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The MTSN 1G Ethernet Switch is a robust and versatile component designed for integration into Time-Sensitive Networking environments. It supports multiple communication interfaces such as RMII, MII, GMII, and RGMII, as well as serialized options like SGMII and QSGMII. Offering port speeds ranging from 10M, 100M, to 1G, it ensures efficient data handling and integration flexibility. The switch is compliant with IEEE standards for synchronization and networking, including IEEE 802.1AS and IEEE 1588 PTPv2, enabling precise time synchronization. The MTSN Ethernet Switch excels in supporting advanced features like QoS, VLAN tagging, and the Spanning Tree Protocol, making it suitable for complex network environments that require high reliability and minimal latency. Its Time-Sensitive Networking capabilities are aligned with IEEE standards such as 802.1Qav, 802.1Qbv, and others, which facilitate priority traffic handling and efficient data flow control. Designed for mission-critical applications where system downtime is unacceptable, this switch has been tested and validated in real-world scenarios, ensuring its reliability and performance. Its field-proven design makes it an ideal choice for applications requiring rigorous data management and precise time synchronization.
The TGES 10G Ethernet Switch is engineered for high-speed networking environments demanding Time-Sensitive Networking capabilities. It features a variety of interface options including RMII, MII, GMII, RGMII, and serialized formats like SGMII, ensuring compatibility with a broad range of network configurations. This switch supports network speeds from 10M up to 1G, making it adaptable for both legacy and state-of-the-art network infrastructures. Compliant with key IEEE standards such as IEEE 802.1AS and IEEE 1588 for time synchronization, the TGES switch offers advanced time-sensitive functionality crucial for applications where timing precision is critical. The switch incorporates comprehensive Quality of Service (QoS) features and handles VLAN tagging to manage traffic flow efficiently, which is essential in network management to handle varying traffic loads. This switch is particularly suitable for environments where high availability and low-latency are mandatory. Its robust design has been validated through extensive real-world testing, ensuring consistent performance and reliability for critical network applications. The TGES switch embodies the flexibility and power needed to manage complex network demands efficiently and effectively.
The HPS HSR/PRP Switch offers redundancy for time-critical and highly reliable network operations. It supports RMII, MII, GMII, and RGMII communication interfaces, as well as serialized setups like SGMII. This flexibility in port speed and interface options ensures compatibility with diverse network architectures while maintaining high data throughput and minimal latency. Implementing Stateless Transparent Clock (SLTC) with a P2P delay mechanism, the HPS switch provides synchronous communication essential for time-sensitive applications. It supports HSR and PRP redundancy, catering to various operational modes that ensure network resilience and uptime, important for uninterrupted operation in vital systems. Its advanced networking features include QuadBox-readiness, QoS, and MAC filtering, further enhancing its capability to handle complex network configurations and protocols. Particularly useful for industrial networks, the HPS switch ensures data integrity and reliability, vital for maintaining operational efficacy in critical network infrastructures.
The SPWN SpaceWire Node is architected for high-speed communication applications where precise data transfer and network management are critical. Utilizing SpaceWire interfaces for external operations and AXI-Stream internally ensures effective data handling at speeds up to 200Mbps. Engineered to comply with ECSS-E-ST-50-12C standards, the SPWN node offers robust connectivity options vital for aerospace and scientific sectors. It provides a reliable AXI4-Lite management interface that includes statistic registers to facilitate efficient system monitoring and management. This node is a prime choice for applications needing rigorous communication standards and high reliability. Its practical design makes it invaluable in facilitating consistent and accurate interconnectivity in harsh operational environments where data integrity and precision are paramount.
The MRS 1G Managed Redundant Switch is a sophisticated networking component crafted for environments where redundancy and reliable management are paramount. It incorporates interfaces like RMII, MII, GMII, and serialized formats like SGMII, enabling seamless integration across diverse network platforms at speeds up to 1G. With capabilities for HSR and PRP redundancy in addition to DLR and MRP, the MRS switch provides unparalleled network reliability, critical in systems where downtime cannot be tolerated. Its use of a Stateless Transparent Clock (SLTC) with P2P delay mechanism enhances synchronization precision necessary for industrial and high-demand networking scenarios. The configuration flexibility offered by this switch includes advanced QoS features and VLAN tagging, allowing tailored traffic management and enhanced data flow control. It's a compelling choice for industries demanding high resilience and network assurance, maintaining data integrity across varying operational conditions.
The MES 1G Ethernet Switch is designed to support high-performance managed networks with an emphasis on redundancy and reliability. It provides flexible communication options through interfaces like RMII, MII, GMII, and RGMII, as well as advanced serialized communications like SGMII. This switch can handle port speeds up to 1G, ensuring efficient data transmission in various network environments. Incorporating standards such as IEEE 802.1AS and IEEE 1588 for time synchronization, the MES switch ensures precise timing across the network. Its redundancy protocols like Device Level Ring (DLR) and Media Redundancy Protocol (MRP) are vital for maintaining continuous operation in the face of potential network failures. Additionally, the switch includes features for enhanced data handling such as QoS and VLAN tagging, optimizing traffic management and ensuring network stability. Its robust design is especially suited for applications in sectors requiring dependable data communication without compromise on timing and reliability.
The Networking Testbench Suite (NTS) is a VHDL-based automated testing environment specifically designed for SOC-E's networking IP Cores. It provides a comprehensive testing framework that allows for both pre-defined and user-defined test plans, making it a versatile tool for evaluating and ensuring the reliability of network IPs. Compatible with SOC-E's IP cores like ETSN, MTSN, TGES, HPS, MES, and MRS, the NTS facilitates thorough validation of their functionalities in simulated environments. It integrates seamlessly with popular EDA tools like AMD Vivado and Aldec Riviera-PRO, providing an intuitive interface for the testing and validation processes. The suite supports comprehensive test scenarios, allowing users to confirm the behavior and performance of their network setups under various conditions. Its automated approach significantly reduces the time required for validation, ensuring rigorous quality control while accelerating time-to-market for networking solutions.
1588 TINY is a VHDL-based PTP slave clock designed to deliver precision time synchronization without requiring extensive hardware resources. It supports communication interfaces including MII, GMII, RGMII, and serialized options like SGMII, operating efficiently at port speeds up to 1G. This slave clock supports multiple PTP profiles and is capable of submicrosecond synchronization offset from the master clock. Features such as time-of-day clock and pulse-per-second outputs are provided, along with event timestamping and alarm detection capabilities. Optional integration of an IRIG-B master output further extends its utility in synchronized systems. Ideal for applications requiring high precision time coordination, the TINY PTP Slave clock offers a robust solution for integrating accurate time synchronization in network architectures. It’s particularly beneficial in environments where precise timing is critical, such as telecommunications and automated infrastructures.
PTB serves as a dual-purpose PTP clock capable of operating both as a master (time transmitter) and a slave (time receiver) within network systems. It offers extensive communication interface support including MII, GMII, and serialized forms like SGMII, while accommodating network speeds up to 1G. Incorporating advanced multi-profile PTP support, the PTB clock achieves submicrosecond synchronization accuracy, ensuring high precision across Layer-2 and Layer-3 network topologies. Outputs such as time-of-day clocks and pulse-per-second signals are complemented by frequency-selectable pulse outputs for versatile timing applications. Designed for environments demanding precise and reliable time distribution, PTB excels in sectors like telecommunications where accurate timekeeping is crucial. Additional features such as event timestamping and alarm detection bolster its role in maintaining synchronization integrity across the network.
The ITS module is designed as a compliant slave clock for receiving IRIG 200-04 signals, modulated through DLCS. It boasts submicrosecond alignment from its reference master, ensuring high-precision synchronization vital across network environments demanding strict timing adherence. Incorporating flexibility to configure IRIG-B time codes both pre-installation and on-the-fly, the ITS maintains compatibility with existing enterprise setups. It utilizes IEEE1344 extensions, assisting in encompassing modern synchronization needs without extensive system overhauls. Targeting markets where precision timing is non-negotiable, such as scientific research or defense communications, ITS proves to be an essential solution. It assures each connected system maintains accurate time transfer with allowance for real-time configurational adjustments.
MSYNC provides redundancy in time synchronization systems by acting as a gateway between PTP and IRIG-B sources. It supports simultaneous synchronization to both PTP and IRIG-B, offering flexibility in timing configuration and ensuring resilient time integrity across networks. The MSYNC system is multi-profile capable, supporting various synchronization methods such as Layer-2, Layer-3, and profiles like E2E and P2P. It can convert timing signals between PTP and IRIG-B, providing versatile synchronization solutions essential for maintaining accurate time distribution in complex networked environments. Additionally, MSYNC includes features for event timestamping and alarm detection, which are critical for monitoring synchronization status and reacting to anomalies promptly. This functionality is particularly beneficial in industrial and military applications where timing accuracy and system resilience are vital elements.
The ITM IP is an IRIG 200-04 compliant master clock system designed to modulate signals using DCLS for reliable time synchronization distribution. Supporting synchronization methods such as PPS and 10MHz references, ITM ensures that accurate and standardized time codes are available across the network. This master clock accommodates the IEEE1344 extension, allowing configurable IRIG-B time codes both pre-implementation and dynamically during operation. Such flexibility offers extensive compatibility with varying network requirements and facilitates easy adjustments without hardware modifications. Ideal for military and aerospace sectors requiring stringent timing standards, ITM provides dependable time signal broadcast to ensure effective coordination across dispersed systems. It promotes consistency and accuracy, ensuring that all connected devices receive synchronized time according to precise protocol requirements.
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