Ultra-Low Latency PCIe/CXL Retimer
PanRetimer is a high-performance signal regeneration solution purpose-built to preserve signal fidelity across CXL 3.x and PCIe 6.x links. The Retimer is built using our Link Controller IP, boasting two-digit nanosecond roundtrip latency, making it ideal for demanding AI, HPC, and cloud infrastructure.
Key Benefits
Unmatched Signal Integrity
Maintain clean, error-free signal transmission across extended PCIe/CXL links—even in high-loss, high-density environments. PanRetimer enables long-reach connectivity for disaggregated architectures.
Seamless System Integration
Fully compatible with PCIe 6.0 and CXL 3.x standards, PanRetimer supports flexible clocking (SRIS, SRNS, Common Clock) and dynamic polarity, ensuring drop-in adaptability for heterogeneous system designs.
Optimized Power Efficiency
Minimize energy and thermal overhead with low-power modes, intelligent equalization, and thermal-aware architecture—helping hyperscale data centers lower TCO and meet sustainability targets.
Key Features
Our product in more details
Specification | CXL 3.x Backward compatible with CXL 1.1, 2.0, and PCIe Gen 6 |
Signal integrity | 36 dB reach extension |
Number of lanes | Up to 16 |
Data rate | 64 GT/s |
Clock support | Common clock, SRNS and SRIS feature support Reference clock output support |
Supported subprotocols | Receiver lane margining support Dynamic polarity orientation support |
Latency management | Low-latency mode support |
Power management | Low-power mode support |
Clock | PCIe base specification-compliant 100MHz clock |
All specifications are subject to change without notice. Performance may vary based on system configuration and usage patterns.
Real-world Use Cases
AI Training Infrastructure
Accelerate machine learning workloads with high-bandwidth memory expansion and GPU interconnects.
Ideal for large-scale AI training environments requiring massive memory capacity and ultra-low latency communication between accelerators.
Data Center Expansion
Scale your data center infrastructure with flexible CXL device connectivity and memory disaggregation.
Enables dynamic resource allocation and improves overall system efficiency in enterprise environments with growing computational demands.
HPC Cluster Computing
Connect thousands of compute nodes with ultra-low latency for high-performance computing workloads.
Ideal for scientific computing, simulation, and research applications requiring massive parallel processing and fast inter-node communication.
