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Oriole moves data with light, not copper

3 min read
14:17UTC

Oriole Networks deployed what it calls the world's first large-scale photonic AI network at London Tech Week, claiming an 81% cut in the energy data centres spend shuffling data.

TechnologyDeveloping
Key takeaway

Oriole's photonic interconnect claims to cut data-centre transmission energy 81%, easing the grid limit on UK compute.

Oriole Networks, a London company, deployed what it calls the world's first large-scale photonic AI network at London Tech Week, moving data between chips with light rather than electrical signals 1. It ran the deployment through ARIA (the Advanced Research and Invention Agency) and its Scaling Inference Lab, partnered with AMD, and claimed an 81% cut in the energy data centres spend shuffling data over conventional copper interconnects 2.

The physics explains the figure. In a large AI cluster, most of the power goes not into computation but into pushing data between thousands of chips down copper wires that heat up and slow over distance. Swap the copper for optical links and that transmission cost collapses. The 81% claim is Oriole's own and has not been independently benchmarked at production scale.

That figure, if it holds, speaks directly to the saturated London data-centre grid Lowdown flagged in April , where power is the binding constraint on adding compute. An operator could fit more compute under the same fixed power envelope. Oriole is among the British firms named in the state hardware plan announced that week, with AMD here as a foreign partner to a UK deployment, nothing more.

Deep Analysis

In plain English

Inside AI data centres, thousands of computer chips need to exchange data constantly. Until now, that communication has happened through copper cables, which generate heat and use significant amounts of electricity. Oriole Networks has built a system that replaces those copper links with fibre-optic cables, moving data as pulses of light rather than electrical current. Light uses far less energy for the same job. At London Tech Week in June 2026, Oriole demonstrated this technology working at scale for the first time anywhere, in partnership with AMD (the chip company) and funded through ARIA, the UK's government blue-sky research agency. The company claims an 81% reduction in energy used for data transmission. That matters because London's data-centre grid is already full, and operators cannot get permission to use more electricity. A technology that cuts the energy cost of moving data inside a building means more AI computing power from the same power supply.

Deep Analysis
Root Causes

Two infrastructure-level constraints converged in 2026 to create a market pull for photonic interconnects that did not exist two years earlier, and they explain why Oriole chose London Tech Week as the deployment date rather than a private demonstration.

London's data-centre grid reached saturation in the Slough and West London corridor in April 2026, with 35 data centres already operational and National Grid refusing new large-load connections. For AMD and any GPU cluster operator, photonic interconnect now offers the only mechanism to increase compute density within a fixed power envelope: if you cannot get more electricity to the building, you must extract more compute from the electricity you have.

AMD's partnership with Oriole, rather than NVIDIA, reflects AMD's specific competitive position. NVIDIA's NVLink interconnect is copper-based and proprietary, locking customers into NVIDIA's own ecosystem. AMD's ROCm software stack is chip-agnostic by design, making AMD the natural partner for a photonic interconnect company that needs to work across multiple GPU architectures.

First Reported In

Update #8 · London startup raises Britain's own AI model

The Next Web· 14 Jun 2026
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