We uncover how river networks are not random but self-organizing, guided by scale-invariant math. We'll explore Hack's Law and Horton’s laws, the bifurcation ratio, and how fractal geometry defines the network's complexity, while stream power explains how rivers carve their channels. We'll also discuss the surprising log-normal width of headwater streams around 32 cm, the restoration implications, and even how these rules might apply to river-like patterns on Mars and Titan. Note: This...
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We uncover how river networks are not random but self-organizing, guided by scale-invariant math. We'll explore Hack's Law and Horton’s laws, the bifurcation ratio, and how fractal geometry defines the network's complexity, while stream power explains how rivers carve their channels. We'll also discuss the surprising log-normal width of headwater streams around 32 cm, the restoration implications, and even how these rules might apply to river-like patterns on Mars and Titan. Note: This...
NVIDIA Rubin: Extreme Co-Design and the Invisible AI Infrastructure
Intellectually Curious
4 minutes
1 week ago
NVIDIA Rubin: Extreme Co-Design and the Invisible AI Infrastructure
Join us as we unpack the NVIDIA Rubin platform—the next-gen AI supercomputer built around extreme co-design. We map the six-chip system (Vera CPU, Rubin GPU, NVLink 6, Connect X9, BlueField 4 DPU) and its groundbreaking bandwidth and efficiency gains, from 3.6 TB/s per GPU to 10x lower inference costs and MOE training with 4x fewer GPUs. We explore the Inference Context Memory Storage Platform, the rise of agentic AI, and what Rubin means for scaling confidential AI at the forefront of indust...
Intellectually Curious
We uncover how river networks are not random but self-organizing, guided by scale-invariant math. We'll explore Hack's Law and Horton’s laws, the bifurcation ratio, and how fractal geometry defines the network's complexity, while stream power explains how rivers carve their channels. We'll also discuss the surprising log-normal width of headwater streams around 32 cm, the restoration implications, and even how these rules might apply to river-like patterns on Mars and Titan. Note: This...
