European Innovation Council Awards 12.5M to Laser Computing Startup

LightSolver, an Israeli startup pioneering laser-based computing, has secured €12.5 million in funding from the European Innovation Council (EIC) to advance its all-optical supercomputer technology. This recognition places LightSolver among 68 companies chosen from a highly competitive pool of 969 applicants. The company’s novel processor, the Laser Processing Unit, harnesses the natural properties of light to execute complex mathematical operations, enabling rapid and energy-efficient processing of compute-intensive workloads.

Applications such as computer-assisted engineering, bio-science computations, and intractable optimization problems can be greatly accelerated by LightSolver’s platform. CEO and co-founder Ruti Ben-Shlomi, Ph.D., a physicist from the Weizmann Institute, said the funding is a direct endorsement of their commitment to building a more energy-efficient computing paradigm.

Advancing All-Optical Supercomputing with Laser-Based Computing

The European Innovation Council (EIC) has awarded €12.5 million to LightSolver, a startup pioneering laser-based computing, to advance its all-optical supercomputer technology. This recognition places LightSolver among 68 companies chosen from a highly competitive pool of 969 applicants. The funding is a direct endorsement of the company’s commitment to building an energy-efficient supercomputer that drastically reduces the industrial carbon footprint and the Total Cost of Computing (TCoC).

LightSolver’s novel processor, the Laser Processing Unit™ (LPU), harnesses the natural properties of light to execute complex mathematical operations. This enables industry and research to process compute-intensive workloads in a rapid and energy-efficient way. Applications such as computer-assisted engineering (CAE), bio-science computations, and intractable optimization problems are amongst the workloads that can be greatly accelerated by LightSolver’s platform.

The LPU is poised to outpace and outperform quantum and supercomputers due to its unique properties. It utilizes all-optical coupled lasers that require no electronics to compute, enabling it to be as small as a traditional desktop computer while offering unrivaled scalability, low power requirements, and room temperature operation. This innovative computing method has the potential to revolutionize various sectors, including computing, energy, telecom, pharmaceutical, and medical.

The Need for Energy-Efficient Computing

The amount of energy consumed by computing globally has been growing exponentially and is becoming unsustainable. Classical computers are significant contributors to greenhouse gas emissions, with data centers alone accounting for approximately 2% of global electricity consumption. The need for a new computing paradigm that reduces the environmental impact of computing is pressing.

LightSolver’s laser-based processor offers a promising solution to this problem. By harnessing the natural properties of light, it can tackle large and complex computations faster than GPUs while being much less environmentally demanding than quantum computers. This technology has the potential to significantly reduce the industrial carbon footprint and the Total Cost of Computing (TCoC).

The European Innovation Council’s Support for Breakthrough Innovations

The European Innovation Council (EIC) is an initiative by the European Commission to support high-potential startups, small and medium-sized enterprises (SMEs), and researchers in developing and scaling breakthrough innovations. Launched to drive Europe’s leadership in new technologies and innovation, the EIC aims to identify, support, and invest in the most promising innovative projects across various sectors.

The EIC’s funding is a significant endorsement of LightSolver’s technology and its potential to revolutionize the computing industry. The company will leverage the resources granted by the EIC to advance the commercialization of its platform and accelerate its growth in the high-performance computing (HPC) sector.

The Future of High-Performance Computing

LightSolver’s all-optical supercomputer has the potential to transform various industries, including computer-assisted engineering, bio-science computations, and intractable optimization problems. By harnessing the natural properties of light, it can process compute-intensive workloads in a rapid and energy-efficient way.

The company’s technology is poised to have a significant impact on the high-performance computing (HPC) sector. With its unique properties, it has the potential to outpace and outperform quantum and supercomputers, enabling industry and research to tackle complex problems that were previously unsolvable.

As LightSolver continues to advance its all-optical supercomputer technology, it is likely to have a profound impact on various sectors, driving innovation and reducing the environmental footprint of computing.