EMC Distance Extension Support SmartOptics July 31, 2015 This Letter of Support (LOS) is a vehicle by which EMC can offer support for a specific vendor solution. A Letter of Support details support for configurations tested at that particular point-in-time and does not imply future updates of the solution. EMC reserves the right to make any future updates to the solution. For instance, updates could be made if future enhancements discovered through testing further fortifies the existing solution and benefits the customer. It is recommended that the customer and distance vendor periodically check for updates to the Letter of Support Navigator at https://elabnavigator.emc.com/eln/extendedsupport. Successful completion of an EMC Engineering-approved test plan with accepted results is required. The Letter of Support for distance extension solutions is defined by the following: Agreement... 2 Configuration diagram... 2 Supported configurations... 3 Important: The information provided in this document is for reference purposes only and does not represent any EMC commitment or change existing policies or agreements. This document can change at any time, without notice. Contact your EMC Representative for details on how this information may apply to your specific environment. 1
Agreement The following conditions exist: Any distance extension configuration that is beyond the specified scope of the EMC Letter of Support or the EMC Support Matrix requires an EMC Request for Price Quote (RPQ) submission by the EMC Sales team to EMC Engineering. The configuration displayed in the Supported Configuration section is supported using only the specified recommendations, revisions, and requirements as listed further. Configuration diagram The following diagram shows the preferred distance extension topology configuration. Figure acronyms DUT: DIST: E_port: FC Switch: F_port: Primary: Secondary: Dark Fiber: WAN: 2 EMC Distance Extension Support, SmartOptics Device Under Test / MUX Types / SFPs Distance Extension device /chassis with client-modules Connection port between two Fibre Channel switches; also known as expansion port Fibre Channel Switch A port in a fabric where an N_port (port used for point-to-point topology) may attach. Working /Primary full-duplex single-mode-fiber cable carrying Production Traffic Protection/Secondary full-duplex single-mode-fiber cable for high availability failover Full-duplex single-mode cable (9-micron) designed to span from kilometers and further. Wide Area Network This diagram is a conceptual physical configuration of a highly-available point-to-point Fibre Channel switched fabric infrastructure configuration.
Although not always possible, it is highly recommended that the customer build out a highly available environment with redundancy (minimum of two Fibre Channel switches, local and remote location, a minimum of two E_ports/ISLs per area, and a redundant 1+1 WAN/dark fiber path). The following configurations are only supported for unprotected WAN configurations (i.e., 1+1). Supported configurations This section contains information on supported configurations. Supported distance extension devices Refer to the following four figures and table for supported distance extension devices. EMC Distance Extension Support, SmartOptics 3
Distance Application Type SmartOptics SFP Transceivers FC Link Speed 4 EMC Distance Extension Support, SmartOptics Topology (Point-to-point) Brocade Switches with Minimum FOS SmartOptics Mux Types CWDM (Passive) 8G-ZR-Cxx-BR1 8 Gb FC-SW v7.1.1 T-3008 or T-3009 DWDM (Passive) 8G-ER-Dxxx-BR1 8 Gb FC-SW v7.1.1 T-3809, T-3808, T-3832 DWDM (Semi-Passive) 8G-ER-Dxxx-BR1 8 Gb FC-SW v7.1.1 M401, M-1601 DWDM (Active 850nm to DWDM Conversion with Passive MUX) 8G-ER-Dxxx-BR1 8 Gb FC-SW v7.1.1 T-1608 or T-3808 / T-3809 or T-1608 or T-3832 with M-401 or M-1601 DWDM (Semi-Passive) 16G-ER-Dxxx-BR1 16 Gb FC-SW V7.3.0b M-1601 DWDM (Passive) 16G-ER-Dxxx-BR1 16 Gb FC-SW V7.3.0b T-3832 NOTE: All Fiber Optic Cables used in this configuration should be single-mode (9-micron) cables / dark fiber. SmartOptics SFP Transceiver - Small Form Factor Pluggable optics to be used in listed Brocade switches. Mux Types - Optical Multiplexer, Passive (no power), Active (Power needed with Monitoring). Active - WDM Products (also known as Transponders or Muxponders) that are AC or DC powered device with GUI management. For a solution to be called Active it usually has an OEO conversion (Optical to Electrical to Optical) to generate a clean signal that can be amplified cleanly as well. Active products are also commonly used to do media conversion. In our cases that is mostly to convert from 850/1310nm coming from the switch to CWDM or DWDM wavelengths. It has SFP+ or XFP interfaces to house a SmartOptics 850nm/1310nm transceiver to accept the corresponding client connection coming from switches. It also has SFP+ or XFP interfaces that face the network side as well. These network side interfaces can house SmartOptics CWDM or DWDM transceivers and interface passive CWDM, DWDM muxes or M-401, M- 1601 products. Passive - SmartOptics Brocade Certified CWDM or DWDM transceivers reside directly in the Switch and jumper to a completely non-powered Passive CWDM or DWDM mux/demux. Tends to be more limited in distance and channel counts than Active or Semi-Passive solutions.
Semi-Passive - Our M-1601 and/or M-401 products are really the only products in the industry to have this designation, so SmartOptics has coined this phrase. The M-Series are unique in that they provide the integrated Passive Mux/Demux, but they also provide integrated line conditioning features, amplifiers and optical monitoring to be able to send the Ethernet or FC signal up to 200Km and allow customer to monitor light levels etc. We do all this without an OEO conversion, so though the M-Series is powered it is technically not Active. The M-Series follows the same approach as Passive in that the SmartOptics DWDM transceivers reside in the switch. Brocade Native 850 / 1310nm - Optics used in Brocade Switches are supported for client-connections to Active Distance Application Type configurations. Please refer to the Supported Distance Extension Device table. SmartOptics SFP :: 8G-ER-Dxxx-BR1 The Distance Extension SFPs are known as the following ( where xxx denotes to a specific 3-digit identifier with a specific wavelength representation in nanometers) : 8G-ER-Dxxx-BR1 : 180 (1563.05nm), 190 (1562.23nm), 200 (1561.42nm), 210 (1560.61nm), 220 (1559.79nm), 230 (1558.98nm), 240 (1558.17nm), 250 (1557.36nm), 260 (1556.55nm), 270 (1555.75nm), 280 (1554.94nm), 290 (1554.13nm), 300 (1553.33nm), 310 (1552.52nm), 320 (1551.72nm), 330 (1550.92nm), 340 (1550.12nm), 350 (1549.32nm), 360 (1548.51nm), 370 (1547.72nm), 380 (1546.92nm), 390 (1546.12nm), 400 (1545.32nm), 410 (1544.53nm), 420 (1543.73nm), 430 (1542.94nm), 440 (1542.14nm), 450 (1541.35nm), 460 (1540.56nm), 470 (1539.77nm), 480 (1538.98nm), 490 (1538.19nm), 500 (1537.40nm), 510 (1536.61nm), 520 (1535.82nm), 530 (1535.04nm), 540 (1534.25nm), 550 (1533.47nm), 560 (1532.68nm), 570 (1531.90nm), 580 (1531.12nm), 590 (1530.33nm), 600 (1529.55nm), 610 (1528.77nm) 8G-ER-Dxxx-BR1 : This optic / sfp-type is rated for 40Km (under extreme optimum fiber optic medium conditions excluding active MUX + AMP) T-1608 + M-1601: Active Optical Multiplexer/De-multiplexer device with amplifier/amplification T-3832-LB: Passive Optical Multiplexer/De-multiplexer with no amplifier/amplification SmartOptics SFP :: 8G-ZR-Cxx-BR1 The Distance Extension SFPs are known as the following ( where xx denotes to a specific 2-digit identifier with a specific wavelength representation in nanometers) : 8G-ZR-Cxx-BR1 : 47 (1470nm), 49 (1490nm), 51 (1510nm), 53 (1530nm), 55 (1550nm), 57 (1570nm), 59 (1590nm), 61 (1610nm) 8G-ZR-Cxx-BR1 : This optic / sfp-type is rated for 70Km (under extreme optimum fiber optic medium conditions excluding active MUX + AMP) T-3008: Passive Optical Multiplexer/De-multiplexer device T-3009: Passive Optical Multiplexer/De-multiplexer device EMC Distance Extension Support, SmartOptics 5
SmartOptics SFP :: 16G-ER-Dxxx-BR1 The Distance Extension SFPs are known as the following ( where xxx denotes to a specific 3-digit identifier with a specific wavelength representation in nanometers) : 16G-ER-Dxxx-BR1 : 180 (1563.05nm), 190 (1562.23nm), 200 (1561.42nm), 210 (1560.61nm), 220 (1559.79nm), 230 (1558.98nm), 240 (1558.17nm), 250 (1557.36nm), 260 (1556.55nm), 270 (1555.75nm), 280 (1554.94nm), 290 (1554.13nm), 300 (1553.33nm), 310 (1552.52nm), 320 (1551.72nm), 330 (1550.92nm), 340 (1550.12nm), 350 (1549.32nm), 360 (1548.51nm), 370 (1547.72nm), 380 (1546.92nm), 390 (1546.12nm), 400 (1545.32nm), 410 (1544.53nm), 420 (1543.73nm), 430 (1542.94nm), 440 (1542.14nm), 450 (1541.35nm), 460 (1540.56nm), 470 (1539.77nm), 480 (1538.98nm), 490 (1538.19nm), 500 (1537.40nm), 510 (1536.61nm), 520 (1535.82nm), 530 (1535.04nm), 540 (1534.25nm), 550 (1533.47nm), 560 (1532.68nm), 570 (1531.90nm), 580 (1531.12nm), 590 (1530.33nm), 600 (1529.55nm), 610 (1528.77nm) 16G-ER-Dxxx-BR1: This optic / sfp-type is rated for 40Km (under extreme optimum fiber optic medium conditions excluding active MUX + AMP) T-1608 + M-1601: Active Optical Multiplexer/De-multiplexer device with amplifier/amplification) T-3832-LB: Passive Optical Multiplexer/De-multiplexer with no amplifier/amplification Distance Extension SFPs, MUX, AMP/ Dark Fiber distance recommendations For every single Fibre Channel E_port / ISL, two SFPs are used at the local and remote Fibre Channnel switch. It is mandatory that the SFPs on both local and remote switch associated to the same E_port / ISL is identical in wavelength (i.e., same sfp-partnumber and nano-meter spectrum/nm on both ends). The specified SmartOptics SFPs and MUX-Types devices listed in the Supported Distance Device Table do not participate in extending bb-credits for Fibre Channel flow control. The bb-credits used for Fibre Channel flow control will be sourced from the Fibre Channel Switch E_ports attached utilizing SmartOptics SFPs/MUX (MUX + AMP) devices. Verify that the physical distance and latency experienced at the customer site does not exceed the credit amounts/capabilities of the Fibre Channel Switch resources. Fibre Channel Switch BB-credit provisioning of the E_port may be required depending upon the distance between sites. Fibre Channel link speeds are to be hard-set across all Fibre Channel Switched E_ports using SmartOptics SFPs/MUX (MUX + AMP) devices associated in the distance extension configuration. Consult with the EMC, SmartOptics, or Fibre Channel switch vendor product or administration documents for assistance and further configuration guidance. 6 EMC Distance Extension Support, SmartOptics
WAN protection mode support Although not preferred, an unprotected environment can pass Fibre Channel traffic. (Refer to the configuration diagram, which shows a single-full-duplex-wan primary path with no secondary protection path between the distance extension devices). EMC will support an unprotected Distance Protocol solution transmitting and receiving replicated (mission-critical and non-mission-critical) data if the customer understands the implications and risks. (There would be no fault to EMC if related issues were to occur.). Refer to the Support Notes in the following Supported Fibre Channel Switches section for further details. Supported Fibre Channel switches Fibre Channel Switch Type SmartOptics SFP Transceivers Fibre Channel Link Speed Topology (Point-to-point) Brocade 8510, DCX, and DCX-4S 8G-ZR-Cxx-BR1 8 Gb FC-SW Brocade 8510, 6510, FC8-32E, FC8-48E, 6505, 6520, DCX, 5300, 5100, 300, FX8-24, 7800, and DCX-4S 8G-ER-Dxxx-BR1 8 Gb FC-SW Support Notes: EMC offers OEM equivalents to these 8 Gb-capable switch models under the EMC Connectrix product line Minimum Brocade Fabric OS required is v7.1.1 SmartOptics 8G-ER-Dxxx-BR1 -SFPs are supported for use within 8 Gb-capable Brocade 8510, 6510, FC8-32E, FC8-48E, 6505, 6520, DCX, 5300, 5100, 300, FX8-24, 7800, and DCX-4S switches for E_port connectivity only in homogeneous FC Switched Fabric configurations. SmartOptics 8G-ZR-Cxx-BR1 -SFPs are supported for use within Brocade 8510, DCX, and DCX-4S switches for E_port connectivity only in homogeneous FC Switched Fabric configurations. Brocade 8510, 8514, 6510, FC8-32E, FC8-48E, 6505, 6520, DCX, 5300, 5100, 300, FX8-24, 7800, and DCX-4S provisioned for 8Gb Fibre Channel E_ports are not supported for WAN protected configuration (i.e., 1+1) The SFPs and/or XFPs used by the Fibre Channel switches must be supported by EMC and/or Fibre Channel Switch vendors. All Fibre Channel E_port link speeds are to be hard-set in unison with the active or passive distance extension SmartOptics MUX- client-port. It is recommended to check for periodic updates in the Support Notes. Fibre Channel Switch Type Brocade 8510, 6510, 6505, 6520, DCX, and DCX-4S Support notes: SmartOptics SFP Transceivers Fibre Channel Link Speed Topology (Point-to-point) 16G-ER-Dxxx-BR1 16 Gb FC-SW EMC offers OEM equivalents to these 16 Gb-capable switch models under the EMC Connectrix product line Minimum Brocade Fabric OS required is v7.3.0b SmartOptics 16G-ER-Dxxx-BR1 -SFPs are supported for use within 16 Gb-capable Brocade 8510, 6510, 6520, 6505, 6520, DCX, and DCX-4DS, switches for E_port connectivity only in homogeneous FC Switched Fabric configurations. Brocade 8510, 6510, 6520, 6505, 6520, DCX and DCX-4S, switches provisioned for 8Gb Fibre Channel E_ports are not supported for WAN protected configuration (i.e., 1+1) The SFPs and/or XFPs used by the Fibre Channel switches must be supported by EMC and/or Fibre Channel Switch vendors. All Fibre Channel E_port link speeds are to be hard-set in unison with the active or passive distance extension SmartOptics MUX- client-port. It is recommended to check for periodic updates in the Support Notes. EMC Distance Extension Support, SmartOptics 7
Supported distance protocol solutions Topology-Protocol Supported Fibre Channel Switched Fabric (FC-SW) ONLY Distance Protocol EMC :: SRDF/S, SRDF/A, SRDF/DM EMC :: RecoverPoint EMC :: Block/IO Support Notes: Check with the EMC Support Matrix for the latest supported EMC Storage arrays and microcode. Check with the EMC Support Matrix for the latest supported EMC Connectrix firmware versions. It is recommended to check for periodic updates in the Support Notes. Copyright 2015 EMC Corporation. All Rights Reserved. EMC believes the information in this publication is accurate as of its publication date. The information is subject to change without notice. THE INFORMATION IN THIS PUBLICATION IS PROVIDED "AS IS." EMC CORPORATION MAKES NO REPRESENTATIONS OR WARRANTIES OF ANY KIND WITH RESPECT TO THE INFORMATION IN THIS PUBLICATION, AND SPECIFICALLY DISCLAIMS IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. Use, copying, and distribution of any EMC software described in this publication requires an applicable software license. EMC 2, EMC, and the EMC logo are registered trademarks or trademarks of EMC Corporation in the United State and other countries. All other trademarks used herein are the property of their respective owners. For the most up-to-date regulator document for your product line, go to EMC Online Support (https://support.emc.com). 8 EMC Distance Extension Support, SmartOptics