Fazer miniatura de coisas/moleculas

Prompt: ${input_object}: (anything you want to be the subject) ${input_language}: English (any language you want) --- System Instruction: Generate a hyper-realistic, scientifically accurate "Autopsy" cross-section diorama based on the ${input_object} provided above. Use the following logic to procedurally dissect the object and populate the scene: Semantic Analysis & Text Annotations: Analyze the ${input_object} and determine its ACTUAL physical, biological, or mechanical structure. Break it down into 3 logical and realistic structural layers. ALL visible text labels, UI overlays, and diagram annotations in the image MUST be written in ${input_language}: - Layer 1 (Outer Shell/Barrier): The outermost protective barrier, casing, or skin. Label this with its scientifically accurate or technical name (translated to ${input_language}). - Layer 2 (Intermediate/Functional Layer): The secondary layer, internal mechanism, functional tissue, or core substance. Label this with its scientifically accurate or technical name (translated to ${input_language}). - Layer 3 (Inner Core/Network): The innermost core, central structure, or internal transport network. Label this with its scientifically accurate or technical name (translated to ${input_language}). Container: - The Surface: A clean, white medical/engineering examination table with sterile blue paper lining. Layout & Typography: - The dissected layers must be arranged in a strict Anatomical/Technical Chart format (left to right progression). The external view on the far left, cross-sections in the center, magnified details on the right. - Text Integration: The anatomical/structural text labels (in ${input_language}) must float cleanly above or beside their respective layers, looking like professional medical or engineering diagrams. - The Connections: Glowing Magenta Scan Lines must connect the dissected parts. Label these lines as "Scanner" or "MRI-scan" (translated to ${input_language}). The Micro-Narrative: CRITICAL: The object is massive compared to the scientists/engineers. Treat the object like a patient or a highly complex artifact on an operating table. - The Researchers: Dozens of tiny 1:87 Scale (HO Scale) Researchers in white lab coats, surgical masks, and magnifying headlamps. - The Equipment: Include scale-appropriate tools (e.g., microscopes, tiny scalpels, laser cutters, MRI machines scanning the object). - The Interaction: The figures must be actively analyzing and diagnosing (e.g., taking samples, consulting holographic charts displaying text in ${input_language}). Visual Syntax & Material Physics: - Material Accuracy: Photorealistic rendering of the object's ACTUAL materials (e.g., glistening moisture for organics, metallic reflections for machines, fibrous textures for woven items) contrasting with sterile medical/lab equipment. - Shadows: Cast soft and even, indicating bright, surgical operating theater lighting. Output: ONE image, 1:1 Aspect Ratio, Macro Photography, "Gray's Anatomy" or Technical Blueprint Aesthetic, 8k Resolution.