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Cisco 75 (CISCO75) Router Product Features (choose a different model)
The Cisco 700 Series Multiservice Access Routers are a family of modular routers that enable flexible and scalable deployment of new e-business applications for the Full Service branch office. The Cisco 700 Series routers optimize the branch office with high performance routing, integrated low density switching, Security, Voice, IP telephony, Video and Content Networking in a single integrated solution. This unique integrated design enables enterprise customers to incrementally adapt to evolving business needs by enabling important services delivered by Cisco IOS, such as Quality of Service (QoS), IP Multicast, VPN, Firewall, and Intrusion Detection, with the performance required for tomorrows business challenges. The Cisco 700 Multiservice Access Routers are based on the same modular concepts as the Cisco 600 Series but enable dramatically higher levels of performance and service integration for the branch office.The Cisco 75 and Cisco 745 provide on-board LAN/WAN connec...
Key Features
Data Transfer Rate
100 Mbps
Rack Mounting Kit
Optional
Platform
PC
Other Features
Connectivity
Cable
Package Qty.
1
Memory
Installed RAM
18 MB
Installed Flash Memory
MB
Protocols
Data Link Protocol
Ethernet, ATM, ISDN, HSSI, Fast Ethernet, X.5
Switching Protocol
Ethernet
Dimensions
Width
17.1 in.
Depth
14.7 in.
Height
.51 in.
Weight
14.11 lb.
Miscellaneous
Product ID
0107
com superstack Net Builder SI 467 5,7.1 $
The SuperStack II NETBuilder SI platforms deliver today's best overall WAN value with built-in, easy-to-use IP firewalls that provide secure LAN-to-WAN traffic as well as protection from Internet intrusion. Predictable system performance, robust multiprotocol routing, and integrated telecommunications functionality make the SuperStack II NETBuilder SI devices the most cost-effective, complete regional office solution for changing wide area networking needs in a secure environment. The platforms can either be used as a remote office connection or as a central site solution in combination with Com OfficeConnect NETBuilder routers in remote branch offices.
Main
Manufacturer Sku C8567
Brand Com
Product Line SuperStack II NETBuilder
Model SI 567
Interface Type Cable
Data Transfer Rate 100 Mbps
Switching Protocol Frame Relay, X.5, PPP, SMDS
Operating System Compatibility PC
BizRate Product ID 5055
Also Known As c8567
Networking
Networking Type Router
Networking Connection Type Ethernet (10/100Base-T), Fast Ethernet (100Base-T), SDLC, Ethertalk
Network Transport Protocol SNA, AppleTalk, DECnet, TCP/IP, IPX/SPX
Cisco 1000 Series Routers
Product Overview
For service providers who face the challenge of building IP networks to meet customer demands while increasing profitability, the Cisco 1000 Series offers the only portfolio of 10G systems with the capacity, performance, service enablers and operational efficiencies to build the most competitive IP networks.
As the industry`s next generation Internet routing platform of choice, the Cisco 1000 Series is composed of the following key elements
• Chassis options that fit your scaling and real estate requirements.
• Line Cards and other options such as redundant Gigabit Route Processors, Switch Fabric Cards, and Clock Scheduler Cards to deliver the interface diversity, performance and high availability required by today`s networks.
• Cisco IOS to enable the services the Cisco 1000 Series hardware delivers.
• Cisco 1000 Manager to help you deploy, configure and manage Cisco 1000 Series products.
Cisco 1000 Series Chassis
Whether located in the services provider point of presence (POP) or Internet data center (IDC) in the metro, long-haul transit site, or WAN, the Cisco 1000 Series offers configurations that meet current customer needs for scaling IP backbone and edge networks while providing investment protection for future growth and technology development.
To meet the versatility demanded by scalability and investment protection requirements, the Cisco 1000 Series offers six chassis options that range in size (number of slots and rack configuration) and bandwidth capacity. These chassis include two groups- chassis supporting .5 Gbps per slot, and Cisco 1400 Internet Routers supporting 10 Gbps (e.g. OC-1) per slot.
Table 17-1 Chassis supporting .5 Gbps (full duplex) per slot
Cisco 1008 Internet Router 8 Slots
Cisco 101 Internet Router 1 Slots
Cisco 1016 Internet Router 16 Slots1
1. The Cisco 1016 may be field upgraded to a Cisco 1416 via a Switch Fabric Upgrade kit.
Table 17-1 Chassis supporting 10 Gbps (full duplex) per slot
Cisco 1404 Internet Router 4 Slotseighth rack
Cisco 1406 Internet Router 6 Slotsquarter rack
Cisco 1410 Internet Router 10 Slotshalf rack
Cisco 1416 Internet Router 16 Slotsfull rack
With both capacity and size flexibility, service providers can deploy Cisco 1000 Series products in a variety of environments including
• Pop consolidation
• Peering and transit
• Bandwidth aggregation
• Remote POP connectivity
• IDC backbone expansion and aggregation
• Intra-POP connectivity
• High Speed Provider Edge Aggregation
These chassis support the key elements of the Cisco 1000 Series distributed architecture, including an extensive portfolio of Line Cards that deliver the interface technology needed to build networks today.
Cisco 1000 Series Line Cards
The Cisco 1000 Series offers an extensive portfolio of line cards (Table 18-5) supporting ATM, Channelized, Dynamic Packet Transport/Resilient Packet Ring (DPT/RPR), Electrical Interface (DS/E), Gigabit/ Fast Ethernet, and Packet Over SONET (POS) technologies with speeds from DS1 / E1 (64 Kbps) through OC-1/STM-64. These line cards deliver the high performance, guaranteed priority packet delivery and service transparent online-insertion and removal (OIR) required by service providers to build networks that offer high ROI and meet customer demand.
The new Cisco 1000 Series IP Services Engine (ISE) revolutionizes the edge market by combining the power of the Cisco 1000 Series distributed system architecture with revolutionary edge-optimized line card technology to 10 Gbps enable the high-speed service enabled edge. Cisco 1000 Series ISE line cards are now offered in POS and channelized interfaces.
Table 17-14 Cisco 1000 Series Line Card Technologies
Description Specification
Packet over SONET/Synchronous Digital Hierarchy (POS/SDH) POS interfaces on the Cisco 1000 Series enable connections between Cisco next generation Internet routing products via optical interfaces. These interfaces can be circuits provisioned over a SONET/SDH infrastructure or dark fiber (native fiber links) connections or wavelengths of Wave Division Multiplexing (WDM) systems. Line cards range from OC-c/STM-1c to OC-1c/STM-64c
Asynchronous Transfer Mode (ATM) ATM interfaces on the Cisco 1000 Series enable connections between Cisco next generation Internet routing and IP+ATM products via ATM networks. Line cards range from OC-/STM-1 to OC-1/STM-4.
Gigabit and Fast Ethernet Optical Gigabit Ethernet (GE) and Fast Ethernet (FE) interfaces on the Cisco 1000 Series are available in 1, and 10 Port GE and 8 Port FE options.
Dynamic Packet Transport/Resilient Packet Ring (DPT/RPR) Dynamic Packet Transport/Resilient Packet Ring (DPT/RPR) is a Spatial Reuse Protocol (SRP) technology, which, drawing on Cisco`s IP+Optical expertise, combines the intelligence of IP routing with the bandwidth efficiencies of optical rings. Designed primarily for metropolitan area networks, DPT/RPR delivers scalable Internet service, reliable IP-aware optical transport, and simplified network operations.
DPT/RPR is the resilient packet ring market leader, deployed in more than 00 customer networks with more than 18,000 ports shipped. DPT/RPR is based on the Spatial Reuse Protocol (SRP), a Cisco-developed MAC-layer protocol for ring-based packet internetworking. Cisco has submitted SRP, which is an open, freely available specification, to the IEEE 80.17 Resilient Packet Ring (RPR) Working Group for consideration as the industry standard.
DPT/RPR interfaces on the Cisco 1000 Series enable connections to other Cisco 1000, 700, and 7500 Internet Routers, as well as the ONS 1510 IP Transport Concentrators. Line cards supported by the Cisco 1000 Series include an OC-1/STM-4, OC-48/STM-16, and OC-1/STM-64 interfaces.
Channelized Channelized interfaces enables the Cisco 1000 Series Internet Router to exchange packets with other routers using high-speed OC-48/STM-64, OC-1/STM-4, OC-/STM-1 that channelize OC-1c/STM-4c down to DS1/E1 connections and take advantage of the multiplexing capability of SONET/ SDH networks. These channelized interfaces allow an ISP or enterprise network designer to connect the Cisco 1000 Series Internet Router directly to ADMs or digital cross-connects.
DS/ E COAX DS and E cards provide IP and MPLS connectivity services over DS/ E co-axial connections in locations where optical services are not available.
For more information, see
Options for Cisco 1000 Series Line Cards/Memory
Cisco IOS
Service Providers are constantly struggling to scale their infrastructure. The adoption of the Internet as the de-facto public data network only increases the drive for additional bandwidth. However, while performance is critical, it is important not to lose sight of the services that customers require networks to provide. The Cisco Internetworking Operating System (IOS) is the most complete end-to-end network operating system, with over fifteen years of tested performance in enterprise and service provider networks. By adopting Cisco IOS in combination with the Cisco 1000 Series, service providers can scale their network backbone and edge networks while delivering highly differentiated services at high performance levels. Deployed in customer networks and known by network engineers worldwide, Cisco IOS is a critical element in building competitive IP networks.
Cisco 1000 Series supports two IOS releases today 1.0S and 1.0ST
• 1.0S Widely deployed on Cisco 1000 700, and 7500Series Internet Routers, this IOS software service provider release is optimized for service provider Functionality. (Note Before general availability of the software, we will ensure the system level testing is performed in large customer networks.)
• 1.0ST Supported on Cisco 1000, 10000, 700, 7500 and 1070 Internet Routers, this Cisco IOS service provider release supports all 1.0S features and adds advanced features such as MPLS (LDP, FRR), MPLS-VPNs, XML interface, IPv6 and High Availability.
Cisco 1000 ManagerElement Management Software
Cisco 1000 Manager meets today`s business requirements for the control and operation of the Cisco 1000 Series Internet Router. Through an intuitive user interface, Cisco 1000 Manager eases and accelerates deployment, enables efficient operation of large network environments, and streamlines the provisioning process. It provides full fault, configuration, accounting, performance, and security (FCAPS) element management for the Cisco 1000 Series, leading to accelerated service velocity, improved network management, and efficient network operations.
Cisco 1000 Manager is based on CEMF, an element management platform for Cisco products. Cisco 1000 Manager and CEMF are part of the Cisco Service Management (CSM) suite, a strategic component of Cisco products and solutions for New World operations. The Cisco Service Management suite provides many of the necessary building blocks for planning, provisioning, monitoring, and billing of packet-based services. CSM products conform to the Cisco Internet Operations Support System (OSS) reference architecture, enabling independent-software-vendor (ISV) application programmers and system integrators to take advantage of the applications as part of an overall service-provider OSS implementation project.
CEMF provides consistency across a common user interface, a powerful event management system, an automap building and discovery function, and a common data management repository for several Cisco element managers. CEMF also provides a robust foundation and integration toolkit through CORBA interfaces to the element management modules for customer and partner OSS applications.
Cisco 1000 Manager delivers a range of provisioning, configuration, fault isolation/analysis, inventory, and capacity management tools for Cisco 1000 Series Internet Routers. Cisco 1000 Series customers benefit from lower Total Cost of Ownership (TCO) through the manageability built into Cisco 1000 Series hardware, the services provided by CEMF, and the specific element management support provided by Cisco 1000 Manager.
Cisco 1000 Manager .1 replaces Cisco GSR Manager and introduces new features including support for Cisco 1400 products and 10 Gbps POS Line Cards, and improved event processing and handling.
Key Features and Benefits
Cisco 1000 Series Key Features and Benefits
With over 0,000 systems deployed globally, the Cisco 1000 Series is industry`s premier Internet routing platform based on a unique, modular distributed system architecture that offers configuration versatility and the industry`s only 10G portfolio, highest backbone and edge performance, only guaranteed priority packet delivery, and proven investment protection.
Configuration versatility
• Available in .5 and 10 Gbps (full duplex) per slot options including the largest selection of 10 Gbps networking solutions available on the market today
• Switching capacities ranging from 40 to 0 Gbps to deliver throughput required by high bandwidth applications
• Rack configurations ranging from eight to one per rack to meet real estate and cost control requirements Low power consumption design for operational efficiency
• An extensive portfolio of line cards that are forward compatible across chassis to deliver multiple interface technologies including POS/SDH, DPT, ATM, Gigabit/Fast Ethernet, and Channelized
Uncompromising 10G Performance
• The only complete solution for small to large POPsbackbone or edge. Cisco 1400 Internet Routers are available in eight, four, two or one per rack configuration allowing service providers to select the chassis that meets and scales with application requirements.
• The only platforms supporting backbone- or edge-optimized line cards in the same chassis. Forward compatibility and flexibility enable investment protection and configuration versatility within the same chassiswhether deployed new 10 Gbps interfaces, edge-optimized Cisco 1000 Series ISE line cards, or migrating existing investments.
• The only platforms that maximize the value of line-rate edge applications with 10G uplinks. By deploying Cisco 1000 Series ISE line cards in Cisco 1400 Internet Routers, service providers benefit from line cards optimized for edge applications, while removing the bandwidth bottleneck with full 10 Gbps uplinks and cost-effective VSR intra-POP connections.
• The industry`s only complete IP QoS implementation that uniquely enables premium real-time services such as VoIP and video. The Cisco 1000 Series distributed architecture and class of service features such as priority based congestion control (WRED) and dedicated low latency queuing (MDRR), and virtual output queuing (VoQ) technology prevent head of line blocking (HOL) and maintain packet and cell sequence integrity under all conditions
Investment Protection and Operational Efficiency
• Only vendor who delivers simple, low-cost field upgrades to higher switching capacities
• Forward compatibility of Cisco 1000 Series Line Cards guarantees that investments in existing interfaces are protected with new chassis deployments and purchases. Latest Cisco 1000 Series ISE Line Cards are compatible in all Cisco 1000 Series chassis
• High availability features such as eliminating single points of failure by distributing components (e.g. forwarding engines and memory) across line cards helps maintain system performance and prevents service interruption.
• Non-service impacting online insertion and removal (OIR) of components and front accessibility reduces downtime and simplifies maintenance.
• OSS tools such as the integrated element manager, Cisco 1000 Manager, decrease deployment time and cost of ownership
• Designed for NEBS compliance to meet service provider carrier-class requirements
Cisco 1000 Series Distributed Architecture
When evaluating an investment in a routing platform, the architecture of the platform determines the foundation of the network. The industry-leading features and benefits of the industry`s top Internet routing platform are enabled through its superior, distributed and modular architecture.
System Level
The Cisco 1000 Series is based on a high speed distributed routing architecture combined with a state-of-the-art switching core that delivers Layer routing at gigabit speeds.
The Cisco 1000 Series is optimized for performing routing and packet forwarding functions to transport IP datagrams across a network. The routing function is performed in the Gigabit Route Processors (GRP) which are responsible for running the routing protocols and building the routing tables from the network topology. This information is then used to build the forwarding tables distributed to the line cards. In addition, the GRP is also responsible for system control and administrative functions.
The packet forwarding functions are performed by each of the line cards (LC). A copy of the forwarding tables computed by the GRP is distributed to each of the line cards in the system. Each line card performs independent lookup of a destination address for each datagram received on a local copy of the forwarding table and the datagram is switched across a crossbar switch fabric to the destination line card.
All line cards are installed from the front of the chassis and plug into a passive backplane. This backplane contains serial lines that interconnect all of the line cards to the switch fabric cards as well as other connections for power and maintenance functions. Each .5 Gbps chassis slot has 4 operational serial line connections (1.5 Gbps), one to each of the switch fabric cards (see below) to provide a total capacity of 5 Gbps per slot (.5 Gbps full duplex). The 10 Gbps chassis utilizes 4 sets of 4 serial line connections in each slot, one set to each of the switch fabric cards, providing each slot with a switching capacity of 0 Gbps (10 Gbps full duplex).
Component Level
• Gigabit Route Processor
The Gigabit Route Processor (GRP) is a high performance engine that provides the routing intelligence for the Cisco 1000 Series. It is dedicated to determining the network topology and calculating the best path across the network. The GRP has the following hardware characteristics
o 00 MHz R5000 CPU
o 18 MB CPU DRAM default with the option to upgrade to 51 MB
o 51 KB Layer cache
o 51 KB configuration NVRAM
o 8 MB boot Flash
o PCMCIA Type II slots for additional flash storage of IOS software versions, configuration files, etc.
o Ethernet (RJ45 and MII connectors) for Network Management access
o Local Console and modem ports (DB-5 EIA/TIA-c)
The GRP provides the following key functions
o Process Interior Gateway Protocols (IGP) such as OSPF, IS-IS, IGRP, or EIGRP to determine the network topology
o Process External Gateway Protocols (EGP) such as BGP-4
o Create and maintain the routing table (up to 1 million route entries)
o Distribute and update Cisco Express Forwarding (CEF) tables on the line cards and maintain copies of each line card`s CEF tables for card initialization
o General maintenance functions such as diagnostics, console support and line card monitoring
o In-band management through SNMP MIBs, Telnet, TFTP and Cisco 1000 Manager.
• Switch Fabric
At the heart of the Cisco 1000 Series is a multi-gigabit crossbar switch fabric that is optimized to provide high capacity switching at gigabit rates. The crossbar switch enables high performance for two reasons connections from the line cards to a centralized fabric are point-to-point links that can operate at very high speeds; multiple bus transactions can be supported simultaneously increasing the aggregate bandwidth of the system. A Cisco 1000 Series switching fabric must be configured to full fabric (40 Gbps for 1008 and 1404, 60 Gbps for 101, 80 Gbps for 1016, 10 Gbps for 1406, 00 Gbps for 1410, and 0 Gbps for 1416) in order to support all the current line cards. Please note that the number of switch fabric cards (SFCs) needed for a full fabric set will differ according to each chassis.
The switch fabric includes two card types Switch Fabric Cards (SFC) and Clock and Scheduler Cards (CSC). Each Cisco 1000 Series Internet Router must have at least one CSC in the chassis. The CSC handles requests from line cards, issues grants to access the fabric and provides a reference clock to all the cards in the system to synchronize data transfer across the crossbar. The SFC receives the scheduling information and clocking reference from the CSC cards and performs the switching functions.
The Switch Fabric provides the following key functions
o Gigabit speed interconnections between line cards (5 Gbps or 0 Gbps per slot)
o State-of-the-art scheduling algorithm combined with Virtual Output Queues to eliminate head-of-line blocking (HOLB) achieving % efficiency
o Hardware based multicast
o High Availability via redundancy (14 for SFC, 11 for CSC) with loss-less failover and hot-swap capability.
The Cisco 1404 Internet Router introduces a new SFCthe Consolidated Switch Fabric and Alarm Card (CSFAC) that combines an SFC, CSC, and alarm card into a single card, saving on slot real-estate within compact chassis.
• Line Cards
Line cards connect the Cisco 1000 Series to other devices via electrical or optical media. The features and functions of the line cards are interface specific but share common features such as OIR and forward compatibility within the Cisco 1000 Series.
The Cisco 1000 Series IP Services Engine (ISE) introduces a new line card technology and architecture that is designed to help build high-speed edge networks, meeting increasing demand and delivering value-added services without compromising density and line-rate performance.
The micro-coded adaptive network processors in ISE combine the hardware performance of ASICs with the programmable flexibility of software, enabling a broad range of new services with a simple software upgrade instead of a costly hardware replacement. The forwarding engine and adaptive network processors in ISE scale edge performance and functionality beyond the ASIC and memory barriers that limit centralized systems.
• Alarm Card
Cisco 1000 Series Internet Routers can be connected to an external alarm system via the alarm board. When the GRP detects an alarm condition (i.e., link failure, loss of power, or equipment failure), it sends a signal to the alarm board to light the appropriate LED on the front of the chassis. The alarms can be cleared by the push-button on the alarm board, or by software commands.
Specifications
Hardware
Table 17-15 Technical Specifications for the Cisco 1000 Series
Specification Cisco 1008 Cisco 101 Cisco 1016
Cisco 1416 Cisco 1410 Cisco 1406 Cisco 1404
Switching Capacity 40 Gbps 60 Gbps 80 Gbps
0 Gbps 00 Gbps 10 Gbps 40 Gbps
Capacity per slot
(full duplex) .5 Gbps .5 Gbps .5 Gbps
10 Gbps 10 Gbps 10 Gbps 10 Gbps
Chassis Slots 8 1 16 10 6 4
Min. Cisco IOS version 1.0(5)S
1.0()ST 1.0(5)S
1.0()ST 1.0(8)S
1.0()ST
1.0(15)S
1.0(16)ST 1.0(16)S or ST 1.0(17) S or ST 1.0(1)S or ST
Supported Protocols IPv4, MPLS, Border Gateway Protocol Version 4 (BGPv4), Intermediate System-to-Intermediate System (IS-IS), Open Shortest Path First (OSPF) v. .0, Enhanced Interior Gateway Routing Protocol (EIGRP), Routing Information Protocol (RIP) v, Internet Group Management Protocol (IGMP), Protocol Independent Multicast dense mode/sparse mode (PIM DM/SM)
Management CLI, SNMP, Cisco 1000 Manager
The GRP supports two serial ports (console and AUX connection) and one 10/100 port
Table 17-16 Chassis Compatibility for Cisco 1000 Series Line Cards
Technology Interface Chassis
Cisco 10xx
.5 Gbps Cisco 1400
10 Gbps
Gigabit/ Fast Ethernet 8-Port Fast Ethernet Yes Yes
1-Port Gigabit Ethernet Yes Yes
-Port Gigabit Ethernet Yes Yes
10-Port Gigabit Ethernet Yes
Electrical 6-Port DS Yes Yes
1-Port DS Yes Yes
6-Port E Yes Yes
1-Port E Yes Yes
Packet Over SONET/ Synchronous Digital Hierarchy 4-Port OC-c/ STM-1c POS/SDH Yes Yes
4-port OC-c/STM-1c POS/SDH ISE Yes Yes
8-Port OC-c/ STM-1c POS/SDH Yes Yes
8-port OC-c/STM-1c POS/SDH ISE Yes Yes
16-Port OC-c/ STM-1c POS/SDH Yes Yes
16-Port OC-c/ STM-1c POS/SDH ISE Yes Yes
1-Port OC-1c/ STM-4c POS/SDH Yes Yes
4-Port OC-1c/ STM-4c POS/SDH Yes Yes
4-port OC-1c/STM-4c POS/SDH ISE Yes Yes
1-Port OC-48c/STM-16c POS/SDH Yes Yes
1-Port OC-48c/STM-16c POS/SDH ISE Yes Yes
4-Port OC-48c/STM-16c POS/SDH Yes
1-Port OC-1c/STM-64c POS/SDH Yes
Asynchronous Transfer Mode 4-Port OC-c/STM-1c ATM Yes Yes
1-Port OC-1c/STM-4c ATM Yes Yes
4-Port OC-1c/STM-4c ATM Yes Yes
Dynamic Packet Transport/Resilient Packet Ring -Port OC-1c/STM-4c DPT Yes Yes
1-Port OC-48c/STM-16c DPT Yes Yes
4- Port OC-48c/STM-16c DPT Yes
1-Port OC1c/STM-64c DPT Yes
Channelized -Port Ch OC-/STM-1(DS1/E1) Yes Yes
6-Port Ch T (T1) Yes Yes
1-Port Ch OC-1/STM-4(OC-/ STM-1) Yes Yes
1-Port Ch OC-1 (DS) Yes Yes
4-Port Ch OC-1/STM-4 (DS/E, OC-c/STM-1c) POS/SDH ISE Yes Yes
1-Port Ch OC-48/STM-16 (DS/E, OC-c/STM-1c,OC-1c/STM-4c) POS/SDH ISE Yes Yes
Table 17-17 Physical and Environmental Specifications for Cisco 1000 Series Chassis
Specification Cisco 1008 Cisco 101 Cisco 1016
Cisco 1416 Cisco 1410 Cisco 1406 Cisco 1404
Vibration Operating 5 to 00 Hz, 0.5 g
(1 oct/min.) Same as 1008 to 500 Hz, 0.5 Grms Same as 1016 Same as 1016 (Sinusoidal) to 500 Hz at 0.15 gpk
(Random) .5 to 00 Hz at 0. Grms
Storage 5 to 500 Hz, 1 g
(1 oct/min.) Same as 1008 to 500 Hz, 1.0 Grms Same as 1016 Same as 1016 (Sinusoidal) 10 to 500 Hz at 0.8 gpk
(Random) .5 to 00 Hz at 1.05 Grms
Acoustic Noise 6 dBa max. Same as 1008 70 dBa max. Same as 1016 Same as 1016 70 dBa max.
Temperature Operating to 104°F (0 to 40°C) Same as 1008 Same as 1008 Same as 1008 Same as 1008 to 104°F (0 to 40°C)
Storage -4 to 14°F (-0 to 65°C) Same as 1008 Same as 1008 Same as 1008 Same as 1008 -40 to 158°F (-40 to 70°C)
Humidity
(non-condensing) Operating 10 to 0% Same as 1008 Same as 1008 Same as 1008 Same as 1008 5 to 0%
Storage 5 to 5% Same as 1008 Same as 1008 Same as 1008 Same as 1008 50 to %
Altitude Operating 0-10,000 ft (0-000 m) Same as 1008 0-10,000 ft (0-000 m) Same as 1016 Same as 1016 0-14,000 ft (0-467 m)
Storage 0-0,000 ft (0-140 m) Same as 1008 0-0,000 ft (0-144 m) Same as 1016 Same as 1016 0-16,000 ft (0-4877 m)
Shock Operating 5-500 Hz 0.5G (0.1 oct/min.) Same as 1008 (half sine) 1 in./sec (0.5 m/sec) Same as 1016 Same as 1016 (Halfsine) 5G, 11ms
Storage (trapezoidal) 5-100 Hz 1.0G
(0.1 oct/min.)
100-500 Hz 1.0G (0. oct/min.)
500-1000 Hz 1.5G
(0. oct/min.) Same as 1008 (trapezoidal) 0G,
5 in./sec
(1. m/sec) Same as 1016 Same as 1016 (Halfsine) 15G, 11ms
Dimensions (H x W x D) Unit 4.85 x 17.4 x 1. in.
(6.1 x 44. x 5.8 cm) 56.0 x 17. x 1.0 in.
(14. x 4. x 5. cm) 7.5 x 18.75 x 4.0 in.
(184. x 47.6 x 61.0 cm)
Includes power, front cover, rack mount flanges, and cable-management system 7.5 x 1.0 x 4.0 in.
(5.5 x 48.6 x 61.0 cm)
Includes cable-management system and front cover 18.5 x 18. x 8 in.
(47.0 x 48.0 x 71.1 cm)
Includes rack-mount flanges, power supply pullouts, blower handles system) 8.75 x17.8 x 7.5 in.
(. x 44.15 x 6.85 cm)
Shipping .5 x 5.0 x .5 in.
(0. x 6.5 x 100. cm) 67.0 x 4.88 x . in.
(170. x 6. x 100 cm) 8 x 4 x 40 in.
(6 x 86. x 101.6 cm)
Weight Unit 187 lb (84. kg) max configuration 80 lb (17.5 kg) max configuration 415 lb (188 kg);
440 lb (0 kg) for 4 AC Configuration max configuration 15 lb (57 kg), chassis only
75 lb (15 kg), chassis fully configured, using all card slots and two AC-input power supplies 140 lb (64 kg);
05 lb (4 kg) with Power Supply and Line Cards 7 lb (.18 kg) Fully configured (without line cards) 10 lb (46.8 kg) Fully configured (with line cards)
Shipping 0 lb (100 kg) 4 lb (.4 kg) 580 lb (6.6 kg);
60 lb (81. kg) for 4 AC configuration
Table 17-18 Power SpecificationsCisco 1000 Series Chassis
Specification Cisco 1008 Cisco 101 Cisco 1016 Cisco 1416 Cisco 1410 Cisco 1406 Cisco 1404
DC Input Voltage (range) -40.5 to -75 VDC -40.5 to -75 VDC -40.5 to -75 VDC -40.5 to -75 VDC -40.5 to -75 VDC -40.5 to -75 VDC
AC Input Voltage (range) 180-64 VAC (47 - 6 Hz) 180-64 VAC (47 - 6 Hz) 180-64 VAC (47 - 6 Hz) 170-64 VAC (47 - 6 Hz) 170-64 VAC (47 - 6 Hz) 85-64 VAC (47 - 6 Hz)
Input Supply Power (total) DC 160 W (1 supply) DC 81 W (1 supply) DC 410 W ( supplies) DC 40 W (1 supply) DC 410 W ( supplies) DC 100W max. (DC input)
AC 1 VA (1 supply) AC 50 VA ( supplies) AC 454 VA ( supplies) AC 71 VA (1 each) AC 454 VA ( supplies) AC 1650 VA max (1 AC input)
Heat Dissipation (total maximum) DC 160W at 5,50 Btu/hr DC 81W at 8,1 Btu/hr DC 410W at 14,7 Btu/hr DC 40W at 8,6 Btu/hr DC 1780W at 6.06 Btu/hr DC 100W at 40 Btu/hr
AC 185W at 6,65 Btu/hr AC 801W at ,56 Btu/hr AC 4706W at 16,066 Btu/hr AC 71W at ,58 Btu/hr AC 1650W at 566 Btu/hr AC 100W at 40 Btu/hr
Power Supply Configuration DC 1 min., for N Redundant
AC 1 min., for N Redundant DC 1 min., for N Redundant
AC min., for N+1 Redundant DC 4 req for N Redundant
AC req for N+1 Redundant
AC 4 req for N Redundant DC req for N Redundant
AC req for N Redundant DC 1 min., for N Redundant
AC 1 min., for N Redundant DC 1 min., for N Redundant
AC 1 min., for N Redundant
Notes Power calculations are maximum to support seven 1 port OC-48 line cards
AC input power is limited to 1100VA before power supply upgrade. Power calculations are maximum to support eleven 1 port OC-48 line cards Power calculations are maximum to support fifteen 1 port OC-48 cards for 1016; and fifteen 1 port OC-1c/STM-64c line cards for 1416 Power calculations are maximum to support eight 1 port OC1c/STM-64c line cards Power calculations are maximum to support five 1 port OC-1c/STM-64c line cards Power calculations are maximum to support three 1 port OC-1 and GRP
________________________________________
Note Please check respective product datasheets for specifications on line cards and information on approvals and compliance.
________________________________________
Software
Table 17-1 Cisco 1000 Manager .1 Specifications/Requirements
Description Specification
Compatibility Compatible with CEMF .1
Supported on Sun hardware running Solaris operating environment .6
Server System Requirements Cisco 1000 Manager may be deployed in different configurations, including a single hardware system or a multi-site distributed management system.
Use Sun Ultra 60 or enterprise-class server such as Sun Enterprise 450, configured as follows
17 in. color monitor
Six -GB 10,000-rpm disks on three Ultra SCSI controllers
1-GB memory per CPU (440-MHz processors for large scale)
-GB swap
4-bit Sun graphics card
Miscellaneous resources CD-ROM drive, DAT tape backup
Note For large-scale deployments, fault-tolerant options are available (for example, Sun Netra FT1800).
Client System Requirements (optional) Use Sun Ultra 60, configured as follows
17 in. color monitor
Two -GB internal disks
One -GB 10,000-rpm external disk
56-MB memory (minimum)
Two 60-MHz processors
1-GB swap
Operating environment-Common desktop environment (CDE)
Supported Cisco 1000 Series Chassis Cisco 1008, 101, 1016, 1406, 1410, 1416 and 1404
Supported Cisco 1000 Series Line Cards Gigabit/ Fast Ethernet
• 8-Port Fast Ethernet
• 1-Port Gigabit Ethernet
• -Port Gigabit Ethernet
• 10-Port Gigabit Ethernet
Electrical
• 6-Port DS
• 1-Port DS
• 6-Port E
• 1-Port E
Packet Over SONET/ Synchronous Digital Hierarchy
• 4-Port OC-c/ STM-1c POS/SDH
• 8-Port OC-c/ STM-1c POS/SDH
• 16-Port OC-c/ STM-1c POS/SDH
• 1-Port OC-1c/ STM-4c POS/SDH
• 4-Port OC-1c/ STM-4c POS/SDH
• 1-Port OC-48c/STM-16c POS/SDH
• 4-Port OC-48c/STM-16c POS/SDH
• 1-Port OC-1c/STM-64c POS/SDH
Asynchronous Transfer Mode
• 4-Port OC-c/STM-1c ATM
• 1-Port OC-1c/STM-4c ATM
• 4-Port OC-1c/STM-4c ATM
Dynamic Packet Transport/Resilient Packet Ring
• -Port OC-1c/STM-4c DPT
• 1-Port OC-48c/STM-4c DPT
• 4-Port OC-48c/STM-16c DPT
• 1-Port OC-1c/STM64c DPT
Ordering Information
Product Part Numbers
All part descriptions and part numbers for Cisco products can be accessed using the online Cisco Pricing Tool at
http//www.cisco.com/cgi-bin/order/pricing_root.pl
Configuration Worksheets
This section provides helpful information for planning your Cisco 1000 Series system configuration.
Slot configuration
The last two digits of the Cisco 1000 Series chassis product name indicate the number of slots in the system. For example, a Cisco 1008 has eight slots, and a Cisco 1416 has 16 slots. A minimum of one slot must be used for a GRP. May be used for line cards, including SFCs. Please check specifics for each chassis on redundancy options and SFC requirements. Cisco 1000 Series chassis slots are universal and can be populated with any combination of GRPs and line cards. The following table shows one possible configuration
Table 17-10 Slot Guidelines for the Cisco 1008, Cisco 101, and Cisco 1016/1416
Slot Number Cisco 1008 Cisco 101 Cisco 1016/1416
0 GRP GRP GRP
1 Redundant GRP (if required) or line card Line card Redundant GRP (if required) or line card
- Line card Line card Line card
4-7 Line card Line card Line card
8-11 N/A Redundant GRP (if required) for slot 11 or Line card Line card
1-15 N/A N/A Line card
Table 17-11 Slot Guidelines for the Cisco 1410
Slot Number Cisco 1410
0 GRP
1-8 Line card
Redundant GRP or Line card
10-15 N/A
Table 17-1 Slot Guidelines for the Cisco 1406
Slot Number Cisco 1406
0 GRP
1-4 Line card
Redundant GRP or Line card
N/A
Table 17-1 Slot Guidelines for the Cisco 1404
Slot Number Cisco 1404
0 GRP
1-5 Line card
Redundant GRP or Line card
N/A
Line Card and GRP Memory Options
There are two configurable memory types on the GRP
• Flash (PCMCIA)
• DRAM used to hold system software, routing tables, and other data
Default GRP memory is 0 MB PCMCIA Flash, and 18 MB DRAM
There are two configurable memory types on each of the Cisco 1000 Series line cards
• Packet memory (buffers)
Default packet memory
18 MB (64 MB Tx, 64 MB Rx) for Engine 0, 56 MB (18 MB Tx/18 MB Rx) for Engine 1 and, and 51 MB for ISE (formerly known as Engine )
51 MB (56 MB Tx, 56 MB Rx) for Engine 4
• Route table memory
Default route table memory
18 MB for line cards with .5 Gbps packet forwarding engines (Engine 0, 1, ), expandable to 56 MB
56 MB for line cards with ISE and 10 Gbps packet forwarding engines (Engine 4)
Redundancy
At the heart of the Cisco 1000 Series is a multi-gigabit crossbar switching fabric that provides synchronized gigabit-speed interconnections for all of the other cards in the system. The switching fabric for the Cisco .5 Gbps chassis (1016, 101 and 1008) consists of up to four switching cards, supplemented by a fifth card that provides 14 or 11 redundancy. The .5 Gbps switching cards are not interchangeable with the 10Gbps switch fabric (1404/1406/1410/1416).
________________________________________
Note Redundancy in key system components (processors, switch fabric, line cards, cooling and power) minimizes possible network disruption if a failure occurs. The following table shows the valid redundancy options for each Cisco 1000 Series product.
________________________________________
Table 17-14 Redundancy Matrix for Cisco 1000
System Element Cisco 1008/101/1406/1404/1410/1016/1416
Switch cards Yes1
GRP Yes
Line cards (APS) Yes
Fans Yes
Power supplies Yes
1. Does not include the Cisco 1404 CSFAC.
Software
Cisco IOS
The system software is based on IOS Version 1.0S or ST. A software license is required for each Cisco 1000 Series Internet Router. The license must accompany each system and is tied to the Cisco 1000 chassis serial number. If you are ordering only Cisco 1000 spare products, you do not need to order a software license.
Cisco 1000 Manager
Cisco 1000 Manager (C1KM) requires licensing for each management server (A) and managed node (B).
A. Management server licensing
The C1KM application (the management server) is available as an orderable media kit package (EMS-1k-.1-KIT) that contains a CD and release notes. This Cisco 1000 Manager package includes the Cisco Element Management Framework (CEMF) .1 and CEMF .1 User Guide and Installation Documentation set. The Cisco 1000 Manager User Guide and Installation Documentation set is available on Cisco Connection Online (CCO).
CEMF .1 patch 4 is available from CCO-http//www.cisco.com/pcgi-bin/tablebuild.pl/cemf
CEMF .1 logical licensing is enabled and controlled according to the Host name and Host Id. of the Sun hardware it is installed on as a management server. Upon initial installation, the software runs on a temporary0 day license. Customers ordering EMS-1k-.1-KIT with managed node licenses can download permanent CEMF licenses via CCO using a Product Authorization Key (PAK) shipped with the C1KM package.
http//cco.cisco.com/public/sw-center/sw-registration.shtml
C1KM .1 supports up to 50 fully populated Cisco 1000 Series Internet Routers with full performance logging enabled, or up to 100 routers with performance logging enabled selectively (e.g. on customer and key network interfaces).
Up to 10 concurrent users can be supported by installing at least one client system to support user sessions (the client software required is included in EMS-1k-.1-KIT.)
Customers ordering EMS-1k-.1-KIT-D may evaluate C1KM for 0 days free of charge.
B. Managed node licensing
Cisco 1000 Manager .1 (C1kM .1) also requires a license purchase per managed Cisco 1000 node (chassis). Customers should order a management license (or upgrade) for each new and existing Cisco 1000Series Internet Router to be managed using C1kM (i.e. see product number table for a combination of both EMS-1k-MGT-LIC and EMS-1k-MGT-LIC= as appropriate).
Service and Support
TAC Service and Support contracts are available, both with and without major upgrades. The Service and Support with Upgrades contract is highly recommended.
Upgrades
Customers without service contracts need to purchase upgrade licenses for both the C1KM .1 application (media kit) and existing Cisco 1000 series chassis licenses. You must upgrade both the console and the nodes that you intend to manage.
Customers with service contracts will only receive upgrade support (for major or minor releases of C1KM) based on which component they have purchased a contract for (application and node licensing), and what level of contract they have purchased (with or without upgrade). A contract with upgrade support receives all major and minor upgrades. Without upgrade support, contract holders will receive minor upgrades free-of-charge. All service contract customers may use the product upgrade tool to obtain upgrades http//www.cisco.com/upgrade.
Each application upgrade (media kit) includes both C1KM and CEMF upgrade software. Detailed instructions on upgrading are provided in the C1KM .1 release notes.
Customers without a service contract must purchase minor upgrades for C1KM .1 media kit and management licenses
(EMS-1K-MNUPG-KIT and EMS-1k-MNUPG-LIC).
Detailed upgrade steps are provided in the C1KM .1 release notes.
Cisco 1000 Series Internet Router ordering instructions
Use the following steps to configure an order for a Cisco 1000 Series Internet Router
• Select the base system; e.g. GSR 1/60 for the 60 Gbps Cisco 101 Internet Router, or GSR 8/40 for the 40 Gbps Cisco 1008 Internet Router.
• Add to the order
o Base system software license
o Type of power supply (AC/DC) [DC power is the default]no choice on the Cisco 1000 series 16/80two bundles
o Correct power cord (AC only)
o Increased GRP memory (optional)
• Add needed line cards and increase line card packet buffer and DRAM memory (optional)
• Add redundant/spare components
o Switch cards
o GRP (two max.)
o Power supplies
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Note All references to GSR refer to Cisco 1000 Series products.
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Table 17-15 Sample Configurations for Cisco 1008
Description Product Number
Cisco 1008, 40 Gbps; 1 GRP, 1 CSC, SFCs, 1 DC GSR 8/40
56 MB GRP and LC program/route memory ( x 18 MB) MEM-GRP/LC-56
Cisco 1008 redundant DC supplies ( DC supplies) PWR-GSR8-DC/
IP IOS SFGSR-11..
Cisco 1008 scheduler/fabric/alarm GSR8-CSC/ALRM=
1-port OC-48c/STM16 SONET/SDH Short Reach 110nm with SC connector OC48E/POS-SR-SC
56 MB GRP and LC program/route memory ( x 18 MB)default MEM-GRP/LC-56
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