Description
Product Overview for the Cisco ASR1006-X Chassis
The Cisco ASR1006-X Chassis is a powerful and scalable modular expansion base that serves as the foundation for the Cisco ASR 1000 Series Aggregation Services Routers. This chassis is designed to meet the demanding requirements of modern networks, providing a flexible and high-performance platform for various networking applications.
Key Features of ASR1006-X Chassis
- Modular Design: The ASR1006-X features a modular design, allowing for the integration of various components and expansion modules to meet specific networking needs.
- Scalability: With a focus on scalability, this chassis supports the addition of modules and interfaces, accommodating the evolving demands of network growth.
- Rack-mountable: The chassis is designed to be rack-mountable, making it suitable for deployment in standard server racks commonly used in data centers and network facilities.
Modular Design for Versatility
The modular design of the ASR1006-X Chassis is a standout feature. It allows network administrators to customize the router based on the specific requirements of their network infrastructure. This modularity extends to various aspects, including interface types, processing power, and additional features.
Component Modules
The chassis can accommodate a variety of modules, each serving a specific function. Common module types include:
- Route Processor Module (RPM): Responsible for processing routing information and managing the overall routing table.
- Embedded Services Processor (ESP): Enhances the router’s capabilities by providing additional processing power for services such as VPNs and firewall functions.
- Shared Port Adapters (SPAs): These modular interfaces support various types of network connections, including Gigabit Ethernet, 10 Gigabit Ethernet, and more.
- Power Supply Modules: To ensure redundancy and reliability, the chassis can house multiple power supply modules.
Scalability to Meet Growing Demands
Scalability is a critical aspect of the ASR1006-X Chassis. As network requirements evolve, the chassis can adapt by incorporating additional modules and interfaces. This scalability is vital for organizations experiencing growth or changes in their networking needs.
Adding Processing Power with ESPs
The inclusion of ESPs allows for the scaling of processing power. As network demands increase, additional ESPs can be added to enhance the router’s overall performance, ensuring it can handle higher traffic volumes and more complex tasks.
Expanding Interface Options with SPAs
The modularity extends to the interfaces as well. By adding or swapping SPAs, network administrators can expand the range of supported connections. This flexibility is beneficial for adapting to changing connectivity standards or introducing new technologies.
Rack-Mountable Design for Efficient Deployment
The rack-mountable design of the ASR1006-X Chassis adds a layer of practicality to its functionality. In data centers and network facilities, where space optimization is crucial, rack-mounted equipment allows for efficient use of vertical space. This design conforms to industry standards, making it easy to integrate the chassis into existing server racks.
Standard Rack Sizes
The chassis typically adheres to standard rack sizes, commonly 1U or 2U. This standardization ensures compatibility with a wide range of server racks and cabinets, simplifying the deployment process.
Space Efficiency in Data Centers
In data center environments, where space is at a premium, the rack-mountable design of the ASR1006-X Chassis becomes especially valuable. It enables the deployment of a powerful networking solution without consuming excessive physical space.
Use Cases and Applications
- Enterprise Networks: The ASR1006-X Chassis is suitable for large enterprise networks where scalability, modularity, and high-performance routing are essential.
- Data Centers: In data center environments, the chassis can serve as a core routing solution, handling the substantial data traffic characteristic of these facilities.
- Service Provider Networks: For service providers, the ASR1006-X is capable of delivering the performance and flexibility required to support diverse services and connectivity options.
Benefits of ASR1006-X Chassis in Networking
- Customization: The modular design allows for the customization of the router to meet specific networking requirements, providing a tailored solution for diverse needs.
- Scalability: The chassis can scale to accommodate the growth of network traffic and the addition of new services, ensuring long-term viability.
- Flexibility in Connectivity: The variety of interface options, thanks to the modularity of SPAs, provides flexibility in supporting different network connections.
- Space Optimization: The rack-mountable design optimizes space in data centers and network facilities, contributing to efficient space utilization.
Scalability and Modular Expansion Capabilities
The ASR1006-X Cisco ASR 1006-X – Modular Expansion Base Router is a highly scalable and modular router that offers a wide range of scalability and modular expansion capabilities. Some of these capabilities include:
- Modular Design: The router is designed to be highly modular, with a chassis that can accommodate up to six line cards. This allows for flexible and scalable expansion as network requirements grow.
- High-Speed Interfaces: The router supports a wide range of high-speed interfaces, including Gigabit Ethernet, 10 Gigabit Ethernet, and 40 Gigabit Ethernet, which allows for high-speed connectivity and scalability.
- High-Capacity Backplane: The router has a high-capacity backplane that allows for high-speed data transfer between line cards, enabling the router to handle high-bandwidth traffic.
- High-Performance Processing: The router is equipped with a high-performance processor that enables it to handle large-scale routing and security functions, making it suitable for large enterprise and service provider networks.
- Virtualization: The router supports virtualization, which enables multiple virtual routers to share the same hardware, allowing for efficient use of resources and scalability.
- High Availability: The router has several high availability features such as redundancy power supply, Hot-swappable components, and redundant route processors.
- Flexible Service Modules: The router can be configured with a variety of service modules such as firewall, VPN, and WAN optimization, which can be added or removed as needed, providing scalability and flexibility.
- Software-Defined Networking (SDN): The router supports Software-Defined Networking (SDN) which allows for network-wide automation and programmability, which can improve scalability, security, and network management.
Quality of Service (QoS) and Traffic Management Features
The ASR1006-X Cisco ASR 1006-X – Modular Expansion Base Router has several Quality of Service (QoS) and traffic management features, including:
- Class-Based Weighted Fair Queuing (CBWFQ): This feature allows you to assign different levels of priority to different types of traffic, such as real-time traffic or best-effort traffic.
- Low Latency Queuing (LLQ): This feature allows you to prioritize delay-sensitive traffic such as voice and video.
- Weighted Random Early Detection (WRED): This feature is used to prevent congestion on the router by randomly dropping packets when the queue reaches a certain threshold.
- Policing and Shaping: The router supports both policing and shaping to limit the amount of traffic that can enter or exit an interface.
- Quality of Service (QoS) Group: The router allows to grouping of similar traffic together and assigns them a common class and a common set of characteristics.
- Hierarchical QoS: This feature allows you to apply multiple levels of QoS policies, allowing you to implement more granular control over your network traffic.
- Class-Based Marking (CB Marking): This feature allows you to mark traffic at the ingress of an interface with a specific DSCP or IP precedence value.
- Flexible NetFlow (FNF): This feature allows you to collect and analyze network traffic data for QoS and security purposes.
- Access Control Lists (ACL): The router supports the use of access control lists (ACLs) to filter and control network traffic based on a variety of criteria, such as source or destination IP address or port.
- Virtual Private Network (VPN): The router supports multiple types of VPN such as IPSec, L2TP, PPTP, and SSL VPN for secure remote access and site-to-site connectivity.
- MPLS Traffic Engineering (MPLS TE): The Router supports MPLS Traffic Engineering (MPLS TE) for optimizing the use of network resources, improving network scalability, and providing fast recovery from network failures.
General Information about this Cisco ASR1006-X
- Manufacturer: Cisco
- Model Number or SKU# ASR1006-X
- Device Type: Modular expansion base
- Enclosure Type: Desktop, rack-mountable – modular – 6U
- Connectivity Technology: Wired
Features
- Front-to-back airflow
- Compliant Standards: CISPR 24, EN55022, EN55024, CISPR 22, EN50082-1, EN 61000-6-1, AS/NZS 60950-1, EMC, ICES-003 Class A, EN300-386, UL 60950-1, IEC 60950-1, EN 60950-1, CSA C22.2 No. 60950-1-03, AS/NZS, VCCI Class A, FCC CFR47 Part 15 B Class A
- RAM: 8 GB
Expansion / Connectivity
- Expansion Slots: 16 (total) / 16 (free) x expansion slot
- Installed Modules Qty (Max): 0 (installed) / 16 (max)
Power
- Power Device: External power adapter – hot-plug
- Power Redundancy: Optional
- Installed Qty: 6 (max)
- Voltage Required: AC 120/230 V / DC -40 -72 V
In summary, the Cisco ASR1006-X Chassis serves as a foundational element within the ASR 1000 Series Aggregation Services Routers, offering a blend of high performance, scalability, and flexibility for diverse networking requirements. With its modular design, rack-mountable feature, and scalability options, it caters to the needs of service providers, enterprises, and data centers seeking robust networking solutions.
This chassis, as part of Cisco’s portfolio, signifies the company’s commitment to delivering reliable, high-performance networking equipment capable of meeting the ever-evolving demands of modern networking.