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Online Anomaly Detection for HPC Performance Data

This library provides a Python API to process SOSflow(Scalable Observation System for Scientific Workflows) performance traces. It supports the following functionality:

  • Streaming Event Parser: dynamically passes events of SOSflow with interest functions
  • Streaming Anomaly Detector: detects anomalies in performance of functions based on limited memory incremental local outlier factor algorithm.

Requirement

Our codebase requires Python 3.5 or higher and python and pip to be linked to Python 3.5 or higher.

Installation

Run the following script: 'scripts/install-dependency.sh'

bash scripts/install-dependency.sh

Test

To run tests:

make
make test

Example

[[1]] The following example code illustrates the basic usage of our online anomaly detection function.

First, configure the parameters in the [Analyzer] section of the configuration file (e.g., chimbuko.cfg).

Then, call the only anomaly detection API by:

from MiLOF import MILOF
MILOF("chimbuko.cfg")

It will generate local outlier factor for each incoming data point.

[[2]] The following example code illustrates the basic usage of our dynamic event parser function.

First, configure the parameters in the [Parser] section of the configuration file (e.g., chimbuko.cfg).

Then, call the dynamic event parser API by:

from strmParser import Parser
Parser("chimbuko.cfg")

It will output some information step by step as follows.

>>> step: 0
Size of current timestep = (48, 12)
Most three interested functions:
 b'MPI_Init()'
 b'.TAU application'
 b'HEAT_TRANSFER [{heat_transfer.F90} {22,1}-{140,25}]'
>>> Advance to next step ...
>>> step: 1
Size of current timestep = (421, 12)
Most three interested functions:
 b'MPI_Comm_split()'
 b'pthread_create'
 b'Step[0]'
>>> Advance to next step ...
>>> step: 2
Size of current timestep = (241, 12)
Most three interested functions:
 b'Step[1]'
 b'adios_open'
 b'MPI_Comm_dup()'
>>> Advance to next step ...
>>> step: 3
Size of current timestep = (250, 12)
Most three interested functions:
 b'Step[2]'
 b'adios_open'
 b'MPI_Comm_dup()'
>>> Advance to next step ...
>>> step: 4
Size of current timestep = (250, 12)
Most three interested functions:
 b'Step[3]'
 b'adios_open'
 b'MPI_Comm_dup()'
>>> Advance to next step ...
>>> step: 5
Size of current timestep = (258, 12)
Most three interested functions:
 b'Step[4]'
 b'adios_open'
 b'MPI_Comm_dup()'
>>> Advance to next step ...
>>> step: 6
Size of current timestep = (262, 12)
Most three interested functions:
 b'Step[5]'
 b'adios_open'
 b'MPI_Comm_dup()'
>>> Advance to next step ...
>>> step: 7
Size of current timestep = (272, 12)
Most three interested functions:
 b'Step[6]'
 b'adios_open'
 b'MPI_Comm_dup()'
>>> Advance to next step ...
>>> step: 8
Size of current timestep = (262, 12)
Most three interested functions:
 b'Step[7]'
 b'adios_open'
 b'MPI_Comm_dup()'
>>> Identified anomalies and dump data to binary.
>>> Serialization ...
>>> Advance to next step ...
>>> step: 9
Size of current timestep = (272, 12)
Most three interested functions:
 b'Step[8]'
 b'adios_open'
 b'MPI_Comm_dup()'
>>> Advance to next step ...
>>> step: 10
Size of current timestep = (382, 12)
Most three interested functions:
 b'Step[9]'
 b'adios_open'
 b'MPI_Comm_dup()'
>>> Advance to next step ...
>>> step: 11
Size of current timestep = (80, 12)
Most three interested functions:
 b'MPI_Barrier()'
 b'HEAT_IO::IO_FINALIZE [{io_adios.F90} {27,1}-{31,26}]'
 b'adios_finalize'
>>> Advance to next step ...
>>> step: 12
Size of current timestep = (18, 12)
Most three interested functions:
 b'MPI_Finalize()'
 b'.TAU application'
 b'HEAT_TRANSFER [{heat_transfer.F90} {22,1}-{140,25}]'
>>> Advance to next step ...
>>> Complete passing data.
>>> Test of deserialization.
>>> Load data ...
**** Print info ****
Number of attributes = 518
First 20 Names of attributes = ['program_name 0' 'MetaData:0:0:0:CPU Cores' 'MetaData:0:0:0:CPU MHz'
 'MetaData:0:0:0:CPU Type' 'MetaData:0:0:0:CPU Vendor'
 'MetaData:0:0:0:CWD' 'MetaData:0:0:0:Cache Size'
 'MetaData:0:0:0:Command Line' 'MetaData:0:0:0:Executable'
 'MetaData:0:0:0:Hostname' 'MetaData:0:0:0:Local Time'
 'MetaData:0:0:0:Memory Size' 'MetaData:0:0:0:Node Name'
 'MetaData:0:0:0:OS Machine' 'MetaData:0:0:0:OS Name'
 'MetaData:0:0:0:OS Release' 'MetaData:0:0:0:OS Version'
 'MetaData:0:0:0:Starting Timestamp' 'MetaData:0:0:0:TAU Architecture'
 'MetaData:0:0:0:TAU Config']
First 20 Values of attributes = [b'/home/khuck/src/Example-Heat_Transfer/stage_write/stage_write' b'4'
 b'2667.000' b'Intel(R) Xeon(R) CPU X5355 @ 2.66GHz' b'GenuineIntel'
 b'/home/khuck/src/Example-Heat_Transfer/test_sos' b'4096 KB'
 b'../stage_write/stage_write heat.bp staged.bp FLEXPATH'
 b'/home/khuck/src/Example-Heat_Transfer/stage_write/stage_write' b'ktau'
 b'2018-06-11T11:51:52-07:00' b'8172400 kB' b'ktau' b'x86_64' b'Linux'
 b'4.4.0-127-generic' b'#153-Ubuntu SMP Sat May 19 10:58:46 UTC 2018'
 b'1528743112852053' b'default'
 b' -iowrapper -pdt=/home/khuck/install/pdtoolkit-3.25 -papi=/usr/local/papi/5.5.0 -sos=/home/khuck/install/sos_flow -mpi -adios=/home/khuck/src/ADIOS/ADIOS-gcc']
First 20 trace data = [[0 0 0 nan nan 3 0 nan nan nan nan 0]
 [0 0 0 nan nan 2 15568 nan nan nan nan 0]
 [0 0 0 nan nan 1 15568 nan nan nan nan 0]
 [1 0 0 nan nan 0 91802 nan nan nan nan 0]
 [0 0 0 nan nan 0 91776 nan nan nan nan 0]
 [1 0 0 nan nan 1 16332 nan nan nan nan 0]
 [1 0 0 nan nan 3 0 nan nan nan nan 0]
 [1 0 0 nan nan 2 16332 nan nan nan nan 0]
 [1 1 0 nan nan 0 91804 nan nan nan nan 1000000]
 [1 1 0 nan nan 1 16288 nan nan nan nan 1000000]
 [1 1 0 nan nan 2 16288 nan nan nan nan 1000000]
 [1 1 0 nan nan 3 0 nan nan nan nan 1000000]
 [0 1 0 nan nan 3 0 nan nan nan nan 1000000]
 [0 1 0 nan nan 0 91776 nan nan nan nan 1000000]
 [0 1 0 nan nan 1 15620 nan nan nan nan 1000000]
 [0 1 0 nan nan 2 15620 nan nan nan nan 1000000]
 [1 3 0 nan nan 1 16332 nan nan nan nan 2000000]]
Streaming event parser test passed.

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