Berk EkiciCemre CubukcuogluMichela TurrinI. Sevil SariyildizEkici, BerkTurrin, MichelaSariyildiz, I. SevilCubukcuoglu, Cemre2025-10-062019036013230360-13231873-684X10.1016/j.buildenv.2018.10.0232-s2.0-85055335857https://www.scopus.com/inward/record.uri?eid=2-s2.0-85055335857&doi=10.1016%2Fj.buildenv.2018.10.023&partnerID=40&md5=1619f3730c5f1beda39a7b5a532b0e4ahttps://gcris.yasar.edu.tr/handle/123456789/9498https://doi.org/10.1016/j.buildenv.2018.10.023This study presents a systematic review and summary of performative computational architecture using swarm and evolutionary optimisation. The taxonomy for one hundred types of studies is presented herein that includes different sub-categories of performative computational architecture such as sustainability cost functionality and structure. Specifically energy daylight solar radiation environmental impact thermal comfort life-cycle cost initial and global costs energy use cost space allocation logistics structural assessment and holistic design approaches are investigated by considering their corresponding performance aspects. The main findings including optimisation and all the types of parameters are presented by focussing on different aspects of buildings. In addition usage of form-finding parameters of all reviewed studies and the distributions for each performance objectives are also presented. Moreover usage of swarm and evolutionary optimisation algorithms in reviewed studies is summarised. Trends in publications published years problem scales and building functions are examined. Finally future prospects are highlighted by focussing on different aspects of performative computational architecture in accordance to the evidence collected based on the review process. © 2018 Elsevier B.V. All rights reserved.Englishinfo:eu-repo/semantics/openAccessArchitectural Design, Building Design, Computational Optimisation, Evolutionary Algorithm, Performance-based Design, Swarm Intelligence, Costs, Environmental Impact, Evolutionary Algorithms, Life Cycle, Optimization, Sustainable Development, Swarm Intelligence, Building Design, Computational Architecture, Evolutionary Optimisation, Form-finding Parameters, Holistic Design Approaches, Optimisations, Performance Based Design, Structural Assessments, Architectural Design, Architectural Design, Energy Use, Environmental Impact, Optimization, Performance Assessment, Structural AnalysisCosts, Environmental impact, Evolutionary algorithms, Life cycle, Optimization, Sustainable development, Swarm intelligence, Building design, Computational architecture, Evolutionary optimisation, Form-finding parameters, Holistic design approaches, Optimisations, Performance based design, Structural assessments, Architectural design, architectural design, energy use, environmental impact, optimization, performance assessment, structural analysisArchitectural DesignBuilding DesignComputational OptimisationPerformance-Based DesignSwarm IntelligenceEvolutionary AlgorithmReview