Innosilicon Technology Launches Groundbreaking 120-Channel PCIe Gen5 Switching Chip
Key Highlights:
- Innosilicon Technology has introduced the GX9104/GX9120 PCIe Gen5 switching chips, making significant strides in the domestic high-end chip sector.
- The PCIe5 chips boast 120 channels with a single channel rate of 32GT/s and support multiple host configurations.
- Equipped with advanced reliability and energy-efficient features, these chips promise to redefine performance in data centers and AI environments.
On January 30, Innosilicon Technology unveiled an innovative addition to the realm of high-speed data transmission: the GX9104/GX9120 PCIe Gen5 switching chips. This launch signifies a critical transition from research and development to actual market application, aiming to disrupt the longstanding dominance of overseas manufacturers in the high-end interconnect chip segment. By addressing the needs of domestic enterprises, Innosilicon’s new product fills a vital gap in the industry and sets a new benchmark for various performance indicators.
Revolutionizing High-Speed Data Transmission
The PCIe5 switching chip is designed for efficient and rapid data exchange among key computing components, including CPUs, GPUs, network interface cards (NICs), and solid-state drives (SSDs). With a robust architecture fully developed in-house, the chip’s functions and performance metrics have been rigorously compared against those of internationally recognized industry leaders. The architecture features a comprehensive non-blocking switching design, ensuring optimal data flow across connected devices.
Exceptional Features and Performance Metrics
This state-of-the-art chip is equipped with 120 channels and 30 flexible ports, boasting an impressive single channel rate of 32GT/s. It supports a variety of transmission modes—multi-host, end-to-end, and non-transparent—making it adaptable for diverse applications such as data centers, ultra-low latency AI servers, high-performance computing, and enterprise-class storage solutions.
Key performance attributes include:
- Ultra-Low Latency: With a latency of just 115ns, the chip maximizes GPU performance, meeting the immediate processing demands of large-scale AI models.
- Reliability and Redundancy: The inclusion of full-link redundancy and error correction mechanisms fortifies the system’s overall reliability, ensuring uninterrupted operation.
- Adaptive Signal Processing: The chip integrates advanced SerDes technology with features like multi-level FFE and adaptive CTLE, allowing for stable transmission even in challenging conditions—functioning effectively in temperatures ranging from -40°C to 105°C.
Enhancing System Flexibility and Efficiency
With the NTP hot-swappable functionality, users can enjoy a plug-and-play experience, which significantly enhances system flexibility. In addition, the intelligent switching scheduling algorithm optimizes bandwidth resource utilization, ensuring efficient throughput in all scenarios.
Innocilicon’s commitment to sustainability is evident in the chip’s low power consumption rates, contributing to a green computing ecosystem and promoting high energy efficiency. The technology is also fortified with comprehensive security measures, including a security engine, physical unclonable key, and software firewall—establishing a robust barrier against potential vulnerabilities.
Conclusion
The introduction of the GX9104/GX9120 PCIe Gen5 switching chips marks a pivotal moment for domestic manufacturers, showcasing cutting-edge technology that can compete with established global leaders. As industries increasingly rely on high-speed data processing and interconnectivity, Innosilicon’s innovative solutions are set to play a crucial role in the advancement of computing capabilities across various sectors. By breaking barriers and setting new industry standards, these chips are poised to redefine the landscape of high-end PCIe switching technology.
This launch not only elevates Innosilicon’s status within the semiconductor market but also represents a significant step toward self-sufficiency in high-tech manufacturing in the region. The forthcoming impact on data centers and AI applications will likely be profound, reaffirming Innosilicon’s commitment to fostering innovation and excellence within the tech industry.
In summary, Innosilicon Technology is not just filling a gap in the market; it is paving the way for a future where domestic high-end interconnect chips can thrive and compete on a global scale.
