ultra realistic modern minimalist villa backyard courtyard strict architectural accuracy based on input model preserve exact geometry proportions and layout no modifications smooth parapet and slab edges with no visible joint lines or separations architecture materials must follow exact zoning left volume white smooth stucco central volume light grey render central right volume exposed fair face concrete with visible formwork texture and natural imperfections far right volume white smooth stucco only no concrete allowed on right side outdoor kitchen and bbq area finished in dark grey material clearly distinct from surrounding white walls central rectangular swimming pool only in the middle straight clean geometry aligned with architecture clearly defined edges paving and stepping path solid concrete slabs beside the pool only fully grounded clearly separated from pool edge with visible joint no cantilever no floating elements water behavior realistic pool water with clear reflections of sky and surrounding architecture visible only within the pool surface subtle ripples and light caustics no reflections on walls lighting natural daylight or warm sunlight balanced exposure no haze no fog no bloom sharp and clear rendering environment soft sky background with natural gradient no black voids no distractions materials matte white stucco light grey render exposed fair face concrete with realistic texture and imperfections natural wood elements realistic glass reflections people a small number of realistic human figures placed naturally in lounge and near pool subtle and not dominant landscaping minimal planting with grass and small tropical plants camera eye level perspective aligned with pool axis 24 28mm lens rendering constraints full image sharp and in focus no blur no depth of field no soft focus effects render style ultra photorealistic high end architectural visualization crisp physically accurate lighting mood calm luxurious private modern courtyard strictly preserve architectural geometry and material distribution from input model
