Shortest Path Solvers. From Software To: Wetware

"Wetware"—the biological systems of living organisms—approaches the same problem through the lens of physics and chemistry rather than code. The most famous example is the , a bright yellow slime mold.

We are now entering an era where software and wetware are merging. seeks to design computer chips that mimic the decentralized, energy-efficient pathfinding of the brain. While a supercomputer requires massive wattage to solve complex logistical graphs, a human brain (or a slime mold) solves them using the energy of a dim lightbulb. Conclusion Shortest Path Solvers. From Software to Wetware

When placed in a maze with food at two ends, the slime mold doesn't "calculate" in the traditional sense. Instead, it expands its body to fill the space and then retracts its protoplasmic tubes from dead ends, strengthening only the paths that provide a steady flow of nutrients. In a famous 2010 study, researchers placed food flakes in a pattern mimicking Tokyo’s surrounding cities; the slime mold recreated the layout of the Japanese rail system with startling efficiency. seeks to design computer chips that mimic the