Present a clear, 45° top-down view of a vertical (9:16) isometric miniature 3D cartoon scene, highlighting iconic landmarks centered in the composition to showcase precise and delicate modeling.
Present a clear, 45° top-down view of a vertical (9:16) isometric miniature 3D cartoon scene, highlighting iconic landmarks centered in the composition to showcase precise and delicate modeling. The scene features soft, refined textures with realistic PBR materials and gentle, lifelike lighting and shadow effects. Weather elements are creatively integrated into the urban architecture, establishing a dynamic interaction between the city's landscape and atmospheric conditions, creating an immersive weather ambiance. Use a clean, unified composition with minimalistic aesthetics and a soft, solid-colored background that highlights the main content. The overall visual style is fresh and soothing. Display a prominent weather icon at the top-center, with the date (x-small text) and temperature range (medium text) beneath it. The city name (large text) is positioned directly above the weather icon. The weather information has no background and can subtly overlap with the buildings. The text should match the input city's native language. Please retrieve current weather conditions for the specified city before rendering. City name: İSTANBUL
Create stunning 45° isometric miniature cities with integrated weather elements. This prompt blends stylized 3D cartoon aesthetics with realistic PBR materials and soft lighting. Features a clean layout with a title, weather icon, date, and temperature, making it perfect for daily weather updates, UI design concepts, or social media posts. Just replace the city name to generate!
Generates a high-quality, 3D isometric miniature scene of a specified city using Nano Banana. It uniquely retrieves real-time weather data to dynamically adjust the lighting and atmosphere of the scene, creating a realistic and immersive miniature world.
Create a top-down 3D cartoon scene showcasing iconic landmarks with integrated weather dynamics, using PBR materials and lifelike lighting.
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