About Our Research & Development
Smart-NIC Series
Our Smart-NIC solves cluster-level communication bottlenecks by dramatically improving interconnect efficiency and reducing compute resource idling. With support for RoCEv2, TCP/IP and future-forward UEC protocols, it enables high-speed, low-latency data flows optimized for AI training, HPC and storage workloads—without requiring changes to existing servers or switches.
The Smart-NIC features an open, hardware-programmable chip with native support for P4 and a flexible SDK. Customers can define intelligent traffic scheduling methods, reconfigure protocol behaviour at the hardware level, and fully control networking logic to fit evolving workloads.
The Smart-NIC supports multiple operation modes, including AI Training Optimization and Storage Acceleration. This high adaptability makes it ideal for diverse scenarios, delivering lower TCO, simplified deployment, and long-term platform flexibility in supercomputing and enterprise AI clusters.
Beamforming Series
Our Beamforming Series is purpose-built for high-performance phased array and directional communication systems operating within the 10.7–14.5 GHz frequency range. The architecture enables precise beam steering and signal optimization for modern satellite and point-to-point communication environments.
Featuring a compact 4T4R half-duplex architecture, the series integrates multiple transmit and receive paths into a highly optimized package. This design enhances channel density, reduces board complexity, and improves overall system efficiency for both airborne and ground-based deployments.
Engineered for next-generation communication infrastructure, the Beamforming Series supports scalable deployment across satellite terminals, phased array antennas, and broadband wireless systems. Its compact WLCSP packaging and high-performance RF capability enable reliable operation in demanding environments while supporting future network evolution.
Transceiver Series
Our Transceiver Series delivers high-performance RF communication capability across a wide operating spectrum from 30 MHz to 7.125 GHz. Supporting both TDD and FDD modes, these solutions are engineered for flexible deployment in satellite communications, 4G/5G infrastructure, IoT networks, and broadband platforms.
Designed with scalable configurations ranging from 1T2R to 2T2R+ORX, the series supports instantaneous bandwidths up to 800 MHz, enabling high-throughput and low-latency wireless transmission. Advanced signal integrity and system optimization ensure reliable operation across demanding communication environments.
Built for both terrestrial and space-connected applications, the Transceiver Series provides a balance of integration, power efficiency, and protocol flexibility. Its adaptable architecture supports evolving wireless standards while reducing system complexity and accelerating deployment cycles.
Mixer Series
Our Mixer Series is designed to provide high-linearity, broadband RF signal conversion for advanced communication and sensing systems. Operating from 30 MHz to 14 GHz, these devices deliver stable and accurate frequency translation for satellite, broadband, and instrumentation applications.
Featuring low EVM performance down to -40 dB and bandwidth support up to 400 MHz, the series enables superior signal quality for direct-conversion and IF sampling architectures. Flexible differential and single-ended RF interfaces allow seamless integration into diverse system topologies.
Packaged in a compact 3x3 mm QFN form factor, the Mixer Series combines performance and miniaturization for space-constrained deployments. These solutions are ideal for satellite receivers, high-performance communication systems, and next-generation test and measurement equipment.