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AutoQC

Build Status

##Introduction

Recent studies suggest that changes to global climate as have been seen at the Earth's land and ocean surface are also making their way into the deep ocean, which is the largest active storage system for heat and carbon available on the timescale of a human lifetime. Historical measurements of subsurface ocean temperature are essential to the scientific research investigating the changes in the amount of heat stored in the ocean and also to other climate research activities such as combining observations with numerical models to provide estimates of the global ocean's and Earth's climate state in the past and predictions for the future. Unfortunately, as with all observations, these measurements contain errors and biases that must be identified to prevent a negative impact on the applications and investigations that rely on them. Various groups from around the world have developed quality control tests to perform this important task. However, this has led to duplication of effort, code that is not easily available to other researchers and the introduction of climate model differences solely due to the varying performance of these software systems whose nuances relative to one another are poorly known.

Recently, an international team of researchers has decided to work together to break down the barriers between the various groups and countries through the formation of the IQuOD (International Quality Controlled Dataset) initiative. One of the key aims is to intercompare the performance of the various automatic quality control tests that are presently being run to determine a best performing set. This work has started. However, it currently involves individuals running test datasets through their own systems and is being confounded by complications associated with the differences in the file formats and systems that are in use in the various labs and countries.

The IQuOD proposal is to set up an open quality control benchmarking system. Work will begin by implementing a battery of simple tests to run on some test data, and producing summary statistics and visualizations of the results. Later goals include helping researchers either wrap their existing C, Fortran and MATLAB test functions in Python for use in this test suite, or re-implementing those tests in native Python.

Dependencies & Setup:

The easiest way to set up AutoQC is via Docker; install Docker per their website, and then grab the autoqc image:

docker pull iquod/autoqc

Start the image via

docker run --sysctl "kernel.shmmax=18446744073692774399" -v $PWD:/rawdata -i -t iquod/autoqc /bin/bash

And you'll find AutoQC all set up and ready to use in the directory /AutoQC. Note that the version of AutoQC that ships with the docker image may be behind master on GitHub; you can always do git pull origin master from the /AutoQC directory inside the container, if you need an update. Also, whatever directory you launched this command from will be mounted on /rawdata inside your Docker container; use this to bring data into the container, or copy logs and files from within the container to this location to access them after Docker exits.

If you want to run AutoQC without Docker, have a look at the setup steps in docker/Dockerfile; these correspond to the same setup steps you'll need to do on a similar machine (i.e. on Debian with miniconda already installed).

Docker makes it very convenient for the project to run AutoQC, but note that the data files to run the full set of AutoQC checks are obtained as detailed below:

AutoQC on AWS

Docker makes running AutoQC on the cloud very easy. Once you've set up your Amazon Web Services account, launch an EC2 instance and do:

sudo yum update -y
sudo yum install -y docker
sudo service docker start
sudo docker pull iquod/autoqc

Next we need to add data to our instance; after uploading your files to an S3 bucket called autoqc, do:

aws configure
(fill in permissions fields)
mkdir data
aws s3 sync s3://autoqc data
cd data

Finally, launch your docker image with the data directory mounted inside it at /rawdata:

sudo docker run --sysctl "kernel.shmmax=18446744073692774399" -v $PWD:/rawdata -i -t iquod/autoqc /bin/bash

And once again, AutoQC will be all set up in /AutoQC. Remember to git pull if necessary, and add any external data or parameter files to the correct places.

##Usage

AutoQC runs in three steps: database construction, qc running, and result summarization.

Database Construction

python build-db.py filename tablename

Where filename is the name of a WOD-ascii file to read profiles from, and tablename is the name of a postgres table to write the results to; tablename will be created if it doesn't exist, or appended to if it does. tablename will have the following columns:

column name description
raw the raw WOD-ASCII text originally found in the input file
truth whether any temperature qc levels were flagged at 3 or greater
uid unique profile serial number
year timestamp year
month timestamp month, integers [1,12]
day timestamp day, integers [1,31]
time timestamp walltime, real [0,24)
lat profile latitude
long profile longitude
cruise cruise id
probe probe index, per WOD specifications

Additionally, there is a column in the table for the qc results of every test found in the /qctests directory; these columns are filled in in the next step.

QC Execution

python AutoQC.py tablename nProcessors

where tablename is the postgres table to pull profiles from (probably the same as tablename in the last step), and nProcessors is how many processors you'd like to parallelize over

Result Summary

python summarize-results.py tablename

where tablename is the postgres table used in the previous steps. A summary of true flags, true passes, false positives and false negatives is generated for each test.

##Testing

###Testing Data Each quality control test must be written as its own file in /qctests, of the form def test(p, parameters), where p is a profile object; each test returns a bool, where True indicates the test has failed. parameters is a dictionary for conveniently persisting static parameters and sharing them between threads; if your test has a great deal of parameters to load before it runs, include alongside its definition a loadParmaeters(dict) method, which writes those parameters to keys of your choosing on the dictionary passed in as an argument to loadParameters. That dictionary will subsequently be passed into every qc test as the parameters argument. Calling this loadParameters function is done automatically by the qc framework; it is enough for you to just write it, and the parameters you want will be available in your qc test on the keys you defined on the parameters object.

###Testing Code To run the code tests:

pip install nose
nosetests tests/*.py

##Profile Objects Specification See wodpy package for more information on the WodProfile class, a decoding helper for the WOD ASCII format.

##Contributing Quality control checks waiting to be implemented are listed in the Issues. If you would like to work on coding up a check, please assign yourself to the issue to avoid others duplicating the effort. If you have an idea for a new QC check, please open an issue and let us know, so we can help get you started on the right track.