Reinventing memory for the data-intensive era

Our photonic memory technology can address the fundamental performance gap between processors and memory, potentially enabling faster, more efficient computing for AI and high-performance applications.

Executive Summary

Modern computing faces a fundamental challenge: processors are waiting for memory. This bottleneck limits AI performance, increases energy costs, and constrains scalability across the industry.

How can we overcome these electrical limitations? What if memory could operate at the speed of light?

We're developing photonic memory technology based on All-Optical Magnetization Switching (AOS), building on decades of research in this field. Our approach uses ultrafast laser pulses to control magnetic bits, potentially achieving sub-nanosecond data access—hundreds of times faster than conventional memory.

Currently in development, we work with industry partners and research institutions to advance this technology toward practical implementation.

Our Vision

A new memory class that bridges electronics and photonics — enabling the next generation of high-performance, sustainable computing through innovative photonic memory solutions.

Business Impact

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Without Our Solution

Long AI training and inference times
High energy and cooling costs
Limited ability to scale workloads
Over-provisioning of memory resources
Performance bottlenecks in HPC applications

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With Our Solution

Faster AI training and inference through latency reduction
Lower energy costs through decomposed architecture
Superior scalability for future demands
Optimized resource utilization
Enhanced HPC performance

Ready to Learn More?

Discover how our photonic memory technology could address your computing challenges.

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