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Flexibilis Ethernet Switch (FES) is a triple-speed Ethernet Layer 2 switch IP designed for industrial and commercial applications requiring robust and fast networking capabilities. FES integrates precision time functionality through IEEE 1588v2 compliant implementations, providing essential support for quality time synchronization in extensive networks. With the ability to provide gigabit forwarding per port, the FES ensures high-speed data transfers across numerous network interfaces efficiently. Standard compliance with IEEE 801.3x and compatible Media Access Control allows FES to robustly manage Ethernet frames while maintaining optimal performance. FES prioritizes traffic using effective packet prioritization techniques, ensuring more critical data streams maintain low latency and reliability. This Ethernet switch IP core's modular design accommodates various network topologies and interface standards, enhancing its versatility in complex systems. Users can select from different port configurations, scaling from small networks up to larger connected systems, reinforcing its application scope in diverse environments such as industrial networks and large data centers.
The Advanced Flexibilis Ethernet Controller (AFEC) brings triple-speed Ethernet processing to programmable hardware environments, supporting traditional copper and modern fiber optics connections. This IP block, which functions much like a Network Interface Controller, achieves a significant efficiency by pairing DMA transfer capabilities with both receive and transmit data, thus reducing CPU load efficiently. AFEC incorporates standard MII/GMII interfaces for seamless connectivity to Ethernet PHY devices, facilitating high-speed data transfers without overwhelming moderate-caliber processors. By accommodating features like automatic CRC computation, comprehensive DMA control, and precise time stamping consistent with IEEE 1588 standards, AFEC ensures a cohesive integration into any Ethernet-based infrastructure. The AFEC's high configurability and tested Ethernet capabilities make it an excellent choice for applications spanning from telecommunications to utilities. AFEC's use of FPGA resources is optimized to minimize footprint while maximizing performance, ensuring that hardware constraints do not impede the integration of this powerful controller within complex network topologies.
The Flexibilis Redundant Switch (FRS) is a versatile triple-speed Ethernet Layer-2 switch IP core designed to integrate High-availability Seamless Redundancy (HSR) and the Parallel Redundancy Protocol (PRP) into a single solution. Known for its exceptional performance, FRS can handle full-duplex gigabit speeds across multiple ports, making it one of the most robust hardware options for ensuring redundant network communication. FRS eliminates the need for separate RedBoxes by allowing devices to be connected directly, thereby reducing costs and complexity in deployment. Its FPGA-based design provides a flexible implementation with port customization capabilities, enabling it to operate under various network configurations and speed requirements. Additionally, FRS supports the IEEE1588 Precision Time Protocol (PTP), ensuring accurate time synchronization across network nodes, a critical function for network stability in time-bound communication environments. Available in customizable configurations ranging from 3 to 8 ports, FRS can be adapted to specific user needs. Its robust support for wire-speed Ethernet packet forwarding, coupled with transparent clock processing, makes it ideal for applications demanding high reliability and precision like industrial networks, smart grid solutions, and any infrastructure where seamless communication is imperative.
The Flexibilis Redundant Card (FRC) is a PCIe Network Interface Card uniquely developed to provide High-availability Seamless Redundancy (HSR) and Parallel Redundancy Protocol (PRP) standards compliant networking capabilities. FRC excels in facilitating redundant communication for critical traffic, ensuring systems remain operational even during network failures, a critical feature for essential services such as power utility automation. FRC card balances traditional Ethernet network functionalities with specialized redundancy capabilities, all while integrating seamlessly with existing infrastructures. The card is designed to offer precision synchronized events via its IEEE1588-2008 compliant Precision Time Protocol, achieving sub-microsecond accuracy vital for time-sensitive applications. This standalone solution harnesses the sophisticated features of Flexibilis's Redundant Switch technology, presenting itself as a comprehensive system on a PCIe form factor. Hence, it provides a flexible solution to enhance commercial Ethernet environments, offering intuitive management via graphical interfaces or standard protocols like NETCONF.
The XRS7000 series are advanced integrated circuits designed to add High-availability Seamless Redundancy (HSR), Parallel Redundancy Protocol (PRP), and time synchronization capabilities to both existing and novel applications. As part of the SpeedChips family, these chips provide market-leading redundancy in Ethernet networks, ensuring zero data loss without any single point of failure. The series offers high reliability and availability, fundamental for sectors like industrial automation and vehicle communication, as well as substation automation. XRS7000 devices are versatile with distinct models like XRS7003 and XRS7004, each featuring multiple ports for flexible deployment. The XRS7003 version is apt for HSR and PRP endpoints, whereas the XRS7004 version supports both endpoint and RedBox functions, enabling broader connectivity across network nodes. Their integration simplifies the implementation of sophisticated networking systems by providing ready-made IC options that combined, form a more expansive redundancy structure. These chips support features such as cut-through and store-and-forward operation, quality of service (QoS) with priority tagging, as well as time and frequency synchronization via IEEE1588-2008, ensuring not only reliability but also precision in data transmission across networks. The XRS7000 series, by coupling functionality with robust design, effectively enhances communication networks for diverse industrial applications.
The XR7 PTP stack is meticulously crafted for precise time synchronization over IP and Ethernet networks, adhering to the exact standards set by IEEE 1588-2008. This solution is highly portable, written in pure C language, ensuring seamless integration into diverse systems, predominantly utilizing the Linux OS but easily adaptable to others. At the heart of XR7 PTP is the facilitation of nanosecond-class synchronization accuracy, an achievement maintained even amidst packet-based network transfers. This precision makes it ideal for critical systems where timing is everything, including energy systems and telecommunications. XR7 PTP supports a range of operational modes, including master, slave, and boundary clock configurations, along with functionalities such as one-step and two-step clocks for better synchronization. The PTP stack features a time adjustment interface that allows fine-tuning of local oscillators, enhancing the accuracy of synchronization beyond the standard. Licensing the XR7 PTP stack also opens doors to consistent technical support and optimized performance setups that cater to specific industrial requirements, ensuring reliability and longevity in network management execution.
XR7 Redundancy Supervision is a critical implementation supporting the dual protocols of High-availability Seamless Redundancy (HSR) and Parallel Redundancy Protocol (PRP), critical for uninterrupted network communications. It ensures supervision and integrity of the network by handling supervision frames and maintaining a comprehensive NodesTable. This implementation, crafted in C language, is versatile for integration into various system environments, particularly Linux-based systems. It efficiently updates and processes information concerning network nodes, beneficial for management and monitoring systems. The XR7 Redundancy Supervision does not directly utilize the data it gathers, instead prioritizing providing a reliable data framework for other system components. Licensing XR7 Redundancy Supervision allows leveraging its robust frame processing capabilities to guarantee mission-critical data is efficiently and reliably synchronized across nodes. By ensuring the timely dissemination of supervision data, it sustains high resilience in network operations, making it invaluable for industries dependent on steady communication like energy and automation.
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