The following implements the sum-of-squares algorithm as a distributed UDF using the CUDA-based UDF C++ API. The initialization script will be run separately from the UDF itself, and the execution script will need to target the UDF C++ binary.
This example will take a list of input tables and corresponding output tables (must be the same number) and, for each record of each input table, sums the squares of all input table columns and saves the result to the first column of the corresponding output table record; i.e.:
in.a2 + in.b2 + ... + in.n2 -> out.a
This setup assumes the UDF is being developed on the Kinetica host (or head
node host, if a multi-node Kinetica cluster); and that the Python database
API is available at
/opt/gpudb/api/python and the C++ UDF API is
This example will contain the following (click to download):
- udf_sos_cpp_init.py : creates the schema, input & output tables, and loads test data
- udf_sos_cpp_proc.cu : implements the UDF itself
- makefile : compiles the UDF
- udf_sos_cpp_exec.py : creates & executes the UDF
All commands should be run as the
After copying these four files to a
gpudb-accessible directory on the
Kinetica head node, the example can be run as follows, optionally
specifying the database host and a username & password to the Python scripts:
The results of the run can be checked via Kinetica Administration Application (GAdmin). There should exist two tables within the udf_example_cpp schema, udf_sos_in_table & udf_sos_out_table, each holding 10,000 records; the former containing pairs of numbers and the latter containing the sums of squares of those numbers. Each table will carry an id, which can be used to associate input values to output sums.
To verify the existence of the tables, in GAdmin, click Data > Tables. Both tables should appear in the udf_example_cpp schema, each with 10,000 records.
To verify the calculations, click Query > KiSQL. Enter the following query into the SQL Statement box:
The Query Result box should show each of the 10,000 calculations made.
While the example UDF itself can run against multiple tables, the example run will use a single schema-qualified table, udf_example_cpp.udf_sos_in_table, as input and a matching schema-qualified table, udf_example_cpp.udf_sos_out_table, for output.
The input table will contain two float columns and be populated with 10,000 pairs of randomly-generated numbers. The output table will contain one float column that will hold the sums calculated by the UDF. Both tables will also contain an int column that is the calculation identifier, allowing the input data to be matched up with the output data after the UDF has run.
The UDF will assume the first column of the input table, as defined in the original table creation process, is the identifier field. All of the remaining columns after the first will be used in the sum-of-squares calculation.
The UDF will calculate the sum of the squares of each of the 10,000 pairs of numbers and insert into the output table the corresponding 10,000 sums.
This initialization script creates the schema, input & output tables, and populates the input data using the standard Kinetica Python API, all outside of the UDF execution framework.
Several aspects of the initialization process are noteworthy:
- The external database connection, indicative of the use of the standard Kinetica Python API--the UDF will not have this, as it runs within the database:
- Schema, input, and output table creation:
This is the UDF itself. It uses the Kinetica C++ UDF API to compute the sums of squares of input table columns and output those sums to an output table. It runs within the UDF execution framework, and as such, is not called directly--instead, it is registered and launched by udf_sos_cpp_exec.py.
Noteworthy in the UDF are the following:
- The initial call to ProcData() to access the database:
- The size of the output table must be specified before writing to it:
- The final call to complete() to mark the process as finished and ready for clean-up:
This standard makefile is used to compile the C++ UDF source before registering the UDF with udf_sos_cpp_exec.py.
Noteworthy in the makefile are the following:
- The assumption of the C++ UDF library installed at the default location of a typical Kinetica deployment, and the location of a local CUDA install:
- The inclusion of
Proc.hppas the only UDF-centric compilation dependence:
The execution script uses the standard Kinetica Python API to register the UDF in the database and then execute it.
The registration step associates a name with the UDF execution code compiled from udf_sos_cpp_proc.cu, the command (the name of the compiled executable, referenced locally) to use to run it, and that it will run in distributed mode.
The execution step invokes the UDF by name, passing in the input & output table names against which the UDF will execute.