Ayar raises $35 million to develop high-speed light-based chip interconnects
Ayar Labs, a startup employing silicon processing techniques to develop high speed, high density, low power optical based interconnect “chiplets” and lasers to replace traditional electrical-based I/O, today raised $35 million. The company says the proceeds will be put toward product development and commercialization of its in-package optical interconnect solution as well as growing Ayar’s footprint internationally.
Making transistors — the tiny on-off switches inside silicon chips — smaller and smaller has enabled the computer revolution and the $1 trillion-plus electronics industry. But the copper interconnections between transistors on electronics are a major impediment to progress. The resistive-capacitive delay, or RC delay, within interconnects has prevented transistors from becoming faster as they shrink, as is normally the case. Moreover, copper remains unreliable at small dimensions even with insulators made of innovative new materials.
Ayar, which was cofounded in 2015 by chief scientist Mark Wade, aims to develop products that move data from chip to chip using light instead of electricity transmitted through copper wires. Based on a decade of research and collaboration between MIT, the University of California, Berkeley, and Colorado University Boulder, Ayar claims to have created a solution that overcomes the power and performance scaling challenges of semiconductors as well as the interconnect bandwidth bottleneck between those devices.
Photonic circuits like Ayar’s, which are also being investigated by startups like Lightelligence, LightOn, and Lightmatter, require only a limited amount of energy because light produces less heat than electricity. They also benefit from reduced latency and are less susceptible to changes in temperature, electromagnetic fields, and noise.
Ayar’s chiplets and multi-wavelength lasers replace electrical-based I/O. These chiplets, the company says, can drive a 1000 times improvement in interconnect bandwidth density at 10 times lower power, enabling new system architectures for AI, cloud, high-performance computing, 5G, and lidar.
For instance, Ayar’s TeraPhy chiplet is theoretically capable of tens of terabytes per second of bandwidth with a modular multiport design with each port carrying 8 channels of light. It has a wide, high-bandwidth electrical interface to connect to partner silicon and a light supply called SuperNova, a photonic integrated circuit that generates eight or sixteen wavelengths of O-band light, multiplexes them, splits the power, and amplifies it to eight or sixteen output ports. Ayar says that SuperNova can supply light for 256 channels of data, which translates to 8.192 terabytes per second.
Santa Clara-based Ayar’s series B round, which was co-led by Downing Ventures and BlueSky Capital alongside new investors Applied Ventures, Castor Ventures, Downing Ventures, and SGInnovate, brings the company’s total raised to date to over $60 million. Existing investors including BlueSky Capital, Founders Fund, GlobalFoundries, Intel Capital, Lockheed Martin Ventures, and Playground Global also participated.
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