T-series Core Platforms

Overview

Accelerate deployment of the ideal next-generation network (NGN) with the T-series family: T320, T640, T1600 and the TX Matrix for multi-chassis operations. T-series platforms interoperate with Juniper Control System (JCS 1200): the industry's first control plane scaling system. JCS 1200 brings independent scale of control and forwarding plane resources to help maximize service growth, operational efficiencies and control, and enables service providers to accelerate the roll out of high-value services and reduce capital and operating expenditures.

Juniper Networks T-series core routers, including the T1600–a 1.6 Tbps system with 100 Gbps per slot–delivers performance without compromise rather than forcing a choice between either rich services or performance. The T-Series core routers offer sophisticated processing capabilities on a true multi-service platform. Providers can reduce operational and capital expenses while easily customizing the solution set and user experience. The result is flexible, powerful and profitable network service delivery.

Building core next-generation networks (NGN) with T-series core routers offers a "pay-as-you-grow" path. Exponential bandwidth growth is accommodated along with seamless integration with the optical transport networks that connect your metropolitan areas. This is especially evident with the in-service migration path from a T640 to a T1600–an in-service upgrade can be completed in less than 90 minutes that more than doubles capacity. Alternative solutions require forklift upgrades and modifications to the transport network.

The data plane in T-series core routers is based on programmable ASICs that provide high security and granular traffic control while handling potentially hundreds of thousands of filtering operations at the highest line rates. Furthermore, Juniper forwarding engines implement the industry's most sophisticated, predictable and granular policies.

On the control plane is the JUNOS operating system, which operates from edge to core across all Juniper routing platforms. In addition to being the industry's most proven and trusted network operating system, JUNOS is integrated with Juniper's Session and Resource Control (SRC) portfolio for policy-driven control of network resources.

Features

Multi-terabit Capacity and Multi-chassis Scalability

Total Internet traffic continues to grow at over 80 percent per year. T-series scale and density allow service providers to increase capacity without adding additional systems to the network.

With the TX Matrix, incremental expansion can be made to a 2.5 Tbps system; the new T1600 provides 1.6 Tbps capacity in a single chassis. Future proof architecture scales comfortably to well beyond this capacity as provider needs progress.

High-availability Hardware

High-availability and continuous operation are critical in core routing, where loss of a single routing node can remove service for a wide geographical area.

There is no single point of failure in T-series routers. Component level redundancy is available for routing engines (RE), Control Boards (CB), and switch interface boards (SIB), as well as Power Entry Modules (PEM).

High-availability Software

High-availability requirements in core networks include the elimination of planned downtime. Non Stop Routing (NSR) provides the foundation for seamless system upgrade, and JUNOScript commit script capabilities mean continuous operation under maintenance conditions and topological changes.

Superior Packet Processing via Programmable ASIC-based Packet-forwarding Engine (PFE)

Highly granular QoS, advanced filter based forwarding, flow-based monitoring and DDoS prevention are critical in core routing. Juniper's programmable ASICs deliver a comprehensive hardware-based system for packet processing. To ensure a nonblocking forwarding path, all channels between the ASICs are oversized, dedicated paths.

Firewall filter capabilities are scalable to hundreds of thousands of entries and include multiple matches and conditions. All competing core routing implementations allow for a mere fraction of the total firewall filter terms supported on Juniper routers without performance degradation.

Wide Range of Interfaces

Combining the functions of previously disparate network elements offers greater network simplicity and retains the service-building advantages of the overlay networks being replaced by the converged network.

Interfaces on T-series range from DS3 to OC-768. Juniper provides the largest variety of interfaces among core routing platforms. This interface variety (both optical and copper) is unique in the market.

Solid, Modular, Feature-rich Software

Each JUNOS process runs in protected memory to guard against system crashes and to ensure that applications do not interfere with each other. JUNOS has the greatest breadth of features and is the most stable network operating system in the industry.

Each release of JUNOS runs consistently across all Juniper Networks routing platforms and feature sets. JUNOS was conceived and implemented as a modular design. Advanced features include point to multipoint MPLS, MPLS VPN, IPv6 PE and many more unique features among core routers.

Optical Transport Integration

Integrating optical transport technology into routers provides flexibility in provisioning that leads to the rapid rollout of new services while retaining Layer 3 intelligence to ensure prompt responses to topology changes.

PIC support includes 10 GE Tunable DWDM, OC-768 and 4-Port OC-192. GMPLS is continually enhanced along with Ethernet OAM functionality.

Logical Routing Capability

With logical routers, providers can manage their CapEx by consolidating the network hierarchy onto a single highly available router or by scaling service offerings in midsize to large POPs with multi-chassis routers.

Logical routing capabilities now include hardware logical routing with the JCS 1200, which takes control plane scalability to a new level by decoupling the control and forwarding planes and hosting them on separate platforms.

Modules

Reduce both capital and operational costs while building a sophisticated network platform by leveraging Juniper's highly modular and interoperable architecture. Consolidate points of presence using Juniper Networks comprehensive set of interface and service modules. The T-series platforms provide a complete range of fiber-optic and electrical transmission interfaces to the network, including Ethernet, ATM, Channelized, SONET and serial interfaces. The combination of predictable performance and consistent features across these interfaces makes it possible to layer intelligence and multiple services onto the network across interface types.

• Juniper Networks Multi-Rate SONET/SDH PICs961 KB
• 4-Port 10 GE PIC for T-series Platforms277 KB
• ATM
• DS3, E1, E3, and T1
• 10 Gigabit Ethernet (GE) DWDM PIC517 KB
• Ethernet (IQ)119 KB
• IQ2 Ethernet Services Engine (ESE) PIC489 KB
• IP Services
• Juniper Control System 1200 (JCS 1200)1.34MB
• Serial
• Juniper Networks High-Speed SONET/SDH PICs411 KB
• 4-Port OC-192 PIC for T-series527 KB
• Juniper Networks M- and T-series PIC/FPC Compatibility Matrix184 KB

Specs

Physical Description T320 T640 T1600 TX Matrix Dimensions (W x H x D) 17.43 x 25.13 x 31 in 44.27 x 63.83 x 78.74 cm 17.43 x 37.45 x 31 in 44.27 x 95.12 x 78.74 cm 17.43 x 37.45 x 31 in 44.27 x 95.12 x 78.74 cm 17.43 x 44.5 x 30 in 44.27 x 113 x 76.2 cm Maximum Weight 369.9 lbs / 167.78 kg 565 lbs / 256.28 kg 606 lbs / 274.88 kg 480 lbs / 218 kg Mounting Front or center rack mount Front or center rack mount Front or center rack mount Front or center rack mount DC Power Supply T320 T640 1600 TX Matrix Power System Rating (Agency Label) 2,880 Watts (60A at -48 VDC) 7,296 Watts (152A at -48 VDC) 8,352 Watts (174 A at -48 VDC) 4,560 Watts (95 A at -48 VDC) Power Consumption (Theoritical Aggregate) 2,314 Watts (48.2 A at -48 VDC) 4,517 Watts (94.1 A at -48 VDC) 7,008 Watts (146 A at -48 VDC) 2,976 Watts (62 A at -48 VDC) Note: For configuration-based power draw calculations and for all site planning and installation purposes, see the Hardware Guide for the specified system at http://www.juniper.net/techpubs/hardware/t-series.html. Actual power consumption varies based on the system configuration and environmental conditions, and is typically much lower than the theoretical power consumption figures above. Energy efficiency and consumption ratings are not based on theoretical aggregates. Routing Engine 1.6 Ghz: Supported on TX Matrix (redundancy required), T640 and T320 (optionally redundant) 1.6-GHz Pentium IV processor with integrated 256-KB Level 2 cache 2-GB DRAM 1-GB Compact flash drive for primary storage 40-GB IDE hard drive for secondary storage, 128 MB PC card for tertiary storage 10/100 Base-T auto-sensing RJ-45 Ethernet port for out-of-band management Two RS-232 (DB9 connector) asynchronous serial ports for console and remote management 2 Ghz: Supported on TX Matrix (redundancy required), T640 and T320 (optionally redundant) 2-GHz Pentium IV processor with integrated 256-KB Level 2 cache 4-GB DRAM 1GB Compact flash drive for primary storage 40-GB IDE hard drive for secondary storage, 128 MB PC card for tertiary storage 10/100 Base-T auto-sensing RJ-45 Ethernet port for out-of-band management Two RS-232 (DB9 connector) asynchronous serial ports for console and remote management Control Board T320 Provides buses and control processors used for chassis management 10/100Base-T/TX Ethernet switch for inter-module communication Processor subsystem Optional redundancy T640 and T1600 provide buses and control processors used for chassis management. Configurable in two options: one for standalone operation, and one for operation in conjunction in a routing matrix deployment. In routing matrix configurations the Control Boards provides an external Ethernet port used to connect to the center stage, providing for inter-chassis bus and control. 10/100Base-T/TX Ethernet switch for inter-module communication Processor subsystem 100M RJ-45 port for inter-chassis communication with TX Matrix Redundant TX Matrix Provides buses and control processors used for chassis management 10/100Base-T/TX Ethernet switch for inter-module communication Processor subsystem Redundant FPC T320 Platform - Enhanced FPCs 2-Gbps full-duplex throughput per T320-FPC1-E 8-Gbps full-duplex throughput per T320-FPC2-E 20-Gbps full-duplex throughput per T320-FPC3-E T640 / T1600 Platform - Enhanced FPCs 4-Gbps throughput per T640-FPC1-E2 16-Gbps throughput per T640-FPC2-E2 20-Gbps throughput per T640-FPC3-E2 40-Gbps throughput per T640-FPC4-ES 100-Gbps throughput per T1600-FPC4-ES Layer 2 / Layer 3 Packet Processing ASICs Switch Interface ASICs T-series Internet Processor ASICs Memory subsystem, which includes the Queuing and Memory Interface ASICs Processor subsystem SIB   T320 T640 T1600 TX Matrix Standard SIB YES YES YES N/A Matrix-Enabled SIB N/A YES YES YES Switch Interconnect Board (SIB) Available in both standard or matrix enabled options for the T640 Routing Node Three required per T320 chassis; two active, one standby provides 2+1 redundancy Five required per T640 or T1600 chassis; four active, one standby provides 4+1 redundancy Processor subsystem 300-MHz CPU System controller 256-MB DRAM Two Fast Ethernet interfaces SCG SONET Clock Generator 19.44-MHz stratum 3 reference clock for PICs Two external clock inputs Optional redundancy Environmental Temperature 32 to 104 degrees F / 0 to 40 degrees C Maximum Altitude No performance degradation to 10,000 ft / 3,048 m Relative Humidity 5 to 90 percent noncondensing Seismic / Earthquake Designed to meet Bellcore Zone 4 requirements Agency Approvals Safety CAN/CSA-C22.2 No. 60950-00/UL 60950—Third Edition, Safety of Information Technology Equipment EN 60825-1 Safety of Laser Products—Part 1: Equipment Classification, Requirements and User’s Guide EN 60825-2 Safety of Laser Products—Part 2: Safety of Optical Fibre Communication Systems EN 60950 Safety of Information Technology Equipment EMC AS/NZS 3548 Class A (Australia / New Zealand) BSMI Class A (Taiwan) EN 55022 Class A emissions (Europe) FCC Class A (USA) VCCI Class A (Japan) Immunity EN 61000-3-2 Power Line Harmonics EN 61000-4-2 ESD EN 61000-4-3 Radiated Immunity EN 61000-4-4 EFT EN 61000-4-5 Surge EN 61000-4-6 Low Frequency Common Immunity EN 61000-4-11 Voltage Dips and Sags NEBS TX Matrix, T1600, T640, and T320 are designed to comply with the following NEBs standards: GR-63-CORE: NEBS, Physical Protection GR-1089-CORE: EMC and Electrical Safety for Network Telecommunications Equipment SR-3580 NEBS Criteria Levels (Level 3 Compliance) ETSI ETS-300386-2 Telecommunication Network Equipment Electromagnetic Compatibility Requirements

Applications

The Juniper Networks multi-service, traffic-engineered core is the premier core routing option in the industry. T-series and JUNOS functionality offer the most resilient, high-performance and flexible applications for backbone carriage of content-intensive consumer and business traffic.

With a multi-layered combination of hardware and software, network operators can simplify network operations and deployment while delivering the industry-leading performance, reliability and availability required to support multiplay services such as IPTV, video on demand and advanced mobile applications.

Service tunnels (enabled through label switched paths or LSPs) are built across core networks to provide traffic engineered paths for specific QoS, availability and advanced service processing requirements. Historically, these service tunnels have been essentially static connections and cannot be easily or quickly changed or adjusted. While this approach has been sufficient for relatively predictable best-effort service, emerging services like video on demand are changing traffic patterns and increasing quality requirements. The ability to dynamically modify paths through the network core (see figure) has a huge positive impact on a provider's ability to deliver new services efficiently, cost effectively and reliably.

Service-aware, Content-optimized Core

In the case of a video serving network, a user request for a high-bandwidth, high value service would result in the dynamic adjustment of network resources between the subscriber and the video serving location. These policy changes would be initiated by an interaction between the content application and the providers’ service-aware policy manager.

Juniper Networks provides the leading features demanded by service providers today to handle the massive growth in core bandwidth requirements. These features include MPLS DiffServ-TE, sub-50 ms convergence and seamless upgrades, Point to Multipoint LSP, Hierarchical MPLS and service delivery coupled with Juniper's Session and Resource Control portfolio.

This degree of policy control needed in today's core is beyond the scope of an individual network element's OS. To address the requirement, intelligence is needed on the policy and control layer, sitting above the infrastructure and connecting to both service delivery platforms and to networking infrastructure.

This is where the Session and Resource Control portfolio comes in. With innovative policy and control software such as the SDX-300 Service-delivery System, the SRC Modules and the C-series Controller platforms LSPs can be managed on a per-stream basis providing admission control based on traffic load, time-of-day network changes or dynamic policy/filter management. MPLS TE could then be used to choose another available LSP.

Demos

Flash Presentation of JCS 1200

• TX Matrix Flash Demo
• T1600 3D Model
• T640 3D Model
• T320 3D Model

Literature

Application Notes

• Filter-Based Forwarding317 KB
• An OTN Pluggable Interface Providing IP over DWDM in Router-Router IP Transport540 KB
• Applications for an Independent Control Plane4.15 MB

Backbone Applications

• Building Next-Gen Points of Presence: Cost-Effective PoP Consolidation with Juniper Routers533 KB
• IPv6 and Infranets168 KB

Datasheet

• T-series Routing Platforms: T320, T640, T1600, and TX Matrix648 KB
• Juniper Control System 1200 (JCS 1200)1.34MB

Industry Analysts

• Carrier Requirements of Core IP Routers 2002124 KB
  Highlights requirements of major carriers around the world for core IP routers: security, dependability, and scalability along with target metrics.

Product Bulletins

• The T1600 Brings Energy Efficiencies to Networking488 KB

Solution Briefs and Brochures

• The Juniper Networks Next Generation Network Core Solution for Service Providers560 KB

White Papers

• Energy Efficiency for the Network Equipment: Two Steps Beyond Greenwashing168 KB
  Measurement-based approach for defining the network efficiency with respect to power consumption
• Multicast Architectures in Crossbar-Based Routers356 KB
• Network Operating System Evolution410 KB
  Detailed treatment of network OS evolution including architectural challenges, tradeoffs, opportunities, next-gen implications.
• Control Plane Scaling and Router Virtualization: JCS 1200 980 KB
• Best Practices for Video Transit on an MPLS Backbone731 KB
• Efficient Scaling for Multiservice Networks495 KB
• Integrating Optical Transport into Routers778 KB
• Video Distribution in a Hybrid Multicast- Unicast World1 MB
• Securing Provider Backbone Networks: Packet Filters, Traffic Shaping and Related Best Practices558 KB
• Juniper Networks High-Performance Networking for Branch Offices of Financial Service Institutions326 KB
• Characteristics of Switches and Routers348 KB