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Doc. No.
78-3335-02
Second-Generation Channel Interface
Processor (CIP2) Installation and Configuration
Product Numbers: CX-CIP2-ECA1=, CX-CIP2-ECA2= , CX-CIP2-ECAP1=,
CX-CIP2-PCA1=, CX-CIP2-PCA2=, CX-CIP2-U-ECA1=, CX-CIP2-U-ECA2=,
CX-CIP2-U-ECAP1=, CX-CIP2-U-PCA1=, CX-CIP2-U-PCA2=, CAB-PCA-Y=,
CAB-PCA-VA=, CAB-PCA-VB=
This document contains instructions for installing (or replacing) the second-generation Channel
Interface Processor (CIP2) in the Cisco 7000 series routers and the Cisco 7500 series routers.
Important Note to Users
The following Cisco Internetwork Operating System (Cisco IOS)
releases support the CIP2: Cisco IOS Release 10.2(13), or later, Release 10.3(13), or later,
Release 11.0(10), or later, or Release 11.1(5) or later.
Prior to these Cisco IOS releases being available, CIP2 is supported with a special microcode image.
This microcode image is available through download from Cisco Connection Online (CCO), on
diskettes shipped with the CIP2 when shipped separately from a system (as a spare), or is already in
Flash memory on a preconfigured system. For instructions on placing CIP2 microcode in Flash
memory, see the section "CIP2 Microcode" on page 37.
Once CIP2 microcode has been copied into Flash memory, a configuration command must be
specified to instruct the Cisco IOS to use this microcode image instead of the microcode image
bundled with your version of the Cisco IOS. For instructions on configuring the Cisco IOS to use a
CIP2 microcode image from Flash memory, refer to the section "Configuring Microcode" on
page 39.
For additional specific CIP2 software and hardware requirements, refer to the section "Software and
Hardware Prerequisites" on page 13. For complete and detailed descriptions of CIP2-related
interface and configuration commands, configuration options, and requirements, refer to the
publications listed in the section "If You Need More Information" on page 2.
1
Copyright © 1996
Cisco Systems, Inc.
All rights reserved.
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Table of Contents
Related Manuals for Cisco CX-CIP2-ECA2 Series
Summary of Contents for Cisco CX-CIP2-ECA2 Series
- Page 1 Cisco IOS to use this microcode image instead of the microcode image bundled with your version of the Cisco IOS. For instructions on configuring the Cisco IOS to use a CIP2 microcode image from Flash memory, refer to the section “Configuring Microcode” on page 39.
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Page 2: Document Contents
The effective use of many of many of these features is easier if you have more information at hand. For additional information on configuring and maintaining the Cisco 7000 series and Cisco 7500 series routers and CIP2, the following documentation resources are available to you: •... - Page 3 — Cisco IOS Software Command Summary — Cisco Management Information Base (MIB) User Quick Reference • For hardware installation and maintenance information on the Cisco 7000 series and Cisco 7500 series routers, refer to the following publications: — Cisco 7000 Hardware Installation and Maintenance —...
- Page 4 ESCON Channel Adapter (ECA). The PCA and ECA connect directly to the CIP2, and any combination of the two adapters can be used. The ECA and PCA adapters can be upgraded or replaced (in the field) by a Cisco-certified Note maintenance provider only.
- Page 5 Flash memory DRAM SIMMs Note The ECA and PCA adapters can be upgraded or replaced (in the field) by a Cisco-certified maintenance provider only. To prevent damage, and to prevent insertion problems caused by misalignment of the Caution adapters and motherboard, do not attempt to remove the adapters or motherboard from the carrier.
- Page 6 64-MB DRAM—MEM-CIP-64M(=) • 128-MB DRAM—MEM-CIP-128M(=) CIP2 DRAM can be upgraded in the field by Cisco-certified service personnel only. Note 1. 32 MB of DRAM is the default memory configuration for the CIP2. 6 Second-Generation Channel Interface Processor (CIP2) Installation and Configuration...
- Page 7 What Is the CIP2 CIP2 LED Indicators and Sequences Following are the functions of the CIP2 LEDs. (See Figure 3.) Figure 3 CIP2 LED Indicators • Enabled—Indicates that the CIP2 has been enabled for operation by the system. • Present—Indicates that the ECA or PCA adapter has been detected by the CIP2. •...
- Page 8 What Is the CIP2 On warm boots, the LEDs flash briefly. On downloads, the following three LED sequences apply; the first indicates that the system is downloading volatile programmable logic device (VPLD) code: Present Loaded Signal Online Port 1 Port 0 The following sequence indicates that the CIP2 is downloading microcode: Present Loaded...
- Page 9 The ECA interface uses 62.5/125 micrometer, multimode, fiber-optic cable with male duplex connectors at each end. (See Figure 4.) ESCON cables are not available from Cisco Systems. Refer to the ESCON specifications in Table 1, and contact your cable supplier or the vendor of your host CPU to order the correct ESCON cable.
- Page 10 What Is the CIP2 Bus and Tag Cables Following are descriptions and illustrations of the bus and tag cables. Y Cable The bus and tag cable with three 78-pin connectors (shown in Figure 5) has a DB-78 male (PCA) connector on the CIP2 end, a DB-78 female connector on the next-control-unit end, and a DB-78 male connector on the from-host end.
- Page 11 What Is the CIP2 Note the switch marked S (for select mode) and B (for bypass mode). The switch is located on the rear of the PCA connector. (See Figure 6.) The select/bypass switch is required to allow the cable to be separated from the PCA without “opening”...
- Page 12 The IBM part number is 12G8058; however, this is subject to change. The VA cable ships with a terminator; the Cisco model number CAB-PCA-VA includes this terminator. The terminator and VA cable together have the IBM part number 12G7988; however, this is subject to change.
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Page 13: Installation Prerequisites
Refer to Table 2, on page 14, for the specific Cisco IOS images. Note • The CIP2 operates with the CxBus in the Cisco 7000 series routers with either of the following processor types: — Route Processor (RP) and Switch Processor (SP) (or Silicon Switch Processor [SSP]) combination. - Page 14 (target hardware) version for each processor type. The CIP (and now CIP2) microcode is no longer bundled in Cisco IOS 11.1 and later, so the show microcode command lists the default microcode which should be used with this Cisco IOS version.
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Page 15: Safety Guidelines
Installation Prerequisites Safety Guidelines This section lists safety guidelines you should follow when working with any equipment that connects to electrical power or telephone wiring. Electrical Equipment Follow these basic guidelines when working with any electrical equipment: • Before beginning any procedures requiring access to the chassis interior, locate the emergency power-off switch for the room in which you are working. - Page 16 Installation Prerequisites • Handle processor modules by the carrier handles and carrier edges only; never touch the board or any connector pins. • When you remove a processor module, place it card side up on an antistatic surface or in a static shielding bag.
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Page 17: Tools And Parts Required
To ensure proper operation of the CIP2, and to preclude system problems, you should use Caution only the CIP2 microcode image that is recommended for the version of Cisco IOS you are running. By default, the CIP2 microcode is loaded from either the flash memory (if you have a 7000 and 7010 with a RP) or the Flash memory card in slot0. - Page 18 Installation Prerequisites Following is an example of the show microcode command output: Router# show microcode Microcode bundled in system Card Microcode Target Hardware Description Type Version Version ---- --------- --------------- ----------- 11.14 11.x SP version 11.14 11.14 12.x SSP version 11.14 10.1 EIP version 10.1 TRIP...
- Page 19 “Software and Hardware Prerequisites” on page 13. In the Cisco 7000, slot 5 is reserved for the RSP7000 (7000 RSP slot shown in Figure 8), which contains the system processor and performs packet switching functions; slot 6 is reserved for the RSP7000CI (7000 CI slot shown in Figure 8), which contains all of the environmental monitoring functions for the Cisco 7000.
- Page 20 What Is the Cisco 7000 Series? Figure 9 shows the interface processor end of the Cisco 7000, which provides access to the seven processor slots and the removable power supplies. When facing the interface processor end of the chassis, the SP (or SSP) and RP slots are on the far right. The five interface processor slots are numbered 0 to 4 from left to right and are reserved for interface processors, including the CIP2.
- Page 21 What Is the Cisco 7000 Series? In the Cisco 7010, slot 3 is reserved for the RSP7000 (7000 RSP slot shown in Figure 10), which contains the system processor and performs packet switching functions; slot 4 is reserved for the RSP7000CI (7000 CI slot shown in Figure 10), which contains all of the environmental monitoring functions for the Cisco 7010.
- Page 22 CyBus in the Cisco 7500 series. Figure 12, Figure 13, and Figure 14 show the rear of the Cisco 7500 series routers: the five-slot Cisco 7505, the seven-slot Cisco 7507, and the thirteen-slot Cisco 7513, respectively.
- Page 23 What Is the Cisco 7500 Series? Figure 13 shows the rear of the Cisco 7507 router. In the Cisco 7507, up to two slots (2 and 3) are reserved for the Route Switch Processor (RSP2), which contains the system processor and performs packet switching functions.
- Page 24 What Is the Cisco 7500 Series? Figure 14 shows the rear of the Cisco 7513. Two slots (6 and 7) are reserved for the second generation Route Switch Processor (RSP2), which contains the system processor and performs packet switching functions. Slots 0 through 5 and 8 through 12 are for interface processors, including the CIP2.
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Page 25: Installation
The following sections provide a functional overview of online insertion and removal (OIR), and describe the procedures for installing or replacing CxBus interface processors in Cisco 7000 series routers. Before installing any new interfaces, ensure that your system meets the minimum software and microcode requirements described in the sections “Software and Hardware Prerequisites,”... - Page 26 CIP2 in the same slot to retain the previous configuration for the new channel interface. Figure 15 shows proper handling of an interface processor for installation in the Cisco 7010 or Cisco 7505 models. The processor slots are oriented horizontally in the Cisco 7010 and Cisco 7505, and vertically in the Cisco 7000, Cisco 7507, and Cisco 7513.
- Page 27 Figure 16 shows the functions of the ejector levers in the correct orientation for the horizontal processor slots in a Cisco 7010 and Cisco 7505 chassis. In a Cisco 7000, Cisco 7507, and Cisco 7513 chassis, the function of the ejector levers is the same, but the orientation is rotated 90 degrees clockwise for the vertical processor slots.
- Page 28 Installation The function of the ejector levers (see Figure 16) is to align and seat the card connectors in the backplane. Failure to use the ejector levers and insert the interface processor properly can disrupt the order in which the pins make contact with the backplane. Following are examples of incorrect insertion practices and their results: •...
- Page 29 The CIP2 slides into any available interface processor slot and connects directly to the backplane of the Cisco 7000 series or Cisco 7500 series router. The backplane slots are keyed so that the CIP2 can be installed only in an interface processor slot. (Refer to Figure 8, Figure 10, Figure 12, Figure 13, or Figure 14, depending on your chassis type.) Figure 16 shows the functional details of inserting an...
- Page 30 Installation Use a screwdriver to tighten the two captive screws on the interface processor faceplate. Step 7 This prevents the interface processor from becoming partially dislodged from the backplane and ensures proper EMI shielding. (These screws must be tightened to meet EMI specifications.) Proceed to the next section to attach the bus and tag and/or ESCON cables between the CIP2 interface ports and your channel.
- Page 31 Installation Attach the PCA connector of the Y cable to the PCA. (See Figure 17.) Step 2 Figure 17 Connecting or Removing the Y Cable Single PCA PCA connector From host or mainframe (male, dark gray or black) To next control unit or terminator (female, light gray) Attach the female (light-gray) end of the Y cable (see Figure 18a) to the male (dark gray or...
- Page 32 If required, extend the length of the Y cable connections (between the VA and VB cables) Step 4 with a straight-through cable (shown in Figure 19) that is available from IBM. This cable is not available from Cisco Systems. Figure 19 Straight-Through Cable...
- Page 33 Installation This connection technique uses the Y cable and eliminates the requirement for the VA and VB cables from the host and to the next control unit, respectively. A straight-through cable can also be used from the Y cable to the next control unit; however, if no control unit exists, use a terminator.
- Page 34 Installation Remove the PCA cable connector (on the Y cable) from the PCA. (See Figure 17.) Step 3 When you are finished with the task that required you to detach the PCA from the host Step 4 channel, reattach the PCA connector (on the Y cable) to the PCA. Place the select/bypass switch on the PCA connector in select mode.
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Page 35: Checking The Installation
Checking the Installation Checking the Installation After you install the CIP2 and cables, verify the installation by observing the LED states and the console display. When the system has reinitialized all interfaces, the enabled LED on the CIP2 (and on all interface processors) should go on. The console screen will also display a message as the system discovers each interface during its reinitialization. - Page 36 Checking the Installation When the reinitialization is complete, verify that the enabled LED on the CIP2 goes on and Step 3 remains on. (See Figure 23.) If it does, proceed to Step 7. If it does not, proceed to the following step.
- Page 37 Starting with Cisco IOS Release 11.1, or later, CIP2 microcode images are shipped separately from the Cisco IOS software. For new Cisco 7000 series and Cisco 7500 series routers shipped with Cisco IOS Release 11.1, or later, the CIP2 microcode is shipped pre-installed on the Flash memory card.
- Page 38 CIP2 Microcode If you have a Cisco 7000 series router and plan to install new software ROMs with Cisco IOS Note Release 11.1 or later, skip Steps 4 and 5 and turn off power to your router. Install the new ROMs, then proceed to Step 6.
- Page 39 If you are running anything other than the default CIP2 microcode with your Cisco IOS image Note and you want to upgrade to a later version of Cisco IOS, and want to use the default CIP2 microcode that comes with that later version, you have to remove the microcode cip flash statement from the system configuration file, otherwise the Cisco IOS will try to load that old version of the CIP2...
- Page 40 flash [bootflash | slot0 | slot1 ]:filename configuration command to add the instructions to the configuration file. Follow these steps to configure the microcode for a CIP2 on a router configured with Cisco IOS Release 11.1(5) or later.
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Page 41: Using Flash Memory
file and [ bootflash | slot0 | slot1 ]:filename is the destination in onboard Flash memory or on either of the Flash memory cards. An example of the copy tftp:filename command for Cisco IOS Release 11.1 follows: Router# copy tftp:cip1234 slot0:cip1234 2283972 bytes available on device flash, proceed? [confirm] Address or name of remote host [hamachi.cisco.com]? - Page 42 Using Flash Memory Flash verification successful. Length = 238626, checksum = 0x0000 --- expanding multi-segment file --- flash:cip1234_seg_802 size = 198600 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!Verifying via checksum... vvvvvvvvvvvv Flash verification successful. Length = 198600, checksum = 0x9237 --- expanding multi-segment file --- flash:cip1234_seg_csna size = 102392 !!!!!!!!!!!!!!!!!!!!Verifying via checksum...
- Page 43 Using Flash Memory Additional Flash Memory Commands Following are additional commands related to the Flash memory in the single in-line memory module (SIMM) on the RSP1, RSP2 and RSP7000 (called bootflash) and in PCMCIA Flash memory cards. (The following example assumes you are currently accessing the Flash memory card in PCMCIA slot 0.) You can determine which PCMCIA slot you are accessing using the pwd command as follows: Router# pwd...
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Page 44: Running Diagnostic Tests
Running Diagnostic Tests In the preceding command display output, the character “e” means this special location has been erased (which must be performed before any write operation). The character “b” means that the data that is about to be written to this special location has been temporarily copied. The character “E” signifies that the sector which was temporarily occupied by the data has been erased. - Page 45 Markus Hoerler and Tim Masterson need to review this for new ESCON diagnostics. URL to this doc: http://wwwin-itg/ccden2/data/doc/hardware/fusion/7000/cfig_nts/3335cip2.htm Also several new Cisco IOS releases will be required to support the new ESCON adapter. Also, new CIP2 uCode release will be required for new ESCON adapter.
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Page 46: Cisco Connection Online
Secure/IP, SMARTnet, StreamView, SwitchProbe, SwitchVision, SwitchWare, SynchroniCD, The Cell, TokenSwitch, TrafficDirector, Virtual EtherSwitch, VirtualStream, VlanDirector, Web Clusters, WNIC, Workgroup Director, Workgroup Stack, and XCI are trademarks; Access by Cisco, Bringing the Power of Internetworking to Everyone, Enter the Net with MultiNet, and The Network Works.