Archivio Istituzionale della RicercaDeep Learning (DL) developers come from different backgrounds, e.g., medicine, genomics, finance, and computer science. To create a DL model, they must learn and use high-level programming languages (e.g., Python), thus needing to handle related setups and solve programming errors. This paper presents DeepBlocks, a visual programming tool that allows DL developers to design, train, and evaluate models without relying on specific programming languages. DeepBlocks works by building on the typical model structure: a sequence of learnable functions whose arrangement defines the specific characteristics of the model. We derived DeepBlocks' design goals from a 5-participants formative interview, and we validated the first implementation of the tool through a typical use case. Results are promising and show that developers could visually design complex DL architectures.
Towards A Visual Programming Tool to Create Deep Learning Models / Calo, Tommaso; De Russis, Luigi. - ELETTRONICO. - (2023), pp. 38-44. (Intervento presentato al convegno ACM SIGCHI Symposium on Engineering Interactive Computing Systems (EICS '23) tenutosi a Swansea (UK) nel June 27–30, 2023) [10.1145/3596454.3597181].
Towards A Visual Programming Tool to Create Deep Learning Models
Calo,Tommaso;De Russis,Luigi
2023
Abstract
Deep Learning (DL) developers come from different backgrounds, e.g., medicine, genomics, finance, and computer science. To create a DL model, they must learn and use high-level programming languages (e.g., Python), thus needing to handle related setups and solve programming errors. This paper presents DeepBlocks, a visual programming tool that allows DL developers to design, train, and evaluate models without relying on specific programming languages. DeepBlocks works by building on the typical model structure: a sequence of learnable functions whose arrangement defines the specific characteristics of the model. We derived DeepBlocks' design goals from a 5-participants formative interview, and we validated the first implementation of the tool through a typical use case. Results are promising and show that developers could visually design complex DL architectures.
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EICS_2023_LBW___DeepBlocks_ (1).pdf
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3596454.3597181.pdf
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2a Post-print versione editoriale / Version of Record
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https://hdl.handle.net/11583/2978363