Putting out to Pasture

“Putting out to Pasture” – A cartoon that illustrates how silicon is soon reaching the end of its life for computing.
AI has already had its “ChatGPT moment,” moving almost overnight from research labs into everyday life and turning software into something that can talk, reason, write, code and assist. Yet the current AI boom still depends on a brute-force progress of building ever more chips, more power and ever-larger infrastructure.
That explains why so much capital is now flowing into data-centre architecture, from bigger clusters to new power infrastructure. In the short term, this is necessary, because AI companies need capacity now and the market is rewarding whoever can deliver it fastest. But we are stretching silicon, electricity grids and classical computing architectures to do work they were never designed to handle at this scale.
The more important shift is not simply toward larger server farms, but toward a post-silicon computing stack in which AI, quantum computing and biocomputing reinforce one another. Quantum computing is aimed at problems classical machines struggle with, including molecular simulation, materials discovery and cryptography. Companies such as IBM, IonQ, Rigetti and PsiQuantum are attacking the problem through different hardware paths, from superconducting qubits to trapped ions and photonics. As Google Quantum AI founder Hartmut Neven said after the Willow milestone, “useful, very large quantum computers can indeed be built.”
Biocomputing represents the other frontier, replacing the logic of forcing nature into silicon with the idea of using biology itself as a computational medium. Companies such as Cortical Labs are developing neuron-based “wetware” systems, while Biomemory and Catalog are working on DNA-based data storage for ultra-dense, long-term archiving.
The future will not see AI replaced, but just harnessed differently. Where AI becomes the intelligence layer, quantum provides the simulation power for the hardest problems, and biocomputing offers density and efficiency. The future is not bigger data centres forever, but a stranger and smarter computing stack beyond silicon.
