We report the results of a multiple-case study of software development in three fields: high energy physics, structural biology, and microbiology. ![]() Yet we do not have a clear picture of how software development for science fits into the day-to-day practice of science, or how well the methods and incentives of its production facilitate realization of this potential. Unlike other technologies supporting science, software can be copied and distributed at essentially no cost, potentially opening the door to unprecedented levels of sharing and collaborative innovation. ![]() Software plays an increasingly critical role in science, including data analysis, simulations, and managing workflows.
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