With the development of high-rise and high-density cities around the world, the land use pattern is changing, and the building pattern is gradually moving towards high-rise and high-density, which leads to the rising of urban temperature and affects human comfort and quality of life. In this study, the national residences of different configurations in the capital city of Taiwan-Taipei are taken as the research object, and three high-rise high-density areas, such as the Townhouse type (Zhongxiao commercial circle-Guangwu new village), the Duplex type (Shida commercial district-Taishun public housing),and the Cruciform type (Minsheng community-Pine Hill new village), using the field measurement and computational fluid dynamics software as the analysis tool, the overall micro-climate simulation analysis was performed using the data obtained from the TETO 480 multi-function environmental measuring instrument and the Sky View Factor (SVF), by comparing the volumetric retreat scale of different housing configurations and sky visibility, and exploring the relationship between volumetric retreat scale and SVF, the effects of road width (W), retraction height (H), retraction depth (D) and SVF on urban microclimate were analyzed. The results show that both the type and scale of housing configuration had an influence on the SVF and the comfort degree of the environment. The best microclimate environment is the windmill cross configuration, and the SVF index is higher with the depth of retreat Through the conceptual urban simulation scheme, it can be concluded that the design for improving the pedestrian microclimate environment should be based on the base retreat, while that for improving the urban canopy microclimate environment should be based on the top retreat. As a whole, the pedestrian-scale microclimate can be improved more effectively by the retrogression design of the building volume on the upwind side than on the leeward side. The effect of different configurations on the comfort is as follows: The Windmill Cross, double mosaic, and multi-span configurations. The overall design of 12m in the bottom of the Windmill Cross is the best one for the visibility and comfort of the sky.