Typically a tierless program uses a single language, paradigm and type system, and the entire distributed system is simultaneously checked by the compiler.
There is intense interest in developing tierless, or multitier, language technologies with a number of research languages developed over the last fifteen years, e.g.\ \citep{cooper2006links, serrano2006hop, troyer_building_2018, 10.1145/2775050.2633367}. These languages demonstrate the
advantages of the paradigm, including less development effort, better maintainability, and sound semantics of distributed execution. At the same time a number of industrial technologies incorporate tierless concepts, e.g.\ \citep{balat2006ocsigen, bjornson2010composing, strack2015getting}. These languages demonstrate the benefits of the paradigm in practice. Some tierless languages use (embedded) \glspl{DSL} to specify parts of the multi-tier software.
Typically a tierless program uses a single language, paradigm and type system, and the entire distributed system is simultaneously checked by the compiler.
There is intense interest in developing tierless, or multitier, language technologies with a number of research languages developed over the last fifteen years, e.g.\ \citep{cooper2006links, serrano2006hop, troyer_building_2018, 10.1145/2775050.2633367}. These languages demonstrate the
advantages of the paradigm, including less development effort, better maintainability, and sound semantics of distributed execution. At the same time a number of industrial technologies incorporate tierless concepts, e.g.\ \citep{balat2006ocsigen, bjornson2010composing, strack2015getting}. These languages demonstrate the benefits of the paradigm in practice. Some tierless languages use (embedded) \glspl{DSL} to specify parts of the multi-tier software.