtrace documentation for more details. | |||
=== Viewing traces === | |||
To analyze the generated traces you can use [[Vampir]]. For large traces (>500MB), e.g. generated with more than 16 PEs in the application run, it is recommended to use [[Vampir#VampirServer | VampirServer]]. | |||
== Trouble shooting == | |||
In this section common errors and solutions to overcome the problems are listed. | |||
==== Incomplete trace files ==== | |||
[0]VampirTrace: Maximum number of buffer flushes reached (VT_MAX_FLUSHES=1) | |||
[0]VampirTrace: Tracing switched off permanently | |||
Trace data did not fit into a single VampirTrace buffer. Unlimit the number of buffer reuses with | |||
{{Command|command = export VT_MAX_FLUSHES=0}} | |||
== | ==== Not enough space on /tmp ==== | ||
[0]VampirTrace: FATAL: OTF_WStream_writeLeave failed: | |||
ERROR in function OTF_WBuffer_writeUint64, ... | |||
OTF_WBuffer_guarantee() failed. | |||
Check if /tmp has filled up to 100% by executing | |||
{{Command|command=df -h <nowiki>|</nowiki> grep /tmp}} | |||
A solution is to use a workspace in combination with the <tt>VT_PROFM_LDIR</tt> variable: | |||
{{Command|command = export VT_PROFM_LDIR=$(ws_allocate vt_trace_tmp 5)}} | |||
==== Library issues on NEC ==== | |||
Try to export <tt>LD_LIBRARY_PATH</tt> | |||
{{Command | |||
| command = export LD_LIBRARY_PATH=/opt/NECcomp/compiler100/ia64/lib | |||
}} | |||
== See also == | |||
* [[Software Development Tools, Compilers & Libraries]] | |||
== External Links == | == External Links == | ||
* [http://tu-dresden.de/die_tu_dresden/zentrale_einrichtungen/zih/forschung/software_werkzeuge_zur_unterstuetzung_von_programmierung_und_optimierung/vampirtrace/index_html/document_view?cl=en Vampirtrace Homepage] | * [http://tu-dresden.de/die_tu_dresden/zentrale_einrichtungen/zih/forschung/software_werkzeuge_zur_unterstuetzung_von_programmierung_und_optimierung/vampirtrace/index_html/document_view?cl=en Vampirtrace Homepage] |
Latest revision as of 14:02, 25 January 2013
The VampirTrace library allows MPI communication events of a parallel program to be recorded as a trace file. Additionally, certain program-specific events can also be included. To record MPI communication events, simply relink the program with the VampirTrace library. A new compilation of the program source code is only necessary if program-specific events should be added. |
|
Introduction
Tracing an application with Vampir is done in three steps:
- Compiling with the vampirtrace wrappercompiler
- Running the application
- Analysing the trace files using vampir or vampir-server
For detailed usage of Vampirtrace see the user manual which can either be found on your local machine or in the internet.
Usage
Compiling with the vampirtrace wrappercompiler
First load the needed software module:
Now you can compile your application using the wrapper compilers vtcc, vtc++ or vtf90 as described in the user VampirTrace manual.
vtf90 -vt:f90 mpif90 vtcc -vt:cc mpicc vtcxx -vt:cxx mpicxx
You can specify the amount of instrumentation to be include in the trace using -vt options, e.g. -vt:mpi for MPI instrumentation,
-vt:compinst for compiler-based function instrumentation:
Hermit special:
BW-Grid special:
On the BW-Grid you first have to login to a node for compilation as some libraries are not accessible from the frontend:
Generating the trace files
Run your application as usual. This will generate the needed trace files.
Which data are collected during the run can be controlled with the VT_* options. Options which may be helpful during analysis are VT_BUFFER_SIZE, VT_MAX_FLUSHES, VT_PFORM_LDIR or VT_METRICS. See the Vampirtrace documentation for more details.
Viewing traces
To analyze the generated traces you can use Vampir. For large traces (>500MB), e.g. generated with more than 16 PEs in the application run, it is recommended to use VampirServer.
Trouble shooting
In this section common errors and solutions to overcome the problems are listed.
Incomplete trace files
[0]VampirTrace: Maximum number of buffer flushes reached (VT_MAX_FLUSHES=1) [0]VampirTrace: Tracing switched off permanently
Trace data did not fit into a single VampirTrace buffer. Unlimit the number of buffer reuses with
Not enough space on /tmp
[0]VampirTrace: FATAL: OTF_WStream_writeLeave failed: ERROR in function OTF_WBuffer_writeUint64, ... OTF_WBuffer_guarantee() failed.
Check if /tmp has filled up to 100% by executing
A solution is to use a workspace in combination with the VT_PROFM_LDIR variable:
Library issues on NEC
Try to export LD_LIBRARY_PATH