Timing Can’t Keep Up
Legacy analog clocks weren’t built for the speed and complexity of today’s compute systems. As performance demands scale into the multi-gigahertz range, precision timing becomes mission critical. We replace outdated architectures with a fully digital timing platform that is engineered for performance, scalability, and reliability.
Faster
GHz
Multi-gigahertz timing for real-time synchronization in next-gen platforms.
Cleaner
fs jitter
Ultra-low phase noise for clean, stable, high-speed signals.
Stronger
to
Ultra-reliable under extreme thermal and operating conditions.
Our Multi-Gigahertz Timing Breakthrough
Our architecture eliminates the analog clock chain with an all-digital, CMOS-based solution. At the core, a patented digital synthesis engine delivering unmatched performance.
Digital Always Wins. CMOS Always Wins.
Built for What's Next
AI Infrastructure
Timing for GPU fabrics, accelerators, and high-speed interconnects.
5G Base Stations
Low-jitter timing across radios, fronthaul, and edge computing.
Automotive Systems
Clocking for radar, ADAS, and real-time vehicle systems.
Inside Every Mixed-Signal Devices Clock
Performance
Supports the fastest AI and networking systems with sub-20 fs jitter and 2 GHz operation.
Flexibility
One clock. Many platforms. Wide programmability with a compact footprint.
Stability
Stays precise across voltage and temperature swings, no external compensation required.
Technology
All-digital. CMOS-technology. Built for today and scalable for what’s next.
Bring Precision Timing to Your Next Design
Partner with us to build faster, cleaner, and more reliable systems, backed by the world’s leading multi-gigahertz timing architecture.
Let's Connect