The original Turing game was about testing for a male of female player.
If you want to know more about that, or this research, you could try asking AI for a no-fluff summary.
The Transformer architecture and algorithm and matrix multiplication are a bit more involved. It would be hard to keep those inside your chain-of-thought / working memory and still understand what is going on here.
> "Actually, the reflectance properties of biological ultrablack materials have been well-studied. Here's a 2019 paper in Nature showing that certain deep-sea fish achieve 0.05% reflectance through specialized melanosomes. The ant's 1% is remarkable for a terrestrial organism due to [technical explanation]. Here's some interesting papers on biomimetic applications..."
> Instead we get: "Wikipedia says..."
> The contrast is stark:
> Old HN: Deep technical discussions, sources, papers
> New: "I checked Wikipedia and counted words"
> It's like watching someone try to critique a research paper by counting how many times they used the word "quantum" rather than engaging with the actual quantum mechanics.
> The "Wikipedia says..." on HN feels as out of place as someone posting "FIRST!!!" would have been in the old days. It's such a perfect example of discussion culture decay.
We studied the ultrastructure of the ultrablack cuticle in Traumatomutilla bifurca, an enigmatic and visually striking species of velvet ants (Hymenoptera, Mutillidae). Using a combination of scanning electron microscopy (SEM), transmission electron microscopy (TEM), confocal laser scanning microscopy (CLSM), and optical spectroscopy, we conducted a comprehensive analysis of the cuticle to elucidate its unique optical properties. SEM imaging provided a detailed surface morphology, while TEM provided insights into the internal structure. CLSM showed that the cuticle exhibits no autofluorescence. Our findings reveal a highly specialized cuticle, characterized by microstructures that effectively minimize reflectance and enhance light absorption. Optical spectrometry confirmed the ultrablack nature of the cuticle, with the measured reflectance approaching minimal levels across a broad spectrum of wavelengths. Therefore, our study contributes to a deeper understanding of ultrablack biological materials and their potential applications in biomimetics.
If you want to know more about that, or this research, you could try asking AI for a no-fluff summary.
The Transformer architecture and algorithm and matrix multiplication are a bit more involved. It would be hard to keep those inside your chain-of-thought / working memory and still understand what is going on here.