
Unlike traditional processors which use electric current, LightOn’s photonic coprocessor transmits and processes information using light. The company's photonics coprocessor was added to the Jean Zay supercomputer under a pilot program and represents not only a technological breakthrough but also a first for the industry.
So far, LightOn’s technology has successfully been used by a community of researchers since 2018.
Now though, its photonic coprocessor will be available to select users of the Jean Zay research community over the next few months who will use the device to conduct research on machine learning foundations, differential privacy, satellite imaging analysis and natural language processing (NLP) tasks.
LightOn Photonic Co-processor. LightOn's Optical Processing Unit (OPU) uses photonics to speed up randomized algorithms at a very large scale. However, it also works in tandem with standard silicon CPUs and Nvidia's A100 GPU technology.
The company's Aurora 2 OPU powers its Appliance integrated computing unit which is built i so that it can be quickly and easily integrated in data centers or in this case, a supercomputer. According to LightOn, its Appliance can reach a peak performance of 1.5 PetaOPS or 1.5 X 1,000,000,000,000,000 operations per second and can deliver performance that is 8 to 40 times higher than GPU-only acceleration, like normal mainframes.
CEO and co-founder of LightOn, Igor Carror provided further insight into the pilot program that saw its Appliance integrated into the Jean Zay supercomputer in a press release, saying:
“This pilot program integrating a new computing technology within one of the world’s Supercomputer would not have been possible without the particular commitment of visionary agencies such as GENCI and IDRIS/CNRS. Together with the emergence of Quantum Computing, this world premiere strengthens our view that the next step after exascale super-computing will be about hybrid computing.”