Realvis 5.0 IP Adapter 
Date/time: 20251109_151051 
Prompt: You're right, simplicity is key for a real-world construction! Let's dial it back to a more manageable small-to-medium size, focusing on elegant functionality and fewer rain-catching elements while still ensuring a musical output.  For a smaller, more approachable design, we could:  Reduce the number of individual tuned elements: Instead of hundreds, perhaps 15-30 carefully chosen pieces that offer a good melodic range within a specific scale (e.g., an octave and a half of a pentatonic scale, which is naturally harmonious).  Streamline the rain collection: A single, central collection funnel or a subtly sloped primary surface that feeds into a more direct, but still guided, drip system. The goal is to maximize the chance of a drop hitting a tuned element without needing dozens of small funnels.  Focus on verticality: A more tower-like or vertical panel design can make it more space-efficient and allow gravity to naturally direct the water downwards over the tuned elements.  Consider different materials for the tuned elements: Thin bamboo chimes, small metal bells, or precisely cut and polished stone/glass squares could offer varied aesthetics and sounds while remaining compact.  Let's visualize a concept that is around 1.5 to 2.5 meters (5 to 8 feet) tall and about 0.8 to 1.5 meters (2.5 to 5 feet) wide. This size would be substantial enough to create clear musical notes but still fit comfortably in a garden or on a larger patio without dominating the space. 
Steps: 200 
Guidance Scale: 3.75 
SPACE SETUP: 
Use Model Dtype: no 
Model Scheduler: Euler_a all_custom before cuda 
Model VAE: sdxl-vae to bfloat safetensor=false before cuda then attn_proc / scale factor 8 
Model UNET: ford442/RealVisXL_V5.0_BF16