Highlighting next-generation oscillator and clock-generation technologies enabling optical transport, AI infrastructure, and high-speed networking systems

OFC 2026 — Mixed-Signal Devices, a leader in multi-gigahertz timing solutions, today announced it will showcase its latest digitally synthesized timing technologies delivering 20 femtosecond jitter and multi-gigahertz performance at the Optical Fiber Communications Conference and Exhibition (OFC) 2026, taking place March 17–19 at the Los Angeles Convention Center.

As optical networking and AI infrastructure scale to support exponentially increasing data rates, precision timing has emerged as a critical constraint in system design. Coherent optics, optical transport platforms, and AI data-center interconnects require timing sources capable of maintaining signal integrity at multi-gigahertz frequencies while minimizing jitter, phase noise, and power-supply noise.

Mixed-Signal Devices addresses these challenges with a digital timing architecture combining BAW resonator technology, advanced CMOS integration, and its proprietary Virtual Crystal™ platform, enabling next-generation synchronization performance for high-speed optical and networking systems.

At OFC 2026 (Booth #5617, West Hall), Mixed-Signal Devices will demonstrate its latest multi-gigahertz oscillator and multi-output clock-generation solutions designed to meet the timing requirements of next-generation optical transport and AI infrastructure.

Key technologies and demonstrations will include:

• MS1150 Multi-Gigahertz Oscillator Platform: Next-generation oscillator delivering multi-gigahertz timing performance with 20 femtosecond jitter, designed for high-speed optical transport systems and AI infrastructure.
• Digitally Synthesized Timing Architecture: Advanced digital timing platform designed to overcome limitations of traditional analog PLL-based timing solutions, enabling higher stability and improved signal integrity at multi-gigahertz frequencies.
• BAW Resonator Technology for High-Frequency Stability: Bulk Acoustic Wave (BAW) resonators provide superior frequency stability and phase-noise performance required for next-generation optical networking platforms.
• MS2008 multi-gigahertz 8-output Clock Generator and Distribution: Programmable timing solutions supporting upto 8 multi-gigahertz system clocks for networking platforms, and AI infrastructure.

Mixed-Signal Devices timing solutions are optimized for next-generation infrastructure including:

• Optical transport and coherent optics
• AI data-center interconnects
• Optical modules and active optical cables (AOCs)
• High-speed networking systems

Attendees visiting Booth #5617 (West Hall) can see live demonstrations of Mixed-Signal Devices’ multi-gigahertz oscillator and clock-generation technologies designed for next-generation optical networking and AI infrastructure. To learn more about Mixed-Signal Devices timing solutions or schedule a meeting at OFC 2026, visit www.mixed-signal.com.

About Mixed-Signal Devices

Mixed-Signal Devices delivers timing and clock solutions for the world’s fastest systems. With femtosecond-level jitter, multi-gigahertz performance, and scalable CMOS architectures, our technology enables real-time synchronization across AI data centers, 5G infrastructure, and advanced automotive platforms. Engineered for performance, integration, and reliability, this is timing built for what’s next. Learn more at https://mixed-signal.com/.

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