/COOL-1

the source code of the COOL system

Primary LanguageJavaApache License 2.0Apache-2.0

COOL: a COhort OnLine analytical processing system

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Introduction to COOL

COOL

Different groups of people often have different behaviors or trends. For example, the bones of older people are more porous than those of younger people. It is of great value to explore the behaviors and trends of different groups of people, especially in healthcare, because we could adopt appropriate measures in time to avoid tragedy. The easiest way to do this is cohort analysis.

But with a variety of big data accumulated over the years, query efficiency becomes one of the problems that OnLine Analytical Processing (OLAP) systems meet, especially for cohort analysis. Therefore, COOL is introduced to solve the problems.

COOL is an online cohort analytical processing system that supports various types of data analytics, including cube query, iceberg query and cohort query.

With the support of several newly proposed operators on top of a sophisticated storage layer, COOL could provide high performance (near real-time) analytical response for emerging data warehouse domains.

Key features of COOL

  1. Easy to use. COOL is easy to deploy on local or on cloud via docker.
  2. Near Real-time Responses. COOL is highly efficient, and therefore, can process cohort queries in near real-time analytical responses.
  3. Specialized Storage Layout. A specialized storage layout is designed for fast query processing and reduced space consumption.
  4. Self-designed Semantics. There are some novel self-designed semantics for the cohort query, which can simplify its complexity and improve its functionality.
  5. Flexible Integration. Flexible integration with other data systems via common data formats(e.g., CSV, Parquet, Avro, and Arrow).
  6. Artificial Intelligence Model. A new neural network model will be introduced soon.

Quickstart

BUILD

Simply run mvn clean package

Required sources:

  1. dataset file: a csv file with "," delimiter (normally dumped from a database table), and the table header is removed.
  2. dataset schema file: a table.yaml file specifying the dataset's columns and their measure fields.
  3. query file: a yaml file specify the parameters for running query server.

Load dataset

Before query processing, we need to load the dataset into COOL native format. The sample code to load csv dataset with data loader can be found in CsvLoader.java.

$ java -cp ./cool-core/target/cool-core-0.1-SNAPSHOT.jar com.nus.cool.functionality.CsvLoader path/to/your/source/directory path/to/your/.yaml path/to/your/datafile path/to/output/datasource/directory

The five arguments in the command have the following meaning:

  1. a unique dataset name given under the directory
  2. the table.yaml (the third required source)
  3. the dataset file (the first required source)
  4. the output directory for the compacted dataset

Execute queries

We provide an example for cohort query processing in CohortAnalysis.java.

There are two types of queries in COOL. The first one includes two steps.

Cohort Query

  • Select the specific users.
$ java -cp ./cool-core/target/cool-core-0.1-SNAPSHOT.jar com.nus.cool.functionality.CohortSelection path/to/output/datasource/directory path/to/your/queryfile
  • Executes cohort query users.
$ java -cp ./cool-core/target/cool-core-0.1-SNAPSHOT.jar com.nus.cool.functionality.CohortAnalysis path/to/output/datasource/directory path/to/your/cohortqueryfile
  • Executes the funnel query.
$ java -cp ./cool-core/target/cool-core-0.1-SNAPSHOT.jar com.nus.cool.functionality.FunnelAnalysis path/to/output/datasource/directory path/to/your/funnelqueryfile

OLAP Query

  • Executes the following query in cool.
$ java -cp ./cool-core/target/cool-core-0.1-SNAPSHOT.jar com.nus.cool.functionality.IcebergLoader path/to/output/datasource/directory path/to/your/queryfile

Example-Cohort Analysis

Load dataset

We have provided examples in sogamo directory and health directory. Now we take sogamo for example.

The COOL system supports CSV data format by default, and you can load sogamo dataset with the following command.

$ java -cp ./cool-core/target/cool-core-0.1-SNAPSHOT.jar com.nus.cool.functionality.CsvLoader sogamo sogamo/table.yaml sogamo/test.csv datasetSource

In addition, you can run the following command to load dataset in other formats under the sogamo directory.

  • parquet format data
$ java -jar cool-extensions/parquet-extensions/target/parquet-extensions-0.1-SNAPSHOT.jar sogamo sogamo/table.yaml sogamo/test.parquet datasetSource
  • Arrow format data
$ java -jar cool-extensions/arrow-extensions/target/arrow-extensions-0.1-SNAPSHOT.jar sogamo sogamo/table.yaml sogamo/test.arrow datasetSource
  • Avro format data
$ java -jar cool-extensions/avro-extensions/target/avro-extensions-0.1-SNAPSHOT.jar sogamo sogamo/table.yaml sogamo/avro/test.avro datasetSource sogamo/avro/schema.avsc

Finally, there will be a cube generated under the datasetSource directory, which is named sogamo.

Execute queries

We use the health dataset for example to demonstrate the cohort ananlysis.

  • Select the specific users.
$ java -cp ./cool-core/target/cool-core-0.1-SNAPSHOT.jar com.nus.cool.functionality.CohortSelection datasetSource health/query1-0.json

where the three arguments are as follows:

  1. datasetSource: the output directory for the compacted dataset
  2. health: the cube name of the compacted dataset
  3. health/query1-0.json: the json file for the cohort query
  • Display the selected all records of the cohort in terminal for exploration
$ java -cp ./cool-core/target/cool-core-0.1-SNAPSHOT.jar com.nus.cool.functionality.CohortExploration datasetSource health loyal
  • Execute cohort query on the selected users.
$ java -cp ./cool-core/target/cool-core-0.1-SNAPSHOT.jar com.nus.cool.functionality.CohortAnalysis datasetSource health/query1-1.json
  • Execute cohort query on all the users.
$ java -cp ./cool-core/target/cool-core-0.1-SNAPSHOT.jar com.nus.cool.functionality.CohortAnalysis datasetSource health/query2.json

Partial results for the query health/query2.json on the health dataset are as at result2.json

We use the sogamo dataset for example to demonstrate the funnel analysis.

$ java -cp ./cool-core/target/cool-core-0.1-SNAPSHOT.jar com.nus.cool.functionality.FunnelAnalysis datasetSource sogamo/query1.json

Example-OLAP Analysis

Load dataset

We have provided examples in olap-tpch directory.

The COOL system supports CSV data format by default, and you can load tpc-h dataset with the following command.

java -cp ./cool-core/target/cool-core-0.1-SNAPSHOT.jar com.nus.cool.functionality.CsvLoader tpc-h-10g olap-tpch/table.yaml olap-tpch/scripts/data.csv datasetSource

Finally, there will be a cube generated under the datasetSource directory, which is named tpc-h-10g.

Execute queries

Now we could execute OLAP query on the generated datasets. eg, if we want to run following query,

SELECT cout(*), sum(O_TOTALPRICE) 
FROM TPC_H WHERE O_ORDERPRIORITY = 2-HIGH AND R_NAME = EUROPE
GROUP BY N_NAME,R_NAME 
HAVING O_ORDERDATE >= '1993-01-01' AND O_ORDERDATE <= '1994-01-01'
  • Firstly define a query.json as shown in query.json
  • Then execute following cmd
java -cp ./cool-core/target/cool-core-0.1-SNAPSHOT.jar com.nus.cool.functionality.IcebergLoader datasetSource olap-tpch/query.json

Results for the query query.json on the tpc-h-10g dataset are as at result.json

Run Server

java -jar cool-queryserver/target/cool-queryserver-0.0.1-SNAPSHOT.jar datasetSource/ 9009 STANDALONE

CONNECT TO EXTERNAL STORAGE SERVICES

COOL has an StorageService interface, which will allow COOL standalone server/workers (coming soon) to handle data movement between local and an external storage service. A sample implementation for HDFS connection can be found under the hdfs-extensions.

Publication