...
Info |
---|
Introduction
Motivations
Complex simulations often combines a number of physics codes, potentially provided by various actors and written in different programming languages. To make them working together, an additional layer, that 'orchestrates' execution of particular codes, and takes care on passing data between 'producers' and 'consumers' is needed. Sometimes the functionality of such layer is provided by dedicated software (aka 'workflow orchestrators', like Kepler https://kepler-project.org/), sometimes it can be handled by much simpler mechanism like Python scripts. Unfortunately all components ('actors') that constitute a computing scenario ('workflow') must be implemented in the same programming language, defining the same API.
Unfortunately, in most cases, scientific, simulation codes that performs computing intensive calculations (due to performance reasons) are written in C++ or Fortran, while 'workflow orchestrators' are implemented in (more popular nowadays) languages, like Java, Python, etc. Hence the need for a 'wrapper' that intermediates between native code language and language of the orchestrator. Such wrappers can be developed manually, however users may benefit from a tool that automatise this process - iWrap
iWrap - actor generator
iWrap is a modular component generator, implemented in Python, used for creating IMAS actors from physics models. This mechanism allows to integrate physics codes written in one language (Fortran, CPP) within complex computing scenarios designed in other language (e.g. Python).
It's plug-in based modular design with clear separation of concerns allows to generate various types of actors and easily change data access paradigm (from dataset descriptor for AL to direct HDC data for instance)
For user conveniency it provides two kinds of interfaces: user friendly graphical interface that allows non-experienced users to define an actor in intuitive way and command line interface foreseen for more advanced users that may want to e.g. automatise actor generation process using scripts.
- iWrap generates a Fortran/CPP wrapper, which intermediates between Kepler actor and user code in terms of:
- reading/writing of in/out physical data (IDS)
- passing other arguments to/from the actor
- iWrap creates a Python script (aka an actor) that:
- calls a user code
- provides error handling
- calls debugger (if run in "debug" mode)
Info |
---|
Glossary Scenario (aka workflow)
Actor
Native code
|
Preparation of code
A signature of user code must follow strict rules to allow interaction between it and wrapping actor. Please use following >>link<< to get detailed guidelines for integration of native code into workflows using iWrap
Code and actor description
iWrap, to properly wrap the code, needs detailed informations about both: the wrapped code and an actor to be generated. A formal description ot the code provides information about the programming language used, arguments passed to/from the code, type of these arguments, etc, etc, while an actor description tells iWrap how to name generated actor, where to put it, etc. Such descriptions has to be provided in YAML format file, prepared manually, or automatically with help of iWrap GUI.
YAML file syntax
The YAML file consists of two independent parts (aka 'YAML documents'), marked by tags corresponding to their roles: actor_description
and code_description
. Only code description part is mandatory, and actor description could be provided in a file, or using iWrap commandline switches or interacting with GUI.
The structure of the file is following:
Code Block | ||||
---|---|---|---|---|
| ||||
# actor description part - optional
--- !actor_description
<see chapter below for details>
...
# code description part - mandatory
--- !code_description
<see chapter below for details>
...
|
Native code description
Description of the native code has to be provided as a YAML document. It consist of two parts. The first one contains generic information common for all languages, The latter one contains information specific for a given language of the native code (currently defined only for Fortran and CPP).
Warning |
---|
|
Common part
Generic information common for all (or at least majority of) programming languages.
- programming_language
- meaning: language of physics code
- value: one of predefined values: 'Fortran', 'CPP'
- example: 'Fortran'
- code_name
- meaning:
- name of user method / subroutine to be called,
- must be exactly the same as name of called method / subroutine
- it is used also as an actor name
- value: string
- example: 'my_subroutine'
- meaning:
- data_type
- meaning: data type handled by the physics code
- value: 'legacy' (currently only 'Legacy IDS' type has been implemented)
- example: 'legacy'
- arguments - list of arguments
- argument definition:
- name:
- meaning: user defined argument name
- value: string
- example: equilibrium00
- type:
- meaning: a type of an IDS argument
- value:
- predefined name of one of the IDSes
- example: 'equilibrium'
- intent
- meaning: determines if given argument is input or output one
- value: predefined - string "IN", "OUT"
- name:
- argument definition:
code_path:
- meaning: path to system library (C, CPP) , script (Python), etc containing the physics code, including method/subroutine to be run
- value: string, valid path to file
- example: 'any text'
- code_parameters - a structure containing parameters and schema entry:
- parameters:
- meaning: path to XML file containing user defined parameters of the physics code
- value: string, valid path to file
- example: './code_parameters/parameters.xml'
- schema:
- meaning: path to XSD file contains schema of XML parameters, to be able to validate them
- value: string, valid path to file
- example: './code_parameters/parameters.xsd'
- parameters:
- documentation:
- meaning: human readable description of native code
- value: string
- example: 'any text'
Language specific part - Fortran/C++
...
- meaning: the name/vendor of the compiler (and not compiler command!) used to compile native codes
- value: string, one of vendors of compilers, currently: 'Intel' or 'GCC'
- example: 'Intel'
...
- meaning: MPI compiler flavour to be used
- values: string, one of: MPICH, MPICH2, MVAPICH2, OpenMPI, etc.
- example 'MPICH2'
...
- meaning: if user code should be compiled with OpenMP flag
- values: boolean
- example 'true'
| ||
iWrap User Manual can be accessed in two ways:
|
...
example:
|
...
example:
...
- ./lib/custom/libcustom1.a
- ./lib/custom/libcustom2.a
Example - Fortran code description
Code Block | ||||
---|---|---|---|---|
| ||||
--- !code_description
programming_language: Fortran
code_name: demo_code
data_type: legacy
arguments:
- name: equilibrium00
type: equilibrium
intent: IN
- name: equilibrium01
type: equilibrium
intent: IN
- name: equilibrium10
type: equilibrium
intent: OUT
- name: equilibrium11
type: equilibrium
intent: OUT
code_path: ./lib/libmy_lib.a
code_parameters:
parameters: ./code_paramneters/parameters.xml
schema: ./code_paramneters/parameters.xsd
documentation: 'Lorem ipsum dolor sit amet, consectetur adipiscing elit, sed do
eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim
veniam... '
language_specific:
compiler: Intel
mpi_flavour: MPICH2
open_mp: false
system_libraries:
- fftw3f
- glib
- mkl
custom_libraries:
- ./lib/custom/libcustom1.a
- ./lib/custom/libcustom2.a |
Actor description
Warning |
---|
|
Actor description syntax
- actor_name:
- meaning: the name/vendor of the compiler (and not compiler command!) used to compile native codes
- value: string, one of vendors of compilers, currently: 'Intel' or 'GCC'
- example: 'Intel'
- actor_type:
- meaning: MPI compiler flavour to be used
- values: string, one of: MPICH, MPICH2, MVAPICH2, OpenMPI, etc.
- example 'MPICH2'
- data_type:
- meaning: data type handled by the physics code
- value: 'legacy' (currently only 'Legacy IDS' type has been implemented)
- example: 'legacy'
- install_dir:
- meaning: MPI compiler flavour to be used
- values: string, one of: MPICH, MPICH2, MVAPICH2, OpenMPI, etc.
- example 'MPICH2'
Example
Code Block | ||||
---|---|---|---|---|
| ||||
--- !actor_description
actor_name: core2dist
actor_type: python
data_type: legacy
install_dir: /afs/eufus.eu/user/g/g2bpalak/IWRAP_ACTORS
... |
iWrap graphical interface
wrapping (job description, iWrap)
...