The Juniper Networks RE-S-X6-64G-S is a routing engine designed for use with certain Juniper MX Series routers. It provides advanced processing capabilities, memory, and control plane functions to support the high-performance and feature-rich operation of the router.
The RE-S-X6-64G-S is part of the Routing Engine (RE) family for Juniper MX Series routers. It is a high-performance control plane module that plays a crucial role in the router’s overall operation. The routing engine is responsible for handling the control plane functions, including routing protocols, management, and system monitoring.
The RE-S-X6-64G-S is equipped with powerful processing capabilities and ample memory to efficiently manage the routing tables, protocols, and traffic in complex network environments. It supports advanced features such as MPLS (Multiprotocol Label Switching), BGP (Border Gateway Protocol), OSPF (Open Shortest Path First), and other key routing protocols.
The routing engine’s role is critical in ensuring the stability, scalability, and reliability of the router’s control plane, allowing the router to make intelligent forwarding decisions and respond to network changes dynamically.
- Product Name: RE-S-X6-64G-S
- Compatibility: Juniper MX Series routers (specific models)
- Processor: Multi-core processor (number of cores may vary based on the specific model)
- Memory: 64 GB RAM (Random Access Memory)
- Storage: Solid-State Drive (SSD) for storage and Juniper Junos OS installation
- Control Plane Features: Supports various routing protocols, MPLS, management functionalities, and system monitoring
Please note that the specifications and features of the RE-S-X6-64G-S routing engine may vary based on the specific Juniper MX Series router model and revision. It’s essential to consult Juniper’s official documentation or contact their support for the most accurate and up-to-date information on this routing engine module.
The RE-S-X6-64G-S routing engine is designed to deliver high-performance and reliability, making it suitable for carrier-grade networks and large-scale enterprise deployments. Its processing power and memory capacity enable the router to handle complex traffic patterns and demanding networking tasks.