1. Cartridge Guide
  2. Base Cartridge Reference

5 Base Cartridge Reference

This chapter provides reference information about the Oracle Communications Unified Inventory Management (UIM) base cartridges. Base cartridges provide fundamental data that is referenced by other cartridges and cartridge packs.

The chapter is organized by cartridge, with each section documenting the contents of a cartridge or group of cartridges.

Base Specifications Cartridge

The Base Specifications cartridge (ora_uim_basespecifications) includes a variety of specifications designed for particular purposes.

Business Interaction Specifications

Table 5-1 lists and describes the Business Interaction specifications included in the Base Specifications cartridge.

Table 5-1 Business Interaction Specifications

Specification Description

Service Order

Defines the inventory actions that are required to fulfill a service order. This specification contains only default data elements.

Connectivity Specifications

Table 5-2 lists and describes the Connectivity specifications included in the Base Specifications cartridge.

In releases prior to UIM 7.3, you could not create multiple different Connectivity specifications. Instead, there was a single specification provided in the cartridge. All entities created in UIM were based on that specification and you could modify it only by adding entity level characteristics.

For backward compatibility, that specification still exists but has been renamed from TDM Facility to Channelized Facility.

Table 5-2 Connectivity Specifications

Specification Description

Channelized Facility

Represents a channelized transport that is a carrier of other connectivities. A Channelized Facility provides channels, that can be assigned to the connectivities (riders) that the transport carries.

Custom Involvement Specifications

Table 5-3 lists and describes the Custom Involvement specifications included in the Base Specifications cartridge.

Table 5-3 Custom Involvement Specifications

Specification Description

Manages (Oracle Provided)

Represents an association in which one resource manages another.

Preconfigure

Represents an association created in advance among entities. Preconfigured resources share the same life cycle: when one of the resources is reserved or assigned, the other is automatically reserved or assigned with it. For example, in a DSL scenario with telephone service, you can an involvement to preconfigure a telephone number, switch port, and cable pair.

Inventory Group Type Specifications

Table 5-4 lists and describes the Inventory Group Type specifications included in the Base Specifications cartridge.

Table 5-4 Inventory Group Type Specifications

Specification Description

Flow Identifier Resource Pool

When associated with an Inventory Group specification, defines the inventory group as a resource pool for flow identifiers such as VLAN IDs, VPLS IDs, and so on.

IP Address Resource Pool

When associated with an Inventory Group specification, defines the inventory groups as a resource pool for IP addresses.

IP Resource Specifications

Table 5-5 lists and describes the IP Resource specifications included in the Base Specifications cartridge.

Table 5-5 IP Resource Specifications

Specification Description

IPv4 Address Base

Represents an IPv4 address resource that can be assigned to a service configuration item.

IPv4 Network Base

Represents an IPv4 network, which is the foundation of IP address management. An IPv4 network contains one or more IPv4 subnets, each of which contains IPv4 addresses or ranges of IPv4 addresses.

IPv4 Subnet Base

Represents an IPv4 subnet, which is used in IP address management. An IPv4 subnet is part of an IPv4 network. An IPv4 subnet can be partitioned into smaller, more manageable subnets, each of which contains IPv4 addresses or ranges of IPv4 addresses.

IPv6 Address Base

Represents an IPv6 address resource that can be assigned to a service configuration item.

IPv6 Network Base

Represents an IPv6 network, which is the foundation of IP address management. An IPv6 network contains one or more IPv4 subnets, each of which contains IPv6 addresses or ranges of IPv6 addresses.

IPv6 Subnet Base

Represents an IPv6 subnet, which is used in IP address management. An IPv6 subnet is part of an IPv6 network. An IPv6 subnet can be partitioned into smaller, more manageable subnets, each of which contains IPv6 addresses or ranges of IPv6 addresses.

Managed Project Specifications

Table 5-6 lists and describes the Managed Project specification included in the Base Specifications cartridge.

Table 5-6 Managed Project Specifications

Specification Description

Base Project

Defines the entity used to create Project entities in UIM.

Network Specifications

Table 5-7 lists and describes the Managed Project specification included in the Base Specifications cartridge.

Table 5-7 Network Specifications

Specification Description

SONET Network (Oracle Provided)

Defines a network based on the SONET technology.

SONET networks created in versions earlier than UIM 7.3 are automatically assigned to this specification during the upgrade process.

SDH Network (Oracle Provided)

Defines a network based on the SDH technology.

SDH networks created in versions earlier than UIM 7.3 are automatically assigned to this specification during the upgrade process.

Property Location Specifications

Table 5-8 lists and describes the Property Location specifications included in the Base Specifications cartridge. Unlike most other specifications, you cannot create multiple different Property Location specifications. Instead, you use entity-level characteristics to modify the single specification provided in the cartridge. All entities created in UIM based on that specification share those characteristics. See SCD Design Studio Modeling Inventory for more information about entity-level characteristics.

Table 5-8 Property Locations Specifications

Specification Description

Property Location

Represents a piece of land with defined legal boundaries. Property location is the lowest-level element in the natural hierarchy that identifies a location (country, state/province, municipality, property location). Property location is used in defining network locations for channelized connectivity.

Base Measurement Entities

This section contains information about the entities included in the Base Measurements cartridge (ora_uim_basemeasurements). The Base Measurements cartridge provides measurement types, units of measure, and capacity types to support the definition of signal structures and pipe capacity in UIM.

For example, the Base Measurements cartridge provides a Bit Rate measurement type; a set of related units of measure including bps, Kbps, Mbps, and Gbps; and a Bandwidth capacity type. See UIM Concepts for more information about measurement entities.

Bandwidth is the only type of capacity that can be used by default. You can use extension points and rulesets to extend the application to handle requirements that are specific to another type of entity or technology. For more information on extension points and rulesets, see UIM Developer's Guide.

Capacity Types

Table 5-9 lists and describes the capacity types included in the Base Measurements cartridge.

Table 5-9 Capacity Types

Specification Description

Bandwidth

Identifies the capacity type used to measure the capacity of pipes. Bandwidth is measured by bit rate. Entities such as pipes provide and consume bandwidth at a bit rate that you specify. For example, a T3 pipe can provide 43 Mbps, for example, and a T1 pipe can consume 1.544 Mbps of that capacity.

Measurement Types

Table 5-10 lists and describes the measurement types included in the Base Measurements cartridge.

Table 5-10 Measurement Types

Specification Description

Bit Rate

Identifies the unit of measure for the Bandwidth capacity type

Units of Measure

Table 5-11 lists and describes the units of measure included in the Base Measurements cartridge.

Table 5-11 Units of Measure Specifications

Specification Description

Bits Per Second

Denotes the number of bits of data that can be transferred over a communications channel in one second

Gigabits Per Second

Denotes the number of gigabits of data that can be transferred over a communications channel in one second

Kilobits Per Second

Denotes the number of kilobits of data that can be transferred over a communications channel in one second

Megabits Per Second

Denotes the number of megabits of data that can be transferred over a communications channel in one second

Phone Management Specifications and Rulesets

This section contains information about the characteristics and rulesets included in the Base Phone Management cartridge. The Base Phone Management cartridge provides characteristics and rulesets that help distinguish telephone numbers based on type. The cartridge also enables UIM to manage the assignment state of telephone numbers, including ported telephone numbers. This ability enables UIM to support telephone number portability features.

Characteristics

The Base Phone Management cartridge provides characteristics, including a telephone number type characteristic that provides values to identify the following types of telephone numbers:

  • Owned: Telephone numbers owned by a service provider

  • Ported in: Telephone numbers owned by a different service provider but used by a customer after subscribing to the current service provider

  • Ported out: Telephone numbers owned by the original service provider but used by a customer after subscribing to a different service provider

  • Toll free: Telephone numbers for which the service provider, instead of the customer, pays for the usage charges

In addition to the characteristics, this cartridge includes rulesets that manage the state transitions of telephone numbers based on the telephone number type characteristic.

Table 5-12 lists and describes the characteristics included in the Base Phone Management cartridge.

Table 5-12 Characteristics

Specification Description

Block Availability

Indicates whether a particular telephone number block is available for assignment

Block AvailabilityDate

Identifies the date after which a particular telephone number block will be available for assignment

Block Indicator

Identifies a telephone number block

Responsible Provider

Identifies the primary provider responsible for providing the telephone service

TN Country Code

Identifies the originating country of a mobile telephone number

TN Type

Indicates the type of telephone number: toll free, owned, ported in, or ported out

Winback

Identifies that a mobile telephone number has been provisioned as a Winback

Rulesets

Table 5-13 lists the rulesets and extension points included in the Base Phone Management cartridge.

Table 5-13 Rulesets in the Base Phone Management Cartridge

Rulesets Functionality

SNAPBACK_TRANSITION

Manages the transition of a telephone number in Ported state to the Unassigned state.

A telephone number is assigned the Ported Out state when the customer carries the number along to another service provider. However, it is still owned by the original service provider even though it is made unavailable for assignments within the system. When the customer relinquishes the number, this ruleset transitions the number from the Ported Out state to the Unassigned state and makes it available for reassignment within UIM.

Telephone Number Specifications and Rulesets

The Telephone Number Management cartridges model generic telephone number management services, including country-specific telephone number formatting and telephone number blocks. These services can be used in any telephony domain.

There are five separate cartridges for different countries, which you can use in any combination:

  • ora_uim_us_tn

  • ora_uim_canada_tn

  • ora_uim_norway_tn

  • ora_uim_uk_tn

  • ora_uim_saudi_arabia_tn

Entity Specifications

The base telephone number cartridges provide telephone number specifications that model services used for country-specific telephone number formatting and managing telephone number blocks. These generic services may be used in any telephony domain, such as POTS or Mobile using any user-defined service configuration specification.

The telephone number specifications provide a template to indicate how UIM handles country-specific telephone number formats. The specifications include the Telephone Number Type characteristic that allows you to implement telephone number portability.

The Telephone Number Type characteristic differentiates telephone numbers a service provider owns from those that are ported in or ported out. UIM differentiates aging and state transition business logic for telephone numbers based on the value of this characteristic. You can deploy whichever base telephone number cartridges your business requires. For example, if you need to provision a telephone service for subscribers in the US and Canada, you need not deploy telephone number cartridges pertaining to Norway.

Telephone Number Specifications

Table 5-14 lists and describes the Telephone Number specifications included in the base telephone number cartridges.

Table 5-14 Telephone Number Specifications

Specification Description

canadaTelephoneNumber

Defines telephone numbers for Canada; includes the following characteristics:

  • TN Type: Defines the type of telephone number; for example, owned by the service provider or ported; Valid values include Toll Free, Ported In, Ported Out, Owned; Can have a null value

  • Responsible Provider: The service provider of the telephone service

  • TN Country Code: Defines the international dialing code for Canada. The default value is 1

canadaTelephoneNumberBlock

Defines blocks of Canadian telephone numbers; primarily used as a shortcut for including telephone numbers in inventory groups

Includes the following characteristics:

  • Block Indicator: Groups telephone numbers into distinct blocks using a country-specific format; This grouping allows specialized rules to be written for telephone numbers that belong to different blocks.

  • Responsible Provider: The service provider that has received the particular telephone number from the regulatory agency of the country

  • Block Availability: Allows the provider to manage the telephone number isolation; You may customize rules to allow telephone number assignments from a block whose availability is set to Yes.

  • Block Availability Date: Date for which a particular telephone number block is available for assignment to subscribers

norwayTelephoneNumber

Defines telephone numbers for Norway; includes the following characteristics:

  • TN Type: Defines the type of telephone number; for example, owned by the service provider or ported telephone numbers; Valid values include Toll Free, Ported In, Ported Out, Owned; Can have a null value

  • Responsible Provider: The service provider that provides the telephone service

  • TN Country Code: Defines the international dialing code for Norway. The default value is 47

norwayTelephoneNumberBlock

Defines blocks of Norwegian telephone numbers; primarily used as a shortcut for including telephone numbers in inventory groups

Includes the following characteristics:

  • Block Indicator: Groups telephone numbers into distinct blocks using a country-specific format; This grouping allows specialized rules to be written for telephone numbers that belong to different blocks.

  • Responsible Provider: The service provider that has received the particular telephone number from the regulatory agency of the country

  • Block Availability: Allows the provider to manage the telephone number utilization; You may customize rules to allow telephone number assignments from a block whose availability is set to Yes

  • Block Availability Date: Date for which a particular telephone number block is available for assignment to subscribers

saudiArabiaTelephoneNumber

Defines telephone numbers for Saudi Arabia; includes the following characteristics:

  • TN Type: Defines the type of telephone number; for example, owned by the service provider or ported telephone numbers; Valid values include Toll Free, Ported In, Ported Out, Owned; Can have a null value

  • Responsible Provider: The service provider that provides the telephone service

  • TN Country Code: Defines the international dialing code for Saudi Arabia. The default value is 966

saudiArabiaTelephoneNumberBlock

Defines blocks of Saudi telephone numbers; primarily used as a shortcut for including telephone numbers in inventory groups

Includes the following characteristics:

  • Block Indicator: Groups telephone numbers into distinct blocks using a country-specific format; This grouping allows specialized rules to be written for telephone numbers that belong to different blocks.

  • Responsible Provider: The service provider that has received the particular telephone number from the regulatory agency of the country

  • Block Availability: Allows the provider to manage the telephone number uilization; You may customize rules to allow telephone number assignments from a block whose availability is set to Yes

  • Block Availability Date: Date for which a particular telephone number block is available for assignment to subscribers

ukTelephoneNumber

Defines telephone numbers for the UK; includes the following characteristics:

  • TN Type: Defines the type of telephone number; for example, owned by the service provider or ported telephone numbers; Valid values include Toll Free, Ported In, Ported Out, Owned; Can have a null value

  • Responsible Provider: The service provider that provides the telephone service

  • TN Country Code: Defines the international dialing code for the UK. The default value is 44

ukTelephoneNumberBlock

Defines blocks of UK telephone numbers; primarily used as a shortcut for including telephone numbers in inventory groups.

Includes the following characteristics:

  • Block Indicator: Groups telephone numbers into distinct blocks using a country-specific format; This grouping allows specialized rules to be written for telephone numbers that belong to different blocks.

  • Responsible Provider: The service provider that has received the particular telephone number from the regulatory agency of the country.

  • Block Availability: Allows the provider to manage the telephone number utilization; You may customize rules to allow telephone number assignments from a block whose availability is set to Yes.

  • Block Availability Date: Date for which a particular telephone number block is available for assignment to subscribers.

usTelephoneNumber

Defines telephone numbers for the US; includes the following characteristics:

  • TN Type: Defines the type of telephone number; for example, owned by the service provider or ported telephone numbers; Valid values include Toll Free, Ported In, Ported Out, Owned; Can have a null value.

  • Responsible Provider: The service provider that provides the telephone service.

  • TN Country Code: Defines the international dialing code for the US. The default value is 1.

usTelephoneNumberBlock

Defines blocks of US telephone numbers; primarily used as a shortcut for including telephone numbers in inventory groups.

Includes the following characteristics:

  • Block Indicator: Groups telephone numbers into distinct blocks using a country-specific format; This grouping allows specialized rules to be written for telephone numbers that belong to different blocks; Differentiates US telephone number instances with a format of seven digits as per the US format.

  • Responsible Provider: The service provider that has received the particular telephone number from the regulatory agency of the country.

  • Block Availability: Allows the provider to manage the telephone number utilization; You may customize rules to allow telephone number assignments from a block whose availability is set to Yes.

  • Block Availability Date: Date for which a particular telephone number block is available for assignment to subscribers.

Rulesets

Table 5-15 lists the rulesets and extension points included in the Telephone Number cartridges.

Table 5-15 Rulesets in the Telephone Number Cartridges

Rulesets Functionality

TELEPHONE_NUMBER_BLOCK_ FORMATTING_USTN

Defines the telephone number format and length as NNN-NNN-N for a US telephone number block.

TELEPHONE_NUMBER_FORMATTING_USTN

Contains rules for formatting telephone numbers based on service type and customer location

The functionality of this ruleset may be customized for US telephone numbers

TELEPHONE_NUMBER_BLOCK_FORMATTING_CANADATN

Defines the telephone number format and length as MMM-MMM-N for a Canada telephone number block.

TELEPHONE_NUMBER_FORMATTING_CANADATN

Contains rules for formatting telephone numbers based on service type and customer location

The functionality of this ruleset may be customized for Canada telephone numbers

TELEPHONE_NUMBER_BLOCK_FORMATTING_NORWAYTN

Contains rules for formatting blocks of telephone numbers based on service type and customer location

The functionality of this ruleset may be customized for Norway telephone numbers

TELEPHONE_NUMBER_BLOCK_FORMATTING_UKTN

Contains rules for formatting blocks of telephone numbers based on service type and customer location

The functionality of this ruleset may be customized for UK telephone numbers

TELEPHONE_NUMBER_FORMATTING_UKTN

Contains rules for formatting telephone numbers based on service type and customer location

The functionality of this ruleset may be customized for UK telephone numbers

TELEPHONE_NUMBER_BLOCK_FORMATTING_SATN

Contains rules for formatting blocks of telephone numbers based on service type and customer location

The functionality of this ruleset may be customized for Saudi Arabia telephone numbers

TELEPHONE_NUMBER_FORMATTING_SATN

Contains rules for formatting telephone numbers based on service type and customer location

The functionality of this ruleset may be customized for Saudi Arabia telephone numbers

Base Technologies Cartridge

This section includes information about the specifications and other artifacts included in the Base Technologies cartridge (ora_uim_basetechnologies). This cartridge supplies channelized connectivity features in UIM.

See "About Unified Inventory Management" in UIM Concepts and "Getting Started with Unified Inventory Management" in UIM Help for more information.

Connectivity Functions

Connectivity functions define the parts played by entities assigned to particular combinations of rate codes and technologies. Connectivity functions are divided into Facility and Service categories depending on their purpose.

Table 5-16 lists the connectivity functions included in the Base Technologies cartridge.

Table 5-16 Connectivity Functions

Specification Description Category

10xDS0

A Frame Relay facility supported by 10 DS0 channels.

Facility

10xDS1

A Frame Relay facility supported by 10xDS1 channels.

Facility

10xE0

A Frame Relay facility supported by 10xE0 channels.

Facility

10xE1

A Frame Relay facility supported by 10xE1 channels.

Facility

11xDS0

A Frame Relay facility supported by 11 DS0 channels.

Facility

11xE0

A Frame Relay facility supported by 11xE0 channels.

Facility

12xDS0

A Frame Relay facility supported by 12 DS0 channels.

Facility

12xDS1

A Frame Relay facility supported by 12xDS1 channels.

Facility

12xE0

A Frame Relay facility supported by 12xE0 channels.

Facility

12xE1

A Frame Relay facility supported by 12xE1 channels.

Facility

13xDS0

A Frame Relay facility supported by 13 DS0 channels.

Facility

13xE0

A Frame Relay facility supported by 13xE0 channels.

Facility

14xDS0

A Frame Relay facility supported by 14 DS0 channels.

Facility

14xDS1

A Frame Relay facility supported by 14xDS1 channels.

Facility

14xE0

A Frame Relay facility supported by 14xE0 channels.

Facility

15xDS0

A Frame Relay facility supported by 15 DS0 channels.

Facility

15xE0

A Frame Relay facility supported by 15xE0 channels.

Facility

16xDS0

A Frame Relay facility supported by 16 DS0 channels.

Facility

16xDS1

A Frame Relay facility supported by 16xDS1 channels.

Facility

16xE0

A Frame Relay facility supported by 16xE0 channels.

Facility

17xDS0

A Frame Relay facility supported by 17 DS0 channels.

Facility

17xE0

A Frame Relay facility supported by 17xE0 channels.

Facility

18xDS0

A Frame Relay facility supported by 18xDS0 channels.

Facility

18xDS1

A Frame Relay facility supported by 18xDS1 channels.

Facility

18xE0

A Frame Relay facility supported by 18xE0 channels.

Facility

20xDS1

A Frame Relay facility supported by 20xDS1 channels.

Facility

22xDS1

A Frame Relay facility supported by 22xDS1 channels.

Facility

2xDS0

A Frame Relay facility supported by 2 DS0 channels.

Facility

2xDS1

A Frame Relay facility supported by 2xDS1 channels.

Facility

2xE0

A Frame Relay facility supported by 2xE0 channels.

Facility

2xE1

A Frame Relay facility supported by 2xE1 channels.

Facility

3xDS0

A Frame Relay facility supported by 3 DS0 channels.

Facility

3xE0

A Frame Relay facility supported by 3xE0 channels.

Facility

4xDS0

A Frame Relay facility supported by 4 DS0 channels.

Facility

4xDS1

A Frame Relay facility supported by 4xDS1 channels.

Facility

4xE0

A Frame Relay facility supported by 4xE0 channels.

Facility

4xE1

A Frame Relay facility supported by 4xE1 channels.

Facility

5xDS0

A Frame Relay facility supported by 5 DS0 channels.

Facility

5xE0

A Frame Relay facility supported by 5xE0 channels.

Facility

6xDS0

A Frame Relay facility supported by 6 DS0 channels.

Facility

6xDS1

A Frame Relay facility supported by 6xDS1 channels.

Facility

6xE0

A Frame Relay facility supported by 6xE0 channels.

Facility

6xE1

A Frame Relay facility supported by 6xE1 channels.

Facility

7xDS0

A Frame Relay facility supported by 7 DS0 channels.

Facility

7xE0

A Frame Relay facility supported by 7xE0 channels.

Facility

8xDS0

A Frame Relay facility supported by 8 DS0 channels.

Facility

8xDS1

A Frame Relay facility supported by 8xDS1 channels.

Facility

8xE0

A Frame Relay facility supported by 8xE0 channels.

Facility

8xE1

A Frame Relay facility supported by 8xE1 channels.

Facility

9xDS0

A Frame Relay facility supported by 9 DS0 channels.

Facility

9xE0

A Frame Relay facility supported by 9xE0 channels.

Facility

ADSL

A DSL facility operating at an ADSL rate.

Facility

ADSL2

A DSL facility operating at an ADSL2 rate.

Facility

ADSL2+

A DSL facility operating at an ADSL2+ rate.

Facility

CDSL

A DSL facility operating at a CDSL rate.

Facility

DIA

A Diameter service.

Service

E0

An E-carrier transmission facility operating at an E0 rate.

Facility

E1

An E-carrier transmission facility operating at an E1 rate.

Facility

E2

An E-carrier transmission facility operating at an E2 rate.

Facility

E3

An E-carrier transmission facility operating at an E3 rate.

Facility

E4

An E-carrier transmission facility operating at an E4 rate.

Facility

E5

An E-carrier transmission facility operating at an E5 rate.

Facility

G.Lite

A DSL facility operating at a G.Lite rate.

Facility

GE1

An Ethernet or MPLS facility operating at a GE1 rate.

Facility

GE10

An Ethernet or MPLS facility operating at a GE10 rate.

Facility

GE100

An Ethernet or MPLS facility operating at a GE100 rate.

Facility

GE40

An Ethernet or MPLS facility operating at a GE40 rate.

Facility

HDSL

A DSL facility operating at an HDSL rate.

Facility

IDSL

A DSL facility operating at an IDSL rate.

Facility

IPTV

An IPTV service.

Service

J0

A J-carrier transmission facility operating at a J0 rate.

Facility

J1

A J-carrier transmission facility operating at a J1 rate.

Facility

J2

A J-carrier transmission facility operating at a J2 rate.

Facility

J2ALT

A J-carrier transmission facility operating at a J2alt rate.

Facility

J3

A J-carrier transmission facility operating at J3 rate.

Facility

J4

A J-carrier transmission facility operating at a J4 rate.

Facility

J5

A J-carrier transmission facility operating at a J5 rate.

Facility

LL

A Leased Line service.

Service

ME10

An Ethernet, ATM, or MPLS facility operating at an ME10 rate.

Facility

ME100

An Ethernet, ATM, or MPLS facility operating at an ME100 rate.

Facility

OC01

A synchronous digital-transmission facility that transmits OC-1 signals (51.840 Mbps) on optical media in a SONET network.

Facility

OC03

A synchronous digital-transmission facility that transmits OC-3 signals (155.520 Mbps) on optical media in a SONET network.

Facility

OC12

A synchronous digital-transmission facility that transmits OC-12 signals (622.080 Mbps) on optical media in a SONET network.

Facility

OC192

A synchronous digital-transmission facility that transmits OC-192 signals (9,953.230 Mbps) on optical media in a SONET network.

Facility

OC3072

A synchronous digital-transmission facility that transmits OC-3072 signals (159,252.480 Mbps) on optical media in a SONET network.

Facility

OC48

A synchronous digital-transmission facility that transmits OC-48 signals (2,488.320 Mbps) on optical media in a SONET network.

Facility

OC768

A synchronous digital-transmission facility that transmits OC-768 signals (39,813.120 Mbps) on optical media in a SONET network.

Facility

ODU0

A OTN Optical connectivity operating at a ODU0 Rate.

Facility

ODU1

A OTN Optical connectivity operating at a ODU1 Rate.

Facility

ODU2

A OTN Optical connectivity operating at a ODU2 Rate.

Facility

ODU2e

A OTN Optical connectivity operating at a ODU2e Rate.

Facility

ODU3

A OTN Optical connectivity operating at a ODU3 Rate.

Facility

ODU4

A OTN Optical connectivity operating at a ODU4 Rate.

Facility

OM1

A WDM facility operating at an OM1 rate.

Facility

OM10

A WDM facility operating at an OM10 rate.

Facility

OM11

A WDM facility operating at an OM11 rate.

Facility

OM12

A WDM facility operating at an OM12 rate.

Facility

OM16

A WDM facility operating at an OM16 rate.

Facility

OM160

A WDM facility operating at an OM160 rate.

Facility

OM18

A WDM facility operating at an OM18 rate.

Facility

OM3

A WDM facility operating at an OM3 rate.

Facility

OM32

A WDM facility operating at an OM32 rate.

Facility

OM4

A WDM facility operating at an OM4 rate.

Facility

OM40

A WDM facility operating at an OM40 rate.

Facility

OM70

A WDM facility operating at an OM70 rate.

Facility

OM8

A WDM facility operating at an OM8 rate.

Facility

OM80

A WDM facility operating at an OM80 rate.

Facility

OM96

A WDM facility operating at an OM96 rate.

Facility

OTU1

A OTN Optical connectivity operating at a OTU1 Rate.

Facility

OTU2

A OTN Optical connectivity operating at a OTU2 Rate.

Facility

OTU3

A OTN Optical connectivity operating at a OTU3 Rate.

Facility

OTU4

A OTN Optical connectivity operating at a OTU4 Rate.

Facility

RADSL

A DSL facility operating at a RDSL rate.

Facility

SDSL

A DSL facility operating at an SDSL rate.

Facility

SHDSL

A DSL facility operating at an SHDSL rate.

Facility

SM0

A digital optical TDM facility operating at a rate of STM-0.

Facility

SM01

A digital optical TDM facility operating at a rate of STM-1.

Facility

SM04

A digital optical TDM facility operating at a rate of STM-4.

Facility

SM1024

A digital optical TDM facility operating at a rate of STM-1024.

Facility

SM16

A digital optical TDM facility operating at a rate of STM-16.

Facility

SM256

A digital optical TDM facility operating at a rate of STM-256.

Facility

SM64

A digital optical TDM facility operating at a rate of STM-64.

Facility

ST01

A synchronous digital-transmission facility that transmits STS-1 signals (51.840 Mbps) on non-optical media in a SONET network.

Facility

ST03

A synchronous digital-transmission facility that transmits STS-3 signals (155.520 Mbps) on non-optical media in a SONET network.

Facility

T0

A T-carrier transmission facility operating at a DS0 rate.

Facility

T1

A T-carrier transmission facility operating at a DS1 rate.

Facility

T2

A T-carrier transmission facility operating at a DS2 rate.

Facility

T3

A T-carrier transmission facility operating at a DS3 rate.

Facility

T4

A T-carrier transmission facility operating at a DS4 rate.

Facility

T5

A T-carrier transmission facility operating at a DS5 rate.

Facility

VC11

A digital optical TDM facility operating at a rate of VC-11.

Facility

VC12

A digital optical TDM facility operating at a rate of VC-12.

Facility

VC2

A digital optical TDM facility operating at a rate of VC-2.

Facility

VC3

A digital optical TDM facility operating at a rate of VC-3.

Facility

VC4

A digital optical TDM facility operating at a rate of VC-4.

Facility

VDSL

A DSL facility operating at a VDSL rate.

Facility

VDSL2

A DSL facility operating at a VDSL2 rate.

Facility

VOIP

A VOIP service.

Service

VPN

A VPN service.

Service

Technology Types

Technology types define the technologies used by connectivities and other entities. Table 5-17 lists the technology type specifications.

Table 5-17 Technology Types

Specification Description

ATM

A telecommunications technology that can carry a range of user traffic, including voice, data, and video signals.

ATM is an abbreviation for Asynchronous Transfer Mode.

DSL

(Digital Subscriber Line) A family of technologies that are used to provide internet access by transmitting digital data over telephone lines.

E-Carrier

A TDM standard that is used in most parts of the world aside from the US, Canada, and Japan. Similar to and developed from T-Carrier.

Ethernet

A family of computer networking technologies for local area networks (LANs) and metropolitan area networks (MANs).

Frame Relay

A wide area network technology that specifies the physical and logical link layers of digital telecommunications channels using a packet switching methodology.

J-Carrier

A TDM standard that is used in Japan. Similar to and developed from T-Carrier.

MPLS

(Multi-Protocol Label Switching) DA technology in which data is directed from one network node to the next based on short path labels rather than long network addresses. MPLS can encapsulate packets of various network protocols. including T1/E1, ATM, Frame Relay, and DSL.

OTN

(Optical Transport Network) A series of standards created to combine the benefits of SONET/SDH with the bandwidth-expanding capabilities of WDM. This combination makes it possible to build more network functionality into optical networks. OTN is able to carry many types of data, including 100 GigE signals.

SONET

A set of multiplexing protocols that transfer digital bit streams over optical fiber using lasers or LEDs. Commonly used in the US and Canada. Similar to and derived from SDH.

SDH

A set of multiplexing protocols that transfer digital bit streams over optical fiber using lasers or LEDs. Commonly used outside the US and Canada.

SDH is an abbreviation of Synchronous Digital Hierarchy.

T-Carrier

A time-division multiplexing (TDM) standard that is used in the US and Canada.

Undefined

Used when the technology is not specified.

WDM

(Wave Division Multiplexing) A fiber-optic technology in which a number of optical carrier signals are multiplexed onto a single optical fiber by using different wavelengths of laser light.

Rate Codes

Rate codes are a shorthand way to assign the signal type and capacity to a channelized connectivity entity or logical device. Rate codes are used for validation and other purposes during connectivity design. Table 5-18 lists the rate codes included in the Base Technologies cartridge.

Table 5-18 Rate Codes

Specification Description

100GigE

Ethernet or MPLS signal with a nominal bit rate of 100000 Mbps.

100M

ATM, Ethernet, or MPLS signal with a nominal bit rate of 100 Mbps.

10GigE

Ethernet or MPLS signal with a nominal bit rate of 10000 Mbps.

10M

ATM, Ethernet, or MPLS signal with a nominal bit rate of 10 Mbps.

10xDS0

Frame Relay fractional signal with a nominal bit rate of 6.4 Mbps supported by 10 DS0 channels.

10xDS1

Frame Relay fractional signal with a nominal bit rate of 15.44 Mbps supported by 10xDS1 channels.

10xE0

Frame Relay fractional signal with a nominal bit rate of 6.4 Mbps supported by 10xE0 channels.

10xE1

Frame Relay fractional signal with a nominal bit rate of 20.48 Mbps supported by 10xE1 channels.

11xDS0

Frame Relay fractional signal with a nominal bit rate of 0.74 Mbps supported by 11 DS0 channels.

11xE0

Frame Relay fractional signal with a nominal bit rate of 0.74 Mbps supported by 11xE0 channels.

12xDS0

Frame Relay fractional signal with a nominal bit rate of 0.768 Mbps supported by 12 DS0 channels.

12xDS1

Frame Relay fractional signal with a nominal bit rate of 18.528 Mbps supported by 12xDS1 channels.

12xE0

Frame Relay fractional signal with a nominal bit rate of 0.768 Mbps supported by 12xE0 channels.

12xE1

Frame Relay fractional signal with a nominal bit rate of 24.576 Mbps supported by 12xE1 channels.

13xDS0

Frame Relay fractional signal with a nominal bit rate of 0.832 Mbps supported by 13 DS0 channels.

13xE0

Frame Relay fractional signal with a nominal bit rate of 0.832 Mbps supported by 13xE0 channels.

14xDS0

Frame Relay fractional signal with a nominal bit rate of 0.896 Mbps supported by 14 DS0 channels.

14xDS1

Frame Relay fractional signal with a nominal bit rate of 21.616 Mbps supported by 14xDS1 channels.

14xE0

Frame Relay fractional signal with a nominal bit rate of 0.896 Mbps supported by 14xE0 channels.

15xDS0

Frame Relay fractional signal with a nominal bit rate of 0.960Mbps supported by 15 DS0 channels.

15xE0

Frame Relay fractional signal with a nominal bit rate of 0.960Mbps supported by 15xE0 channels.

16xDS0

Frame Relay fractional signal with a nominal bit rate of 1.024Mbps supported by 16 DS0 channels.

16xDS1

Frame Relay fractional signal with a nominal bit rate of 24.704 Mbps supported by 16xDS1 channels.

16xE0

Frame Relay fractional signal with a nominal bit rate of 1.024 Mbps supported by 16xE0 channels.

17xDS0

Frame Relay fractional signal with a nominal bit rate of 1.088 Mbps supported by 17 DS0 channels.

17xE0

Frame Relay fractional signal with a nominal bit rate of 1.088 Mbps supported by 17xE0 channels.

18xDS0

Frame Relay fractional signal with a nominal bit rate of 1.152 Mbps supported by 18 DS0 channels.

18xDS1

Frame Relay fractional signal with a nominal bit rate of Mbps 27.792 supported by 18xDS1 channels.

18xE0

Frame Relay fractional signal with a nominal bit rate of 1.152 Mbps supported by 18xE0 channels.

1GigE

Ethernet or MPLS signal with a nominal bit rate of 1000 Mbps.

20xDS1

Frame Relay fractional signal with a nominal bit rate of 30.880 Mbps supported by 20xDS1 channels.

22xDS1

Frame Relay fractional signal with a nominal bit rate of 33.968 Mbps supported by 22xDS1 channels.

2xDS0

Frame Relay fractional signal with a nominal bit rate of 0.128 Mbps supported by 2 DS0 channels.

2xDS1

Frame Relay fractional signal with a nominal bit rate of 3.088 Mbps supported by 2xDS1 channels.

2xE0

Frame Relay fractional signal with a nominal bit rate of 0.128 Mbps supported by 2xE0 channels.

2xE1

Frame Relay fractional signal with a nominal bit rate of 4.096 Mbps supported by 2xE1 channels.

3xDS0

Frame Relay fractional signal with a nominal bit rate of 0.192 Mbps supported by 3 DS0 channels.

3xE0

Frame Relay fractional signal with a nominal bit rate of 0.192 Mbps supported by 3xE0 channels.

40GigE

Ethernet or MPLS signal with a nominal bit rate of 40000 Mbps.

4xDS0

Frame Relay fractional signal with a nominal bit rate of 0.256 Mbps supported by 4 DS0 channels.

4xDS1

Frame Relay fractional signal with a nominal bit rate of 6.176 Mbps supported by 4xDS1 channels.

4xE0

Frame Relay fractional signal with a nominal bit rate of 0.256 Mbps supported by 4xE0 channels.

4xE1

Frame Relay fractional signal with a nominal bit rate of 8.192 Mbps supported by 4xE1 channels.

5xDS0

Frame Relay fractional signal with a nominal bit rate of 0.320 Mbps supported by 5 DS0 channels.

5xE0

Frame Relay fractional signal with a nominal bit rate of 0.320 Mbps supported by 5xE0 channels.

6xDS0

Frame Relay fractional signal with a nominal bit rate of 0.384 Mbps supported by 6 DS0 channels.

6xDS1

Frame Relay fractional signal with a nominal bit rate of 9.264 Mbps supported by 6xDS1 channels.

6xE0

Frame Relay fractional signal with a nominal bit rate of 0.384 Mbps supported by 6 YY channels.

6xE1

Frame Relay fractional signal with a nominal bit rate of 12.288 Mbps supported by 6xE1 channels.

7xDS0

Frame Relay fractional signal with a nominal bit rate of 0.448 Mbps supported by 7 DS0 channels.

7xE0

Frame Relay fractional signal with a nominal bit rate of 0.448 Mbps supported by 7xE0 channels.

8xDS0

Frame Relay fractional signal with a nominal bit rate of 0.512 Mbps supported by 8 DS0 channels.

8xDS1

Frame Relay fractional signal with a nominal bit rate of 12.352 Mbps supported by 8xDS1 channels.

8xE0

Frame Relay fractional signal with a nominal bit rate of 0.512 Mbps supported by 8xE0 channels.

8xE1

Frame Relay fractional signal with a nominal bit rate of 16.384 Mbps supported by 8xE1 channels.

9xDS0

Frame Relay fractional signal with a nominal bit rate of 0.576 Mbps supported by 9 DS0 channels.

9xE0

Frame Relay fractional signal with a nominal bit rate of 0.576Mbps supported by 9xE0 channels.

ADSL

DSL signal with a nominal bit rate of 7.000 Mbps.

ADSL2

DSL signal with a nominal bit rate of 24.000 Mbps.

ADSL2+

DSL signal with a nominal bit rate of 8.000 Mbps.

CDSL

DSL signal with a nominal bit rate of 1.000 Mbps.

DS0

T-Carrier or Frame Relay signal with a capacity of 0.064 Mbps.

DS1

T-Carrier, Frame Relay, or ATM signal with a capacity of 1.544 Mbps.

DS2

T-Carrier signal with a capacity of 6.312 Mbps.

DS3

T-Carrier, Frame Relay, or ATM signal with a capacity of 44.736 Mbps.

DS4

T-Carrier signal with a capacity of 274.176 Mbps.

DS5

T-Carrier signal with a capacity of 274.176 Mbps 400.352.

E0

E-Carrier or Frame Relay signal with a capacity of 0.064 Mbps.

E1

E-Carrier, Frame Relay, or ATM signal with a capacity of 2.048 Mbps.

E2

E-Carrier signal with a capacity of 8.448 Mbps.

E3

E-Carrier, Frame Relay, or ATM signal with a capacity of 34.368 Mbps.

E4

E-Carrier signal with a capacity of 139.264 Mbps.

E5

E-Carrier signal with a capacity of 565.148 Mbps.

G.Lite

DSL signal with a nominal bit rate of 16.000 Mbps.

HDSL

DSL signal with a nominal bit rate of 2.048 Mbps.

IDSL

DSL signal with a nominal bit rate of 0.148 Mbps.

J0

J-Carrier signal with a capacity of 0.064 Mbps.

J1

J-Carrier signal with a capacity of 1.544 Mbps.

J2

J-Carrier signal with a capacity of 6.312 Mbps.

J2alt

J-Carrier signal with a capacity of 7.786 Mbps.

J3

J-Carrier signal with a capacity of 32.064 Mbps.

J4

J-Carrier signal with a capacity of 97.728 Mbps.

J5

J-Carrier signal with a capacity of 565.148 Mbps.

OC1

SONET signal with a capacity of 51.840 Mbps.

OC12

SONET, Frame Relay, or ATM signal with a capacity of 622.080 Mbps.

OC192

SONET, Frame Relay, or ATM signal with a capacity of 9953.280 Mbps.

OC3

SONET, Frame Relay, or ATM signal with a capacity of 155.520 Mbps.

OC3072

SONET signal with a capacity of 159252.480 Mbps.

OC48

SONET, Frame Relay, or ATM signal with a capacity of 2488.320 Mbps.

OC768

SONET or MPLS signal with a capacity of 39813.120 Mbps.

ODU0

OTN signal with a nominal bit rate of 1244.160 Mbps.

ODU1

OTN signal with a nominal bit rate of 2498.775 Mbps.

ODU2

OTN signal with a nominal bit rate of 10037.273 Mbps.

ODU2e

OTN signal with a nominal bit rate of 10312.500 Mbps.

ODU3

OTN signal with a nominal bit rate of 40319.219 Mbps.

ODU4

OTN signal with a nominal bit rate of 104794.445 Mbps.

OM1

WDM signal with a nominal bit rate of 10000 Mbps.

OM10

WDM signal with a nominal bit rate of 100000 Mbps.

OM11

WDM signal with a nominal bit rate of 110000 Mbps.

OM12

WDM signal with a nominal bit rate of 120000 Mbps.

OM16

WDM signal with a nominal bit rate of 160000 Mbps.

OM160

WDM signal with a nominal bit rate of 1600000 Mbps.

OM18

WDM signal with a nominal bit rate of 180000 Mbps.

OM3

WDM signal with a nominal bit rate of 30000 Mbps.

OM32

WDM signal with a nominal bit rate of 320000 Mbps.

OM4

WDM signal with a nominal bit rate of 40000 Mbps.

OM40

WDM signal with a nominal bit rate of 400000 Mbps.

OM70

WDM signal with a nominal bit rate of 700000 Mbps.

OM8

WDM signal with a nominal bit rate of 80000 Mbps.

OM80

WDM signal with a nominal bit rate of 800000 Mbps.

OM96

WDM signal with a nominal bit rate of 960000 Mbps.

OTU1

OTN signal with a nominal bit rate of 2666.057 Mbps.

OTU2

OTN signal with a nominal bit rate of 10709.224 Mbps.

OTU3

OTN signal with a nominal bit rate of 43018.41 Mbps.

OTU4

OTN signal with a nominal bit rate of 111809.973 Mbps.

RADSL

DSL signal with a nominal bit rate of 2.200 Mbps.

SDSL

DSL signal with a nominal bit rate of 2.048 Mbps.

SHDSL

DSL signal with a nominal bit rate of 4.624 Mbps.

STM0

SDH signal with a capacity of 51.840 Mbps.

STM1

SDH or ATM signal with a capacity of 155.520 Mbps.

STM1024

SDH signal with a capacity of 159252.480 Mbps.

STM16

SDH, MPLS, or ATM signal with a capacity of 2488.320 Mbps.

STM256

SDH or MPLS signal with a capacity of 39813.120 Mbps.

STM4

SDH or ATM signal with a capacity of 622.080 Mbps.

STM64

SDH, MPLS, or ATM signal with a capacity of 9953.280 Mbps.

STS1

SONET signal with a capacity of 51.840 Mbps.

STS12

SONET signal with a capacity of 622.080 Mbps.

STS192

SONET signal with a capacity of 9953.280 Mbps.

STS3

SONET signal with a capacity of 155.520 Mbps.

STS3072

SONET signal with a capacity of 159252.480 Mbps.

STS48

SONET signal with a capacity of 2488.320 Mbps.

STS768

SONET signal with a capacity of 39813.120 Mbps.

VC11

SDH signal with a capacity of 1.728 Mbps.

VC12

SDH signal with a capacity of 2.304 Mbps.

VC2

SDH signal with a capacity of 6.912 Mbps.

VC3

SDH signal with a capacity of 48.960 Mbps.

VC4

SDH signal with a capacity of 150.336 Mbps.

VC4-1024

SDH signal with a capacity of 153944.064 Mbps.

VC4-16

SDH signal with a capacity of 2405.376 Mbps.

VC4-256

SDH signal with a capacity of 38486.016 Mbps.

VC4-4

SDH signal with a capacity of 601.344 Mbps.

VC4-64

SDH signal with a capacity of 9621.504 Mbps.

VDSL

DSL signal with a nominal bit rate of 55.000 Mbps.

VDSL2

DSL signal with a nominal bit rate of 100.000 Mbps.

VT1.5

SONET signal with a capacity of 1.728 Mbps.

VT2

SONET signal with a capacity of 2.304 Mbps.

VT6

SONET signal with a capacity of 6.912 Mbps.

Connectivity Signal Termination Point Specifications

Connectivity Signal Termination Point specifications define the signals for facilities, channels, and processing signals. These specifications define the layers and capacity of a signal structure. A signal structure definition is composed of two or more Connectivity Signal Termination Point specifications in a hierarchy.

The Connectivity Signal Termination Point specifications in the Base Technologies cartridge help define the UIM signal architecture, which is used to define the signal structures of channelized connectivity. See "About Unified Inventory Management" in UIM Concepts for more information about channelized connectivity. Table 5-19 lists the Connectivity Signal Termination Point specifications included in the Base Technologies cartridge.

Table 5-19 Connectivity Signal Termination Point Specifications

Specification Description

100GigE

Defines a packet optical signal with 100GigE rate code.

100M

Defines a packet electrical signal with a 100M rate code.

10GigE

Defines a packet optical signal with 10GigE rate code.

10M

Defines a packet electrical signal with a 10M rate code.

10xDS0

Defines a PDH electrical signal with a 10xDS0 rate code.

10xDS1

Defines a PDH electrical signal with a 10xDS1 rate code.

10xE0

Defines a PDH electrical signal with a 10xE0 rate code.

10xE1

Defines a PDH electrical signal with a 10xE1 rate code.

11xDS0

Defines a PDH electrical signal with a 11xDS0 rate code.

11xE0

Defines a PDH electrical signal with a 11xE0 rate code.

12xDS0

Defines a PDH electrical signal with a 12xDS0 rate code.

12xDS1

Defines a PDH electrical signal with a 12xDS1 rate code.

12xE0

Defines a PDH electrical signal with a 12xE0 rate code.

12xE1

Defines a PDH electrical signal with a 12xE1 rate code.

13xDS0

Defines a PDH electrical signal with a 13xDS0 rate code.

13xE0

Defines a PDH electrical signal with a 13xE0 rate code.

14xDS0

Defines a PDH electrical signal with a 14xDS0 rate code.

14xDS1

Defines a PDH electrical signal with a 14xDS1 rate code.

14xE0

Defines a PDH electrical signal with a 14xE0 rate code.

15xDS0

Defines a PDH electrical signal with a 0.960Mbps supported by 15xDS0 rate code.

15xE0

Defines a PDH electrical signal with a 0.960Mbps supported by 15xE0 rate code.

16xDS0

Defines a PDH electrical signal with a 1.024Mbps supported by 16xDS0 rate code.

16xDS1

Defines a PDH electrical signal with a 16xDS1 rate code.

16xE0

Defines a PDH electrical signal with a 16xE0 rate code.

17xDS0

Defines a PDH electrical signal with a 17xDS0 rate code.

17xE0

Defines a PDH electrical signal with a 17xE0 rate code.

18xDS0

Defines a PDH electrical signal with a 18xDS0 rate code.

18xDS1

Defines a PDH electrical signal with a Mbps 27.792 supported by 18xDS1 rate code.

18xE0

Defines a PDH electrical signal with a 18xE0 rate code.

1GigE

Defines a packet optical signal with 1GigE rate code.

20xDS1

Defines a PDH electrical signal with a 20xDS1 rate code.

22xDS1

Defines a PDH electrical signal with a 22xDS1 rate code.

2xDS0

Defines a PDH electrical signal with a 2xDS0 rate code.

2xDS1

Defines a PDH electrical signal with a 2xDS1 rate code.

2xE0

Defines a PDH electrical signal with a 2xE0 rate code.

2xE1

Defines a PDH electrical signal with a 2xE1 rate code.

3xDS0

Defines a PDH electrical signal with a 3xDS0 rate code.

3xE0

Defines a PDH electrical signal with a 3xE0 rate code.

40GigE

Defines a packet optical signal with 40GigE rate code.

4xDS0

Defines a PDH electrical signal with a 4xDS0 rate code.

4xDS1

Defines a PDH electrical signal with a 4xDS1 rate code.

4xE0

Defines a PDH electrical signal with a 4xE0 rate code.

4xE1

Defines a PDH electrical signal with a 4xE1 rate code.

5xDS0

Defines a PDH electrical signal with a 5xDS0 rate code.

5xE0

Defines a PDH electrical signal with a 5xE0 rate code.

6xDS0

Defines a PDH electrical signal with a 6xDS0 rate code.

6xDS1

Defines a PDH electrical signal with a 6xDS1 rate code.

6xE0

Defines a PDH electrical signal with a 6 YY channels.

6xE1

Defines a PDH electrical signal with a 6xE1 rate code.

7xDS0

Defines a PDH electrical signal with a 7xDS0 rate code.

7xE0

Defines a PDH electrical signal with a 7xE0 rate code.

8xDS0

Defines a PDH electrical signal with a 8xDS0 rate code.

8xDS1

Defines a PDH electrical signal with a 8xDS1 rate code.

8xE0

Defines a PDH electrical signal with a 8xE0 rate code.

8xE1

Defines a PDH electrical signal with a 8xE1 rate code.

9xDS0

Defines a PDH electrical signal with a 9xDS0 rate code.

9xE0

Defines a PDH electrical signal with a 9xE0 rate code.

ADSL

Defines a packet electrical signal with a ADSL rate code.

ADSL2

Defines a packet electrical signal with a ADSL2 rate code.

ADSL2+

Defines a packet electrical signal with a ADSL2+ rate code.

AU-3

Defines an administrative unit processing signal with a VC3 rate code. Can be multiplexed from AUG-1 as up to 3 channels or from STM-0 as 1 channel.

AU-4

Defines an administrative unit processing signal with a VC4 rate code. Can be multiplexed from AUG-1 as 1 channel.

AU-4-1024c

Defines an administrative unit processing signal with a VC4-1024 rate code. Can be multiplexed from AUG-1024 as 1 channel.

AU-4-16c

Defines an administrative unit processing signal with a VC4-16 rate code. Can be multiplexed from AUG-16 as 1 channel.

AU-4-256c

Defines an administrative unit processing signal with a VC4-256 rate code. Can be multiplexed from AUG-256 as 1 channel.

AU-4-4c

Defines an administrative unit processing signal with a VC4-4 rate code. Can be multiplexed from AUG-4 as 1 channel.

AU-4-64c

Defines an administrative unit processing signal with a VC4-64 rate code. Can be multiplexed from AUG-64 as 1 channel.

AUG-1

Defines an administrative unit group processing signal with a VC4 rate code. Can be multiplexed from AUG-4 as up to 4 channels or from STM-1 as 1 channel.

AUG-1024

Defines an administrative unit group processing signal with a VC4-1024 rate code. Can be multiplexed from STM-1024 as 1 channel.

AUG-16

Defines an administrative unit group processing signal with a VC4-16 rate code. Can be multiplexed from AUG-64 as up to 4 channels or from STM-16 as 1 channel.

AUG-256

Defines an administrative unit group processing signal with a VC4-256 rate code. Can be multiplexed from AUG-1024 as up to 4 channels or from STM-256 as 1 channel.

AUG-4

Defines an administrative unit group processing signal with a VC4-4 rate code. Can be multiplexed from AUG-16 as up to 4 channels. Can be multiplexed from STM-4 as 1 channel.

AUG-64

Defines an administrative unit group processing signal with a VC4-64 rate code. Can be multiplexed from AUG-256 as up to 4 channels or from STM-64 as 1 channel.

C-11

Defines a container signal with a VC11 rate code. Maps to a VC-11 signal.

C-12

Defines a container signal with a VC12 rate code. Maps to a VC-12 signal

C-2

Defines a container signal with a VC2 rate code. Maps to a VC2 signal.

C-3

Defines a container signal with a VC3 rate code. Maps to a VC-3 signal.

C-4

Defines a container signal with a VC4 rate code. Maps to a VC-4 signal.

C-4-1024c

Defines a container signal with a VC4-1024 rate code. Maps to a VC-4-1024c signal.

C-4-16c

Defines a container signal with a VC4-16 rate code. Maps to a VC-4-16c signal.

C-4-256c

Defines a container signal with a VC4-256 rate code. Maps to a VC-4-256c signal.

C-4-4c

Defines a container signal with a VC4-4 rate code. Maps to a VC-4-4c signal.

C-4-64c

Defines a container signal with a VC4-64 rate code. Maps to a VC-4-64c signal.

CDSL

Defines a packet electrical signal with a CDSL rate code.

DS0

Defines a PDH electrical signal with a DS0 rate code. Cannot be used to define facility signals. Can be multiplexed from DS1 as up to 24 channels.

DS1

Defines a PDH electrical signal with a DS1 rate code. Can be multiplexed from DS2 as up to 4 channels. Can be multiplexed from DS3 as up to 28 channels. Supported by VT-1.5SPE and C-11 signals.

DS2

Defines a PDH electrical signal with a DS2 rate code. Can be multiplexed from DS3 as up to 7 channels. Supported by VT-6SPE and C-2 signals.

DS3

Defines a PDH electrical signal with a DS3 rate code. Can be multiplexed from DS4 as up to 6 channels. Supported by STS-1SPE and C-3 signals.

DS4

Defines a PDH electrical signal with a DS4 rate code.

E0

Defines a PDH electrical signal with a E0 rate code. Can be multiplexed from E1 as up to 30 channels.

E1

Defines a PDH electrical signal with a E1 rate code. Can be multiplexed from E2 as up to 4 channels. Can be multiplexed from E3 as up to 16 channels. Supported by VT-2SPE and C-12 signals.

E2

Defines a PDH electrical signal with a E2 rate code. Can be multiplexed from E3 as up to 4 channels.

E3

Defines a PDH electrical signal with a E3 rate code. Can be multiplexed from E4 as up to 4 channels. Supported by STS-1SPE and C-3 signals.

E4

Defines a PDH electrical signal with a E4 rate code. Can be multiplexed from E5 as up to 4 channels.Supported by STS-3cSPE and C-4 signals.

E5

Defines a PDH electrical signal with a E5 rate code.

G.Lite

Defines a packet electrical signal with a G.Lite rate code.

HDSL

Defines a packet electrical signal with a HDSL rate code.

IDSL

Defines a packet electrical signal with a IDSL rate code.

J0

Defines a PDH electrical signal with a J0 rate code. Can be multiplexed from J1 as up to 24 channels.

J1

Defines a PDH electrical signal with a J1 rate code. Can be multiplexed from J2 as up to 4 channels. Supported by J2alt as up to 5 channels. Supported by VT-1.5SPE and C-11 signals.

J2

Defines a PDH electrical signal with a J2 rate code. Can be multiplexed from J3 as up to 5 channels. Supported by VT-6SPE and C-2 signals.

J2alt

Defines a PDH electrical signal with a J2alt rate code. Can be multiplexed from J3 as up to 4 channels.

J3

Defines a PDH electrical signal with a J3 rate code. Can be multiplexed from J4 as up to 3 channels. Supported by STS-1SPE and C-3 signals.

J4

Defines a PDH electrical signal with a J4 rate code. Can be multiplexed from J5 as up to 4 channels.

J5

Defines a PDH electrical signal with a J5 rate code.

OC-1

Defines an optical signal with a n OC1 rate code.

OC-12

Defines an optical signal with an OC12 rate code.

OC-192

Defines an optical signal with an OC192 rate code.

OC-3

Defines an optical signal with an OC3 rate code.

OC-3072

Defines an optical signal with an OC3072 rate code.

OC-48

Defines an optical signal with an OC48 rate code.

OC-768

Defines an optical signal with a OC768 rate code.

ODU0

Defines an optical signal with an ODU0 rate code.

ODU1

Defines an optical signal with an ODU1 rate code.

ODU2

Defines an optical signal with an ODU2 rate code.

ODU2e

Defines an optical signal with an ODU2e rate code.

ODU3

Defines an optical signal with an ODU3 rate code.

ODU4

Defines an optical signal with an ODU4 rate code.

OM1

Defines an optical signal with an OM1 rate.

OM10

Defines an optical signal with an OM10 rate. Can be multiplexed to 10 OM1 channels.

OM11

Defines an optical signal with an OM11 rate. Can be multiplexed to 11 OM1 channels.

OM12

Defines an optical signal with an OM12 rate. Can be multiplexed to:

  • 3 OM4 channels

  • 4 OM3 channels

  • 12 OM1 channels

OM16

Defines an optical signal with an OM16 rate. Can be multiplexed to:

  • 2 OM8 channels

  • 4 OM4 channels

  • 16 OM1 channels

OM160

Defines an optical signal with an OM160 rate. Can be multiplexed to:

  • 2 OM80 channels

  • 4 OM40 channels

  • 5 OM32 channels

  • 10 OM16 channels

  • 16 OM10 channels

  • 20 OM8 channels

  • 40 OM4 channels

  • 160 OM1 channels

OM18

Defines an optical signal with an OM18 rate. Can be multiplexed to:

  • 6 OM3 channels

  • 18 OM1 channels

OM3

Defines an optical signal with an OM3 rate. Can be multiplexed to 3 OM1 channels.

OM32

Defines an optical signal with an OM32 rate. Can be multiplexed to:

  • 2 OM16 channels

  • 4 OM8 channels

  • 8 OM4 channels

  • 32 OM1 channels

OM4

Defines an optical signal with an OM4 rate. Can be multiplexed to 4 OM1 channels.

OM40

Defines an optical signal with an OM40 rate. Can be multiplexed to 4 OM10 channels or 10 OM4 channels.

OM70

Defines an optical signal with an OM70 rate. Can be multiplexed to:

  • 7 OM10channels

  • 70 OM1 channels

OM8

Defines an optical signal with an OM8 rate. Can be multiplexed to 2 OM4 channels or 8 OM1 channels.

OM80

Defines an optical signal with an OM80 rate. Can be multiplexed to:

  • 5 OM16 channels

  • 10 OM8 channels

  • 20 OM4 channels

  • 80 OM1 channels

OM96

Defines an optical signal with an OM96 rate. Can be multiplexed to:

  • 3 OM32 channels

  • 6 OM16 channels

  • 8 OM12 channels

  • 12 OM8 channels

  • 24 OM4 channels

  • 32 OM3 channels

  • 96 OM1 channels

OTU1

Defines an optical signal with an OTU1 rate code.

OTU2

Defines an optical signal with an OTU2 rate code.

OTU3

Defines an optical signal with an OTU3 rate code.

OTU4

Defines an optical signal with an OTU4 rate code.

RADSL

Defines a packet electrical signal with a RADSL rate code.

SDSL

Defines a packet electrical signal with a SDSL rate code.

SHDSL

Defines a packet electrical signal with a SHDSL rate code.

STM-0

Defines an STM optical signal with an STM0 rate code.

STM-1

Defines an STM optical signal with an STM1 rate code.

STM-1024

Defines an STM optical signal with an STM1024 rate code.

STM-16

Defines an STM optical signal with an STM16 rate code.

STM-256

Defines an STM optical signal with an STM256 rate code.

STM-4

Defines an STM optical signal with an STM4 rate code.

STM-64

Defines an STM optical signal with an STM64 rate code.

STS -192

Defines an STS electrical signal with an STS192 rate code. Can be multiplexed from OC-3072 as up to 16 channels, from OC-768 as up to 4 channels, from OC-192 as 1 channel, from STS-3072 as up to 16 channels, or from STS-768 as up to 4 channels.

STS-1

Defines an STS electrical signal with an STS1 rate code.

STS-1

Defines an STS processing signal with an STS1 rate code. Can be multiplexed in the following ways:

  • From OC-3072 as up to 3072 channels

  • From OC-768 as up to 768 channels

  • From OC-192 as up to 192 channels

  • From OC-48 as up to 48 channels

  • From OC-12 as up to 12 channels

  • From OC-3 as up to 3 channels

  • From OC-1 as 1 channel

  • From STS-3072 as up to 3072 channels

  • From STS-768 as up to 768 channels

  • From STS-192 as up to 192 channels

  • From STS-48 as up to 48 channels

  • From STS-12 as up to 12 channels

  • From STS-3 as up to 3 channels

  • From STS-3_STP as up to 3 channels

STS-1 SPE

Defines an SPE electrical signal with an STS1 rate code. Aligns with STS-1.Aligns with STS-1_STP.

STS-12

Defines an STS processing signal with an STS12 rate code. Can be multiplexed in the following ways:

  • From OC-3072 as up to 256 channels

  • From OC-768 as up to 64 channels

  • From OC-192 as up to 16 channels

  • From OC-48 as up to 4 channels

  • From OC-12 as 1 channel

  • From STS-3072 as up to 256 channels

  • From STS-768 as up to 64 channels

  • From STS-192 as up to 16 channels

  • From STS-48 as up to 4 channels

STS-12c SPE

Defines an SPE electrical signal with an STS12 rate code. Aligns with STS-12.

STS-192c SPE

Defines an SPE electrical signal with an STS192 rate code. Aligns with STS-192.

STS-3

Defines an STS processing signal with an STS3 rate code. Can be multiplexed in the following ways:

  • From OC-3072 as up to 1024 channels

  • From OC-768 as up to 256 channels

  • From OC-192 as up to 64 channels

  • From OC-48 as up to 16 channels

  • From OC-12 as up to 4 channels

  • From OC-3 as 1 channel

  • From STS-3072 as up to 1024 channels

  • From STS-768 as up to 256 channels

  • From STS-192 as up to 64 channels

  • From STS-48 as up to 16 channels

  • From STS-12 as up to 4 channels

STS-3

Defines an STS electrical signal with an STS3 rate code.

STS-3072

Defines an STS electrical signal with an STS3072 rate code. Can be multiplexed from OC-3072 as 1 channel.

STS-3072c SPE

Defines an SPE electrical signal with an STS3072 rate code. Aligns with STS-3072.

STS-3c SPE

Defines an SPE electrical signal with an STS3 rate code. Aligns with STS-3.Aligns with STS-3_STP.

STS-48

Defines an STS processing signal with an STS48 rate code. Can be multiplexed in the following ways:

  • From OC-3072 as up to 64 channels

  • From OC-768 as up to 16 channels

  • From OC-192 as up to 4 channels

  • From OC-48 as 1 channel

  • From STS-768 as up to 16 channels

  • From STS-192 as up to 4 channels

STS-48c SPE

Defines an SPE electrical signal with an STS48 rate code. Aligns with STS-48.

STS-768

Defines an STS electrical signal with an STS768 rate code. Can be multiplexed from OC-3072 as up to 4 channels, from OC-768 as 1 channel, or from STS-3072 as up to 4 channels.

STS-768c SPE

Defines an SPE electrical signal with an STS768 rate code. Aligns with STS-768.

TU-11

Defines a tributary unit processing signal with a VC11 rate code. Can be multiplexed from TUG-2 as up to 4 channels.

TU-12

Defines a tributary unit processing signal with a VC12 rate code. Can be multiplexed from TUG-2 as up to 3 channels.

TU-2

Defines a tributary unit processing signal with a VC2 rate code. Can be multiplexed from TUG-2 as 1 channel.

TU-3

Defines a tributary unit processing signal with a VC3 rate code. Can be multiplexed from TUG-3 as 1 channel.

TUG-2

Defines a tributary unit group processing signal with a VC2 rate code. Can be multiplexed from TUG-3 as up to 7 channels or from VC-3 as up to 7 channels.

TUG-3

Defines a tributary unit group processing signal with a VC3 rate code. Can be multiplexed from VC-4 as up to 3 channels.

VC-11

Defines a virtual container processing signal with a VC11 rate code. Aligns with TU-11.Aligns with TU-12.

VC-12

Defines a virtual container processing signal with a VC12 rate code. Aligns with TU-12.

VC-2

Defines a virtual container processing signal with a VC2 rate code. Aligns with TU-2.

VC-3

Defines a virtual container processing signal with a VC3 rate code. Aligns with TU-3.Aligns with AU-3.

VC-4

Defines a virtual container processing signal with a VC4 rate code. Aligns with AU-4.

VC-4-1024c

Defines a virtual container processing signal with a VC4-1024 rate code. Aligns with AU-4-1024c.

VC-4-16c

Defines a virtual container processing signal with a VC4-16 rate code. Aligns with AU-4-16c.

VC-4-256c

Defines a virtual container processing signal with a VC4-256 rate code. Aligns with AU-4-256c.

VC-4-4c

Defines a virtual container processing signal with a VC4-4 rate code. Aligns with AU-4-4c.

VC-4-64c

Defines a virtual container processing signal with a VC4-64 rate code. Aligns with AU-4-64c.

VDSL

Defines a packet electrical signal with a VDSL rate code.

VDSL2

Defines a packet electrical signal with a VDSL2 rate code.

VT-1.5

Defines a virtual tributary processing signal with a VT1.5 rate code. Can be multiplexed from VT-Group as up to 4 channels.

VT-1.5 SPE

Defines an SPE electrical signal with a VT1.5 rate code. Maps to a VT-1.5 signal.

VT-2

Defines a virtual tributary processing signal with a VT2 rate code. Can be multiplexed from VT-Group as up to 3 channels.

VT-2 SPE

Defines a SPE electrical signal with a VT2 rate code. Maps to VT-2 signal.

VT-6

Defines a virtual tributary processing signal with a VT6 rate code. Can be multiplexed from VT-Group as 1 channel.

VT-6 SPE

Defines a SPE electrical signal with a VT6 rate code. Maps to a VT-6 signal.

VT-Group

Defines a virtual tributary group processing signal with a VT6 rate code. Can be multiplexed from STS-1SPE as up to 7 channels.

Base Tags Cartridge

The Base Tags cartridge includes specifications for tags used in UIM.

Table 5-20 Tags in the Base Tags Cartridge

Specification Description

AutoCreateAndAssign

Defines a tag that identifies that an entity should be created and assigned to a configuration item to be automatically created when a configuration is created.