Current text-based prompting for AI is a primitive, temporary phase, similar to MS-DOS. The future lies in more intuitive, constrained, and creative interfaces that allow for richer, more visual exploration of a model's latent space, moving beyond just natural language.

Tools like Notebook LM don't just create visuals from a prompt. They analyze a provided corpus of content (videos, text) and synthesize that specific information into custom infographics or slide decks, ensuring deep contextual relevance to your source material.

Advanced multimodal AI can analyze a photo of a messy, handwritten whiteboard session and produce a structured, coherent summary. It can even identify missing points and provide new insights, transforming unstructured creative output into actionable plans.

Today's AI is largely text-based (LLMs). The next phase involves Visual Language Models (VLMs) that interpret and interact with the physical world for robotics and surgery. This transition requires an exponential, 50-1000x increase in compute power, underwriting the long-term AI infrastructure build-out.

While many use Google's NotebookLM for summarizing sources, its ability to generate visually appealing and well-structured slide decks is a powerful, overlooked feature. By inputting a source like a transcript or blog post, users can create high-quality presentations, making it a valuable AI slide designer beyond just research.

The breakthrough performance of Nano Banana wasn't just about massive datasets. The team emphasizes the importance of 'craft'—attention to detail, high-quality data curation, and numerous small design decisions. This human element of quality control is as crucial as model scale.

Current LLMs abstract language into discrete tokens, losing rich information like font, layout, and spatial arrangement. A "pixel maximalist" view argues that processing visual representations of text (as humans do) is a more lossless, general approach that captures the physical manifestation of language in the world.

Cues uses 'Visual Context Engineering' to let users communicate intent without complex text prompts. By using a 2D canvas for sketches, graphs, and spatial arrangements of objects, users can express relationships and structure visually, which the AI interprets for more precise outputs.

Image models like Google's NanoBanana Pro can now connect to live search to ground their output in real-world facts. This breakthrough allows them to generate dense, text-heavy infographics with coherent, accurate information, a task previously impossible for image models which notoriously struggled with rendering readable text.