DATASHEET ENHANCED IQ PICS Product Description Product Overview ® The Juniper Networks Enhanced IQ PIC product family is a suite of highly sophisticated Service providers and enterprises hardware and software modules that implement the next generation of class of service, are constantly required to support class-based traffic management and high-level channelization capabilities. The product higher numbers of customers per suite consists of ten PICs to meet various speed and density requirements: interface, which in turn maximizes • Seven Type-1 PICs: 1-port Channelized OC12/STM4, 1-port clear-channel their revenue potential and reduces OC12/STM4, 2-port Channelized OC3/STM1, 4-port clear-channel OC3/STM1, operational and capital expenditures 4-port Channelized DS3/E3, 4-port clear-channel DS3/E3, and 10-port Channelized for each router deployed. The Juniper E1/T1 PIC Networks Enhanced IQ PIC family is • Two Type-2 PICs: 4-port Channelized OC12/STM4 and 1-port Channelized a collection of SONET/SDH, PDH, OC48/STM16 Nonconcatenated channelized and non-channelized • One Type-3 PIC: 4-port clear channel OC48/STM-16 interfaces that can support large numbers of customers per interface Juniper Networks innovative Enhanced IQ PIC family extends the latest technical across a broad range of interface advancements in traffic management technology, allowing service providers and types and speeds (from T1/E1 to enterprises to meet their most demanding needs in term of cost-effective TDM OC48/STM16) with advanced class- aggregation. of-service (CoS) capabilities. Leveraging Juniper Networks flexible channelization capabilities of the queuing FPGA, the Enhanced IQ PIC family applies a rich set of CoS features and hierarchical Traffic Management capabilities that underpin the assured delivery of high-value multiplay services in both enterprise and service provider environments. The FPGA is software programmable, increasing investment protection by permitting the future addition of new features via new software releases. Features and Benefits Flexible Port Configuration The Enhanced IQ PIC family allows per-port selection of the SONET or SDH framing type, providing customers with the ability to consolidate different access types on the same PIC. SONET/SDH PICs use standard small form-factor pluggable transceiver (SFP) modular optics, which adds another level of flexibility and further simplifies spare management. The PICs also support the full DLCI range along with sparse numbering for maximum ease of operation. 1 Flexible and Dense Channelization Enhanced Queuing Capabilities with Low Latency In the case of Channelized PICs, the hardware based Traffic Egress Queuing Manager provides deep channelization support of any type The Traffic Manager supports up to eight queues per channel of port down to NxDS0 and offers the flexibility of mixing any with five levels of priorities—three guaranteed and two excess. combination of channel sizes on the same port. By offering An optional Layer 2 (L2)-aware rate limit can be enforced on the 4 an interface that can support a full range of access speeds, strict high-priority level to prevent lower priority queues from service providers and enterprises achieve a great level CapEx traffic starvation. These queuing capabilities allow defining a very and OpEx savings by only needing to deploy one interface for fine-grained class-of-service model to meet the most stringent any combination of NxDS0, DS1/E1, fractional DS1/E1 or subrate multiplay traffic requirements, ensuring that prioritization, delay DS3 and OC3/STM1. The Enhanced IQ PICs multiple levels of and jitter characteristics are enforced for each traffic class. channelization enable service providers and enterprises to easily Increased Delay Buffers grow subscribers from lower to higher bandwidth speeds without 5 The FPGA is capable of buffering several seconds of traffic. This changing interfaces. high level of buffering permits shaping of outgoing traffic on Advanced Hierarchical Traffic Management low-speed interfaces with minimal packet loss to meet assured 1 The Enhanced IQ PIC family supports the allocation of up to eight forwarding network traffic requirements like critical file transfers. queues per channel and features a dual-rate shaper capability Enhanced Statistics and Diagnostic 2 (committed and excess) with priority propagation from queues to The FPGA also provides a complex and granular set of channel levels across a 3-level hierarchy. Accordingly, the Traffic instrumentations and counters, such as L2 per-queue packet/ Manager can deliver differentiated multiplay services with distinct byte counters and L2 per-queue packet/byte drop counters. These class-of-service requirements while ensuring proper prioritization features enable superior billing and accounting functionalities and and fairness among the various services and customers. These 3 allow statistics to be collected for network design and planning. hierarchical scheduling capabilities allow enterprises and 6 The Enhanced IQ PIC family also features advanced diagnostics service providers to efficiently consolidate their access networks such as far end activation code (FEAC), loopback testing at and consequently maximize their revenue per port without channel levels and a wide selection of bit error rate test (BERT) compromising on the service quality and value. patterns for simplifying troubleshooting operations. 1-port Channelized 1-port 2-port channelized 4-port OC3/STM1 OC12/STM4 OC12/STM4 OC3/STM1 4-port Channelized 1-port Channelized 4-port DS3/E3 10-port 4-port Channelized DS3/E3 OC48NC/STM16 Channelized T1/E1 OC12/STM4 2 Specifications SONET/SDH Features Physical (W x H x D) • Loopback supported on all interface speeds • 4 x 1 x 7 in (10.16 x 2.54 x 17.78 cm) - Remote payload loopback CoS Support - Local line loopback • Weighted Random Early Detection (WRED) - Remote line loopback 7 - 16 unique drop profiles - Each channel can be looped back individually and - 4 drop precedences independently - Tail queue drop • Mapping Granularity: Each DS3/STS1 is individually configurable • Ingress DSCP rewrite • SONET scrambler 8 • Three levels of hierarchical scheduling with LLQ • SONET APS - PQ-MDRR algorithm • CRC: 16 bit and 32 bit • 8k egress queues • SONET error detection: - Loss of Light (LOL) MIB Support - Phase Lock Loop (PLL) • SNMP information retrievable at all levels of channelization - Loss of Frame (LOF) • RFC 1595 (SONET/SDH MIB) - Loss of Signal (LOS) • RFC 1406 (T1/E1 MIB) - Severely Errored Framing (SEF) • RFC 1407 (T3/E3 MIB) - Alarm Indication Signal - Line (AIS-L) Encapsulation - Alarm Indication Signal - Path (AIS-P) • Point-to-Point Protocol (PPP) - Loss of Pointer (LOP) • MPLS Circuit Cross-connect (CCC) - Bit Error Rate - Signal Degrade (BERR-SD) • MPLS translational cross-connect (TCC) - Bit Error Rate - Signal Fail (BERR-SF) • Frame Relay - Remote Defect Indicator - Line (RDI-L) - Remote Defect Indicator - Path (RDI-P) • Frame Relay CCC 8 - Remote Error Indicator (REI) • MLPPP 8 - Unequipped (UNEQ) • MLFR - Payload Label Mismatch - Path (PLM-P) 8 • FRF.15, FRF.16 - Loss of Clock (LOC) • Flexible Frame Relay (not necessary) 8 - Virtual Container Alarm Indication Signal (VAIS) 8 • PPP over Frame Relay 8 - Virtual Container Loss of Pointer (VLOP) • Cisco High-Level Data Link Control (cHDLC) 8 - Virtual Container Remote Defect Indicator (VRDI) 8 8 BERT Support - Virtual Container Unequipped (VUNEQ) 8 • Support at DS0, DS1/E1, DS3/E3 - Virtual Container Mismatch (VMIS) 8 • Default setting is 215-1 pseudorandom - Virtual Container Loss of Clock (VLOC) • Test patterns configurable to run in framed and unframed mode – • SDH error detection: BERT pattern is transmitted unframed - Loss of Light (LOL) • BERT sessions are simultaneous - Phase Lock Loop (PLL) • Test patterns configurable per channel - Loss of Frame (LOF) - Loss of Signal (LOS) • Test patterns with bit-error rates from 0 to 10-3 inject, detect and - Severely Errored Framing (SEF) count - Multiplex Section Alarm Indication Signal (MS-AIS) • Test patterns - High Order Path Alarm Indication Signal (HP-AIS) - All ones - Loss of Pointer (LOP) - All zeros - Bit Error Rate – Signal Degrade (BERR-SD) - Alternating ones and zeros (AA/55) - Bit Error Rate – Signal Fail (BERR-SF) - 1:3 or 1 in 4 pattern - 1 bit set in every 4 - Multiplex Section – Far-End Receive Failure (MS-FERF) - 1:7 or 1 in 8 pattern - 1 bit set in every 8 - High-order Path – Far-End Receive Failure (HP-FERF) 9 - PRBS 2 -1 (as specified in ITU-T O.153) - Remote Error Indication (REI) 11 - PRBS 2 -1 (as specified in ITU-T O.153) - Unequipped (UNEQ) 15 - PRBS 2 -1 (as specified in ITU-T O.151/O.153) - High-order Path – Payload Label Mismatch – Path (HP-PLM) 20 - PRBS 2 -1 (as specified in ITU-T O.153) - Loss of Clock (LOC) 23 - PRBS 2 -1 (as specified in ITU-T O.151/O.153) 8 - Tributary Unit – Alarm Indication Signal (TU-AIS) • 32-bit programmable pattern 8 - Tributary Unit – Loss of Pointer (TU-LOP) 8 • Error insertion at user-defined rate of 10-3 SONET/SDH Features - Tributary Unit – Remote Defect Indicator (TU-RDI) 8 - Tributary Unit – Unequipped (TU-UNEQ) 8 - Tributary Unit – Mismatch (TU-MIS) 8 - Tributary Unit – Loss of Clock (TU-LOC) 3 Specifications (continued) • Clocking: Internal and loop (clock recovered from network and DS3/E3 Features used for TX) will be supported– Default for Channelized T1: • DS3 and E3 are selectable on a per-port granularity Internal timing • Framing: M13, C-bit parity, framed clear channel • CRC: 6-bit (ESF only) • DS3 Scrambling: • Support sending and receiving inband loopback codes in both - Digital Link/Quick Eagle framed and unframed mode - Kentrox - Framed inband loopback at CSU - Larscom - Framed inband loopback at Smartjack (ANSI) - ADTRAN - Unframed inband loopback at CSU - Verilink - Unframed inband loopback at Smartjack (ANSI) • Subrate is supported on DS3 with the following vendor algorithms: - FDL loopback for T1-ESF mode interfaces (ANSI T1.403) - Digital Link/Quick Eagle • MTU: 9K - Kentrox • T1 Alarms (conformance to ANSI specification) - Larscom - Alarm Indication Signal (blue) – AIS - ADTRAN - Out Of Frame (red) – OOF; also known as Loss Of Frame (LOF) - Verilink - Remote Alarm Indication Signal (yellow) – RAIS • DS1 and E1 interface supports fractional DS1/E1 - Alarm reporting – 24-hour history maintained for error statistics • Loopbacks that are supported: and failure counts, 15-minute intervals on all errors - Remote payload loopback • Error Detection (conformance to ANSI specification) - Local line loopback - Controlled Slipped Seconds (CSS or CS) - Remote line loopback - Line Errored Seconds (LES) • Clocking: Internal and loop - Errored Seconds (ES) • DS3 FEAC - Bursty Errored Seconds (BES) • DS3/E3 Alarms (conformance to ANSI specification T1.404) - Severely Errored Seconds (SES) - Alarm Indication Signal (AIS) - Severely Errored Framing Seconds (SEFS) - Out Of Frame (OOF); also known as Loss Of Frame (LOF) - Loss Of Signal Seconds (LOS) - Loss Of Signal (LOS) - Loss Of Framing Seconds (LOFS) - Phase-Locked Loop (PLL) - Unavailable Seconds (UAS) • Alarm reporting – 24-hour history maintained for error statistics - CRC errors and failure counts, 15-minute intervals on all errors Agency Approvals - Alarm logged in system log file Safety - Intervals shown on Command Line Interface (CLI) show • UL1950 (USA) command • EN 60950 (Europe, derivative of IEC 60950) • DS3/E3 Error Detection (per-second polling) • EN 60825-1 (Europe, special for laser safety) - P-bit Code Violations (PCV) • CSA C22.2 No.950 (Canada) - C-bit Code Violations (CCV) • AS/NZS 60950 (Australia, New Zealand, derivative of IEC 60950) - Line Errored Seconds (LES) - P-bit Errored Seconds (PES) EMC - C-bit Errored Seconds (CES) • FCC Part 15 Class B (USA) - Severely Errored Framing Seconds (SEFS) • EN 55022 Class B (Europe) (colloquially called CISPR 22) - P-bit Severely Errored Seconds (PSES) • VCCI Class B (Japan) - C-bit Severely Errored Seconds (CSES) • BSMI Class B (Taiwan) - Unavailable Seconds (UAS) • AS/NZ 3548 Class B (Australia) - Far-end block error (FEBE) Immunity - Excessive zeroes (EXZ) • EN-61000-3-2 Power Line Harmonics - Far-end receive failure (FERF) • EN-61000-4-2 ESD - CRC errors • EN-61000-4-3 Radiated Immunity • EN-61000-4-4 EFT DS1/T1 Features • EN-61000-4-5 Surge • Framing: Superframe (D4) and Extended Superframe (ESF), framed clear channel • EN-61000-4-6 Low Frequency Common Immunity • Loopback support: • EN-61000-4-11 Voltage Dips and Sags - Remote payload • ETS-300386-2 Switching Equipment - Local line CE Marking - Remote line • Meets European CE marking requirements 4 Specifications (continued) Ordering Information Part numbers that begin with PE- are for deployment on M7i/ Channelization Supported M10i routers; PB- part numbers are for installation in M40e, M120, SONET/T-CARRIER Hierarchy M320, and T Series routers. PIC OC12 OC3 DS3 DS1 DS0 Channelized PICs 1 x ChOC48/ IQ-E Part Number* Description Type ChSTM16 PB-4CHDS3-E3-IQE-BNC 4-port Channelized DS3/E3 1 4 x ChOC12/ChSTM4 PE-4CHDS3-E3-IQE-BNC 1 x ChOC12/ChSTM4 1011 PB-1CHOC12-STM4-IQE-SFP 1-port Channelized OC12/STM4 1 2 x ChOC3/ChSTM1 1011 PE-1CHOC12STM4-IQE-SFP - requires separate SFP optics 4 x ChDS3/E3 1011 PB-2CHOC3-STM1-IQE-SFP 2-port Channelized OC3/STM1 - 1 PE-2CHOC3-STM1-IQE-SFP requires separate SFP optics 10 x ChT1/ChE1 PB-10CHE1-T1-IQE-RJ48 10-port Channelized T1/E1 1 SDH/E-CARRIER Hierarchy PE-10CHE1-T1-IQE-RJ48 PB-4CHOC12-STM4-IQE- 4-port Channelized OC12/STM4 2 PIC STM4 STM1 E3 E1 DS0 SFP - requires separate SFP optics 1 x ChOC48/ 4 16 48 504 974 ChSTM16 PB-1CHOC48-STM16-IQE 1-port Channelized OC48NC/ 2 STM16 - requires separate SFP 4 x ChOC12/ChSTM4 4 16 48 504 974 optics 1 x ChOC12/ChSTM4 1 4 12 252 1011 Non-Channelized PICs 2 x ChOC3/ChSTM1 - 2 6 126 1011 IQ-E Part Number* Description Type 4 x ChDS3/E3 - - 4 - - PB-4DS3-E3-IQE-BNC 4-port DS3/E3 1 10 x ChT1/ChE1 - - - 10 310 PE-4DS3-E3-IQE-BNC PB-1OC12-STM4-IQE-SFP 1-port OC12/STM4 - requires 1 Optical Diagnostics and Monitoring (SFF-8472 Rev 9.5) PE-1OC12-STM4-IQE-SFP separate SFP optics High Low High Low PB-4OC3-STM1-IQE-SFP 4-port OC3/STM1 - requires 1 Alarm Alarm Warning Warning PE-4OC3-STM1-IQE-SFP separate SFP optics Temperature ±3° C ±3° C ±3° C ±3° C PC-4OC48-STM16-IQE-SFP 4-port OC48/STM16 - requires 3 separate optics Supply Voltage ±3% ±3% ±3% ±3% TX Bias Current ±10% ±10% ±10% ±10% SFP Options TX Output Power ±3 db ±3 db ±3 db ±3 db IQ-E Part Number Description RX Recv Power ±3 db ±3 db ±3 db ±3 db SFP-1OC3-SR OC3 SFP 1310 nm 2 km reach multimode 9 Minimum CFEB/FPC Requirements SFP-1OC3-IR OC3 SFP 1310 nm 15 km reach single mode Platform Type-1 Type-2 Type-3 SFP-1OC3-LR OC3 SFP 1310 nm 40 km reach M10i/M7i Enhanced CFEB N/A N/A single mode M40e M40e-FPC1-EP M40e-FPC2-EP N/A SFP-1OC12-SR OC12 SFP 1310 nm 2 km reach multimode M120 M120-FPC1 and M120-FPC2 and M120-FPC3 SFP-1OC12-IR OC12 SFP 1310 nm 15 km reach associated M120- associated M120- single mode FEB FEB SFP-1OC12-LR OC12 SFP 1310 nm 40 km reach M320 M320-FPC1-E2, M320-FPC2-E2, M320-FPC3-E3 single mode M320-FPC1-E3 M320-FPC2-E3 SFP-1OC12-LR2 OC12 SFP 1510 nm 80 km reach single T320 T320-FPC1-E, T320-FPC2-E, N/A mode T320-FPC1-E2 T320-FPC2-E2 SFP-1OC48-SR OC48 SFP 1310 nm 2 km reach T640/ T640-FPC1-E, T640-FPC2-E, T640-FPC3-ES multimode T1600 T640-FPC1-E2 T640-FPC2-E2 SFP-1OC48-IR OC48 SFP 1310 nm 15 km reach MX240/ N/A N/A MX-FPC3 single mode MX480/ SFP-1OC48-LR OC48 SFP 1550 nm 80 km reach MX960 single mode 1 On appropriate platforms. Juniper Networks Services and Support 2 Type-3 4xOC48 PIC does not support queue level shaper. Juniper Networks is the leader in performance-enabling services 3 Hierarchical scheduling capabilities not supported with the Type-3 PIC. 4 that are designed to accelerate, extend, and optimize your Type-3 4xOC48 PIC supports rate limit for any queue either strict of non-strict. 5 Type-3 4xOC48 PIC supports 214ms buffer which can be used for the 4DLCI where each DLCI is high-performance network. Our services allow you to maximize running 2.5 Gbps (one DLCI per OC48). operational efficiency while reducing costs and minimizing 6 This is for channelized PICs only. For the non-channelized PICs, this is supported only at the port level. risk, achieving a faster time to value for your network. Juniper 7 Type-3 PIC 32 drop profiles are supported (4 drop profiles per queue). Networks ensures operational excellence by optimizing the 8 Not supported on Type-3 4xOC48 PIC. network to maintain required levels of performance, reliability, and 9 Compact Forwarding Engine Boards/Flexible PIC Concentrator. availability. For more details, please visit www.juniper.net/us/en/ products-services. 5 About Juniper Networks Juniper Networks is in the business of network innovation. From devices to data centers, from consumers to cloud providers, Juniper Networks delivers the software, silicon and systems that transform the experience and economics of networking. The company serves customers and partners worldwide. Additional information can be found at www.juniper.net. Corporate and Sales Headquarters APAC Headquarters EMEA Headquarters To purchase Juniper Networks solutions, Juniper Networks, Inc. Juniper Networks (Hong Kong) Juniper Networks Ireland please contact your Juniper Networks 1194 North Mathilda Avenue 26/F, Cityplaza One Airside Business Park representative at 1-866-298-6428 or Sunnyvale, CA 94089 USA 1111 King’s Road Swords, County Dublin, Ireland authorized reseller. Phone: 888.JUNIPER (888.586.4737) Taikoo Shing, Hong Kong Phone: 35.31.8903.600 or 408.745.2000 Phone: 852.2332.3636 EMEA Sales: 00800.4586.4737 Fax: 408.745.2100 Fax: 852.2574.7803 Fax: 35.31.8903.601 www.juniper.net Copyright 2011 Juniper Networks, Inc. All rights reserved. Juniper Networks, the Juniper Networks logo, Junos, NetScreen, and ScreenOS are registered trademarks of Juniper Networks, Inc. in the United States and other countries. All other trademarks, service marks, registered marks, or registered service marks are the property of their respective owners. Juniper Networks assumes no responsibility for any inaccuracies in this document. Juniper Networks reserves the right to change, modify, transfer, or otherwise revise this publication without notice. 1000251-007-EN Nov 2011 Printed on recycled paper 6