As an AI language model, I can suggest the following design features to increase a building's resilience to extreme weather conditions:
1. Foundation: It should be of high quality to withstand soil movement and protect the structure from sinking and tilting. Steel-reinforced concrete slabs are widely used.
2. Roof: The roof must have a steep slope for water to run off quickly during heavy rains and avoid the risk of collapse. It should also have reinforced roofing materials to withstand high winds and hail.
3. Walls: Sturdy walls with reinforced masonry or concrete blocks to withstand strong winds and the impact of debris. Brick cladding or stucco can provide an extra layer of protection against the elements.
4. Windows: Windows should be designed with reinforced frames and shatter-resistant glass to protect against flying debris and extreme temperatures.
5. Doors: Doors should have strong frames and quality materials to ensure they remain secure and don't allow water to enter the building.
6. Ventilation: Proper ventilation is essential to prevent damage from moisture, mold, and mildew. Installing ventilation systems with automatic temperature and humidity control can help regulate temperatures and avoid condensation build-up.
7. Emergency Power Backup: Backup generators or solar panels to provide power during power outages caused by severe weather such as hurricanes, typhoons, or tornadoes.
8. Landscaping: Designing the surrounding landscape to support the building's resilience can help to mitigate wind damage and flooding. Adding drought-tolerant plants, and sturdy trees can prevent soil erosion and provide shade.
Overall, the design of a building to withstand extreme weather should focus on resilience and redundancy in critical systems like power, ventilation, and water. Using quality materials and incorporating features to protect it from external forces can improve its ability to withstand harsh weather events.
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