It's time to look at things from a new angle. 🔍
Quantum computing's promise is one of unmatched compute power. With a fault tolerant quantum computer one may run operations that would otherwise take millennia. But as we edge closer to this frontier, a crucial question arises: can we achieve so without a massive energy footprint? ⚡️
We’re teaming up with Quandela, EDF, and CNRS on a unprecedented project to find out. 🤝
Yes, quantum computers could crunch certain problems with exponentially fewer steps than classical computers, but this doesn't always mean they're low on energy demand. We need to be intentional about designing quantum tech that’s energy-efficient right from the start.
In this ambitious project, OECQ (Optimisation Energetique des Circuits Quantiques), we will begin by estimating the energy consumption of our quantum computers on industry use cases. Then, we’ll roll up our sleeves to develop new, energy-efficient quantum hardware. Our goal? Showcase a reduction in the energy footprint of our quantum chips by the project’s end.
Building the first fault-tolerant quantum computer is one of this century's greatest technological challenges. Doing so responsibly is essential. 🌍
For more info, tap here ➡️ https://lnkd.in/eyXjcqW6
#QuantumComputing #EnergyEfficiency #TechInnovation