Analysis
Building Information Modeling (BIM) has emerged as the most effective tool available to clearly communicate the incorporation of specific green building strategies to the owner and the design team.
Identifies the impact site conditions will have on a building and the impact a building will have on the site.
Click to read more on Massing Analysis.Massing AnalysisDesign team is able to optimize a building’s energy and daylighting performance in the early stages of the design process.
Click to read more on Solar Access Analysis.Solar Access AnalysisOptimizes a building for energy performance and occupant comfort.
Click to read more on Microclimate Analysis.Microclimate AnalysisUnderstanding the effects wind has on a building’s design is critical to energy performance and comfort.
Click to read more on Wind Analysis.Wind AnalysisA graphic representation of the state or condition of the air at any particular time, which is vital to occupant comfort.
Click to read more on Thermal Comfort Analysis.Thermal Comfort AnalysisThe development of an energy model is the key factor in energy conservation in new buildings, allowing them to optimize energy performance at the earliest stages of design.
Click to read more on Energy Analysis.Energy AnalysisTaking advantage of passive design strategies, such as solar energy, to optimize a building’s energy use.
Click to read more on Solar Optimization Analysis.Solar Optimization AnalysisUnderstanding the effects wind has on a building’s design is critical to energy performance and comfort.
Click to read more on Computational Fluid Dynamics Analysis.Computational Fluid Dynamics AnalysisMaximizes use of natural daylight, evaluates new lighting fixtures and determines effectiveness of replacing electrical lighting fixtures with non-electrical fixtures.
Click to read more on Daylighting Analysis.Daylighting AnalysisDetermines which type of glazing is most effective at providing access to views, while lowering initial capital costs.
Click to read more on Spatial Visibility Analysis.Spatial Visibility AnalysisIdentifies the environmental implications of choosing general building components and assemblies.
Click to read more on Life Cycle Analysis.Life Cycle AnalysisDetermines how sound will react within a specific design.
Click to read more on Acoustic Analysis.Acoustic AnalysisA realistic image is created using realistic images and animation, so all team members can better understand the intent of the proposed design.
Click to read more on Visualization and Rendering.Visualization and RenderingThere is no more effective way to bring a project to life than through 3D Visualization.
Click to read more on Virtual Visualization.Virtual VisualizationConveys the design relationship to a building’s site and its larger surrounding environment.
Click to read more on Animations.Animations
Click to read more on Massing Analysis.Massing AnalysisDesign team is able to optimize a building’s energy and daylighting performance in the early stages of the design process.
Click to read more on Solar Access Analysis.Solar Access AnalysisOptimizes a building for energy performance and occupant comfort.
Click to read more on Microclimate Analysis.Microclimate AnalysisUnderstanding the effects wind has on a building’s design is critical to energy performance and comfort.
Click to read more on Wind Analysis.Wind AnalysisA graphic representation of the state or condition of the air at any particular time, which is vital to occupant comfort.
Click to read more on Thermal Comfort Analysis.Thermal Comfort AnalysisThe development of an energy model is the key factor in energy conservation in new buildings, allowing them to optimize energy performance at the earliest stages of design.
Click to read more on Energy Analysis.Energy AnalysisTaking advantage of passive design strategies, such as solar energy, to optimize a building’s energy use.
Click to read more on Solar Optimization Analysis.Solar Optimization AnalysisUnderstanding the effects wind has on a building’s design is critical to energy performance and comfort.
Click to read more on Computational Fluid Dynamics Analysis.Computational Fluid Dynamics AnalysisMaximizes use of natural daylight, evaluates new lighting fixtures and determines effectiveness of replacing electrical lighting fixtures with non-electrical fixtures.
Click to read more on Daylighting Analysis.Daylighting AnalysisDetermines which type of glazing is most effective at providing access to views, while lowering initial capital costs.
Click to read more on Spatial Visibility Analysis.Spatial Visibility AnalysisIdentifies the environmental implications of choosing general building components and assemblies.
Click to read more on Life Cycle Analysis.Life Cycle AnalysisDetermines how sound will react within a specific design.
Click to read more on Acoustic Analysis.Acoustic AnalysisA realistic image is created using realistic images and animation, so all team members can better understand the intent of the proposed design.
Click to read more on Visualization and Rendering.Visualization and RenderingThere is no more effective way to bring a project to life than through 3D Visualization.
Click to read more on Virtual Visualization.Virtual VisualizationConveys the design relationship to a building’s site and its larger surrounding environment.
Click to read more on Animations.Animations