Ladron de Guevara, ManuelBorunda, Luis R.Byrne, DaraghKrishnamurti, Ramesh2022-07-182022-07-182020-09-011478-0771http://hdl.handle.net/10919/111282Additive manufacturing is evolving toward more sophisticated territory for architects and designers, mainly through the increased use of scripting tools. Recognizing this, we present a design and fabrication pipeline comprised of a class of techniques for fabrication and methods of design through discrete computational models. These support a process responsive to varied design intents: this structured workflow expands the design and fabrication space of any input shape, without having to explicitly deal with the complexity of discrete models beforehand. We discuss a multi-resolution-based methodology that incorporates discrete computational methods, spatial additive manufacturing with both robotic and commercial three-dimensional printers, as well as, a free-oriented technique. Finally, we explore the impact of computational power on design outcome, examining in-depth the concept of resolution as a design driver.Pages 218-234application/pdfenIn CopyrightMulti-resolution in architecture as a design driver for additive manufacturing applicationsArticle - Refereed2022-07-18International Journal of Architectural Computinghttps://doi.org/10.1177/1478077120924802183Borunda Monsivais, Luis [0000-0001-9987-2914]2048-3988