System Select Guide for Data Center Cabling Part 1: Networking Architectures with Cisco Nexus Switches

2016 PRODUCT CATALOG 2ND EDITION

Contents 1. Introduction 4 2. Graphical Symbols used in this document 5 3. Overview Cisco Transceiver Models for Switches 6 4. Traditional 3-Layer Switching Architectures with Switches 7 4.1. Architectures with 7xxx in core & aggregation...7 4.1.1. 7xxx switches...7 4.1.2. Ethernet I/O modules for 7xxx and 77xx switches...8 4.1.3. Architecture overview...8 4.1.4. Structured Cabling for 10 Gb/s Ethernet...9 4.1.5. Structured Cabling for 40 Gb/s Ethernet to 4 x 10 Gb/s Ethernet...9 4.1.6. Structured Cabling for 40 Gb/s Ethernet...10 4.1.7. Structured Cabling for 100 Gb/s Ethernet...10 4.2. Architectures with 7xxx in core & Nexus 95xx in aggregation...11 4.2.1. 95xx switches...11 4.2.2. Ethernet I/O modules for 95xx switches...12 6.2.3. Architecture overview...12 4.2.4. Structured Cabling for 10 Gb/s Ethernet...13 4.2.5. Structured Cabling for 40 Gb/s Ethernet to 4 x 10 Gb/s Ethernet...13 4.2.6. Structured Cabling for 40 Gb/s Ethernet...14 4.3. Architectures with 95xx in core & aggregation...15 4.3.1. Architecture overview...15 4.3.2. Structured Cabling for 10 Gb/s Ethernet...15 4.3.3. Structured Cabling for 40 Gb/s Ethernet to 4 x 10 Gb/s Ethernet...16 4.3.4. Structured Cabling for 40 Gb/s Ethernet...16 4.4. Architectures with 7xxx in aggregation Nexus 5xxx/2xxx in access...17 4.4.1. 5xxx switches...17 4.4.2. 2xxx fabric extenders...18 4.4.3. Architecture overview...19 4.4.4. Structured Cabling for 40 Gb/s Ethernet between aggregation and access layer...20 4.4.5. Structured Cabling in the access layer with top of rack (ToR) architecture...21 4.4.6. Structured Cabling in the access layer with end of row (EoR) architecture...22 4.5. Architectures with 95xx in aggregation Nexus 93xx in access...23 4.5.1. 93xx switches...23 4.5.2. Architecture Overview...24 4.5.3. Structured Cabling between aggregation and access with top of rack (ToR) architecture..25 4.5.4. Structured Cabling from aggregation to access with end of row (EoR) architecture...26 4.5.5. Structured Cabling for spine/leaf fabrics with 9xxx...28 5. Fabric (Spine-Leaf) Architecture with 6xxx 29 5.1. 6000 series switches...29 5.1.1. 6004x switches...29 5.1.2. 6004X switch expansion module options...29 5.1.3. 6001 switches...30 5.1.4. Leaf-and-spine architecture...31 5.1.5. Structured Cabling for 40 Gb/s Ethernet between spine and leaf switches...31 6. CommScope s Pre-Terminated Structured Cabling Systems 33 6.1 MPOptimate 24fiber ultra low loss systems...33 6.1.1 Description...33 6.1.2. Advantages of a 24-fiber trunking system...34 6.2. MRJ21 XG Copper system...35 6.2.1. Description...35 6.2.2. Advantages of MRJ21 XG...36 7. Cabling Channel Types 37 7.1. MPOptimate 24-fiber cabling types...37 7.2. MRJ21 XG cabling channels for 1/10 GigaBit Ethernet...39 8. CommScope System Catalog 40 8.1. MPOptimate 24-fiber...40 8.2. MRJ21 XG...49

1. Introduction This system select guide describes CommScope s pre-terminated structured cabling solutions for the most common networking architectures in data centers using the data center switches. It covers the structured cabling within and between switching layers (core, aggregation and access resp. spine/leaf) and highlights several cabling options and migration paths for ethernet applications from 1 Gb/s to 100 Gb/s. Due to the participation in the Cisco Solution Partner Program, CommScope was able to define a powerful but small selection of cabling model types, both copper and fiber optic, allowing an easy selection of structured cabling types for the most common networking variations with switches. This booklet uses 2 structured cabling types from CommScope: The MRJ21 XG solution from CommScope is a preterminated copper cabling system designed to deliver 10 GbE throughout all architectures where copper cabling is required. The 24 Fiber MPOptimate system comprises a portfolio of cassettes, trunks, patch-cords and mounting hardware. This system enables data center managers to easily migrate their infrastructure to support the 10, 40 and 100 Gb/s data speeds required to support the next generation of servers, storage and switching platforms in the data center. For simplification reasons, the cabling model types for fiber optic use the OM4 fiber in the bill of material for each type. All fiber optic products are available with OM3 fiber as well. Covering the data center backbone (core & aggregation) in the main and zone distribution as well as all the networking & cabling variants in the equipment area, the guide helps data center designers and operators as well as data center networking specialist to select quick & easy the structured cabling type needed for any specific environment. 4

2. Graphical Symbols used in this document The cabling channel graphics in this booklet use the following symbols (examples): 7K I/O module acc. refer to the table 2 on page 8: 95xx I/O module acc. refer to the table 3 on page 11: transceiver acc. refer to the table 1 on page 6: Cabling Type acc. refer to chapter 7: Number of Ethernet channels: 7 I/O 6 9 I/O 1 40G SR TYPE 5 12 x 10 Gb/s 5

3. Overview Cisco Transceiver Models for Switches Cisco offers different transceivers for all ethernet networking applications. The following table gives an overview about all multimode transceivers inclusive the Cisco model number and the cabling channel specifications. Symbol Picture Cisco Part No. Connector FET 10G FET-10G LC Duplex 10G SFP-10G-SR LC Duplex 40G SR 40G CSR QSFP-40G-SR4 QSFP-40G-CSR4 MPO 12-Fiber 40G BiDi QSFP-40G-BD LC Duplex 100G CPAK-100G-SR10 MPO 24-Fiber Table 1: Cisco Tranceiver Models Cisco SFP+ Wavelength (nm) Fiber / Cable Type Core Size (Microns) Modal Bandwidth (MHz*km)*** Cable Distance* Cisco SFP-10G-SR 850 MMF 50.0 50.0 50.0 500 (OM2) 2000 (OM3) 4700 (OM4) 82m 300m 400m Cisco FET-10G 850 MMF 50.0 50.0 50.0 500 (OM2) 2000 (OM3) 4700 (OM4) 25m 100m 100m Note: The FET-10G transceiver can only be used with the 2xxx fabric extenders Cisco 40 Gigabit Ethernet QSFP+ module Wavelength (nm) Fiber / Cable Type Core Size (Microns) Modal Bandwidth (MHz*km)*** Connector Type Cable Distance* QSFP-40G-SR-BD 850/900 MMF (OM2) MMF (OM3) MMF (OM4) 50.0/500 50.0/2000 50.0/4700 LC Duplex 30m 100m 125m** QSFP-40G-SR4 850 MMF (OM2) MMF (OM3) MMF (OM4) 50.0/500 50.0/2000 50.0/4700 12-fiber MTP/MPO 30m 100m 150m** QSFP-40G-CSR4 850 MMF (OM1) MMF (OM2) MMF (OM3) MMF (OM4) 62.5/200 50.0/500 50.0/2000 50.0/4700 12-fiber MTP/MPO 33m 82m 300m 400m Cisco CPAK module Wavelength (nm) Cable Type Core Size (Microns) Modal Bandwidth (MHz*km)*** Cable Distance CPAK 100GBASE-SR10 850 MMF 50.0 50.0 2000 (OM3) 4700 (OM4) 100m 150m** ** Considered an engineered link with maximum 1dB allocated to connectors and splice loss *** Specified at transmission wavelength 6

4. Traditional 3-Layer Switching Architectures with Cisco Nexus Switches 4.1. Architectures with 7xxx in core & aggregation 4.1.1. 7xxx switches The 7000 series switches are the foundation of the Cisco Unified fabric solution. Designed to meet the requirements of mission-critical data centers, these switches deliver exceptional availability, outstanding scalability, and the proven and comprehensive Cisco NX-OS Software data center switching feature set. The 7700 switches are the latest extension to the Nexus 7000 series of modular switches. With more than 83 terabits per second (Tbps) of overall switching capacity, the 7700 delivers the highest capacity 10, 40 and 100 Gigabit Ethernet (GbE) ports in the industry, with up to 768 native 10-Gbps ports, 384 40-Gbps ports and 192 100-Gbps ports. Figure 1: Cisco 7700 and 7000 switch series 7

4.1.2. Ethernet I/O modules for 7xxx and 77xx Switches The 7xxx and 77xx switch series uses the following I/O module for the different networking applications 7k I/O Multimode module Cisco Model Number Cisco Transceiver Types Transceiver Connector Type 7 I/O 1 7000 F2-series enhanced 48- Port Fiber 1 and 10 Gigabit Ethernet module N7K-F248XP-25E SFP-10G-SR LC Duplex 7 I/O 2 7000 F3-series 12-Port 40 Gigabit Ethernet module N7K-F312FQ-25 QSFP-10G-SR-BD QSFP-10G-SR-B4 QSFP-10G-SR-CSR4 LC Duplex MPO 12 fibers MPO 12 fibers 7 I/O 3 7 I/O 4 7000 F3-series 6-Port 100 Gigabit Ethernet module 7700 F3-series 48-Port Fiber 1 and 10 Gigabit Ethernet module N7K-F306CK-25 CPAK-100G-SR10 MPO 24 fibers N77-F348XP-23 SFP-10G-SR LC Duplex 7 I/O 5 7700 F3-series 24-Port 40 Gigabit Ethernet module N77-F324FQ-25 QSFP-10G-SR-BD QSFP-10G-SR-B4 QSFP-10G-SR-CSR4 LC Duplex MPO 12 fibers MPO 12 fibers 7 I/O 6 7700 F3-series 12-Port 100 Gigabit Ethernet module N77-F312CK-26 CPAK-100G-SR10 MPO 24 fibers Table 2: 7xxx Ethernet I/O modules 4.1.3. Architecture Overview Both switch models are mainly used as core & aggregation and the base for Cisco s 3-layer switching architecture as shown in the red frame in figure x. Data Center Edge Data Center Core 7000 Series 7000 Series Data Center Aggregation Layer Pod 1 7000 Series 7000 Series Layer 3 Layer 2 Data Center Aggregation Layer Pod N 7000 Series 7000 Series Layer 3 Layer 2 Row 1 5548 Racks (X) 2000 Series Data Center Access Layer Row Y 5548 Racks (X) 2000 Series (N) Pods Row 1 5548 Racks (X) 2000 Series Data Center Access Layer Row Y 5548 Racks (X) 2000 Series (Y) Rows (Y) Rows Figure 2: Cisco 3-layer switching architecture (source: Cisco) 8

4.1.4. Structured Cabling for 10 Gb/s Ethernet The following graphic shows a 10 Gb/s Ethernet cabling channel: 7 I/O 1 or 7 I/O 4 12 x 10 Gb/s 7 I/O 1 or 7 I/O 4 TYPE 1 10G 10G 77xx or 70xx Figure 3: Structured Cabling Model Type for Cisco 7k 7k: 10 Gb/s Ethernet 77xx or 70xx The maximum channel length for the Cisco SFP-10G-SR can be found on page 6. 4.1.5. Structured Cabling for 40 Gb/s Ethernet to 4 x 10 Gb/s Ethernet The following graphic shows the cabling channels for 40 Gb/s Ethernet to 4 x 10 Gb/s Ethernet: 7 I/O 2 or 7 I/O 5 7 I/O 1 or 7 I/O 4 TYPE 2 40G SR 77xx or 70xx 40G CSR 10G 77xx or 70xx 3 x 40 Gb/s 3 x 4 x 10 Gb/s Figure 4: Structured Cabling Model Type for Cisco 7k 7k: 10 Gb/s Ethernet The maximum channel length for the Cisco QSFP-40G-SR and QSFP-40G-CSR can be found on page 6. 9

4.1.6. Structured Cabling for 40 Gb/s Ethernet The following graphic shows the different cabling channel configurations for the different Cisco 40G transceivers: 7 I/O 2 or 7 I/O 5 12 x 40 Gb/s 7 I/O 2 or 7 I/O 5 TYPE 1 40GBiDi 40GBiDi 7 I/O 2 or 7 I/O 5 3 x 40 Gb/s 7 I/O 2 or 7 I/O 5 TYPE 3 77xx or 70xx 40G SR TYPE 4 40G SR 77xx or 70xx 40G CSR 6 x 40 Gb/s 40G CSR Figure 5: Structured Cabling Model Type for Cisco 7k 7k: 40 Gb/s Ethernet The maximum channel length for the Cisco QSFP-40G-SR, QSFP-40G-CSR and Cisco QSFP-40G-SR-BD can be found on page 6. 4.1.7. Structured Cabling for 100 Gb/s Ethernet The following graphic shows a 100 Gb/s Ethernet cabling channel: 7 I/O 3 or 7 I/O 6 2 x 100 Gb/s 7 I/O 3 or 7 I/O 6 TYPE 5 100G 100G 77xx or 70xx 77xx or 70xx Figure 6: Structured Cabling Model Type for Cisco 7k 7k: 100 Gb/s Ethernet The maximum channel length for the Cisco CPAK 100GBase-SR10 can be found on page 6. 10

4.2. Architectures with 7xxx in core & Nexus 95xx in aggregation 4.2.1. 95xx switches The 9500 switching platform (Figure 1) includes three modular options: the 9504 switch with 4 slots, the 9508 switch with 8 slots, and the 9516 switch with 16 slots. All three switches use the same supervisor, system controller, power supplies, and line cards. The 9500 platform consists of layer 2 and 3 nonblocking Ethernet switches with the hardware capability to support Fiber Channel over Ethernet (FCoE). With backplane bandwidth of more than 15, 30, and 60 terabits per second (Tbps) respectively, the 9504, 9508, and 9516 switches support 1, 10, 40, and (future) 100 Gigabit Ethernet interfaces through a comprehensive selection of modular line cards. configurable with up to 2304 10 Gigabit Ethernet or 576 40 Gigabit Ethernet ports, the switches provide sufficient capacity for both access- and aggregation-layer deployments. Figure 7: Cisco 7700 and 7000 switch series 11

4.2.2. Ethernet I/O modules for 95xx Switches The Nexus 95xx switch series uses the following I/O module for the different networking applications: 9500 I/O Multimode Module Cisco Model Number Cisco Transceiver Types Transceiver Connector Type 9 I/O 1 N9K-X9564PX: 1 and 10 Gigabit Ethernet accesslayer and 10 and 40 Gigabit Ethernet aggregationlayer line card N7K-F248XP-25E SFP-10G-SR LC Duplex 9 I/O 2 N9K-X9636PQ: 40 Gigabit Ethernet line card N7K-F312FQ-25 QSFP-10G-SR-BD QSFP-10G-SR4 QSFP-10G-CSR4 LC Duplex MPO 12 fibers MPO 12 fibers 9 I/O 3 N9K-X9536PQ: 40 Gigabit Ethernet line card N7K-F306CK-25 QSFP-10G-SR-BD QSFP-10G-SR4 QSFP-10G-CSR4 LC Duplex MPO 12 fibers MPO 12 fibers Table 3: 95xx Ethernet I/O Models 6.2.3. Architecture Overview The following figure shows the 95xx as aggregation switch together with the Nexus 7k as core switch. 7000 Series Core 9500 Platform Aggregation Layer 9300 Platform Access Layer Figure 8: Cisco 3-layer switching architecture with 95xx in the aggregation layer (source: Cisco) 12

4.2.4. Structured Cabling for 10 Gb/s Ethernet The following graphic shows a 10 Gb/s Ethernet cabling channel: 7 I/O 1 or 7 I/O 4 12 x 10 Gb/s 9 I/O 1 TYPE 1 10G 10G 77xx or 70xx 95xx Figure 9: Structured Cabling Model Type for Cisco 7k - 95xx: 10 Gb/s Ethernet The maximum channel length for the Cisco SFP-10G-SR can be found on page 6. 4.2.5. Structured Cabling for 40 Gb/s Ethernet to 4 x 10 Gb/s Ethernet The following graphic shows the cabling channels for 40 Gb/s Ethernet to 4 x 10 Gb/s Ethernet: or 7 I/O 2 7 I/O 5 9 I/O 1 TYPE 2 40G SR 10G 77xx or 70xx 40G CSR 3 x 40 Gb/s 3 x 4 x 10 Gb/s 95xx Figure 10: Structured Cabling Model Type for Cisco 7k 95xx: 40 Gb/s to 4 x 10 Gb/s Ethernet The maximum channel length for the Cisco QSFP-40G-SR and QSFP-40G-CSR can be found on page 6. 13

4.2.6. Structured Cabling for 40 Gb/s Ethernet The following graphic shows the different cabling channel configurations for the different Cisco 40G transceivers: 7 I/O 2 or 7 I/O 5 12 x 40 Gb/s 9 I/O 2 or 9 I/O 3 TYPE 1 40GBiDi 40GBiDi 77xx or 70xx 7 I/O 2 or 7 I/O 5 3 x 40 Gb/s 9 I/O 3 or 9 I/O 2 95xx TYPE 3 40G SR 40G CSR TYPE 4 6 x 40 Gb/s 40G SR 40G CSR Figure 11: Structured Cabling Model Type for Cisco 7k - 95xx: 40 Gb/s Ethernet The maximum channel length for the Cisco QSFP-40G-SR, QSFP-40G-CSR and Cisco QSFP-40G-SR-BD can be found on page 6. 14

4.3. Architectures with 95xx in Core & Aggregation 4.3.1. Architecture Overview In new data center designs, the 95xx will be used in both core as well as aggregation layer. Data Center Edge Data Center Core 9500 Series 9500 Series Data Center Aggregation Layer Pod 1 9500 Series 9500 Series Layer 3 Layer 2 Data Center Aggregation Layer Pod N 9500 Series 9500 Series Layer 3 Layer 2 Row 1 5548 Racks (X) 2000 Series Data Center Access Layer Row Y 5548 Racks (X) 2000 Series (N) Pods Row 1 9300 Racks (X) 2000 Series Data Center Access Layer Row Y 9300 Racks (X) 2000 Series (Y) Rows (Y) Rows Figure 12: Cisco 3-layer switching architecture (source: Cisco) 4.3.2. Structured Cabling for 10 Gb/s Ethernet The following graphic shows a 10 Gb/s Ethernet cabling channel: 9 I/O 1 12 x 10 Gb/s 9 I/O 1 TYPE 1 10G 10G 95xx 95xx Figure 13: Structured Cabling Model Type for Cisco 95xx 95xx: 10 Gb/s Ethernet The maximum channel length for the Cisco SFP-10G-SR can be found on page 6. 15

4.3.3. Structured Cabling for 40 Gb/s Ethernet to 4 x 10 Gb/s Ethernet The following graphic shows the cabling channels for 40 Gb/s Ethernet to 4 x 10 Gb/s Ethernet: 9 I/O 2 or 9 I/O 3 9 I/O 1 TYPE 2 95xx 40G SR 40G CSR 3 x 40 Gb/s 10G 3 x 4 x 10 Gb/s 95xx Figure 14: Structured Cabling Model Type for Cisco 95xx - 95xx: 40 Gb/s to 4 x 10 Gb/s Ethernet The maximum channel length for the Cisco QSFP-40G-SR and QSFP-40G-CSR can be found in can be found on page 6. 4.3.4. Structured Cabling for 40 Gb/s Ethernet The following graphic shows the different cabling channel configurations for the different Cisco 40G transceivers: 9 I/O 2 or 9 I/O 3 12 x 40 Gb/s 9 I/O 2 or 9 I/O 3 TYPE 1 40GBiDi 40GBiDi 95xx 9 I/O 2 or 9 I/O 3 3 x 40 Gb/s 9 I/O 2 or 9 I/O 3 95xx TYPE 3 40G SR 40G CSR TYPE 4 6 x 40 Gb/s 40G SR 40G CSR Figure 15: Structured Cabling Model Type for Cisco 95xx - 95xx: 40 Gb/s Ethernet The maximum channel length for the Cisco QSFP-40G-SR, QSFP-40G-CSR and Cisco QSFP-40G-SR-BD can be found on page 6. 16

4.4. Architectures with 7xxx in aggregation Nexus 5xxx/2xxx in Access 4.4.1. 5xxx switches The 5600 platform is designed for top-of-rack (ToR) and middle-of-row (MoR) deployment in data centers that support enterprise applications, service provider hosting, and cloud computing environments. The Cisco 5600 platform switches come in these configurations: 5672UP Switch: Figure 16: 5672UP switch port view (rear) (source: Cisco) The 5672UP is a 1RU 10 and 40 Gigabit Ethernet switch offering wire-speed performance for up to seventy-two 10 Gigabit Ethernet ports (using quad small form-factor pluggable [QSFP] breakout cables). 5672UP switches are layer 2 and 3 non-blocking 10 and 40 Gigabit Ethernet and FCoE-capable switches with up to 1.44 terabits per second (Tbps) of internal bandwidth. The 5672UP offers 48 fixed 1 Gigabit and 10 Gigabit Ethernet ports of which 16 ports can be unified ports (UP). The 16 unified ports provide 8/4/2-Gbps Fiber Channel as well as 10/40 Gigabit Ethernet and FCoE connectivity options. The 5672UP also offers 6 ports of 40 Gbps using QSFP transceivers for Ethernet and FCoE support. The 5672UP has three fan modules and two power supplies. The 5672UP is VXLAN ready, with VXLAN support in bridging and routing modes, on all ports at line rate, enabling the migration of virtual machines between servers across layer 3 networks. 56128P Switch: The 56128P is a 2RU switch that supports 2.56 Tbps of bandwidth across 48 fixed 1 Gigabit and 10 Gigabit Ethernet SFP+ ports, and four 40-Gbps QSFP+ ports. The 56128P offers two expansion slots to support 24 ports of 10 Gigabit Ethernet and FCoE or 8/4/2-Gbps Fiber Channel and two ports of 40 Gigabit Ethernet using QSFP optics. The 56128P also offers two slots for a generic expansion modules (GEM). The GEM for the 56128P provides 24 ports 10G Ethernet/FCoE or 2/4/8G Fiber Channel and 2 ports 40 Gigabit QSFP+ Ethernet/FCoE ports. The expansion module supports native 40 Gigabit Ethernet on the QSFP+ ports. The expansion module is supported on the 56128P chassis only and can be populated in either of the two expansion slots. Figure 17: 56128P Port View (rear) (source: Cisco) Figure 18: Generic expansion module for 5672UP (source: Cisco) Note: For simplification reasons, this chapter uses the 56xx only to demonstrate the access layer configurations. In case of usage of the 55xx, the same structured cabling types apply. 17

4.4.2. 2xxx Fabric Extenders The 2000 series fabric extenders comprise a category of data center products designed to simplify data center access architecture and operations. The 2000 series uses the Cisco fabric extender architecture to provide a highly scalable unified server-access platform across a range of 100 Megabit Ethernet, Gigabit Ethernet, 10 Gigabit Ethernet, unified fabric, copper and fiber connectivity, rack, and blade server environments. The platform is ideal to support today s traditional Gigabit Ethernet while allowing transparent migration to 10 Gigabit Ethernet, virtual machine-aware unified fabric technologies. The 2000 series fabric extenders behave as remote line cards for a parent switch. The fabric extenders are essentially extensions of the parent switch fabric, with the fabric extenders and the parent switch together forming a distributed modular system. This architecture enables physical topologies with the flexibility and benefits of both top-of-rack (ToR) and end-of-row (EoR) deployments The 2000 series is built for nonstop operation, with redundant hot-swappable power supplies and a hot-swappable fan tray with redundant fans. Its compact 1-rack-unit (1RU) form factor takes up relatively little space, making it easy to incorporate into rack designs. The fabric extenders are available in several models to provide speed, connectivity, and port-density options. Figure 19 (source: Cisco): 2000 series fabric extenders from bottom right to top left: 2224TP GE, 2248TP GE, 2248TP-E GE, 2232TM 10GE, 2232TM-E 10GE, 2232PP 10GE, and 2248PQ 10GE; Cost-Effective fabric extender transceivers for 2000 series and parent switch interconnect are in front of the fabric extenders The following table shows the specifications of the different fabric extender models: Description 2148T Specification 48t 1000BASE-T host interfaces and 4 10 Gigabit Ethernet fabric interfaces (enhanced small form-factor pluggable [SFP+]) 2224TP 24 100/1000BASE-T host interfaces and 2 10 Gigabit Ethernet fabric interfaces (SFP+) 2248TP 48 100/1000BASE-T host interfaces and 4 10 Gigabit Ethernet fabric interfaces (SFP+) 2248TP-E 48 100/1000BASE-T host interfaces and 4 10 Gigabit Ethernet fabric interfaces (SFP+) 2232PP 2248PQ 2232TM 32 1/10 Gigabit Ethernet and Fiber Channel over Ethernet (FCoE) host interfaces (SFP+) and 8 10 Gigabit Ethernet and FCoE fabric interfaces (SFP+) 48 1/10 Gigabit Ethernet and FCoE host interfaces (SFP+) and 4 QSFP+ Gigabit Ethernet and FCoE fabric interfaces (QSFP+) 32 1/10GBASE-T host interfaces and modular uplinks (8 10 Gigabit Ethernet fabric interfaces [SFP+]) 2232TM-E 32 1/10GBASE-T host interfaces and uplink module (8 10 Gigabit Ethernet fabric interfaces [SFP+]), FCoE support up to 30m with category 6 A /7 cables Table 4: Fabric extender specifications (source: Cisco) 18

4.4.3. Architecture Overview The 56xx and the 2xxx are used as access layer switch as shown in the red frame in the following graphic. Data Center Edge Data Center Core 7000 Series 7000 Series Data Center Aggregation Layer Pod 1 7000 Series 7000 Series Layer 3 Layer 2 Data Center Aggregation Layer Pod N 7000 Series 7000 Series Layer 3 Layer 2 Row 1 5548 Racks (X) 2000 Series Data Center Access Layer Row Y 5548 Racks (X) 2000 Series (N) Pods Row 1 5548 Racks (X) 2000 Series Data Center Access Layer Row Y 5548 Racks (X) 2000 Series (Y) Rows (Y) Rows Figure 20: Cisco 3-layer switching architecture (source: Cisco) 19

4.4.4. Structured Cabling for 40 Gb/s Ethernet between aggregation and access layer The following graphic shows the different cabling channel configurations for the different Cisco 40G transceivers: 7 I/O 2 or 7 I/O 5 12 x 40 Gb/s TYPE 1 5xxx 40G BiDI 40G BiDI 7 I/O 2 or 7 I/O 5 3 x 40 Gb/s TYPE 3 77xx or 70xx TYPE 4 5xxx 40G SR 40G CSR 6 x 40 Gb/s 40G SR 40G CSR Figure 21: Structured Cabling Model Type for Cisco 7xxxx 5xxx: 40 Gb/s Ethernet The maximum channel length for the Cisco QSFP-40G-SR, QSFP-40G-CSR and Cisco QSFP-40G-SR-BD can be found on page 6. The Nexus 2xxx fabric extenders are mainly used in 2 ways. Either they are located at the top of each rack (ToR) or centralized at the end or the middle of the row. Both concept are shown in the following figure: SAN A LAN SAN B Unified Access Architecture Distributed Modular System: 2000 + Cisco Nexus parent switch 100M/1GE 1/10GE/FCoE Rack-Mount Rack-Mount Servers Servers 1/10GE Blade Servers with Pass-Through 100M/1GE Rack-Mount Servers 1/10GE Rack-Mount Servers 1/10GE Blade Servers with Pass-Through Legend parent switch 2000 Series fabric extenders Figure 22: Usage of 2xxx fabric extenders As a result, most of the data centers use one of the following 2 physical designs for the access layer. 20

4.4.5. Structured Cabling in the Access Layer with Top of Rack (ToR) architecture Figure x shows a Nexus 7xxx aggregation switch connected to a Nexus 5xxx access switch via 40 Gb/s Ethernet. The Nexus 5xxx is connected to the Nexus 2xxx fabric extenders at the top of each rack via 10 Gb/s Ethernet. Within the rack, copper patch cords connect the fabric extenders to the servers, running either 1Gb/s or 10 Gb/s Ethernet. Figure 23: Nexus 2xxx in top of rack (ToR) in the equipment area The connection between the Nexus 5xxx and the Nexus 2xxx fabric extenders in the top of each rack (ToR) is using the following channel configuration: TYPE 1 5xxx 2xxx 10G 12 x 10 Gb/s 10G Figure 24: Structured Cabling model type for Cisco 5xxx 2xxx: 10Gb/s Ethernet The maximum channel length for the Cisco SFP-10G-SR can be found on page 6. Within the rack, Cat 6 A copper patch cords are used to connect the Nexus 2xxx fabric extenders to the rack mount servers. 2xxx Server Figure 25: In-rack cabling with a Cat 6 A copper patch cord 21

4.4.6. Structured Cabling in the Access Layer with End of Row (EoR) architecture Figure x shows a Nexus 7xxx aggregation switch connected to a Nexus 5xxx access switch via 40 Gb/s Ethernet. The Nexus 5xxx is connected to the Nexus 2xxx fabric extenders at the end of each row via 10 Gb/s Ethernet. Within the row, pre-terminated copper cabling connects the fabric extenders to each rack. The servers is each rack are connected via copper patch cords to the copper panels, running either 1Gb/s or 10 Gb/s Ethernet. 10 Gb/s Ethernet 40 Gb/s Ethernet 1 Gb/s or 10 Gb/s Ethernet 1 Gb/s or 10 Gb/s Ethernet Figure 26: Nexus 2xxx in end of row (EoR) in the equipment area Note: The networking rack can also be located in the middle of the equipment row. In this case the architecture is called middle of row (MoR). The connection between the Nexus 5xxx and the Nexus 2xxx fabric extenders in the networking cabinet at the end of the row (EoR) is using the following channel configuration: TYPE 7 8 x 1 or 10 Gb/s 2xxx Server Figure 27: In-row cabling with a pre-terminated copper system 22

4.5. Architectures with 95xx in aggregation Nexus 93xx in Access 4.5.1. 93xx switches The 9000 series switches include both modular and fixed-port switches that are designed to overcome these challenges with a flexible, agile, low-cost, application centric infrastructure (ACI). The 9300 platform is composed of fixed-port switches designed for top-of-rack (ToR) and middle-of-row (MoR) deployment in data centers that support enterprise applications, service provider hosting, and cloud computing environments. 9300 series switches are layer 2 and 3 nonblocking 10 and 40 Gigabit Ethernet and Fiber Channel over Ethernet (FCoE)-capable switches with up to 1.28 terabits per second (Tbps) of internal bandwidth. The 9396PX switch is a 2-rack-unit (2RU) switch that supports 960 Gbps of bandwidth across 48 fixed 10-Gbps SFP+ ports and 12 fixed 40-Gbps QSFP+ ports. The 40-Gbps ports are provided on an uplink module that can be serviced and replaced by the user. Figure 28: Cisco 3-layer switching architecture with Nexus 9xxx (source: Cisco) The 9396TX switch is a 2RU switch that supports 960 Gbps of bandwidth across 48 fixed 1/10GBASE-T ports and 12 fixed 40-Gbps QSFP+ ports. The 40-Gbps ports are provided on an uplink module that can be serviced and replaced by the user. Figure 29: Cisco 3-layer switching architecture with Nexus 9xxx (source: Cisco) The 93128TX switch is a 3RU switch that supports 1.28 Tbps across 96 fixed 1/10GBASE-T ports and 8 fixed 40-Gbps QSFP ports. The 40-Gbps ports are provided on an uplink module that can be serviced and replaced by the user. The uplink module is the same for both switches. If used with the 93128TX 8 out of the 12 40Gbps QSFP+ ports are available. Figure 30: Cisco 3-layer switching architecture with Nexus 9xxx (source: Cisco) With the 9000 series, organizations can quickly and easily upgrade existing data centers through advanced optics that enable the use of existing 10 Gigabit Ethernet fiber (a pair of multimode fiber strands) to carry 40 Gigabit Ethernet to the aggregation layer or to the spine (in a leaf-andspine configuration). Additionally, the series can be deployed in MoR or end-of-row (EoR) configurations to meet the 10 Gigabit Ethernet connectivity requirements of multiple racks or pods. Cisco provides two modes of operation for the 9000 series. Organizations can use Cisco NX-OS Software to deploy the 9000 series in standard switch environments. Organizations also can use the ACI-ready hardware infrastructure to take full advantage of an automated, policy-based, systems management approach. 23

4.5.2. Architecture Overview In most data center designs, the 93xx will be used as access layer switch in either ToR or EoR configuration. The Nexus 95xx switch functions in those scenarios as aggregation switch: 7000 Series Core 9500 Platform Aggregation Layer 9300 Platform Access Layer Figure 31: Cisco 3-layer switching architecture with Nexus 9xxx (source: Cisco) 24

4.5.3. Structured Cabling between Aggregation and Access with Top of Rack (ToR) architecture Figure x shows a Nexus 95xx aggregation switch connected to a Nexus 93xx access switch at the top of each rack (ToR) via 40 Gb/s Ethernet. Within the rack, copper patch cords connect the Nexus 93xx the rack servers, running either 1Gb/s or 10 Gb/s Ethernet. 40 Gb/s Ethernet 1 Gb/s or 10 Gb/s Ethernet Figure 32: Nexus 93xx in top of rack (ToR) in the equipment area The connection between the Nexus 95xx and the Nexus 93xx at the top of each rack (ToR) is using the following channel configuration for 40 Gb/s Ethernet: 9 I/O 2 or 9 I/O 3 12 x 40 Gb/s TYPE 1 40G BiDi 40G BiDi or 9 I/O 2 9 I/O 3 3 x 40 Gb/s 95xx TYPE 3 93xx TYPE 4 40G SR 40G CSR 6 x 40 Gb/s 40G SR 40G CSR Figure 33: Structured Cabling Model Type for Cisco 95xx 93xx: 40Gb/s Ethernet The maximum channel length for the Cisco QSFP-40G-SR, QSFP-40G-CSR and Cisco QSFP-40G-SR-BD can be found on page 6. 25

Within the rack, Cat 6 A copper patch cords are used to connect the Nexus 93xx to the rack mount servers. 93xx Server Figure 34: In-rack cabling with a Cat 6 A copper patch cord 4.5.4. Structured Cabling from aggregation to Access with End of Row (EoR) architecture Figure x shows a Nexus 95xx aggregation switch connected to a Nexus 93xx access switch at the end of the row via 40 Gb/s Ethernet. Within the row, pre-terminated copper cabling connects Nexus 93xx switch with to each rack. The servers is each rack are connected via copper patch cords to the copper panels, running either 1Gb/s or 10 Gb/s Ethernet. 1 Gb/s or 10 Gb/s Ethernet 40 Gb/s Ethernet 1 Gb/s or 10 Gb/s Ethernet Figure 35: Nexus 93xx in end of row (EoR) in the equipment area Note: The networking rack can also be located in the middle of the equipment row. In this case the architecture is called middle of row (MoR). 26

The connection between the Nexus 95xx and the Nexus 93xx in the networking cabinet at the end of the row (EoR) is using the following channel configuration for 40 Gb/s Ethernet: 9 I/O 2 or 9 I/O 3 TYPE 1 40G BiDi 40G BiDi 95xx or 9 I/O 2 9 I/O 3 3 x 40 Gb/s 93xx TYPE 3 TYPE 4 40G SR 40G SR 40G CSR 6 x 40 Gb/s 40G CSR Figure 36: Structured Cabling Model Type for Cisco 95xx 93xx: 40Gb/s Ethernet The maximum channel length for the Cisco QSFP-40G-SR, QSFP-40G-CSR and Cisco QSFP-40G-SR-BD can be found on page 6. The connection between the Nexus 93xx at the end of the row (EoR) and cabinets in the row is using the following channel configuration: TYPE 7 8 x 1 or 10 Gb/s 93xx Server Figure 37: In-Row cabling with a pre-terminated copper system 27

4.5.5. Structured Cabling for Spine/Leaf Fabrics with 9xxx 9300 platform switches are excellent choices for leaf switches in a leaf-and-spine architecture: 9500 Platform Spine 9300 Platform Leaf Figure 38: Nexus 95xx and 93xx in a spine/leaf architecture The connection between the Nexus 95xx (spine) and the Nexus 93xx (leaf) at the top of each equipment rack is using the following channel configuration for 40 Gb/s Ethernet: 9 I/O 2 or 9 I/O 3 TYPE 1 40G BiDi 40G BiDi 95xx or 9 I/O 2 9 I/O 3 3 x 40 Gb/s TYPE 3 93xx 40G SR 40G CSR TYPE 4 6 x 40 Gb/s 40G SR 40G CSR Figure 39: Structured Cabling Model Type for Cisco 95xx 93xx: 40Gb/s Ethernet The maximum channel length for the Cisco QSFP-40G-SR, QSFP-40G-CSR and Cisco QSFP-40G-SR-BD can be found on page 6. Within the rack, Cat 6 A copper patch cords are used to connect the Nexus 93xx to the rack mount servers. 93xx Server Figure 40: In-rack cabling with a Cat 6 A copper patch cord 28

5. Fabric (Spine-Leaf) Architecture with 6xxx 5.1. 6000 series switches 5.1.1. 6004x switches The 6004X is the latest switch in the 6000 series. It extends the industry-leading innovation and versatility of the 6000 series data center switches and runs the same industry-leading Cisco NX-OS Software operating system. The 6004X is versatile. Choose either front-to-back or back-to-front airflow options to suit traditional data center implementation or large-scale cloud deployments. And with 10 Gigabit Ethernet, 40 Gigabit Ethernet, and FCoE connectivity options, you can build a scalable Cisco Unified fabric across a range of physical and virtual server environments. An extensible architecture also makes the 6004X a low-cost entry point for small-scale deployments. The 6004X is a four-rack-unit (4RU) 10 and 40 Gigabit Ethernet switch with the industry s highest port density in a compact, energy-efficient form factor. It offers eight line-card expansion module (LEM) slots to support up to 96 ports of 40-Gbps throughput. Each LEM supports 12 ports of 40 Gigabit Ethernet in a quad small form-factor pluggable (QSFP) footprint. Each 40 Gigabit Ethernet port can also be split into four line-rate 10 Gigabit Ethernet ports using QSFP breakout cables. This flexibility makes the 6004X the only fully extensible fixed 10 and 40 Gigabit Ethernet platform in the industry. The 6004X also offers a Unified expansion module for 1/10 Gigabit Ethernet and FC/FCoE support. Figure 41: 6004X switch 5.1.2. 6004X Switch Expansion Module Options 6004X expansion modules offer multiple interface options with the chassis base. Each 40 Gigabit Ethernet expansion module provides 12 ports of 40 Gigabit Ethernet and FCoE ports using a QSFP interface. With all eight expansion modules installed, the 6004X delivers 96 ports of QSFP or 384 ports of 10 Gigabit Ethernet (SFP+) using the breakout cables. And all expansion modules are hot-swappable. The 40 Gigabit Ethernet expansion module for the 6004X is shown here: Figure 42: 12-Port 40-Gbps line-card expansion module 29

5.1.3. 6001 switches The 6001 switch is part of a robust fabric that can scale significantly to meet data center growth, delivering architectural flexibility that enables any data center to be a more agile, cost-effective, and efficient environment. The 6001 switch is an important component of the Cisco Unified Data Center architecture, complementing existing switches. The 6001 is an energy-efficient switch that offers high port density in one rack unit (1RU), supports 10 and 40 Gigabit Ethernet and fiber channel over Ethernet (FCoE), provides integrated layer 2 and 3 features at wire speed, and offers low latency of approximately 1 microsecond for any packet size. With a choice of front-to-back (port side exhaust) and back-to-front (port side intake) airflow options, the switch is designed for a broad range of traditional data center and large-scale virtualized cloud deployments. The 6001 switch comes in these configurations: 6001P The 6001P is a 1RU, 10- and 40- Gigabit Ethernet switch offering wire-speed performance for up to sixty-four 10 Gigabit Ethernet ports (using quad small form-factor pluggable [QSFP] breakout cables) for Ethernet and FCoE traffic, with an overall throughput of 1.28 terabits per second (Tbps). The 6001P offers 48 fixed 1/10 Gigabit Ethernet enhanced small form-factor pluggable (SFP+) ports and four 40 Gigabit Ethernet QSFP+ ports. Each 40 Gigabit Ethernet port can be split into four 10 Gigabit Ethernet ports using a QSFP+ breakout cable. The 6001P delivers low port-to-port latency of approximately 1 microsecond and low jitter independent of packet size using cut-through switching architecture and with features enabled. Figure 43: 6001P switch 6001T The 6001T (Figure 2) is a 1RU 10 and 40 Gigabit Ethernet switch offering wire-speed performance for up to sixty-four 10 Gigabit Ethernet ports (using quad small form-factor pluggable [QSFP] breakout cables) for Ethernet and FCoE traffic. It has an overall throughput of 1.28 terabits per second (Tbps). The 6001T offers 48 fixed 1/10G BASE-T and four 40 Gigabit Ethernet QSFP+ ports. Each 40 Gigabit Ethernet port can be split into four 10 Gigabit Ethernet ports using a QSFP breakout cable. The 6001T delivers low port-to-port latency of approximately 3.3 microsecond and low jitter independent of packet size using cut-through switching architecture and with features enabled. Figure 44: 6001T switch 30

5.1.4. Leaf-and-Spine Architecture Data center architectures are changing to more efficiently support multiple, high-traffic applications. New, large-scale nonblocking fabrics promote heavy east-west or north-south traffic. The leaf-and-spine design helps ensure low-latency fabric with a low hop count. spine switches create a nonblocking, lowlatency fabric, forwarding packets between leaves. The following graphic shows the 6004X as a spine switches connected to the leaf switches Nexus 6001x, providing connectivity to servers. A highly meshed architecture helps ensure high network availability with minimal impact on customer traffic if a failure occurs. The following graphic shows the spine/leaf architecture: 7000 Core 6004 L3 Spine 6004/ 6001 L2/L3 Fabric Leaf Figure 45: spine/leaf (Fat-Tree) architecture with Nexus 6xxx series (source: Cisco) 5.1.5. Structured Cabling for 40 Gb/s Ethernet between spine and leaf switches The following graphic shows the different cabling channel configurations 40 Gb/s Ethernet between the spine and leaf switches: 12 x 40 Gb/s 40G BiDi TYPE 1 40G BiDi 3 x 40 Gb/s 6004x 40G SR 40G CSR TYPE 3 TYPE 4 6 x 40 Gb/s 40G SR 40G CSR 6001x Figure 46: Structured Cabling Model Types for Cisco 6004x 6001x: 40 Gb/s Ethernet 31

The maximum channel length for the Cisco QSFP-40G-SR, QSFP-40G-CSR and Cisco QSFP-40G-SR-BD can be found in table x. Within the rack, Cat 6 A copper patch cords are used to connect the Nexus 93xx to the rack mount servers. 6001x Server Figure 47: 6001X - Cisco Server 32

6. CommScope s Pre-Terminated Structured Cabling Systems 6.1 MPOptimate 24 fiber Ultra Low Loss Systems 6.1.1 Description The MPOptimate 24-fiber pre-terminated cabling system cabling consists of trunk cables and cassettes featuring a 24 fiber ultra low loss multi fiber push on (MPO) connector. The MPO connector is recognized by the data center cabling standards EN 50173-5 and ISO/ IEC 24764 for multifiber applications. Furthermore, most of the high speed applications like 120 Gb/s InfiniBand and 40/100 Gb/s Ethernet use the MPO connector in their multimode application definitions for parallel data transmission. Figure 48: 24-fiber MPO Connector The MPOptimate 24-fiber system consists of the following components: 24 Fiber MPOptimate Trunks & Patch Cords Attenuation: Return loss: typical 0.18 db, max. 0.25 db 28 db min. 10 Gb/s Cassettes Attenuation: Cassette RL: typical 0.25 db, max. 0.35 db 27 db min. 40 Gb/s Cassettes Attenuation: Cassette RL: typical 0.36 db, max. 0.5 db 27 db min. 100 Gb/s Cassettes Attenuation: Cassette RL: typical 0.36 db, max. 0.5 db 27 db min. MPOptimate LC Patch Cords Attenuation: Return Loss: typical 0.1 db, max. 0.15 db 35 db min. MPOptimate Patch Panel, 1 RU Supports up to 4 MPOptimate cassettes Drawer Style Figure 49: MPOptimate 24 Fiber System Components 33

6.1.2. Advantages of a 24-fiber trunking system CommScope s MPOptimate 24-fiber system offers huge advantages compared to regular 12-fiber MPO systems: The MPOptimate 24-fiber trunk system uses ultra low loss components allowing interconnect as well as crossconnect designs without exceeding the application power budgets The MPOptimate 24-fiber trunk system allows very high port density The MPOptimate 24-fiber trunk system provides cost savings due to: -- Reduced space requirement in pathways system due to less cables -- Reduced installation time due to less cables and less connectors to install -- Less administration and cleaning time because of less connectors MPOptimate 24-fiber offers an ideal upgrade path from 10 Gb/s up to 100 Gb/s and is a real infrastructure for next 3 generations of data center applications The following graphic describes the upgrade path. While the trunk cable remain, the applications can be upgraded changed just by changing cassettes and patch cords. Trunk cables remain permanent 10GbE ENABLING MIGRATION TO 40GBE LC Duplex Patch 10Gb/s Cassette 24 Fiber Trunk 10Gb/s Cassette LC Duplex Patch 10GbE ENABLING MIGRATION TO 40GBE 40GbE ENABLING MIGRATION TO 100GBE 3 x 12 Fiber Patch Cable 40Gb/s Cassette 24 Fiber Trunk 40Gb/s Cassette 3 x 12 Fiber Patch Cable 40GbE ENABLING MIGRATION TO 100GBE 100GbE 1 x 24 Fiber Patch Cable 100Gb/s Cassette 24 Fiber Trunk 100Gb/s Cassette 1 x 24 Fiber Patch Cable 100GbE Figure 50: MPOptimate 24-fiber upgrade path The modularity of the system offers an unknown design flexibility allowing even 3 ethernet applications (10/40/100 Gb/s) to be installed in just one patch panel. Figure 51: Three Ethernet Generations 34

6.2. MRJ21 XG Copper System 6.2.1. Description The MRJ21 XG connector system is a high-density, high-performance 10Gb/s copper cabling plug and play system, that supports agility, availability and efficiency in today s modern data center. As a pre-connectorized system, the patented MRJ21 XG plug design supports 4 separate transmission channels over a single trunk cable, giving guaranteed throughput performance and quick installation. Every MRJ21 XG cable assembly supports 4 RJ45 jacks in either the 24 or 48 ports panels, or the 8 port Quick Fit cassettes which allow 32 ports in 1 RU. The MRJ21 XG connector system has been developed for equipment row cabling in data centers in either EoR (end of row) or MoR (middle of row) configurations. The maximum cabling channel length for 10 Gb/s Ethernet with the MRJ21 XG system is 40 m. Figure 52: MRJ21 XG High Density Connector The system consists of the following components: MRJ21 XG Trunk Connector: MRJ21 XG Cable: 16pair S/U/FTP, AWG 26 Provides 4 x 10 Gb/s channels MRJ21 XG Cassette Back Connector: 2 x MRJ21 XG Front connector: 8 x RJ45 Provides 8 x 10 Gb/s channels (requires 2 MRJ21 XG trunks) UCP Patch Panel, 1 RU Supports up to 4 MRJ21 XG cassettes Cat 6 A patch cord Figure 53: MRJ21 XG System Components 35

6.2.2. Advantages of MRJ21 XG CommScope s MRJ21 XG connector system offers huge advantages compared to regular traditional or pre-terminated copper cabling systems: MRJ21 XG connector system provides cost savings due to: -- Reduced installation time due to less cables and less connectors to install -- Reduced space requirement in pathways system due to less & smaller cables MRJ21 XG Trunk S/U/FTP 16 pairs total Traditional 4 cables S/FTP 4 pairs each Figure 54: Cable size comparison Figure 55: MRJ21 XG panels A lower cable volume deployed in the data center reduces containment costs and present less of an obstruction to the airflow entering and exiting the servers and switches, impacting positively both initial CAPEX and on-going OPEX. The following graphic highlights this advantage: Figure 56: Less cables for equipment cabling 36

7. Cabling Channel Types 7.1. MPOptimate 24-fiber Cabling Types 12 ports LC-Duplex with OM4 Fiber TYPE 1 This cabling type offers 12 LC-Duplex ports for 10Gb/s Ethernet using the Cisco SFP-10G-SR transceiver or 12 LC-Duplex ports for 40 Gb/s Ethernet using the Cisco QSFP-40G-SR-BD transceiver. It has 12 LC-Duplex path cords on both ends. The number of ports can be easily expanded in increments of 12 by just selecting this cabling type several times according the actual port requirements. Item Description Part Number LC duplex patch cable 1x24 MPO - 6 x LC quad Quick Fit cassette, straight Y-2160046-X (OM4) 2160266-5 (OM4) 24 fiber MPO F/F trunk Y-2160608-X (OM4) 1x24 MPO - 6 x LC quad Quick Fit cassette, flipped Y-2160266-5 (OM4) Modular drawer panel for 4 Quick Fit cassettes, angled 1-1671436-1 3 ports MPO (8 fibers) with OM4 Fiber with MPO/LC hydra on one side TYPE 2 This cabling type offers 3 MPO ports for 40 Gb/s Ethernet. It has one 12-fiber MPO patch cord on one side and a MPO/LC-Duplex hydra cable with LC-Duplex on the other side. The number of ports can be easily expanded in increments of 12 by just selecting this cabling type several times according the actual port requirements. Item Description Part Number 12 fiber MPO F/F patch cable, type A Y-2160136-X (OM4) 1x24 MPO - 3x8 MPO cassette 2160639-5 (OM4) 24 fiber MPO F/F trunk, type A Y-2160608-X (OM4) 8 fiber MPO - 4 x LC duplex Uniboot 40Gb/s Fan-Out Y-2160510-X (OM4) UCP Modular drawer panel for 4 Quick Fit cassettes, angled 1-1671436-1 37

3 ports MPO (8 fiber), OM4 Fiber, 12-fiber MPO patch cords at both ends TYPE 3 Item Description Part Number 12 fiber MPO F/F patch cable, type A Y-2160136-X (OM4) 1x24 MPO - 3x8 MPO cassette 2160639-5 (OM4) 24 fiber MPO F/F trunk, type A Y-2160608-X (OM4) UCP Modular drawer panel for 4 Quick Fit cassettes, angled 1-1671436-1 6 ports MPO (8 fiber), OM4 Fiber, 12-fiber MPO patch cords at both ends TYPE 4 Item Description Part Number 12 fiber MPO F/F patch cable, type A Y-2160136-X (OM4) 1x24 MPO - 6x8 MPO cassette 2160649-5 (OM4) 24 fiber MPO F/F trunk, type A Y-2160608-X (OM4) UCP Modular drawer panel for 4 Quick Fit cassettes, angled 1-1671436-1 38

2 ports MPO (24 fiber), OM4 Fiber, 24-fiber MPO patch cords at both ends TYPE 5 Item Description Part Number 24 fiber MPO F/F patch cable, type A Y-2160304-X (OM4) 24 fiber MPO F/F trunk, type A Y-2160608-X (OM4) 2x24 fiber MPO - 2x24 MPO cassette polarity A 2x24 fiber MPO - 2x24 MPO cassette polarity B Y-2160651-5 (OM4) Y-2160651-5 (OM4) UCP Modular drawer panel for 4 Quick-Fit cassettes, angled 1-1671436-1 7.2. MRJ21 XG Cabling Channels for 1/10 GigaBit Ethernet 8 ports for 10 Gb/s Ethernet TYPE 7 Item Description Part Number Cat 6 A Patch cable Y-1711815-X UCP Patch Panel, 1U 1-1671590-1 MRJ21XG Cassette, 8 port (requires 2 trunks) 2153115-1 MRJ21XG Trunk cable Y-2153052-X 39

8. CommScope System Catalog 8.1. MPOptimate 24-fiber MPO/MPOptimate installation and polarity In each fiber optic system, the link from source (Tx) to receiver (Rx) needs to be flipped once. In a complete MPO/MPOptimate link this flipping is provided by one flipped cassette, while all other components in this link shall be installed as straight version. MPOptimate ready for 10, 40 and 100 Gb/s The MPOptimate system is designed to support 10G Ethernet and 4/8/16G Fiber Channel applications through the complete structure of a Data Center, as specified in ISO/IEC 24764, EN 50173-5 and TIA/EIA 942. The MPOptimate system is designed to have 6 cassettes per link for 10 Gb/s with a full 300 meter support on OM3 fibers and 550 meter on OM4 fibers. It offers one passive channel from the end equipment to the core switch without the need of repeating signals for amplifying reasons. When using the MPOptimate cabling system, the owner can replace aggregation switches by a patch cord without changing the passive infrastructure. The system offers already today a fully 40 and 100 Gb/s capability and seamless migration. ENI MD ZD LDP EO Distributor in accordance with ISO/IEC 11801 Network access Main distribution Zone distribution Equipment cabling subsystem cabling subsystem cabling subsystem cabling Generic cabling system EQP Length tables for MPO/MPOptimate trunks and fan-out assemblies Length Table A: 0- -2 2 m 1- -3 13 m 2- -4 24 m 3- -5 35 m 4- -6 46 m 5- -7 57 m 6- -8 68 m 7- -9 79 m 9- -0 90 m 0- -3 3 m 1- -4 14 m 2- -5 25 m 3- -6 36 m 4- -7 47 m 5- -8 58 m 6- -9 69 m 8- -0 80 m 9- -1 91 m 0- -4 4 m 1- -5 15 m 2- -6 26 m 3- -7 37 m 4- -8 48 m 5- -9 59 m 7- -0 70 m 8- -1 81 m 9- -2 92 m 0-5 5 m 1- -6 16 m 2- -7 27 m 3- -8 38 m 4- -9 49 m 6- -0 60 m 7- -1 71 m 8-2 82 m 9- -3 93 m 0- -6 6 m 1- -7 17 m 2- -8 28 m 3- -9 39 m 5- -0 50 m 6- -1 61 m 7- -2 72 m 8- -3 83 m 9- -4 94 m 0- -7 7 m 1- -8 18 m 2- -9 29 m 4- -0 40 m 5- -1 51 m 6- -2 62 m 7- -3 73 m 8- -4 84 m 9- -5 95 m 0- -8 8 m 1- -9 19 m 3- -0 30 m 4- -1 41 m 5- -2 52 m 6- -3 63 m 7- -4 74 m 8- -5 85 m 9- -6 96 m 0- -9 9 m 2- -0 20 m 3- -1 31 m 4- -2 42 m 5- -3 53 m 6- -4 64 m 7- -5 75 m 8- -6 86 m 9- -7 97 m 1- -0 10 m 2- -1 21 m 3- -2 32 m 4- -3 43 m 5- -4 54 m 6- -5 65 m 7- -6 76 m 8- -7 87 m 9- -8 98 m 1- -1 11 m 2- -2 22 m 3- -3 33 m 4- -4 44 m 5- -5 55 m 6- -6 66 m 7- -7 77 m 8- -8 88 m 9- -9 99 m 1- -2 12 m 2- -3 23 m 3- -4 34 m 4- -5 45 m 5- -6 56 m 6- -7 67 m 7- -8 78 m 8- -9 89 m Length Table B: 9- -9 100 m 1- -1 111 m 2- -2 122 m 3- -3 133 m 4- -4 148 m 5- -5 170 m 6- -6 192 m 7- -7 270 m 8- -8 460 m 0- -1 101 m 1- -2 112 m 2- -3 123 m 3- -4 134 m 4- -5 150 m 5- -6 172 m 6- -7 194 m 7- -8 280 m 8- -9 480 m 0- -2 102 m 1- -3 113 m 2- -4 124 m 3- -5 135 m 4- -6 152 m 5- -7 174 m 6- -8 196 m 7- -9 290 m 9- -0 500 m 0- -3 103 m 1- -4 114 m 2- -5 125 m 3- -6 136 m 4- -7 154 m 5- -8 176 m 6- -9 198 m 8- -0 300 m 0- -4 104 m 1- -5 115 m 2- -6 126 m 3- -7 137 m 4- -8 156 m 5- -9 178 m 7- -0 200 m 8- -1 320 m 0- -5 105 m 1- -6 116 m 2- -7 127 m 3- -8 138 m 4- -9 158 m 6- -0 180 m 7- -1 210 m 8- -2 340 m 0- -6 106 m 1- -7 117 m 2- -8 128 m 3- -9 139 m 5- -0 160 m 6- -1 182 m 7- -2 220 m 8- -3 360 m 0- -7 107 m 1- -8 118 m 2- -9 129 m 4- -0 140 m 5- -1 162 m 6- -2 184 m 7- -3 230 m 8- -4 380 m 0- -8 108 m 1- -9 119 m 3- -0 130 m 4- -1 142 m 5- -2 164 m 6- -3 186 m 7- -4 240 m 8- -5 400 m 0- -9 109 m 2- -0 120 m 3- -1 131 m 4- -2 144 m 5- -3 166 m 6- -4 188 m 7- -5 250 m 8- -6 420 m 1- -0 110 m 2- -1 121 m 3- -2 132 m 4- -3 146 m 5- -4 168 m 6- -5 190 m 7- -6 260 m 8- -7 440 m 40

MPOptimate 24f pre-terminated trunks Features Loose tube cable construction, ideal for routing through cable tray or raceway Cable terminated with low loss 24 fiber MPOptimate connectors Terminated with female MPO connectors (male versions on request) OM3, OM4 cable performance, LSZH construction Connector performance for OM3/OM4: Attenuation 0.25 db (max.); RL 28 db (min) The trunks are equipped with midi fan-out and 3.8mm round cable MPO tails (80cm) All tails are protected with transparent protection sleeve Factory pre-terminated assemblies All products with protocol, for constant and reliable quality Packaging: 50 m in box, >50 m on reel Re-usable pulling socks can be ordered separately. Part Number 2055567-1 Color: aqua Description Part Number 2-99 m table A Part Number 100-500 m table B 24 fiber; OM3; Straight A wiring; Y-2160663-X Y-2160664-X 24 fiber; OM4; Straight A wiring; Y-2160608-X Y-2160609-X For available lengths: see page 40 41

10Gb/s Cassettes 1x24 fiber MPO to 6 LC Quad connectors Features Pre-terminated low loss cassettes Front: 6 x optimized LC Quad Back: 1 x 24 fiber low loss MPOptimate connector Optical cassette performance for OM3/OM4: Attenuation 0.35 db(max.) RL 27 db(min) All products with protocol, for constant and reliable quality Port number labelling and additional label strip included Description Part Number straight Part Number flipped 1x24 fiber MPO to 6x LC Quad OM4 2160266-5 1-2160266-5 1x24 fiber MPO to 6x LC Quad OM3 2160266-3 1-2160266-3 40GbE (4 x 10GbE) Cassette 1x24 fiber MPO to 6 LC Quad connectors Features Quick Fit design, fits in all UCP products OM4 bend insensitive fiber For channel with 40G MPO cassettes connected to 40G (4x10G) transceiver Cassette attenuation: typical 0.25dB/max. 0.35dB Cassette Return Loss: 27dB min Description Wire map Part Number 1x24 fiber MPO to 6x LC Quad Special 40/10G 2160640-5 40Gb/s Cassette 1x24 fiber MPO to 3x12 (8) fiber MPO connectors Features Quick Fit design, fits in all UCP products OM4 bend insensitive fiber Cassette attenuation: typical 0.36dB/max. 0.5dB Cassette Return Loss: 27dB min Description Wire map Part Number 1x24 fiber MPO to 3x12(8) fiber MPO Universal 2160639-5 42

40Gb/s Cassette 2x24 fiber MPO to 6x12 (8) fiber MPO connectors Features Quick Fit design, fits in all UCP products OM4 bend insensitive fiber Cassette attenuation: typical 0.36dB/max. 0.5dB Cassette Return Loss: 27dB min Description Wire map Part Number 2x24 fiber MPO to 6x12(8) fiber MPO Universal 2160649-5 100Gb/s Cassette 1x24 fiber MPO to 1x24 fiber MPO connector Features Quick Fit design, Fits in all UCP products OM4 bend insensitive fiber Cassette attenuation: typical 0.36dB/max. 0.5dB Cassette Return Loss: 27dB min Description Wire map Part Number 1x24 fiber MPO to 1x24 fiber MPO Polarity A 2160650-5 1x24 fiber MPO to 1x24 fiber MPO Polarity B 1-2160650-5 100Gb/s Cassette 2x24 fiber MPO to 2x24 fiber MPO connectors Features Quick Fit design, fits in all UCP products OM4 bend insensitive fiber Cassette attenuation: typical 0.36dB/max. 0.5dB Cassette Return Loss: 27dB min Description Wire map Part Number 2x24 fiber MPO to 2x24 fiber MPO Polarity A 2160651-5 2x24 fiber MPO to 2x24 fiber MPO Polarity B 1-2160651-5 43

MPOptimate 24f patch cords Features For direct connection of 100G trancievers Construction suited to inter-cabinet patching Low loss MPOptimate 24 fiber MPO round 3.8mm cable patch cord OM3 and OM4 cable performance, LSZH construction Connector performance for OM3/OM4: Attenuation 0.25 db (max.); RL 28 db (min) All products with protocol, for constant and reliable quality Color: aqua Length Table: 9- -0 0,5 9- -5 5,5 1- -1 11 2- -1 21 3- -1 31 4- -1 41 5- -1 51 6- -1 61 7- -1 71 0- -1 1,0 0- -6 6,0 1- -2 12 2- -2 22 3- -2 32 4- -2 42 5- -2 52 6- -2 62 7- -2 72 9- -1 1,5 9- -6 6,5 1- -3 13 2- -3 23 3- -3 33 4- -3 43 5- -3 53 6- -3 63 7- -3 73 0- -2 2,0 0- -7 7,0 1- -4 14 2- -4 24 3- -4 34 4- -4 44 5- -4 54 6- -4 64 7- -4 74 9- -2 2,5 9- -7 7,5 1- -5 15 2- -5 25 3- -5 35 4- -5 45 5- -5 55 6- -5 65 7- -5 75 0- -3 3,0 0- -8 8,0 1- -6 16 2- -6 26 3- -6 36 4- -6 46 5- -6 56 6- -6 66 7- -6 76 9- -3 3,5 9- -8 8,5 1- -7 17 2- -7 27 3- -7 37 4- -7 47 5- -7 57 6- -7 67 7- -7 77 0- -4 4,0 0- -9 9,0 1- -8 18 2- -8 28 3- -8 38 4- -8 48 5- -8 58 6- -8 68 7- -8 78 9- -4 4,5 9- -9 9,5 1- -9 19 2- -9 29 3- -9 39 4- -9 49 5- -9 59 6- -9 69 7- -9 79 0- -5 5,0 1- -0 10 2- -0 20 3- -0 30 4- -0 40 5- -0 50 6- -0 60 7- -0 70 8- -0 80 Description Part Number 24 fiber; OM4; Straight A wiring; Female/Female Y-2160304-X 24 fiber; OM4; Straight A wiring; Female/Male Y-2160307-X 24 fiber; OM4; Straight A wiring; Male/Male Y-2160738-X 24 fiber; OM4; Flipped B wiring; Female/Male Y-2160654-X 24 fiber; OM4; Flipped B wiring; Male/Male Y-2160694-X 24 fiber; OM3; Straight A wiring; Female/Female Y-2160305-X 44

40GbE to 10GbE Fan-Out cords 12 fiber MPO to 4xLC duplex (Fan-Out) Features MPO side connects to 40G QSFP transceiver, LC side connects to 10G SPF+ (channel) Wire map: LC 1-MPO fiber 1-12, LC2-MPO fiber 2-11, LC3-MPO fiber 3-10, LC4-MPO fiber 4-9 8 fiber 3,2/2,0mm diameter OM4 bend insensitive fiber LSZH cable Flammability IEC 60332 Parts 1 & 3 Color: Aqua Length Table: 9- -0 0,5 9- -5 5,5 1- -1 11 2- -1 21 3- -1 31 4- -1 41 5- -1 51 6- -1 61 7- -1 71 0- -1 1,0 0- -6 6,0 1- -2 12 2- -2 22 3- -2 32 4- -2 42 5- -2 52 6- -2 62 7- -2 72 9- -1 1,5 9- -6 6,5 1- -3 13 2- -3 23 3- -3 33 4- -3 43 5- -3 53 6- -3 63 7- -3 73 0- -2 2,0 0- -7 7,0 1- -4 14 2- -4 24 3- -4 34 4- -4 44 5- -4 54 6- -4 64 7- -4 74 9- -2 2,5 9- -7 7,5 1- -5 15 2- -5 25 3- -5 35 4- -5 45 5- -5 55 6- -5 65 7- -5 75 0- -3 3,0 0- -8 8,0 1- -6 16 2- -6 26 3- -6 36 4- -6 46 5- -6 56 6- -6 66 7- -6 76 9- -3 3,5 9- -8 8,5 1- -7 17 2- -7 27 3- -7 37 4- -7 47 5- -7 57 6- -7 67 7- -7 77 0- -4 4,0 0- -9 9,0 1- -8 18 2- -8 28 3- -8 38 4- -8 48 5- -8 58 6- -8 68 7- -8 78 9- -4 4,5 9- -9 9,5 1- -9 19 2- -9 29 3- -9 39 4- -9 49 5- -9 59 6- -9 69 7- -9 79 0- -5 5,0 1- -0 10 2- -0 20 3- -0 30 4- -0 40 5- -0 50 6- -0 60 7- -0 70 8- -0 80 Description Wire map Part Number 12 fiber MPO to 4x LC duplex cable. Special 40/10G Y-2160510-X 45

UCP Patch Panel Angled and Flushmount Features 19 1U unloaded modular patch panel with support for 4 Quick Fit modules Angled and flush style panels available Modular, rear cable management for both horizontal Copper and Fiber cables Accepts Pre-terminated Cu or FO cassettes or Field-terminated Copper modules Including grounding bolt Color: black (RAL 9005) Description Part Number UCP Patch Panel 1U Angled 1-1671590-1 UCP Patch Panel 1U Flush 1-1671594-1 Angled Quick Fit MPO/MPOptimate drawer panel Features Accommodates up to 4 MPO/MPOptimate Quick Fit cassettes High-end solution Fully integrated and retractable cable management bracket Allows for easy move, adds and changes Angled style of panels provides additional cable management towards side area Color: black (RAL 9005) Description Part Number Modular MPO/MPOptimate drawer panel for 4 Quick Fit cassettes, angled 1-1671436-1 Flush Quick Fit MPO/MPOptimate drawer panel Features Accommodates up to 4 MPO/MPOptimate Quick Fit cassettes High-end solution Fully integrated and retractable cable management bracket Allows for easy move, adds and changes Flushmount Color: black (RAL 9005) Description Part Number Modular MPO/MPOptimate drawer panel for 4 Quick Fit cassettes, flush 1-1671437-1 46

Modular MPO/MPOptimate front plate for Quick Fit cassettes Features Low cost solution Flush mount Front plate with no additional cable management Does accept copper and fiber in one panel Color: black (RAL 9005) Description Part Number Modular MPO/MPOptimate front plate 1-1671373-1 MPO/MPOptimate coupler Quick Fit module Features Quick Fit module with 6 x or 12 x MPO coupler Port number labeling and additional label strip included MPO coupler always used with on one side MPO male and other side MPO female connector Color: black (RAL 9005) Description Part Number 6 x MPO coupler module 1671200-1 12 x MPO coupler module 1711987-1 MPO/MPOptimate back cable manager Features 19", 1 U rear cable management bar Used for MPO front panels 3 depths available Applications include new installation and retrofit Rear or front of rack or cabinet mount Color: black (RAL 9005) Description Part Number Cable management bar 100 mm depth 1711314-1 Cable management bar 175 mm depth 1711314-2 Cable management bar 275 mm depth 1711314-3 47

MPO/MPOptimate pull protection sleeve Features Re-usable installation pull and protection kit IP 67 protection Must be ordered separately One part number contains 1 x installation sleeve with end cap and 1 x pull sleeve with pull eye Does fit to: -- 12 fiber MPO and MPOptimate trunks with midi fan-out -- 24 fiber MPO and MPOptimate trunks with midi fan-out -- 12 x MPO to LC or SC MPO and MPOptimate trunk with midi fan-out -- 48 fiber MPO and MPOptimate trunks with midi fan-out (use 2055567-2) Color: black (RAL 9005) Description Part Number Protection sleeve kit for 12 and 24 fiber cables 2055567-1 Protection sleeve kit for 48 fiber cables 2055567-2 Velcro Cable Ties Features Hook and loop ties No risk of damaging cables Releasable and reusable An order quantity of one equals one roll of 10 ties Description Part Number Velcro Tie 1" x 8" (10pcs.) 1375253-2 Velcro Tie 1" x 12" (10pcs.) 1375254-2 Adhesive Foam Tape Features Protects cable jacket when mounted to panels No risk of damaging cables Dimensions: 15 mm x 1 mm 1 roll of 25 m Description Part Number Foam tape 15 mm x 1 mm, 25 m roll 1671961-1 48

8.2. MRJ21 XG MRJ21 XG Quick Fit Cassette 8 Port (10 Gb/s) Features Optimal for use in combination with UCP patch panels: plug & play deployment Compatible with MRJ21 XG cable assemblies for 10GbE performance Front side: 8 x RJ45 jack (2 rows of 4 jacks) Rear side: 2 x MRJ21 receptacle Factory terminated and tested solution For AMPTRAC version of MRJ21 XG Quick Fit cassette please see page 109 in Chapter 8 Managed Connectivity Color: black (RAL 9005) Description Part Number MRJ21 XG Quick Fit cassette for 10GBase-T 2153115-1 MRJ21 XG 19 Patch Panel, 1U, straight Features Optimal for use in environments where high density is required Factory terminated and tested solution Compatible with MRJ21 XG cable assemblies for 10GbE performance Straight panel with either 24 or 48 ports on 1U For AMPTRAC version of MRJ21 XG 19 panel please see page 109 in Chapter 8 Managed Connectivity Color: black (RAL 9005) Description Part Number Straight panel 1U for 10GbE; MRJ21 Plugs: 6; RJ-45 Ports: 24 2153041-1 Straight panel 1U for 10GbE; MRJ21 Plugs: 12; RJ-45 Ports: 48 2153046-1 49

MRJ21 XG to MRJ21 XG trunks Features Friendly field installable 10 GbE solution Factory terminated and 100% tested solution Dense double blade connector with offset jackscrews for latching 16 pair shielded cable with AWG 26 solid conductors Available with LSZH or CMR sheath Color: white Description MRJ21 XG to MRJ21 XG, 10 Gb/s, 180 180 back shell; LSZH sheath MRJ21 XG to MRJ21 XG, 10 Gb/s, 180 45 back shell; LSZH sheath MRJ21 XG to MRJ21 XG, 10 Gb/s, 180 180 back shell; CMR sheath MRJ21 XG to MRJ21 XG, 10 Gb/s, 180 45 back shell; CMR sheath Part Number Y-2153052-X Y-2153078-X Y-2111521-X Y-2111522-X 0- -3 3 m 0- -5 5 m 1- -0 10 m 1- -5 15 m 2- -0 20 m 2- -5 25 m 3- -0 30 m 3- -5 35 m 4- -0 40 m MRJ21 XG Fan-Out cable to multiple RJ-45 plugs (shielded) Features Friendly field installable 10 GbE solution Suitable for use in 3-connector models where 10 GbE application is required Factory terminated, 100% tested and serialized 16 pair, shielded, AWG 26 solid conductors MRJ21 to 4xRJ45 fan-out Description MRJ21 to 4 RJ-45. 180 back shell; LSZH sheath Part Number Y-2153230-X 0- -3 3 m 0- -5 5 m 1- -0 10 m 1- -5 15 m 2- -0 20 m 2- -5 25 m 3- -0 30 m 3- -5 35 m 4- -0 40 m 50

UCP Patch Panel Angled and Flushmount Please refer to Chapter 4, page 48 MRJ21 cable guiding shelf Features 19 4U shelf with 16 vertical slots Each slot accepts max. 8 stacks of MRJ21 cable assemblies Tie down capability at the back of the shelf Color: black (RAL 9005) Description Part Number MRJ21 cable guiding shelf 1671175-1 51

www.commscope.com Visit our website or contact your local CommScope representative for more information. 2016 CommScope, Inc. All rights reserved. MRJ21, MPOptimate, Quick-Fit, AMPTRAC and all trademarks identified by or are registered trademarks or trademarks, respectively, of CommScope, Inc. This document is for planning purposes only and is not intended to modify or supplement any specifications or warranties relating to CommScope products or services. CA-319338.1-EU (01/16)