Mining is an electricity business with a compute wrapper. Reduce switching power so you can push more hash per watt, improve thermals, and increase profit density.
Mining competitiveness is dominated by electricity cost. If you can do the same work with less electrical input, you widen margins or stay profitable in harsher markets.
Power also becomes a mechanical problem: heat removal, fan noise, reliability, and density caps. Reducing switching power reduces heat at the source.
High-toggle logic where dynamic switching dominates energy draw.
Power-hungry distribution networks that run “always-on.”
Buffers and SRAM arrays where activity scales with throughput.
Start with targeted blocks (arrays, clock trees, memory macros), then expand to broader logic once validated.
ASIC designers, mining OEMs, hosting providers, and anyone whose margins move with power price and cooling constraints.
If you want a more “pitchy” version later, I can convert this into a crypto-specific narrative like your AI/DC deck style.
