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Cisco ASR 1000 Series Router Hardware Installation Guide
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Preface
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Cisco ASR 1000 Series Routers Hardware Overview
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Cisco ASR 1000 Series Routers Component Overview
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Cisco ASR 1000 Series Routers Embedded Services Processors
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Cisco ASR 1000 Series Router SPA Interface Processors (SIPs)
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Preparing Your Site for Installation
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Cisco ASR 1006 Router Overview and Installation
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Cisco ASR 1004 Router Overview and Installation
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Cisco ASR 1002 Router Overview and Installation
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Cisco ASR 1002-F Router Overview and Installation
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Cisco ASR 1002-X Router Overview and Installation
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Cisco ASR 1013 Router Overview and Installation
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Cisco ASR 1001 Router Overview and Installation
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Cisco ASR 1000 Series Routers Power Up and Initial Configuration
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Removing and Replacing FRUs from the Cisco ASR 1000 Series Routers
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Cisco ASR 1000 Series Routers Specifications
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Cisco ASR 1000 Series Router RP Signals and Pinouts
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Troubleshooting Initial Startup Problems
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MIBs for the Cisco ASR 1001 Router
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Glossary
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Feedback
Table Of Contents
Cisco ASR 1000 Series Routers Hardware Overview
Cisco ASR 1000 Series Router Features
Cisco ASR 1000 Series Routers Compatibility Information
Cisco ASR 1000 Series Router Configurations
Chassis Slot and Logical Interface Numbering
Environmental Monitoring and Reporting Functions
Cisco Product Identification Standard
Cisco ASR 1000 Series Routers Hardware Overview
The Cisco ASR 1000 Series Aggregation Services Routers are the next generation midrange router products. The system is based on Cisco QuantumFlow Processor technology using a family of Cisco-developed processors.
The Cisco ASR 1000 Series Routers target both enterprise and service provider applications but with higher performance and improved availability. Applications covered by Cisco ASR 1000 Series Routers are:
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Enterprise applications—Intended as the mid-size aggregation and gateway router typically residing in a regional or large branch office:
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This chapter provides an overview of the Cisco ASR 1000 Series Routers and contains the following sections:
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Cisco ASR 1000 Series Routers
The Cisco ASR 1000 Series Aggregation Services Routers are the next generation Cisco midrange router products. The Cisco ASR 1000 Series Aggregation Services Routers use an innovative and powerful hardware processor technology known as the Cisco QuantumFlow Processor. The following are the Cisco ASR 1000 Series Routers:
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For the single-route-processor Cisco ASR 1000 platforms (Cisco ASR 1002, Cisco ASR 1002-F, Cisco ASR 1002-X and Cisco ASR 1004), the route processor has a dual Cisco IOS Software option that allows these routers to use Cisco IOS software redundancy, Cisco high-availability features, and Nonstop Forwarding (NSF). Single-route-processor Cisco ASR 1000 platforms do not support ISSU upgrade or downgrade. Instead sub-package software upgrade is supported only if the router is running in sub-package mode.
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The Cisco ASR 1000 Series Routers run Cisco IOS XE Software and introduce a distributed software architecture that moves many operating system responsibilities out of the IOS process. In this architecture, Cisco IOS, which previously was responsible for almost all of the internal software processes, now runs as one of many Cisco IOS XE processes while allowing other Cisco IOS XE processes to share responsibility for running the router.
The Cisco ASR 1000 Series Routers use the powerful Cisco QuantumFlow Processor which provides performance and resiliency for network processors.
The Cisco ASR 1000 Series Routers deliver multiple services embedded in the Cisco QuantumFlow Processor. The services supported on the Cisco Packet QuantumFlow Processor include security services (for example, encryption and firewall), quality of service (QoS), Network Based Application Recognition (NBAR), broadband aggregation, and session border controller, among others.
Cisco ASR 1000 Series Router Features
The Cisco ASR 1000 Series Aggregation Services routers use different field replaceable units:
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Cisco ASR 1000 Series Routers provide the following features:
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The Cisco QuantumFlow Processor processing provides:
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The Cisco ASR 1000 Series route processor system performs the following system management functions:
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Cisco ASR 1000 Series Routers Compatibility Information
Table 1-1 lists the Cisco ASR 1000 Series Routers configurations. It shows the combination of chassis, Cisco ASR1000-ESP, and Cisco ASR1000-SIP supported on the Cisco ASR 1000 Series Routers.
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Hardware Compatibility
Table 1-2 lists the Cisco ASR 1000 Series Routers that support and are compatible with Cisco hardware products.
The following is the outcome of upgrades performed using incompatible combinations of hardware components:
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The Cisco ASR 1013 Router supports only the following components:
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Existing Cisco ASR1000-RP2 and Cisco ASR1000-SIP10 cannot be used as is in the Cisco ASR 1013 Router. These two components must be upgraded to support Cisco IOS XE Release 3.1S on the Cisco ASR 1013 Router.
Cisco ASR 1000 Series Router Configurations
The Cisco ASR 1000 Series Routers are available in different packaging configurations. Some of the chassis configurations are modular with separate field-replaceable units (FRUs) for the Cisco ASR 1000 Series Route Processors, the Cisco ASR 1000 Series Embedded Services Processors, and the shared port adapters.
All FRUs (Cisco ASR 1000 Series Route Processor 1, Cisco ASR 1000 Series Embedded Services Processor, and SPAs) are designed to work in the different chassis models. The power supplies and fan modules are chassis specific. The SPAs are supported in all chassis configurations although there are SPA restrictions in the Cisco ASR 1002 Router and the Cisco ASR 1002-F Router.
Table 1-3 lists the Cisco ASR 1000 Series Router configurations. In this table, HH is half height and FH is full height.
Field-Replaceable Units
The Cisco ASR 1000 Series routers are easy to service; many of their major components are field-replaceable units (FRUs). The following are the Cisco ASR 1000 Series Router FRUs:
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Functional Overview
This section contains the following topics:
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Chassis Slot and Logical Interface Numbering
The Cisco ASR 1000 Series Routers have a slot numbering system located on both sides of the card module location. The chassis slots are physically numbered from zero starting at the bottom of the chassis. This section describes the slot numbering for the Cisco ASR 1000 Series Routers:
Cisco ASR 1000 Series SPA Interface Processor (SIP) subslots begin their numbering with "0" and have a horizontal orientation. The SIP subslot numbering is indicated by a small numeric label beside the subslot on the faceplate. Some commands allow you to display information about the SPA itself, such as show idprom module and show hw-module subslot. These commands require you to specify both the physical location of the SIP and SPA in the format, Slot/Subslot, where:
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MAC Address Information
The Media Access Control (MAC) or hardware address is a standardized data link layer address that is required for certain network interface types. These addresses are specific and unique to each port and are not used by other devices in the network. The Cisco ASR 1000 Series Routers assign and control the MAC addresses of its shared port adapters.
You can identify shared port adapter slots by using software commands. To display information about:
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The MAC addresses are assigned to the slots in sequence. For example, in the Cisco ASR 1006 Router, the first address is assigned to slot 0 and the last address is assigned to slot 6. The actual MAC address assignment is 16 MAC addresses per SPA slot for half-height SPAs and 64 per SPA slot for full-height SPAs. Also, the Cisco ASR 1000 Series RP1 RP Management Ethernet port is assigned one MAC address from the end of the pool and for the Cisco ASR 1006 Router with two Cisco ASR 1000 RP1s, each ASR10000 RP1 is assigned one MAC address.
Using this address scheme, you can remove shared port adapters and insert them into other routers without causing the MAC addresses to move around the network or be assigned to multiple devices.
If the MAC addresses were stored on each shared port adapter, online insertion and removal would not function because you could never replace one shared port adapter with an identical one; the MAC addresses would always be different. Also, each time a shared port adapter was replaced, other devices on the network would have to update their data structures with the new address. If the other devices did not update quickly enough, the same MAC address could appear in more than one device at the same time.
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Online Insertion and Removal
In the modular chassis configurations, most Cisco ASR 1000 Series Router field-replaceable units (FRUs) support online insertion and removal (OIR). However, the removal of critical non-redundant FRUs will result in service interruption.
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Online insertion and removal (OIR) feature allows you to install and replace shared port adapters while the router is operating; you do not need to notify the software or shut down the system power, although you should not run traffic through the shared port adapter you are removing while it is being removed. Online insertion and removal is a method that is seamless to end users on the network, maintains all routing information, and preserves sessions.
All SPA OIR events are independent of one another. An OIR event of a single SPA does not affect the other SPAs in that ASR1000-SIP10 or any other system function.
The following items describe the OIR differences between the Cisco ASR 1002 Router, the Cisco ASR 1002-F Router, and the Cisco ASR 1002-X Router:
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The following is a functional description of OIR for background information only; for specific procedures for installing and replacing a shared port adapter in Cisco ASR 1000 Series Routers, refer to the online configuration note for each shared port adapter.
When you remove or insert a shared port adapter in a Cisco ASR 1000 Series Router, the Control Processor notifies the Cisco ASR1000-RP1, which in turn notifies the forwarding engine control processor (FECP), and then performs the following steps:
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Environmental Monitoring and Reporting Functions
Environmental monitoring and reporting functions allow you to maintain normal system operation by identifying and resolving adverse conditions prior to loss of operation.
Caution
Environmental Monitoring
The environmental monitoring functions use sensors to monitor the temperature of the cooling air as it moves through the chassis.
The local power supplies provide the ability to monitor:
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The Cisco ASR 1000 Series Routers are expected to meet the following environmental operating conditions:
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If the air temperature exceeds a defined threshold, the system controller displays warning messages on the console terminal, and if the temperature exceeds the shutdown threshold, the system controller shuts down the system.
In addition, the power supplies monitor internal power supply temperatures and voltages. A power supply is either within tolerance (normal) or out of tolerance (critical). If an internal power supply temperature or voltage reaches a critical level, the power supply shuts down without any interaction with the system processor.
The environmental monitoring functions use the following levels of status conditions to monitor the system:
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Fan Failures
When the system power is on, all fans should be operational. The system continues to operate if a fan fails. When a fan fails, the system displays the following message:
router: 00:03:46:%ENVM-3-BLOWER:Fan 2 may have failedIf the air temperature exceeds a defined threshold, the system controller displays warning messages on the console terminal, and if the temperature exceeds the shutdown threshold, the system controller shuts down the system.
If the system does shut down because the temperature exceeded the shutdown threshold, the system displays the following message on the console screen and in the environment display when the system restarts:
Queued messages:%ENVM-1-SHUTDOWN: Environmental Monitor initiated shutdownReporting Functions
The chassis manager on the forwarding engine control processor manages the local resources of the forwarding processor. It manages the ESI (Enhanced Serdes Interconnect) which are the datapath links on the midplane connecting the Cisco ASR 1000 Series RP1s, SIPs, and standby ESP modules to the active Cisco ASR 1000 Series Embedded Services Processor. It communicates with the chassis manager on the Cisco ASR 1000 Series Route Processor 1 to report the status and health, including detected hardware failures, ESI status, software process status, and the state of thermal sensors.
The Cisco ASR 1000 Series Routers display warning messages on the console if the chassis interface-monitored parameters exceed a threshold. You can also retrieve and display environmental status reports with the following commands:
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Parameters are measured and reporting functions are updated every 60 seconds. A brief description of each of these commands follows.
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Example 1-1 show environment all Command
Router# show environment allSensor List: Environmental MonitoringSensor Location State ReadingV1: VMA F0 Normal 1791 mVV1: VMB F0 Normal 1196 mVV1: VMC F0 Normal 1191 mVV1: VMD F0 Normal 1093 mVV1: VME F0 Normal 996 mVV1: 12v F0 Normal 11894 mVV1: VDD F0 Normal 3261 mVV1: GP1 F0 Normal 900 mVV2: VMA F0 Normal 3286 mVV2: VMB F0 Normal 2495 mVV2: VMC F0 10% high 1796 mVV2: VMD F0 Normal 1093 mVV2: VME F0 Normal 996 mVV2: VMF F0 Normal 996 mVV2: 12v F0 Normal 11850 mVV2: VDD F0 Normal 3261 mVV2: GP1 F0 10% high 898 mVTemp: Inlet F0 Normal 29 CelsiusTemp: Asic1 F0 Normal 47 CelsiusTemp: Exhaust1 F0 Normal 36 CelsiusTemp: Exhaust2 F0 Normal 36 CelsiusTemp: Asic2 F0 Normal 43 CelsiusV1: VMA 0 Normal 1093 mVV1: VMB 0 Normal 1196 mVV1: VMC 0 Normal 1494 mVV1: VMD 0 Normal 1791 mVV1: VME 0 Normal 2490 mVV1: VMF 0 Normal 3291 mVV1: 12v 0 Normal 11894 mVV1: VDD 0 Normal 3266 mVV1: GP1 0 Normal 747 mVV1: GP2 0 Normal 898 mVV2: VMA 0 20% low 0 mVV2: VMB 0 Normal 1201 mVV2: VMC 0 20% low 0 mVV2: VMD 0 20% low 0 mVV2: VME 0 20% low 0 mVV2: VMF 0 20% low 0 mVV2: 12v 0 Normal 11909 mVV2: VDD 0 Normal 3271 mVV2: GP2 0 Normal 903 mVTemp: Left 0 Normal 25 CelsiusTemp: Center 0 Normal 26 CelsiusTemp: Asic1 0 Normal 36 CelsiusTemp: Right 0 Normal 23 CelsiusPEM Iout P0 Normal 17 APEM Vout P0 Normal 12 V ACPEM Vin P0 Normal 115 V ACTemp: PEM P0 Normal 27 CelsiusTemp: FC P0 Fan Speed 65% 26 CelsiusTemp: FM P1 Normal 24 CelsiusTemp: FC P1 Fan Speed 65% 26 CelsiusV1: VMA R0 Normal 1098 mVV1: VMB R0 Normal 3295 mVV1: VMC R0 Normal 2495 mVV1: VMD R0 Normal 1791 mVV1: VME R0 Normal 1499 mVV1: VMF R0 Normal 1201 mVV1: 12v R0 Normal 11938 mVV1: VDD R0 Normal 3261 mVV1: GP1 R0 Normal 903 mVV1: GP2 R0 Normal 1242 mVTemp: CPU R0 Normal 33 CelsiusTemp: Outlet R0 Normal 32 CelsiusTemp: Inlet R0 Normal 26 CelsiusTemp: Asic1 R0 Normal 32 CelsiusExample 1-2 show version Command
The show version command displays the system hardware configuration, software version, and names and sources of configuration files and boot images.
The following is sample output of the show version command:
Router# show versionCisco IOS Software, IOS-XE Software (PPC_LINUX_IOSD-ADVENTERPRISEK9-M), Version 12.2(33)XNA, RELEASE SOFTWARETechnical Support: http://www.cisco.com/techsupportCopyright (c) 1986-2008 by Cisco Systems, Inc.Compiled Thu 01-May-08 00:29 by mcpreCisco IOS-XE software, Copyright (c) 1986-2008 by Cisco Systems, Inc.All rights reserved. Certain components of Cisco IOS-XE software arelicensed under the GNU General Public License ("GPL") Version 2.0. Thesoftware code licensed under GPL Version 2.0 is free software that comeswith ABSOLUTELY NO WARRANTY. You can redistribute and/or modify suchGPL code under the terms of GPL Version 2.0. For more details, see thedocumentation or "License Notice" file accompanying the IOS-XE software,or the applicable URL provided on the flyer accompanying the IOS-XEsoftware.A summary of U.S. laws governing Cisco cryptographic products may be found at:http://www.cisco.com/wwl/export/crypto/tool/stqrg.htmlIf you require further assistance please contact us by sending email toexport@cisco.com.cisco ASR1004 (RP1) processor with 757182K/6147K bytes of memory.2 Packet over SONET interfaces32768K bytes of non-volatile configuration memory.2097152K bytes of physical memory.439807K bytes of eUSB flash at bootflash:.39004543K bytes of SATA hard disk at harddisk:.Configuration register is 0x0Example 1-3 show inventory Command
The show inventory command displays an extended report that includes the product inventory listing of all Cisco products installed in the networking device.
The following is sample output of the show inventory command:
Router# show inventoryNAME: "Chassis", DESCR: "Cisco ASR1004 Chassis"PID: ASR1004 , VID: V00, SN:NAME: "module 0", DESCR: "Cisco ASR1000 SPA Interface Processor 10"PID: MCP-CC , VID: V00, SN: JAB1104064GNAME: "SPA subslot 0/1", DESCR: "2-port OC3/STM1 POS Shared Port Adapter"PID: SPA-2XOC3-POS , VID: V01, SN: JAB1006095ZNAME: "subslot 0/1 transceiver 0", DESCR: "OC3 SR-1/STM1 MM"PID: N/A , VID: , SN: 2008692NAME: "SPA subslot 0/2", DESCR: "4-port T3/E3 Serial Shared Port Adapter"PID: SPA-4XT3/E3 , VID: V01, SN: JAB09210247NAME: "module R0", DESCR: "Cisco ASR1000 Route Processor 1"PID: ASR1000-RP1 , VID: V00, SN: JAB110200CQNAME: "module F0", DESCR: "Cisco ASR1000 Embedded Services Processor, 10Gbps"PID: ASR1000-ESP10 , VID: V00, SN: JAB111101A1NAME: "Power Supply Module 0", DESCR: "Cisco ASR1004 AC Power Supply"PID: ASR1004-PWR-AC , VID: V00, SN: ART1103K00CNAME: "Fan Module 1", DESCR: "Cisco ASR1004 Fan Module"PID: ASR1004-FAN , VID: V00, SN: ART1052L01UExample 1-4 show platform Command
The show platform command displays the output of the current wait policy for each type of connection, as well as any information on the currently configured banners.
The following is sample output of the show platform command:
Router# show platformChassis type: ASR1004Slot Type State Insert time (ago)--------- ------------------- --------------------- -----------------0 MCP-CC ok 16:20:270/1 SPA-2XOC3-POS ok 16:18:490/2 SPA-4XT3/E3 ok 16:18:56R0 ASR1000-RP1 ok, active 16:20:27F0 ASR1000-ESP10 ok, active 16:20:27P0 ASR1004-PWR-AC ok 16:19:27P1 ASR1004-FAN ok 16:19:27Slot CPLD Version Firmware Version--------- ------------------- ---------------------------------------0 07091401 12.2(33r)XN1R0 0706210B 12.2(33r)XN1F0 07051650 12.2(33r)XN1Example 1-5 show platform software status control-processor Command
The show platform software status control-processor command displays the average load, memory usage, and CPU utilization levels at which the router is running. The output also specifies whether the levels of these system health parameters are within defined thresholds.
The following is sample output of the show platform software status control-processor command:
Router# show platform software status control-processorRP0: online, statistics updated 4 seconds agoLoad Average: healthy1-Min: 0.00, status: healthy, under 5.005-Min: 0.00, status: healthy, under 5.0015-Min: 0.00, status: healthy, under 5.00Memory (kb): healthyTotal: 8133932Used: 1754156 (21%), status: healthy, under 90%Free: 6379776 (78%), status: healthy, over 10%Committed: 5059032 (62%), status: healthy, under 90%Per-core StatisticsCPU0: CPU Utilization (percentage of time spent)User: 0.09, System: 0.00, Nice: 0.00, Idle: 99.80IRQ: 0.09, SIRQ: 0.00, IOwait: 0.00CPU1: CPU Utilization (percentage of time spent)User: 0.00, System: 0.00, Nice: 0.00, Idle:100.00IRQ: 0.00, SIRQ: 0.00, IOwait: 0.00ESP0: online, statistics updated 8 seconds agoLoad Average: healthy1-Min: 0.02, status: healthy, under 5.005-Min: 0.02, status: healthy, under 5.0015-Min: 0.00, status: healthy, under 5.00Memory (kb): healthyTotal: 3895500Used: 547868 (13%), status: healthy, under 90%Free: 3347632 (81%), status: healthy, over 10%Committed: 2509772 (60%), status: healthy, under 300%Per-core StatisticsCPU0: CPU Utilization (percentage of time spent)User: 1.20, System: 2.10, Nice: 0.00, Idle: 96.70IRQ: 0.00, SIRQ: 0.00, IOwait: 0.00SIP0: online, statistics updated 7 seconds agoLoad Average: healthy1-Min: 0.01, status: healthy, under 5.005-Min: 0.02, status: healthy, under 5.0015-Min: 0.00, status: healthy, under 5.00Memory (kb): healthyTotal: 483592Used: 366728 (69%), status: healthy, under 90%Free: 116864 (22%), status: healthy, over 10%Committed: 365968 (69%), status: healthy, under 90%Per-core StatisticsCPU0: CPU Utilization (percentage of time spent)User: 0.40, System: 0.50, Nice: 0.00, Idle: 99.10IRQ: 0.00, SIRQ: 0.00, IOwait: 0.00SIP1: online, statistics updated 6 seconds agoLoad Average: healthy1-Min: 0.00, status: healthy, under 5.005-Min: 0.01, status: healthy, under 5.0015-Min: 0.00, status: healthy, under 5.00Memory (kb): healthyTotal: 483592Used: 351388 (67%), status: healthy, under 90%Free: 132204 (25%), status: healthy, over 10%Committed: 365840 (69%), status: healthy, under 90%Per-core StatisticsCPU0: CPU Utilization (percentage of time spent)User: 1.80, System: 2.50, Nice: 0.00, Idle: 95.59IRQ: 0.00, SIRQ: 0.10, IOwait: 0.00Example 1-6 show diag Command
The show diag slot R0 eeprom detail command displays the configuration hardware information including DRAM and Static RAM (SRAM) on line cards. To display more details than the normal show diag command output, use show diag [slot-number] [details].
The following is sample output of the show diag slot R0 eeprom detail command:
Router# show diag slot R0 eeprom detailSlot R0 EEPROM data:EEPROM version : 4Compatible Type : 0xFFController Type : 1460Hardware Revision : 4.7PCB Part Number : 73-10253-04Board Revision : 03Deviation Number : 0-0Fab Version : 04PCB Serial Number : JAB110200CQRMA Test History : 00RMA Number : 0-0-0-0RMA History : 00Top Assy. Part Number : 68-2625-04Product Identifier (PID) : ASR1000-RP1CLEI Code : UNASSIGNEDVersion Identifier (VID) : V00Manufacturing Test Data : 00 00 00 00 00 00 00 00Field Diagnostics Data : 00 00 00 00 00 00 00 00Asset ID : AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAACisco Product Identification Standard
This section describes the Cisco products and services product identification standard. This feature provides you with the ability to effectively integrate and manage Cisco products in your network and business operations.
Unique Device Identifier
The Unique Device Identifier (UDI) is the Cisco product identification standard for hardware products. A product identification standard removes barriers to enterprise automation and can help you reduce operating expenses.
The UDI provides a consistent electronic, physical, and associated business-to-business information product identification standard.
The UDI is a combination of five data elements. Table 1-4 lists the UDI elements.
Table 1-4 Cisco UDI Elements
PID
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Product ID, also known as product name, model name, product number
VID
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Version ID
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Serial number, the unique instance of the PID (see Figure 1-1, Figure 1-2, Figure 1-3, Figure 1-4, Figure 1-5, and Figure 1-6 in the next section for location of the serial number label)
Entity Name
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Type, such as chassis, slot, or power supply
Product Description
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Additional product information
The combination of serial number and product ID (PID) is unique and consistent across all Cisco products. The PID that is coded on hardware is called a base product identifier.
Additional orderable PIDs may be associated to a base PID. For instance, an orderable PID may describe a packaging configuration for a product or a bundled group of products sold, tested, and shipped together. Specific unique device identifier (UDI) benefits include the following:
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The Cisco product identification standard provides the following features:
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http://www.cisco.com/go/udi/
Serial Number Label Location
This section contains graphics of each chassis showing the location of the serial number label:
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Figure 1-1 shows the serial number location for the Cisco ASR 1006 Router.
Figure 1-1 Cisco ASR 1006 Router Serial Number Label Location
Figure 1-2 shows the serial number label location for the Cisco ASR 1004 Router.
Figure 1-2 Cisco ASR 1004 Router Serial Number Label Location
Figure 1-3 shows the serial number label location for the Cisco ASR 1002 Router.
Figure 1-3 Cisco ASR 1002 Router Serial Number Label Location
Figure 1-4 shows the serial number label location for the Cisco ASR 1002-F Router.
Figure 1-4 Cisco ASR 1002-F Router Serial Number Label Location
Figure 1-5 shows the serial number label location for the Cisco ASR 1013 Router (Note that this is the bottom of the chassis).
Figure 1-5 Cisco ASR 1013 Router Serial Number Label Location
Figure 1-6 shows the serial number label location for the Cisco ASR 1001 Router.
Figure 1-6 Cisco ASR 1001 Router Serial Number Label Location
Figure 1-7 shows the serial number label location for the Cisco ASR 1002-X Router.
Figure 1-7 Cisco ASR 1002-X Router Serial Number Label Location
