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Reuse of process-based models: automatic transformation into many programming languages and simulation platforms

Cyrille Ahmed Midingoyi, Christophe Pradal, Ioannis N. Athanasiadis, Marcello Donatelli, Andreas Enders, Davide Fumagalli, Frédérick Garçia, Dean Holzworth, Gerrit Hoogenboom, Cheryl Porter, Hélène Raynal, Peter J. Thorburn, Pierre Martre

2020in silico Plants11 citationsDOIOpen Access PDF

Abstract

Abstract The diversity of plant and crop process-based modelling platforms in terms of implementation language, software design and architectural constraints limits the reusability of the model components outside the platform in which they were originally developed, making model reuse a persistent issue. To facilitate the intercomparison and improvement of process-based models and the exchange of model components, several groups in the field joined to create the Agricultural Model Exchange Initiative (AMEI). Agricultural Model Exchange Initiative proposes a centralized framework for exchanging and reusing model components. It provides a modular and declarative approach to describe the specification of unit models and their composition. A model algorithm is associated with each model specification, which implements its mathematical behaviour. This paper focuses on the expression of the model algorithm independently of the platform specificities, and how the model algorithm can be seamlessly integrated into different platforms. We define CyML, a Cython-derived language with minimum specifications to implement model component algorithms. We also propose CyMLT, an extensible source-to-source transformation system that transforms CyML source code into different target languages such as Fortran, C#, C++, Java and Python, and into different programming paradigms. CyMLT is also able to generate model components to target modelling platforms such as DSSAT, BioMA, Record, SIMPLACE and OpenAlea. We demonstrate our reuse approach with a simple unit model and the capacity to extend CyMLT with other languages and platforms. The approach we present here will help to improve the reproducibility, exchange and reuse of process-based models.

Topics & Concepts

Computer scienceReuseProgramming languagePython (programming language)ReusabilityModel transformationSoftware engineeringUnit testingModular designComponent (thermodynamics)Programming paradigmProcess (computing)JavaSoftwareArtificial intelligenceThermodynamicsConsistency (knowledge bases)EcologyPhysicsBiologyGreenhouse Technology and Climate ControlClimate change impacts on agricultureBiofuel production and bioconversion
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