Alex0256 - TRA in Pool Handling and Dynamic Allocation of TRA Resources

OPEN INFORMATIONDESCRIPTION 1 (13)

SG/ERA/FZ/BIG Kjell Doggal 2001-10-31 D 48/190 46-FAD 104 06 Uen

ERA/FZ/BIGBC (Anna-Karin Ekman)

Uppgjord — Prepared Datum — Date Rev Dokumentnr — Document no

Godkänd — Approved Kontr — Checked Tillhör/referens — File/reference

TRA in Pool Handling and Dynamic Allocation of TRAResources

Abstract

The purpose of this document is to describe the features "TRA in Pool Handling" and"Dynamic Allocation of TRA resources" from a data transcript point of view.

Contents Page

1 Revision Information 2

2 Description 22.1 TRA in Pool Handling 22.2 Dynamic Allocation of TRA Resources 2

3 Data Transcript Impacts 23.1 General 23.2 APT Size Alteration Events 23.3 Definition of TRA devices 33.4 Allocation of RP 93.5 Allocation of EM 93.6 Insertion of CLM/SPM/TSM & Allocation of SNT 93.7 Subfile 87xxx - TG Data 103.8 Deblocking of RP 103.9 Deblocking of EM 103.10 Deblocking of CLM/SPM/TSM 113.11 Deblocking of TRA & TRH and TRA Pool Handling 11

4 Miscellaneous Information 13

SEIF v2.3,


2001-10-31 D 48/190 46-FAD 104 06 UenDatum — Date Rev Dokumentnr — Document no

1 Revision Information

This document has been revised due to the introduction of Fixed SizeAlteration.

2 Description

2.1 TRA in Pool Handling

TRA in Pool Handling allows us to create pools of TRA resources, eachsupporting a specific channel rate and speech version. Different TRA H/Wversions can be used for one pool, for example TRA R2, R3 and R4 for FullRate, and TRA R4 for Enhanced Full Rate/Half Rate or TRA R5 for Full Rateand TRA R5 for Enhanced Full Rate/Half Rate.

Each pool can be supervised with mean hold time supervision and/or idlelevel supervision.

There are specific performance measurements for the transcoder in pool.

2.2 Dynamic Allocation of TRA Resources

Dynamic Allocation of TRA Resources uses the TRA pool and lets theoperator allocate the required TRA for FR, HR, EFR or future codec types,on a per call basis. (Before the pool concept was introduced, each TRX wassemi permanently connected to a TRA device, that is, the connection wasfixed after configuration by command).

To be able to support this feature, subrate switching at 8 or 16 kbit/s will berequired in the Group Switch Subsystem (GSS), see basic function documentGSS.

This architecture will reduce the number of TRA hardware and allow newcodecs to be introduced in the system at a later stage.

3 Data Transcript Impacts

3.1 General

In BSC R7 the transcoder part TRC is logically and physically separated fromthe BSC. The transcoder resources within a certain pool can be shared by allBSCs connected to the same TRC.

The transcoder part can be kept together with the BSC. This node is calledcombined BSC/TRC node.

3.2 APT Size Alteration Events

The following Size Alteration Events are affected by this function:

SAE 500 , Block RTTPH



SAE 500 , Block RTTPR

SAE 995

SAE 996

SAE 1047

How to set the SAE number of individuals is described in document “Settingof Size Alteration Events in BSC/TRC” no. 105/19046-FAD 10406 , includedin this DT-Infomodel.Two methods are described but we recommend that theFixed SAE method is used.

3.3 Definition of TRA devices

There are 3 different TRA device types supported in the TRC or BSC/TRC.

Table 1

Device Type SNT & EQM Type Transcoder Type TRA H/W Version

RTTF1D1 RTTF1S1 Full Rate TRA R5

RTTF1D2 RTTF1S2 Enhanced Fullrate TRA R5

RTTH1D RTTH1S Half Rate TRA R5

The following data is needed to define TRA devices for fullrate and enhancedfullrate using TRA R5 H/W.

Definition of RP and EM:

EXRPI:RP=46,RPT=47, TYPE=RP4S1A ; !TRA R5!

EXRUI:RP=46,RPT=47, SUNAME=RPMMR; !1/CAA 135 2517/RPMM R1A01 !EXRUI:RP=46,RPT=47, SUID="1/CAA 135 1058/RTTF1S1 R1A01";!RTTF1S1R!EXRUI:RP=46,RPT=47, SUID="1/CAA 135 1059/RTTF1S2 R1A01";!RTTF1S2R!EXRUI:RP=46,RPT=47, SUID="1/CAA 135 2509 R3A ";! REXR !EXRUI:RP=46,RPT=47, SUID="1/CAA 135 004/RPFD R3A01";! RPFDR !EXRUI:RP=46,RPT=47, SUID="1/CAA 135 005 R1A02";! TERTR !

EXEMI:EQM=RTTF1S1-0&&-31 ,RP=46, RPT=47 ,EM= 0;EXEMI:EQM=RTTF1S1-32&&-63 ,RP=47, RPT=46 ,EM= 1;EXEMI:EQM=RTTF1S1-64&&-95 ,RP=46, RPT=47 ,EM= 2;EXEMI:EQM=RTTF1S1-96&&-127 ,RP=47, RPT=46 ,EM= 3;EXEMI:EQM=RTTF1S1-128&&-159 ,RP=46, RPT=47 ,EM= 4;EXEMI:EQM=RTTF1S1-160&&-191 ,RP=47, RPT=46 ,EM= 5;EXEMI:EQM=RTTF1S1-192&&-223 ,RP=46, RPT=47 ,EM= 6;EXEMI:EQM=RTTF1S1-224&&-255 ,RP=47, RPT=46 ,EM= 7;EXEMI:EQM=RTTF1S2-0&&-31 ,RP=46, RPT=47 ,EM= 8;EXEMI:EQM=RTTF1S2-32&&-63 ,RP=47, RPT=46 ,EM= 9;EXEMI:EQM=RTTF1S2-64&&-95 ,RP=46, RPT=47 ,EM= 10;EXEMI:EQM=RTTF1S2-96&&-127 ,RP=47, RPT=46 ,EM= 11;EXEMI:EQM=RTTF1S2-128&&-159 ,RP=46, RPT=47 ,EM= 12;EXEMI:EQM=RTTF1S2-160&&-191 ,RP=47, RPT=46 ,EM= 13;EXEMI:EQM=RTTF1S2-192&&-223 ,RP=46, RPT=47 ,EM= 14;



EXEMI:EQM=RTTF1S2-224&&-255 ,RP=47, RPT=46 ,EM= 15;

NTCOI:SNT=RTTF1S1-0, SNTV=1, SNTP=TSM-8-0;NTCOI:SNT=RTTF1S1-1, SNTV=1, SNTP=TSM-8-1;NTCOI:SNT=RTTF1S1-2, SNTV=1, SNTP=TSM-8-2;NTCOI:SNT=RTTF1S1-3, SNTV=1, SNTP=TSM-8-3;NTCOI:SNT=RTTF1S1-4, SNTV=1, SNTP=TSM-8-4;NTCOI:SNT=RTTF1S1-5, SNTV=1, SNTP=TSM-8-5;NTCOI:SNT=RTTF1S1-6, SNTV=1, SNTP=TSM-8-6;NTCOI:SNT=RTTF1S1-7, SNTV=1, SNTP=TSM-8-7;NTCOI:SNT=RTTF1S2-0, SNTV=1, SNTP=TSM-8-8;NTCOI:SNT=RTTF1S2-1, SNTV=1, SNTP=TSM-8-9;NTCOI:SNT=RTTF1S2-2, SNTV=1, SNTP=TSM-8-10;NTCOI:SNT=RTTF1S2-3, SNTV=1, SNTP=TSM-8-11;NTCOI:SNT=RTTF1S2-4, SNTV=1, SNTP=TSM-8-12;NTCOI:SNT=RTTF1S2-5, SNTV=1, SNTP=TSM-8-13;NTCOI:SNT=RTTF1S2-6, SNTV=1, SNTP=TSM-8-14;NTCOI:SNT=RTTF1S2-7, SNTV=1, SNTP=TSM-8-15;

Devices need to be connected to the SNT:

EXDUI:DEV=RTTF1D1-2 &&-31;EXDUI:DEV=RTTF1D1-34 &&-63;EXDUI:DEV=RTTF1D1-66 &&-95;EXDUI:DEV=RTTF1D1-98 &&-127;EXDUI:DEV=RTTF1D1-130&&-159;EXDUI:DEV=RTTF1D1-162&&-191;EXDUI:DEV=RTTF1D1-194&&-223;EXDUI:DEV=RTTF1D1-226&&-255;EXDUI:DEV=RTTF1D2-2 &&-31;EXDUI:DEV=RTTF1D2-34 &&-63;EXDUI:DEV=RTTF1D2-66 &&-95;EXDUI:DEV=RTTF1D2-98 &&-127;EXDUI:DEV=RTTF1D2-130&&-159;EXDUI:DEV=RTTF1D2-162&&-191;EXDUI:DEV=RTTF1D2-194&&-223;EXDUI:DEV=RTTF1D2-226&&-255;

Note The two first devices in each device range, 0 and 1, 32 and33 and so on, are not used.

Deblock the RP, EM and SNT:

BLRPE:RP=46;BLRPE:RP=47;

BLEME:RP=46, RPT=47, EM=0; !GSS - TRA!BLEME:RP=47, RPT=46, EM=1;BLEME:RP=46, RPT=47, EM=2;BLEME:RP=47, RPT=46, EM=3;BLEME:RP=46, RPT=47, EM=4;BLEME:RP=47, RPT=46, EM=5;



BLEME:RP=46, RPT=47, EM=6;BLEME:RP=47, RPT=46, EM=7;BLEME:RP=46, RPT=47, EM=8;BLEME:RP=47, RPT=46, EM=9;BLEME:RP=46, RPT=47, EM=10;BLEME:RP=47, RPT=46, EM=11;BLEME:RP=46, RPT=47, EM=12;BLEME:RP=47, RPT=46, EM=13;BLEME:RP=46, RPT=47, EM=14;BLEME:RP=47, RPT=46, EM=15;

NTBLE:SNT=RTTF1S1-0;NTBLE:SNT=RTTF1S1-1;NTBLE:SNT=RTTF1S1-2;NTBLE:SNT=RTTF1S1-3;NTBLE:SNT=RTTF1S1-4;NTBLE:SNT=RTTF1S1-5;NTBLE:SNT=RTTF1S1-6;NTBLE:SNT=RTTF1S1-7;NTBLE:SNT=RTTF1S2-0;NTBLE:SNT=RTTF1S2-1;NTBLE:SNT=RTTF1S2-2;NTBLE:SNT=RTTF1S2-3;NTBLE:SNT=RTTF1S2-4;NTBLE:SNT=RTTF1S2-5;NTBLE:SNT=RTTF1S2-6;NTBLE:SNT=RTTF1S2-7;

Put devices into service and deblock them:

EXDAI:DEV=RTTF1D1-2&&-31;EXDAI:DEV=RTTF1D1-34&&-63;EXDAI:DEV=RTTF1D1-66&&-95;EXDAI:DEV=RTTF1D1-98&&-127;EXDAI:DEV=RTTF1D1-130&&-159;EXDAI:DEV=RTTF1D1-162&&-191;EXDAI:DEV=RTTF1D1-194&&-223;EXDAI:DEV=RTTF1D1-226&&-255;EXDAI:DEV=RTTF1D2-2&&-31;EXDAI:DEV=RTTF1D2-34&&-63;EXDAI:DEV=RTTF1D2-66&&-95;EXDAI:DEV=RTTF1D2-98&&-127;EXDAI:DEV=RTTF1D2-130&&-159;EXDAI:DEV=RTTF1D2-162&&-191;EXDAI:DEV=RTTF1D2-194&&-223;EXDAI:DEV=RTTF1D2-226&&-255;

RRTBE:DEV=RTTF1D1-2&&-31;RRTBE:DEV=RTTF1D1-34&&-63;RRTBE:DEV=RTTF1D1-66&&-95;RRTBE:DEV=RTTF1D1-98&&-127;RRTBE:DEV=RTTF1D1-130&&-159;RRTBE:DEV=RTTF1D1-162&&-191;RRTBE:DEV=RTTF1D1-194&&-223;RRTBE:DEV=RTTF1D1-226&&-255;RRTBE:DEV=RTTF1D2-2&&-31;



RRTBE:DEV=RTTF1D2-34&&-63;RRTBE:DEV=RTTF1D2-66&&-95;RRTBE:DEV=RTTF1D2-98&&-127;RRTBE:DEV=RTTF1D2-130&&-159;RRTBE:DEV=RTTF1D2-162&&-191;RRTBE:DEV=RTTF1D2-194&&-223;RRTBE:DEV=RTTF1D2-226&&-255;

Initiate blocking supervision of devices:

RABLC:DETY=RTTF1D1, LVB=64& 128& 192, ACL=A3;RABLI:DETY=RTTF1D1;RABLC:DETY=RTTF1D2, LVB=64& 128& 192, ACL=A3;RABLI:DETY=RTTF1D2;

3.3.1 Definition of Transcoder Pool

A speech codec is a combination of a channel rate and a speech version.

A new codec type pool is created with command RRTPI:

The parameter CHRATE - Channel Rate specifies the transmission rate usedby the TRA resources.

The parameter SPV - Speech Version specifies which speech version to use.

The following combinations of channel rate and speech versions are supportedby the current system:

Enhanced Full Rate (EFR) is the full rate speech codec type utilizing thespeech version 2.

Full Rate (FR) is the speech codec type utilizing speech version 1.

Half Rate (HR) is the speech codec type utilizing speech version 1.

RRTPI:TRAPOOL=EFR, CHRATE=FR, SPV=2; !ENHANCED FULLRATE!RRTPI:TRAPOOL=FR, CHRATE=FR, SPV=1; !FULLRATE!!RRTPI:TRAPOOL=HR, CHRATE=HR, SPV=1;! !HALFRATE!

Memory has to be allocated before setting the required number of TRAresources pool.

The number of TRA resources depends on the amount of TRA H/W that hasbeen defined in the BSC.

One TRA SNT can handle 24 traffic channels which corresponds to 24 TRAresources.

One TRA resource can be defined as the TRA hardware needed to set upone call. If full rate channels are used, a TRA EM contains 32 timeslots, outof these 24 channels are used towards the MSC.



The function block RTTPH, " RTS Transcoder Pool Handler", is a part of thesubsystem RTS. The blocks tasks are to define, delete or change transcoderpools. Other tasks are to seize and release transcoder resources. It alsosupplies supervision data, handles fault situations and statistics.

The following Size Alteration Event is affected by this function:

SAE 500 , Block RTTPH

The required number of TRA resources for each pool is set with command:

RRTPC:TRAPOOL=EFR, RNOTRA=192; !EFR, RNOTRA=24*NO. SNT!RRTPC:TRAPOOL=FR, RNOTRA=192; !FR , RNOTRA=24*NO. SNT!RRTPC:TRAPOOL=HR, RNOTRA=0; !HR , RNOTRA=24*NO. SNT!

The required number of transcoder resources are fetched into the pool fromthe TRA devices that previously has been defined as either FR, EFR or HR.

If there are no or to few TRA devices with the corresponding codec typeavailable in the system, the pool will fetch them as soon as they are available.

The TRA resources are fetched in groups of 4 or 8 into the pool. This requiresless signalling than if the resources were fetched one by one.

3.3.2 TRA Pool Idle Supervision

Supervising idle transcoder devices is initiated by command:

RRISI:TRAPOOL=EFR, ACL=A2, LIM1=2, LIM2=1;RRISI:TRAPOOL=FR, ACL=A2, LIM1=2, LIM2=1;

The transcoder pool device list consists of idle and busy transcoder channels.When initiated, the pool supervision feature checks the number of idletranscoder channels against a first alarm level limit (lim1) every 30 seconds.Should the number of idle transcoder channels stay below the alarm limit forfour consecutive readings, a serious alarm is issued.

Should the number of idle transcoder channels go below the second alarmlevel limit (lim2) for four consecutive readings, the serious alarm is replaced bya critical alarm.

The number of idle transcoder channels must be above the first, or second,alarm level limit(s) for four consecutive readings in order to cease the alarm(s).A critical alarm may be replaced by a serious alarm.

3.3.3 TRA Pool Mean Hold Time Supervision

The supervision of transcoder resource mean hold time is initiated bycommand:

RRMSI:TRAPOOL=EFR, ACL=A3, MHTLIM=10;RRMSI:TRAPOOL=FR, ACL=A3, MHTLIM=10;



When initiated, the mean hold time for transcoder resources is checked duringthe traffic process. Every individual stores the time in seconds when it wasseized. It also stores a timer for a leaky bucket algorithm. When the device isreleased, the seized time is compared to a mean hold time limit.

There will be alarms giving the operator information when a critical limit isreached.

3.3.4 TRA Pool STS

Measurements are supported to further improve optimal dimensioning of thepool sizes.

The following measurements are supported.

Transcoder pool dimensioning:

• Active Transcoder Resources

• Available Transcoder Resources

• Idle Transcoder Resources

• Transcoder Resource Allocation Attempts

• Transcoder Resource Congestion

• Transcoder Resource Congestion Time

• Allocation Attempts for Non Existing Transcoder Resource

Data/fax transmission failure:

• V.110 Synchronization Failure

Active, available, and idle transcoder resources contain both scanning andaccumulation counters. Scanning counters are increased by one every timean accumulation counter is updated. Together the two counters may be usedto get mean values.

3.3.5 Dynamic Allocation of TRA Resources

From a transcoder pool it is possible to select TRA resources on a per callbasis.

Memory needs to be allocated for each TRA resource that will be allocatedand connected to a RALT device on a per call basis.

The following Size Alteration Event is affected by this function :

SAE 500 , Block RTTPR

The block RTTPR, "RTS Transmission Process Handler", is a part of thesubsystem RTS. The block coordinates the connection of A-interface LineTerminal (RALT), the GS path and the transcoder resources (RTTPH).

Each TG is setup to use the pool concept with the command:



RXMOI:MO=RXETG-0, TRACO=POOL, COMB=FLT, RSITE=KISTA1, SWVER=?;

3.4 Allocation of RP

EXRPI:RP=46,RPT=47, TYPE=RP4S1A ; !TRA !

EXRUI:RP=46,RPT=47, SUNAME=RPMMR; !1/CAA 135 2517/RPMM R1A01 !EXRUI:RP=46,RPT=47, SUID="1/CAA 135 1058/RTTF1S1 R2A01"; !RTTF1S1R!EXRUI:RP=46,RPT=47, SUID="1/CAA 135 1059/RTTF1S2 R2A01"; !RTTF1S2R!EXRUI:RP=46,RPT=47, SUID="1/CAA 135 2509 R3A "; ! REXR !EXRUI:RP=46,RPT=47, SUID="1/CAA 135 004/RPFD R3A01"; ! RPFDR !EXRUI:RP=46,RPT=47, SUID="1/CAA 135 005 R1A02"; ! TERTR !

3.5 Allocation of EM

EXEMI:EQM=RTTF1S1-32&&-63 ,RP=47, RPT=46 ,EM= 1,SUID="1/CAA 135 1058/RTTF1S1 R2A01";















3.6 Insertion of CLM/SPM/TSM & Allocation of SNT

NTCOI:SNT=RTTF1S1-0, SNTV=1, SNTP=TSM-8-0;NTCOI:SNT=RTTF1S1-1, SNTV=1, SNTP=TSM-8-1;NTCOI:SNT=RTTF1S1-2, SNTV=1, SNTP=TSM-8-2;NTCOI:SNT=RTTF1S1-3, SNTV=1, SNTP=TSM-8-3;



NTCOI:SNT=RTTF1S1-4, SNTV=1, SNTP=TSM-8-4;NTCOI:SNT=RTTF1S1-5, SNTV=1, SNTP=TSM-8-5;NTCOI:SNT=RTTF1S1-6, SNTV=1, SNTP=TSM-8-6;NTCOI:SNT=RTTF1S1-7, SNTV=1, SNTP=TSM-8-7;NTCOI:SNT=RTTF1S2-0, SNTV=1, SNTP=TSM-8-8;NTCOI:SNT=RTTF1S2-1, SNTV=1, SNTP=TSM-8-9;NTCOI:SNT=RTTF1S2-2, SNTV=1, SNTP=TSM-8-10;NTCOI:SNT=RTTF1S2-3, SNTV=1, SNTP=TSM-8-11;NTCOI:SNT=RTTF1S2-4, SNTV=1, SNTP=TSM-8-12;NTCOI:SNT=RTTF1S2-5, SNTV=1, SNTP=TSM-8-13;NTCOI:SNT=RTTF1S2-6, SNTV=1, SNTP=TSM-8-14;NTCOI:SNT=RTTF1S2-7, SNTV=1, SNTP=TSM-8-15;

EXDUI:DEV=RTTF1D1-2 &&-31;EXDUI:DEV=RTTF1D1-34 &&-63;EXDUI:DEV=RTTF1D1-66 &&-95;EXDUI:DEV=RTTF1D1-98 &&-127;EXDUI:DEV=RTTF1D1-130&&-159;EXDUI:DEV=RTTF1D1-162&&-191;EXDUI:DEV=RTTF1D1-194&&-223;EXDUI:DEV=RTTF1D1-226&&-255;EXDUI:DEV=RTTF1D2-2 &&-31;EXDUI:DEV=RTTF1D2-34 &&-63;EXDUI:DEV=RTTF1D2-66 &&-95;EXDUI:DEV=RTTF1D2-98 &&-127;EXDUI:DEV=RTTF1D2-130&&-159;EXDUI:DEV=RTTF1D2-162&&-191;EXDUI:DEV=RTTF1D2-194&&-223;EXDUI:DEV=RTTF1D2-226&&-255;

3.7 Subfile 87xxx - TG Data

RXMOI:MO=RXETG-0, TRACO=POOL, COMB=FLT, RSITE=KISTA1, SWVER=?;RXMOI:MO=RXETG-1, TRACO=POOL, COMB=FLT, RSITE=KISTA1, SWVER=?;RXMOI:MO=RXETG-2, TRACO=POOL, COMB=FLT, RSITE=KISTA1, SWVER=?;RXMOI:MO=RXETG-3, TRACO=POOL, COMB=FLT, RSITE=KISTA2, SWVER=?;RXMOI:MO=RXOTG-0, TRACO=POOL, COMB=HYB, RSITE=KISTA3, SWVER=?;

3.8 Deblocking of RP

BLRPE:RP=46; !RTS - TRA - RTTF1S1/RTTF1S2!BLRPE:RP=47;

3.9 Deblocking of EM

BLEME:RP=46, RPT=47, EM=0; !RTS - TRA - RTTF1S1/RTTF1S2!BLEME:RP=47, RPT=46, EM=1;BLEME:RP=46, RPT=47, EM=2;BLEME:RP=47, RPT=46, EM=3;BLEME:RP=46, RPT=47, EM=4;BLEME:RP=47, RPT=46, EM=5;BLEME:RP=46, RPT=47, EM=6;BLEME:RP=47, RPT=46, EM=7;



BLEME:RP=46, RPT=47, EM=8;BLEME:RP=47, RPT=46, EM=9;BLEME:RP=46, RPT=47, EM=10;BLEME:RP=47, RPT=46, EM=11;BLEME:RP=46, RPT=47, EM=12;BLEME:RP=47, RPT=46, EM=13;BLEME:RP=46, RPT=47, EM=14;BLEME:RP=47, RPT=46, EM=15;

3.10 Deblocking of CLM/SPM/TSM

NTBLE:SNT=RTTF1S1-0; !TRA R5 FULLRATE!NTBLE:SNT=RTTF1S1-1; ! !NTBLE:SNT=RTTF1S1-2; ! !NTBLE:SNT=RTTF1S1-3; ! !NTBLE:SNT=RTTF1S1-4; ! !NTBLE:SNT=RTTF1S1-5; ! !NTBLE:SNT=RTTF1S1-6; ! !NTBLE:SNT=RTTF1S1-7; ! !NTBLE:SNT=RTTF1S2-0; !TRA R5 ENHANCED FULLRATE!NTBLE:SNT=RTTF1S2-1; ! !NTBLE:SNT=RTTF1S2-2; ! !NTBLE:SNT=RTTF1S2-3; ! !NTBLE:SNT=RTTF1S2-4; ! !NTBLE:SNT=RTTF1S2-5; ! !NTBLE:SNT=RTTF1S2-6; ! !NTBLE:SNT=RTTF1S2-7; ! !

3.11 Deblocking of TRA & TRH and TRA Pool Handling

!---------------------------------------------------------------!! ***** DEVICE INTO SERVICE ***** !!---------------------------------------------------------------!

EXDAI:DEV=RTTF1D1-2&&-31;EXDAI:DEV=RTTF1D1-34&&-63;EXDAI:DEV=RTTF1D1-66&&-95;EXDAI:DEV=RTTF1D1-98&&-127;EXDAI:DEV=RTTF1D1-130&&-159;EXDAI:DEV=RTTF1D1-162&&-191;EXDAI:DEV=RTTF1D1-194&&-223;EXDAI:DEV=RTTF1D1-226&&-255;EXDAI:DEV=RTTF1D2-2&&-31;EXDAI:DEV=RTTF1D2-34&&-63;EXDAI:DEV=RTTF1D2-66&&-95;EXDAI:DEV=RTTF1D2-98&&-127;EXDAI:DEV=RTTF1D2-130&&-159;EXDAI:DEV=RTTF1D2-162&&-191;EXDAI:DEV=RTTF1D2-194&&-223;EXDAI:DEV=RTTF1D2-226&&-255;

!---------------------------------------------------------------!



! ***** DEBLOCKING OF DEVICE ***** !!---------------------------------------------------------------!

RRTBE:DEV=RTTF1D1-2&&-31;RRTBE:DEV=RTTF1D1-34&&-63;RRTBE:DEV=RTTF1D1-66&&-95;RRTBE:DEV=RTTF1D1-98&&-127;RRTBE:DEV=RTTF1D1-130&&-159;RRTBE:DEV=RTTF1D1-162&&-191;RRTBE:DEV=RTTF1D1-194&&-223;RRTBE:DEV=RTTF1D1-226&&-255;RRTBE:DEV=RTTF1D2-2&&-31;RRTBE:DEV=RTTF1D2-34&&-63;RRTBE:DEV=RTTF1D2-66&&-95;RRTBE:DEV=RTTF1D2-98&&-127;RRTBE:DEV=RTTF1D2-130&&-159;RRTBE:DEV=RTTF1D2-162&&-191;RRTBE:DEV=RTTF1D2-194&&-223;RRTBE:DEV=RTTF1D2-226&&-255;

!---------------------------------------------------------------!! ***** BLOCKING SUPERVISION OF DEVICE ***** !!---------------------------------------------------------------!

RABLC:DETY=RTTF1D1, LVB=64& 128& 192, ACL=A3;RABLI:DETY=RTTF1D1;RABLC:DETY=RTTF1D2, LVB=64& 128& 192, ACL=A3;RABLI:DETY=RTTF1D2;

!---------------------------------------------------------------!! ***** DEFINE TRA POOL ***** !!---------------------------------------------------------------!

RRTPI:TRAPOOL=FR, CHRATE=FR, SPV=1; !FULLRATE !RRTPC:TRAPOOL=FR, RNOTRA=192; !FULLRATE !

RRTPI:TRAPOOL=EFR, CHRATE=FR, SPV=2; !ENHANCED FULLRATE!RRTPC:TRAPOOL=EFR, RNOTRA=192; !ENHANCED FULLRATE!

RRTPI:TRAPOOL=HR, CHRATE=HR, SPV=1; !HALFRATE !RRTPC:TRAPOOL=HR, RNOTRA=0; !HALFRATE !

!---------------------------------------------------------------!! ***** TRA POOL IDLE LEVEL SUPERVISION ***** !!---------------------------------------------------------------!

RRISI:TRAPOOL=FR, ACL=A2, LIM1=2, LIM2=1;RRISI:TRAPOOL=EFR, ACL=A2, LIM1=2, LIM2=1;RRISI:TRAPOOL=HR, ACL=A2, LIM1=2, LIM2=1;

!---------------------------------------------------------------!! ***** TRA POOL MEAN HOLD TIME SUPERVISION ***** !!---------------------------------------------------------------!

RRMSI:TRAPOOL=FR, ACL=A3, MHTLIM=10;RRMSI:TRAPOOL=EFR, ACL=A3, MHTLIM=10;RRMSI:TRAPOOL=HR, ACL=A3, MHTLIM=10;



4 Miscellaneous Information

Documents

Alex0256 - TRA in Pool Handling and Dynamic Allocation of TRA Resources