Near-zero
energy computing.
Maximum compute, minimal heat.
Conventional chips waste all their energy as heat. Vaire's groundbreaking technology will recover and recycle most of its energy, delivering low energy, high performance compute for the AI era.
Chips that rely on ever increasing energy are backwards.
It’s time for reversible computing.
The Problem
Existing AI infrastructure generates too much heat.
Advances in AI will unlock unprecedented progress. But the current hardware can't power the potential. That's because the energy demands of classical chips are unsustainable, driving up costs and using more and more water for cooling. For every calculation a classical chip makes, it takes inputs, generates outputs and then releases, as heat, the inputs it no longer needs. The most surprising part? It doesn't have to be this way.
The Solution
With Vaire, information is power.
We are building hardware to break the rule that says increasing computing power requires increasing energy consumption. That’s because Vaire’s computing method generates negligible amounts of heat. In reversible computing, instead of running a calculation in only one direction (inputs followed by outputs), the computing can be done in both directions. This means instead of having to emit the input information as heat, it's recycled, powering new calculations.
We’re entering a new dimension of hardware...
...Where less
is more
The heat produced by classical chips defines where and how they can be used. Cooler chips open up endless possibility.
Vaire chips will open up new architectures and topologies, delivering radical improvements in token speed, throughput and latency within power and cooling constraints — maximising performance without demanding further energy infrastructure.
A world of possibilities.


Astronomical opportunities
Vaire opens up astronomical opportunities for data centers, not only in terms of the huge performance increases and savings they could achieve with near-zero energy chips, but also the new frontiers they could inhabit by utilising Vaire’s reversible adiabatic advantage.
Press
09 March, 2025