Unlock Higher Levels of Connectivity

Building the world’s fastest and most energy-efficient microLED-based optical interconnects for AI data centers

Unlock higher levels of connectivity

10x compute performance

5x power savings

4x cost reduction

Bridge the gap to brain-scale connectivity

Today's AI models are already pushing the limits of traditional interconnects. Scaling the the next generation of AI models will require much higher levels of connectivity while also significantly reducing power consumption.

Old ideas, brand new technology

Ultra-Low Power, Fast MicroLEDs

Copper interconnects have reached their performance limit and laser interconnects are too expensive for short distances. Ultra-low power, fast microLEDs enable step-change performance and unlock new networking architectures for the next-generation of high-performance computing and AI models.

Copper interconnects have reached their performance limit and laser interconnects are too expensive for short distances. Ultra-low power, fast microLEDs enable step-change performance and unlock
new networking architectures for the next-generation of high-performance computing and AI models.

Building technology that advances humanity

From Pluggables to On-chip

Inventing foundational technology to deliver higher levels of connectivity so that AI can help solve some of humanity's most challenging problems.

Advanced in-rack cabling for HPC data centers

Pluggable Active Optical Cables

1.6T bandwidth, scalable to 3.2T

4 nanosecond latency + TOF

<1 pJ/bit energy consumption

Up to 30 m length

1.6T bandwidth, scalable to 3.2T

4 nanosecond latency + TOF

<1 pJ/bit energy consumption

Up to 30m length

Technology

Computing is being reinvented

Hyperlume is building mission-critical technology for the next generation of computing architectures, defined by high bandwidth, low latency, and ultra-low power. Hyperlume's microLED technology will become the standard for short range data transmission.

MicroLEDs and Optics

Novel microLEDs enable higher bandwidth and lower power consumption.

Ultra-low loss light coupling to optical waveguide.

Novel microLEDs enable higher bandwidth & lower power consumption.

Ultra-low loss light coupling to optical waveguide.

Novel microLEDs enable higher bandwidth and lower power consumption.

Ultra-low loss light coupling to optical waveguide

Novel microLEDs enable higher bandwidth and lower power consumption.

Ultra-low loss light coupling to optical waveguide

Low-Power Electronics

Efficient LED driver with a novel driving scheme.

High bandwidth photodetector.

Advanced CMOS Packaging Compatibility

Packaging on both silicon and organic interposers.

High-density interconnects with low-loss optical interfaces.

Compact form factor.

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Building the future of AI connectivity.

Ecosystem

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