Full integration of building energy modelling into the design and retrofit process has long been a goal of building scientists and practitioners. However, significant barriers still exist. Among them are the lack of available: (1) configurable technology stacks for performing both small- and large-scale analyses, (2) different classes of algorithms compatible with common design workflows, and (3) analysis tools for effectively visualizing large-scale simulation results. This article discusses the OpenStudio® Analysis Framework: a scalable analysis framework for building energy modelling that was developed to overcome the three barriers listed above. The framework is open-source and scalable to facilitate wider adoption and has a clearly defined application programming interface upon which other applications can be built. It runs on high-performance computing systems, within cloud infrastructure, and on laptops, and uses a common workflow to enable different classes of algorithms. Lessons learned from previous development efforts are also discussed.

将建筑能源模型完全集成到设计和改造过程中一直是建筑科学家和实践者的目标。但是，仍然存在重大障碍。其中包括：（1）用于执行小型和大型分析的可配置技术堆栈；（2）与通用设计工作流程兼容的不同类别的算法；（3）用于有效地可视化大规模的分析工具。仿真结果。本文讨论了OpenStudio®分析框架：这是一种可扩展的建筑能耗模型分析框架，旨在克服上述三个障碍。该框架是开源的，并且可扩展以促进更广泛的采用，并且具有明确定义的应用程序编程接口，可以在其上构建其他应用程序。它运行在云基础架构内的高性能计算系统，笔记本电脑上，并使用通用的工作流程来启用不同种类的算法。还讨论了从以前的开发工作中学到的经验教训。