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Bibliographic Details
Main Authors: Wang, Zitao, Zhao, Zhimin, Godfrey, Michael W.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2510.11138
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author Wang, Zitao
Zhao, Zhimin
Godfrey, Michael W.
author_facet Wang, Zitao
Zhao, Zhimin
Godfrey, Michael W.
contents Foundation Models (FMs), such as OpenAI's GPT, are fundamentally transforming the practice of software engineering by enabling the development of \emph{FMware} -- applications and infrastructures built around these models. FMware systems now support tasks such as code generation, natural-language interaction, knowledge integration, and multi-modal content creation, underscoring their disruptive impact on current software engineering workflows. However, the design, implementation, and evolution of FMware present significant new challenges, particularly across cloud-based and on-premise platforms where goals, processes, and tools often diverge from those of traditional software development. To our knowledge, this is the first large-scale analysis of FMware development across both cloud-based platforms and open-source repositories. We empirically investigate the FMware ecosystem through three focus areas: (1) the most common application domains of FMware, (2) the key challenges developers encounter, and (3) the types of issues that demand the greatest effort to resolve. Our analysis draws on data from GitHub repositories and from leading FMware platforms, including HuggingFace, GPTStore, Ora, and Poe. Our findings reveal a strong focus on education, content creation, and business strategy, alongside persistent technical challenges in memory management, dependency handling, and tokenizer configuration. On GitHub, bug reports and core functionality issues are the most frequently reported problems, while code review, similarity search, and prompt template design are the most time-consuming to resolve. By uncovering developer practices and pain points, this study points to opportunities to improve FMware tools, workflows, and community support, and provides actionable insights to help guide the future of FMware development.
format Preprint
id arxiv_https___arxiv_org_abs_2510_11138
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle What Slows Down FMware Development? An Empirical Study of Developer Challenges and Resolution Times
Wang, Zitao
Zhao, Zhimin
Godfrey, Michael W.
Software Engineering
Foundation Models (FMs), such as OpenAI's GPT, are fundamentally transforming the practice of software engineering by enabling the development of \emph{FMware} -- applications and infrastructures built around these models. FMware systems now support tasks such as code generation, natural-language interaction, knowledge integration, and multi-modal content creation, underscoring their disruptive impact on current software engineering workflows. However, the design, implementation, and evolution of FMware present significant new challenges, particularly across cloud-based and on-premise platforms where goals, processes, and tools often diverge from those of traditional software development. To our knowledge, this is the first large-scale analysis of FMware development across both cloud-based platforms and open-source repositories. We empirically investigate the FMware ecosystem through three focus areas: (1) the most common application domains of FMware, (2) the key challenges developers encounter, and (3) the types of issues that demand the greatest effort to resolve. Our analysis draws on data from GitHub repositories and from leading FMware platforms, including HuggingFace, GPTStore, Ora, and Poe. Our findings reveal a strong focus on education, content creation, and business strategy, alongside persistent technical challenges in memory management, dependency handling, and tokenizer configuration. On GitHub, bug reports and core functionality issues are the most frequently reported problems, while code review, similarity search, and prompt template design are the most time-consuming to resolve. By uncovering developer practices and pain points, this study points to opportunities to improve FMware tools, workflows, and community support, and provides actionable insights to help guide the future of FMware development.
title What Slows Down FMware Development? An Empirical Study of Developer Challenges and Resolution Times
topic Software Engineering
url https://arxiv.org/abs/2510.11138