Update README.md

README.md

@@ -83,12 +83,11 @@ base_model:
 
 - Flexible Design Scenarios:
 
-  ✅ Geometry: square, L-, T-, U-, and hollow-square-shaped buildings  
-  ✅ Roof types: flat, gable, hip – customizable attic/ridge height  
-  ✅ Orientation & windows: custom WWR, window placement, facade-specific controls  
-  ✅ Walls & materials: thermal properties, insulation types  
-  ✅ Internal loads: lighting, equipment, occupancy, infiltration/ventilation, schedules, heating/cooling setpoints  
-  ✅ Thermal zoning: configurable multi-zone layouts with core & perimeter zones  
+(1) Building Use: The engineer can effectively auto-model in a wide spectrum of building functional types, including commercial buildings (e.g., offices, retail spaces, hospitals, and facilities), residential buildings (from single-family houses to high-rise apartments), as well as mixed-use complexes with multiple functions for different spaces.
+(2) Geometry: It supports a diverse range of building forms and layouts, such as single- or multi-story structures; U-, L-, T-, square, courtyard, or editing irregular shapes; and various roof types including flat, gable, and hipped roofs. The tool also adapts to specifications of different orientations, window-to-wall ratios, and detailed internal zoning configurations.
+(3) Construction and Material: It can understand different compositions of building construction and envelope assemblies. This incorporates wall, roof, and glazing systems with diverse material choices and insulation levels, ranging from conventional construction practices to advanced high-performance solutions.
+(4) Operation and Schedule: It can auto-create descriptions for detailed operational patterns (e.g., space types) and schedules that drive building energy demand. This includes occupancy levels (e.g., residential use vs. office hours), and equipment operation profiles for lighting, appliances, and HVAC systems. In addition, it captures indoor environment control strategies across different zones, such as ventilation and infiltration rates, heating and cooling thermostat setpoints.
+(5) Building System: The engineer can auto-model a wide array of heating, ventilation, and air conditioning (HVAC) configurations, ranging from common setups such as VAV (Variable Air Volume), FCU (Fan Coil Unit), VRF (Variable Refrigerant Flow), heat pump, and packaged AC units, to hybrid systems that integrate multiple approaches (e.g., VAV+FCU) as well as advanced designs like DOAS (Dedicated Outdoor Air System)-based configurations. It also allows flexibility in simulating system performance under different equipment and control logics.
 
 <div align="center">
   <img src="https://huggingface.co/EPlus-LLM/EPlus-LLMv2/resolve/main/figs/v2_prompt-model.png" alt="Prompt-Model Description" width="600"/>