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The TGES is a cutting-edge TSN Ethernet Switch capable of operating at speeds up to 10G. Supported interfaces include RMII, MII, GMII, and RGMII, alongside serialized options like SGMII, enabling flexible deployment across various network architectures. TGES ensures precise timing synchronization through IEEE 802.1AS and IEEE1588 adherence, crucial for maintaining accuracy in highly dynamic networks. The switch features comprehensive support for TSN standards, such as IEEE 802.1Qav, 802.1Qbv, and 802.1Qci, which are pivotal for managing data traffic and ensuring low-latency and high-reliability communications. Additional features include VLAN support, QoS enhancements, and spanning tree protocol, permitting sophisticated network management and optimization. Built on open standards to ensure compatibility with multiple platforms, TGES serves as a versatile solution for industries demanding high-speed and reliable Ethernet connectivity. Its robust feature set caters to critical applications requiring nuanced control over network traffic to deliver deterministic and lossless communication.
MTSN is a sophisticated Time-Sensitive Networking 1G Ethernet Switch that enhances network capabilities through multiple interfaces, including RMII, MII, GMII, and RGMII. The switch operates at speeds ranging from 10M to 1G, ensuring versatile deployment across different networking scenarios. Supported synchronization technologies include IEEE 802.1AS and IEEE1588, ensuring alignment and precision in time-critical operations. The MTSN supports advanced time-sensitive networking standards, such as IEEE 802.1Qav and 802.1Qbv, which help in scheduling and prioritizing time-sensitive data flows, improving reliability, and minimizing communication delays. It also integrates features like VLAN tagging, quality of service (QoS), and spanning tree protocol support, empowering developers with tools to build complex, reliable networks. By leveraging open standards, the MTSN offers excellent interoperability, making it a preferred choice for systems requiring seamless integration with diverse devices and platforms. Its cutting-edge capabilities make it indispensable in environments where deterministic data handling and zero-data-loss are mission-critical.
The ETSN is a state-of-the-art Time-Sensitive Networking (TSN) endpoint solution, providing enhanced networking capabilities through various communication interfaces like MII, GMII, RGMII, and serialized links such as SGMII. It supports multiple port speeds ranging from 100M to 10G, facilitating efficient data transmission in high-speed networks. Compliance with IEEE 802.1AS and IEEE1588 standards ensures precise synchronization, which is crucial for applications requiring strict time constraints. Its time-sensitive networking features include support for key standards like IEEE 802.1Qav, 802.1Qbv, and others, which enhance the quality of service by managing traffic priorities and reducing latency. Additional functionalities such as VLAN tagging and quality of service (QoS) enhancements further solidify ETSN's position as a robust TSN solution. With a foundation in open standards, the ETSN provides interoperability across various platforms, making it an ideal choice for industries that require reliable and deterministic network behavior. This flexibility and compliance enable its integration into existing systems without compromising performance or quality.
The SPWN is a high-performance SpaceWire Node IP designed to facilitate robust communication within space and aerospace systems. It supports external SpaceWire interfaces alongside internal AXI-Stream capabilities, achieving data transmission speeds of up to 200 Mbps. Engineered for compliance with ECSS-E-ST-50-12C standards, SPWN offers seamless integration and management through an AXI4-Lite management interface featuring statistical registers. This compliance ensures interoperability and reliable performance in specialized domains requiring stringent operation criteria. SPWN’s design caters to the needs of aerospace and research institutions that demand high fidelity and reliable data exchange over extended periods. Its flexibility and robust connectivity make it essential in applications requiring constant communication reliability and adaptability in the harsh conditions of space.
The MRS is a sophisticated 1G managed redundant switch designed to offer both HSR/PRP redundancy and legacy Ethernet capabilities. Utilizing communication interfaces such as RMII, MII, GMII, and serialized options like SGMII, this switch supports a range of speeds from 10M to 1G. At the core of its redundancy features are HSR and PRP, along with support for Device Level Ring (DLR) and Media Redundancy Protocol (MRP), ensuring highly reliable networking infrastructures. Supported synchronization through the stateless Transparent Clock (SLTC) using P2P delay mechanisms further strengthens its robustness by maintaining precision in network operations. Equipped with enhanced functionalities like VLAN tagging, QoS, and MAC filtering, the MRS delivers robust network control and optimization. Its capability to provide seamless integration into existing network architectures makes it an excellent choice for applications requiring high reliability and continuous operation in mission-critical systems.
The HPS is an advanced HSR/PRP Switch designed for high-redundancy and high-availability networking applications. Featuring various communication interfaces such as RMII, MII, GMII, and serialized options like SGMII, this switch is versatile, capable of supporting network speeds from 10M to 1G. This switch provides cutting-edge redundancy through High-availability Seamless Redundancy (HSR) and Parallel Redundancy Protocol (PRP), bolstering network resilience and ensuring uninterrupted service. The stateless transparent clock functionality with a P2P delay mechanism enhances timing accuracy, vital for maintaining synchronization across network nodes. Supporting features like QoS, MAC filtering, and integration with existing QuadBox setups, the HPS enables efficient, high-performance networking environments. Its robust architecture ensures that it meets the needs of mission-critical systems requiring zero-data-loss and high-reliability maintenance, positioning it as an essential component in modern redundant network setups.
The MES is a managed 1G Ethernet switch tailored for versatile network management across various platforms. Supported interfaces like RMII, MII, GMII, RGMII, and serialized links such as SGMII allow for flexible integration into diverse network environments, functioning optimally at speeds from 10M to 1G. Synchronization protocols supported, such as IEEE 802.1AS and IEEE1588, ensure precise coordination within network infrastructures, essential for time-sensitive operations. The MES integrates redundancy features like Device Level Ring (DLR) and Media Redundancy Protocol (MRP), enhancing fault tolerance and boosting resilience against network failures. Additional features of the MES include support for VLANs, QoS enhancements, and spanning-tree protocols, allowing for comprehensive network management and optimization. This switch is ideal for industries requiring robust and scalable network solutions, delivering reliable service quality in challenging networking environments while ensuring adaptability to various industry standards.
The PTB IP serves as both a PTP ordinary clock master and slave, offering time transmitter and receiver functionalities that ensure precise network time synchronization. Supporting interfaces such as MII, GMII, and serialized links, it functions effectively across various speeds ranging from 10M to 1G. With multi-profile capabilities, the PTB handles Layer-2/Layer-3, E2E/P2P configurations, achieving synchronization with submicrosecond accuracy from the master. Its outputs include ToD PTP clock, PPS, and frequency-selectable pulse output, which is crucial for comprehensive synchronization strategies. Additional features like event timestamping and alarm detection further enhance its reliability and functionality. PTB is ideal for environments demanding meticulous time management, offering a versatile solution for synchronizing complex network systems and ensuring their operational cohesion.
TINY is a highly specialized hardware-only PTP slave clock IP designed to offer precise synchronization capabilities across diverse network architectures. With support for various communication interfaces such as MII, GMII, and serialized links, it operates seamlessly at speeds from 10M to 1G. The IP is capable of handling multiple PTP profiles, including Layer-2/Layer-3 and E2E/P2P configurations, achieving a synchronization offset of less than ±1 microsecond relative to the master node. It supports both Timing and Data output (ToD PTP clock, PPS), providing comprehensive solutions for time-sensitive operations. Features such as event timestamping and alarm detection are integrated, with optional IRIG-B master output available, offering robust functionality and high accuracy. This IP is especially suited for applications where precise timing and synchronization are essential, helping maintain the integrity and performance of networks reliant on stringent time coordination.
ITS, as an IRIG-B Slave, complements the functionality of ITM by ensuring consistent time reception and synchronization across the network. Built to comply with IRIG 200-04 standards, it employs DLCS modulation to maintain submicrosecond accuracy relative to master clock signals. Equipped with inputs for PPS and 10MHz references, ITS ensures robust synchronization even in networks with complex timing needs. The device supports IEEE1344 extension and allows IRIG-B time code configurations to be adjusted dynamically, enhancing its usability in diverse applications. This IP is essential for networks where flawless time reception is critical. Its adaptability and precision in maintaining time signal integrity ensure that network operations proceed with minimal latency and maximum reliability, making it crucial for high-precision timing infrastructures.
The NTS is an automated VHDL testbench designed specifically for use with SoC-e networking IP Cores. With pre-defined test plans and the ability to execute user-defined tests, this suite facilitates rigorous validation and verification processes. NTS ensures compatibility with multiple SoC-e IP Cores, including ETSN, MTSN, TGES, HPS, MES, and MRS, broadening its applicability within SoC-e’s ecosystem. The tool supports integration with industry-leading EDA tools like AMD Vivado and Aldec Riviera-PRO, offering a seamless interface for development and testing activities. Its robust architecture and versatile testing capabilities make NTS an indispensable tool in developing and deploying networking solutions. By providing a controlled environment for validating IP functions and ensuring compliance with design specifications, NTS enables developers to bring reliable products to market with confidence.
MSYNC is a versatile solution for redundant time synchronization, designed to bridge diverse timing signals and ensure seamless clock coordination across platforms. It supports multi-profile PTP configurations (Layer-2/Layer-3, E2E/P2P) and integrates both PTP and IRIG-B synchronization sources simultaneously. This IP functions as a gateway facilitating both PTP to IRIG-B and IRIG-B to PTP conversions. The redundancy offered by MSYNC is pivotal for maintaining synchronization integrity in scenarios requiring diverse time frameworks. Accuracy is bolstered through sub-microsecond synchronization accuracy and robust gateway functionalities. Enhanced with features like event timestamping and alarm detection, MSYNC upholds high-precision standards necessary for time-sensitive networking. Its adaptive synchronization capabilities make it a vital component in systems where multiple time protocols must coexist to maintain network reliability.
ITM is an IRIG-B Master IP that ensures compliance with the IRIG 200-04 standard, designed for precise time distribution in complex network systems. Supporting DCLS modulation with inputs for PPS and 10MHz references, it delivers reliable synchronization solutions. Incorporating IEEE1344 extension support and highly configurable IRIG-B time codes, ITM offers users significant flexibility in its deployment to fit various application requirements. It permits pre- and post-deployment time code modifications, adding to its flexibility and adaptability in dynamic environments. This IP is especially suited for applications that necessitate precise time dissemination, providing essential infrastructure for synchronizing wide-area networks. Its robustness and compliance with established timekeeping standards make it an excellent choice for maintaining network synchronization integrity.
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