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The Advanced Flexibilis Ethernet Controller (AFEC) is an advanced IP block tailored for both FPGA and ASIC implementations, offering comprehensive Ethernet Interface solutions for networking needs. Designed for triple-speed operation (10Mbps/100Mbps/1Gbps), AFEC enhances Ethernet device communication with robust capabilities. AFEC seamlessly connects to Ethernet PHY devices through standard interfaces like MII and GMII while supporting both copper and fiber Ethernet networks. This ensures a versatile application range across devices and networking setups. It includes a dedicated DMA controller for RX and TX data handling to ease CPU processing loads, allowing less powerful processors to achieve maximum data throughput. Supporting the IEEE1588 Precision Time Protocol, AFEC allows for precise time stamping of all transmitted and received frames, vital for applications where accurate time logging is crucial. Its flexible interrupt management and configuration options make it a highly adaptable controller for complex Ethernet setups seeking enhanced performance and synchronization capabilities.
The Flexibilis Redundant Switch (FRS) is a versatile and high-speed Ethernet Layer-2 switch IP core capable of implementing the High-availability Seamless Redundancy (HSR) and the Parallel Redundancy Protocol (PRP) across a network. This core offers triple-speed operation (10Mbps/100Mbps/1Gbps), facilitating seamless communication for mission-critical systems. FRS is uniquely designed to work in FPGA environments, providing from three to eight Ethernet ports to match various networking requirements. One key feature is its IEEE1588v2 PTP transparent clock support, which ensures precision timing and synchronization across the network for applications that cannot afford time discrepancies. Its architecture supports HSR and PRP without the need for separate RedBox implementations, integrating redundancy directly into the networked devices. The switch supports full-duplex operation and wire-speed Ethernet packet forwarding, making it a top choice for applications demanding redundancy, such as smart grid and industrial automation.
The Flexibilis Ethernet Switch (FES) is a powerful Ethernet Layer 2 switch IP crafted for high-speed data handling and efficient network management. Capable of supporting 10Mbps, 100Mbps, and 1Gbps full-duplex operations, it ensures robust network communication even under high data loads. With compatibility for a range of media access interfaces, including MII and GMII, FES provides immense flexibility for connecting various physical layer devices. Its integrated IEEE 1588v2 PTP enhances its timing accuracy across network-connected devices, ensuring synchronization is maintained across even the largest network infrastructures. FES stands out with its multi-gigabit forwarding engine, which supports up to twelve full-duplex gigabit Ethernet ports. It employs advanced packet prioritization through its four priority queues system, ensuring critical data is prioritized during network congestion. This makes it ideal for complex industrial setups that handle significant amounts of real-time data, requiring efficient and balanced network load management.
The Flexibilis Redundant Card (FRC) is a sophisticated PCIe Network Interface Card engineered to deliver uncompromised Ethernet network redundancy through its implementation of the High-availability Seamless Redundancy (HSR) and Parallel Redundancy Protocol (PRP). This card is essential for mission-critical applications where seamless communication continuity is a necessity. FRC's design incorporates IEEE 1588 Precision Time Protocol for high-accuracy clock synchronization, making it a vital component in environments like power grid systems where precise timing is crucial. By integrating the features of the Flexibilis Redundant Switch (FRS) in a convenient PCIe form factor, the FRC simplifies the deployment of redundant networking across existing infrastructures. With its superior full-speed non-blocking performance, the card is tailored for high-performance networks, ensuring data delivery even under severe network conditions. The FRC is equipped as a convenient solution for professionals seeking to upgrade system reliability without extensive infrastructure modification.
The XRS7000 series switches are cutting-edge integrated circuits designed to add High-availability Seamless Redundancy (HSR) and Parallel Redundancy Protocol (PRP) functionality to devices. These chips provide zero-loss redundancy and are crucial for applications in industrial automation and networking equipment where reliability is key. Supporting both HSR and PRP, these switches ensure that no single point of failure can interrupt Ethernet communication. Leveraging the IEEE1588-2008 Precision Time Protocol, the XRS7000 series also facilitates precise time synchronization across networked devices. This capability not only enhances the reliability of Ethernet networks but also plays a pivotal role in applications requiring synchronized operations over multiple devices. The series includes different models like the XRS7003 and XRS7004, offering various port configurations to suit specific network requirements. These devices support robust protocols, quality of service features, and are compatible with gigabit Ethernet, providing an optimal balance of performance and redundancy for modern networking demands.
The XR7 PTP Time Synchronization Stack provides robust clock synchronization in Ethernet and IP networks using the IEEE 1588-2008 Precision Time Protocol. Available for Linux-based systems, its C language foundation makes it highly portable across different hardware and operating systems. The stack supports master, slave, and boundary clock functionalities, making it adaptable to a wide range of network configurations. It includes advanced features such as the Best Master Clock selection algorithm and asymmetry corrections to enhance synchronization accuracy. XR7 PTP is field-proven and known for enabling nanosecond-class precision across complex networks. Its flexible licensing options and proven interoperability make it ideal for industries requiring precise timekeeping, such as telecoms, utilities, and industrial automation, ensuring synchronized operations with minimal delay across networked devices.
The XR7 Redundancy Supervision software is an essential component for managing HSR and PRP networks reliably. Offering a fully compliant IEC 62439-3:2016 stack, it transmits, receives, and processes HSR and PRP supervision frames, maintaining network integrity across multiple nodes. Written in C, the XR7 Redundancy Supervision is compatible with Linux-based systems and easily ported to other environments through its abstraction layer design. It maintains a NodesTable, essential for detailed network management, by recording active components in the network based on the supervision frames received, thus helping ensure high network reliability. This supervision solution can be integrated with Flexibilis’ hardware offerings such as the Redundant Switch, improving network reliability through automated redundancy management. With adjustable supervision frame transmission and efficient timer settings, XR7 fits into various applications from industrial automation to communication networks requiring meticulous redundancy management.
The XRS7004E Switch is a high-performance integrated solution designed to incorporate the HSR and PRP protocols for robust network redundancy. Tailored for industrial applications, this switch provides essential network synchronization via the IEEE1588 standard, ensuring that all connected devices remain perfectly in sync for seamless operations. The XRS7004E supports multiple gigabit Ethernet ports with its integrated RGMII interfaces, allowing it to handle high data throughput efficiently. Its advanced feature set includes cut-through and store-and-forward operations, which optimize packet delivery and network efficiency while minimizing latency. Additionally, the device is equipped with comprehensive VLAN tagging, quality of service features, and priority queuing systems to ensure data packets are handled and prioritized effectively. This makes the XRS7004E ideal for complex industrial environments requiring high-speed data processing alongside redundancy and time synchronization capabilities.
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