Browse macro investment themes, each backed by one or more AI-validated theses with full basket analysis, scoring, and paper trade results.
NVIDIA's shift to 800V DC (HVDC) architecture for AI data centers addresses exploding rack power densities (100kW→1MW+), creating a multi-year capex tailwind for power infrastructure, wide-bandgap semiconductors, and cooling specialists. Early movers with NVIDIA-validated reference designs are positioned to capture disproportionate share as 2026–2027 ramps begin.
The investment thesis posits that uranium prices are near a government-backed support level, offering an asymmetric risk/reward profile. A rebound in uranium prices will disproportionately benefit domestic producers, developers, and physical trusts.
The explosive growth of AI and cloud computing is driving unprecedented electricity demand from data centers. Nuclear energy—both conventional and next-gen SMRs—is emerging as the only scalable, clean baseload power source capable of meeting this demand, creating a multi-decade investment opportunity across the nuclear value chain.
Companies that have inherited or built entrenched positions in the semiconductor supply chain possess durable competitive advantages. These positions—spanning lithography, specialty materials, advanced packaging, and foundry—create high switching costs and pricing power as AI, onshoring, and geopolitical fragmentation drive sustained demand.
Western rare earth supply chains face a reckoning as EV motor, wind turbine, and defense magnet demand surges while China dominates 85%+ of processing capacity. Geopolitical tensions and supply security concerns are forcing massive investment in non-Chinese supply chains, creating opportunities across miners, processors, and magnet manufacturers. The thesis hinges on structural supply deficits in NdFeB permanent magnets forming this decade.
AI agents represent the next paradigm shift in computing, transitioning from copilots to autonomous agents that can reason, plan, and execute multi-step workflows. This thesis centers on companies building infrastructure, platforms, and applications for the agentic AI era.
Swarm drone technology represents a paradigm shift in both military and commercial applications, enabled by AI advancements, declining hardware costs, and lessons from recent conflicts. The thesis centers on autonomous coordinated drone networks disrupting traditional defense systems, logistics, and infrastructure monitoring at fraction of conventional costs.