Ivg 7000 - users manual

CODICO®
IVG-7000 Series
Intelligent Video Gateway
USER MANUAL
SCOPUS DOCUMENTS (P/N 100463)
(REV 2.0 / JAN. 2005)

Scopus Documents (p/n 100463) Page i
Scopus Network Technologies Inc.
U.S. Offices
Scopus Network Technologies Ltd.
International Headquarters
100 Overlook Center Drive, 3rd Floor
Princeton, NJ 08540.
USA
10 Ha’amal St., Park Afek
Rosh Ha’ayin, 48092
Israel
Tel: (609)-987-8090
Fax: (609)-987-8095
Tel: (972) –3-9007777
Fax: (972) –3-9007888
Email: info@scopususa.com
Web: www.scopususa.com
Email: info@scopus.net
Web: www.scopus.net
© 2001 Scopus Network Technologies Ltd. All rights reserved.
Scopus Network Technologies Ltd. Reserves the rights to alter the equipment specifications and descriptions in this publication without prior notice. No
part of this publication shall be deemed to be part of any contract or warranty unless specifically incorporated by reference into such contract or
warranty.
The information contained herein is merely descriptive in nature, and does not constitute a binding offer for sale of the product described herein.
Specifications and features sets are for technical information and are not legally biding.
CODICO®
is a Registered trademark of Scopus Network Technologies Ltd. In Israel, Germany, France, U.K. U.S.A. and Japan. All references to
registered trademarks of other vendors are the property of their respective owners.
File IVG-7000 User Rev 2.0. Saved 03/02/2005 12:40

CODICO®
IVG-7000 Series
Scopus Documents (p/n 100463) Page i
INTRODUCTION
Scopus Network Technologies Ltd. takes great pride in delivery of its products and
makes every endeavor to ensure its clients full satisfaction.
On behalf of the whole Scopus team, we would like to extend our congratulations
on your investment in the Scopus’ IVG-7000 Intelligent Video Gateway.
IVG-7000 INTELLIGENT VIDEO GATEWAY

User Manual
Front Matter
Page ii (Rev 2.0 / Jan. 2005)
MANUAL SCOPE AND STRUCTURE
The User Manual for the Scopus’ IVG-7000 Series of Integrated Video Gateways
provides instructions for qualified installation, service and operation technicians to
facilitate optimum performance of the IVN-7000 Series. The manual is comprised of
six main sections:
1. OVERVIEW:
This section provides an introduction and product description, including:
Highlights,
Benefits and typical applications,
Gives a functional and physical description of the unit
Lists its main capabilities and specifications.
2. INSTALLATION:
This section provides data and procedures required to install and activate the
unit.
3. THEORY OF OPERATION:
This section provides instructions for IVG-7000 key elements and procedures.
4. IVG-7000 FRONT PANEL INTERFACE:
The IVG-7000 Front Panel provides a Man-Machine Interface between the
IVG-7000 local operator and the IVG-7000. This section details the tools
provided from the Front Panel to the local operator of the IVG-7000 Series.
5. IVG-7000 COMMAND LINE INTERFACE (CLI):
The IVG-7000 Series CLI is a textual command line interface, operated
through a terminal connected to the IVG-7000. This section provides an
introduction to the CLI and a detailed description of the IVG-7000 CLI
commands.
6. IVG-7000 ELEMENT MANAGEMENT SYSTEM (EMS) INTERFACE:
The IVG-7000 EMS is a Graphical User Interface (GUI) for the remote
operation of the IVG-7000. This section provides operating directives to the
IVG-7000 EMS operators and a detailed description of the IVG-7000 EMS
functions and tools.
It is assumed throughout this manual that personnel have a general knowledge
about the Scopus Intelligent Video Network™ Concept and architecture and the
Scopus IVG-7000 Series, its application, and capabilities.

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IVG-7000 Series
Scopus Documents (p/n 100463) Page iii
CONVENTIONS AND TERMINOLOGY
The following general conventions are used in this manual:
CONVENTION EXPLANATION
Function and
other Keys
Square brackets indicate a keyboard key, e.g. [F1].
Mouse Buttons A standard mouse has two or three mouse buttons. These
buttons are used to select options in the program main
interface. ‘Click [OK]’ means to position the mouse cursor
over the OK button and then press and release the left
mouse button.
Key
Combinations
A plus sign (+) indicates two keys that should be pressed
at the same time. For example [Alt]+[Tab] means hold
down the Alt key while pressing the Tab key.
Key Sequences The minus symbol (-) indicates keys that should be
pressed in sequence. For example, [Caps Lock]-[A]
means you should press and release the [Caps Lock] key
and then press and release the [A] key.
Tools Options may be accessed by pressing <Alt> together with
the Option Shortcut Key. Each shortcut key is underlined.
For example, to open the Tools menu, press [Alt]+[T].
File New Text written in this format indicates the command you
select from a menu on the menu bar. For example,
File New means that from the File menu you select the
New command.
CTRL + Mouse Hold down the [CTRL] key on your keyboard and select
multiple non-concurrent objects.
SHIFT + Mouse Hold down the [SHIFT] key on your keyboard and select
multiple concurrent objects.

User Manual
Front Matter
Page iv (Rev 2.0 / Jan. 2005)
TECHNICAL SUPPORT
In case of technical problems with the CODICO
system or one of its components,
refer to the System Documentation. Usually, this may save time in resolving
technical difficulties.
If you not be able to resolve the problem, call your local distributor for technical
support.
HOW TO RETURN FAULTY PARTS
Before Returning An Item:
• Request a RMA (Return Merchandise Authorisation) Tracking Number from
your local Distributor.
• Scopus Network Technologies Support will assign a RMA Tracking Number;
this must accompany the item being returned and will be referred to in all
correspondence.
• Send the item to Scopus Network Technologies with the RMA Number
included in the accompanying documentation (shipping and customs forms).
Customer Support Point Of Contact (POC)
Scopus Network Technologies Inc.
U.S. Offices
Scopus Network Technologies Ltd.
International Headquarters
100 Overlook Center Drive, 3rd Floor
USA
10 Ha’amal St., Park Afek
Rosh Ha’ayin, 48092
Israel
Tel: (609)-987-8090
Fax: (609)-987-8095
Tel: (972) –3-9007777
Fax: (972) –3-9007888
Email: support@scopus.net
Web: www.scopus.net

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IVG-7000 Series
Scopus Documents (p/n 100463) Page v
WARRANTY
SCOPUS Network Technologies Ltd. warrants that the Product and any part thereof, including, but
not limited to spare parts, will, when properly installed, conform to SCOPUS Network
Technologies Ltd. published specifications and that the Product and any parts thereof, including,
but not limited to, spare parts, will be free from defects deriving from wrong workmanship and
faulty materials under normal use and service, for a period of twelve (12) months following the
date of manufacture thereof.
The supply of spare parts at reasonable cost shall be available for a period of three (3) years from
the date of delivery.
This warranty does not cover ordinary wear and tear of the Product or other defects due to
circumstances beyond SCOPUS Network Technologies Ltd. control such as unsuitable operating
means, chemical, Electro-mechanical or electrical influences and damages which may be caused
by interference by the CUSTOMER or any unauthorized third party.
Defective cards/assemblies will be sent to SCOPUS Network Technologies Ltd. for repair. The
repaired cards/assemblies will be returned to the CUSTOMER within 30 days from their receipt by
SCOPUS Network Technologies Ltd.
Cards/assemblies repaired during the 12 months warranty period will carry a warranty of 6
months from date of repair or until end of original warranty period, whichever is the later date.
SCOPUS Network Technologies Ltd. sole liability under this warranty shall be limited to the repair
or replacement with equivalent units at SCOPUS Network Technologies Ltd. facilities, of any
Product or parts thereof that do not conform to SCOPUS Network Technologies Ltd. published
specifications or that are defective in material or workmanship, as specified above. The expense
of installing repaired or replaced parts shall be borne by the CUSTOMER.
SCOPUS Network Technologies Ltd. sole obligation under this Warranty is be the supplier of the
Product to the CUSTOMER and to provide such services as set out in this Warranty on the
SCOPUS Network Technologies Ltd. terms and conditions provided for herein. In no event will
SCOPUS Network Technologies Ltd. be liable to the CUSTOMER for any business expenses, loss of
profits, incidental, indirect or consequential damages, however caused, unless such expenses,
loss or damages shall have derived from an infringement of patents of copyrights.
THE WARRANTIES STATED HEREIN ARE EXCLUSIVE AND ARE EXPRESSLY IN LIEU OF ALL OTHER
WARRANTIES, EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.
Beyond the warranty period, SCOPUS Network Technologies Ltd. shall repair or replace defective
cards/assemblies according to its standard price list relevant at such time. Cards/assemblies thus
repaired shall carry a warranty of 6 months.

User Manual
Front Matter
Page vi (Rev 2.0 / Jan. 2005)
CE Certification
IVG-7000 meet all the CE Class B requirements with the exception of Emission
Requirements.
In order to meet CE requirements, the following cables must be connected on all
ASI outputs (ASI out 1, ASI out 2, ASI out 3). When cables are connected to these
outputs then the device is compliant with FAIR-RITE 0443164151.
FCC Compliance Notice
Trade Name Scopus
Product Name Intelligent Video Gateway
Product Model Number CODICO®
IVG-7000
These devices comply with Part 15 of the FCC Rules.
OPERATION IS SUBJECT TO THE FOLLOWING TWO CONDITIONS:
1. This device may not cause harmful interference.
2. This device must accept any interference received, including interference that
may cause undesired operation.
RESPONSIBLE PARTY:
RESPONSIBLE PARTY'S NAME
Address 100 Overlook Center Drive, 3rd Floor
USA
Contact Tel: (609)-987-8090
Fax: (609)-987-8095
Email: info@scopususa.com

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IVG-7000 Series
Scopus Documents (p/n 100463) Page vii
The FCC Wants You to Know
This equipment has been tested and found to comply with the limits for a Class B
digital device, pursuant to Part 15 of the FCC rules. These limits are designed to
Provide reasonable protection against harmful interference in a residential installation.
This equipment generates, uses and can radiate radio frequency energy and, If not
installed and used in accordance with the instructions, may cause harmful interference
to radio communications.
However, there is no guarantee that interference will not occur in a particular
installation. If this equipment does cause harmful interference to radio or television
reception, which can be determined by turning the equipment off end on, the user is
encouraged to try to correct the interference by one or more of the following
measures:
Reorient or relocate the receiving antenna.
Increase the separation between the equipment and receiver.
Connect the equipment to an outlet on a circuit different from that to which the
receiver is connected.
Consult the dealer or an experienced radio/TV technician.
FCC Warning
Modifications not expressly approved by the manufacturer could void the user
authority to operate the equipment under FCC Rules.

User Manual
Front Matter
Page viii (Rev 2.0 / Jan. 2005)
TABLE OF CONTENTS
TABLE OF CONTENTS............................................................................................. viii
LIST OF FIGURES ....................................................................................................xii
LIST OF TABLES...................................................................................................... xiv
Section 1 Overview..................................................................................... 1-1
1.1. General Information......................................................................................... 1-1
1.2. Scopus Intelligent Video Network (IVNTM
) Concept....................................... 1-3
1.2.1. The Scopus IVNTM
Architecture ......................................................... 1-3
1.2.2. IVG-7000 Technology Edge .............................................................. 1-5
1.2.3. Scopus IVG-7000 Series of Intelligent Video Gateways ........................ 1-7
1.2.4. IVG-7000 Highlights and Benefits...................................................... 1-7
1.3. Applications..................................................................................................... 1-10
1.3.1. IVNTM
Head-End and Distributed Backbone Solution........................... 1-10
1.3.2. C & D Solutions using the IVG-7000 Platform ................................... 1-11
1.3.3. IVG-7000 Head-End Clustering Solutions ......................................... 1-13
1.3.4. Intelligent Regional/Edge Head-End Solution .................................... 1-14
1.3.5. Intelligent Digital Turnaround (DTA) Application ............................... 1-15
1.3.6. IP Streaming Application................................................................ 1-15
1.3.7. Conditional Access ........................................................................ 1-16
1.3.8. Digital Ad-Insertion Application....................................................... 1-17
1.3.9. Network and Element Management System...................................... 1-18
1.4. Functional Description.................................................................................... 1-21
1.4.1. Basic and Custom Configurations .................................................... 1-21
1.4.2. Functional Architecture .................................................................. 1-23
1.4.3. Mechanical Structure ..................................................................... 1-24
1.5. Capabilities and Specifications ...................................................................... 1-27
1.5.1. Product Capabilities....................................................................... 1-27
1.5.2. Product Technical Specifications...................................................... 1-28
1.5.3. Product Physical Specifications........................................................ 1-28
Section 2 Installation................................................................................. 2-1
2.1. Introduction ...................................................................................................... 2-1
2.1.1. Safety Precautions .......................................................................... 2-1
2.1.2. Inventory Check ............................................................................. 2-1
2.2. Site Preparation................................................................................................ 2-2
2.3. Installation........................................................................................................ 2-2
2.3.1. Installation in 19" Rack.................................................................... 2-2
2.4. Cable Connections............................................................................................ 2-3
2.4.1. IVG-7000 Series Connection Setup and Options.................................. 2-3
2.4.2. Power Connection ........................................................................... 2-4
2.5. IVG Software Update Procedure ..................................................................... 2-5
2.6. Initialization And Configuration....................................................................... 2-7
2.6.1. Powering Up................................................................................... 2-7
2.6.2. Initialization Sequence..................................................................... 2-7
2.6.3. Initial Parameters Set-up ................................................................. 2-7

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Section 3 Operational Processes.............................................................. 3-1
3.1. General ..............................................................................................................3-1
3.2. Cross-Connect...................................................................................................3-1
3.2.1. Transrating.....................................................................................3-2
3.2.2. Preprovision ...................................................................................3-2
Section 4 IVG-7000 Front Panel Interface............................................. 4-1
4.1. IVG-7000 Front Panel.......................................................................................4-1
4.2. Front Panel Menu Operational Concept...........................................................4-2
4.2.1. Screen Types..................................................................................4-2
4.2.2. Keypad Control ...............................................................................4-3
4.2.3. Default Screen................................................................................4-4
4.2.4. Front Panel Tree..............................................................................4-4
4.3. Main Menu .........................................................................................................4-6
4.4. Configuration Menu...........................................................................................4-7
4.4.1. IP Addressing .................................................................................4-7
4.4.2. ASI Input Ports ...............................................................................4-8
4.4.3. ASI Output Port ..............................................................................4-9
4.5. Input Streams Menu.......................................................................................4-11
4.5.1. Input Ports Table .......................................................................... 4-11
4.5.2. Input Transport Streams Table ....................................................... 4-12
4.5.3. Input Services Table...................................................................... 4-12
4.5.4. Input Service Management............................................................. 4-13
4.6. Output Streams Menu ....................................................................................4-14
4.6.1. Output Ports Table ........................................................................ 4-14
4.6.2. Output Transport Streams Table ..................................................... 4-15
4.6.3. Output Services Table.................................................................... 4-15
4.6.4. Output Service Management........................................................... 4-16
4.7. Monitoring Menu .............................................................................................4-16
4.7.1. Event Log..................................................................................... 4-17
4.7.2. Chassis Health .............................................................................. 4-17
4.8. Actions & Procedures Menu............................................................................4-18
4.8.1. Reset Unit .................................................................................... 4-18
4.8.2. Remove All Cross Connections ........................................................ 4-18
4.9. Unit Information Menu ...................................................................................4-19
4.9.1. Unit Identity ................................................................................. 4-19
4.9.2. Software Versions ......................................................................... 4-19
4.9.3. License ........................................................................................ 4-20
4.9.4. Unit Time ..................................................................................... 4-20
Section 5 IVG-7000 Command Line Interface....................................... 5-1
5.1. General ..............................................................................................................5-1
5.1.1. Preparing the CLI ............................................................................5-1
5.1.2. CLI Navigation and Operation Guidelines............................................5-3
5.1.3. CLI Command Structure...................................................................5-5
5.1.4. IVG-7000 Initialization Sequence ......................................................5-5
5.2. Monitoring Commands......................................................................................5-6
5.2.1. Input Monitoring Commands.............................................................5-6
5.2.2. Output Monitoring Commands......................................................... 5-13

User Manual
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Page x (Rev 2.0 / Jan. 2005)
5.2.3. Cross Connections Monitoring Commands ........................................ 5-17
5.2.4. Statistics Monitoring Commands ..................................................... 5-22
5.2.5. filesystm Commands ..................................................................... 5-24
5.2.6. Ethernet Monitoring Commands ...................................................... 5-29
5.2.7. Logger Monitoring Commands ........................................................ 5-30
5.2.8. System Monitoring Commands ....................................................... 5-31
5.2.9. CAS Monitoring Commands ............................................................ 5-32
5.2.10. Descriptors Commands ................................................................ 5-33
5.2.11. PSI_SI Commands ...................................................................... 5-36
5.2.12. Scrambling Commands ................................................................ 5-36
5.2.13. Clock Commands ........................................................................ 5-37
5.3. Configuration Commands .............................................................................. 5-38
5.3.1. Input Configuration Commands ...................................................... 5-38
5.3.2. Output Configurations Commands................................................... 5-40
5.3.3. Scrambling Configuration............................................................... 5-48
5.3.4. Cross connect Commands .............................................................. 5-51
5.3.5. Statistics Configuration Commands ................................................. 5-59
5.3.6. Filesystem Commands................................................................... 5-61
5.3.7. Ethernet Configurations Commands................................................. 5-66
5.3.8. Logger Configuration Commands .................................................... 5-68
5.3.9. CAS Monitoring Command.............................................................. 5-69
5.3.10. Clock Commands ........................................................................ 5-73
5.3.11. Descriptors Commands ................................................................ 5-76
5.3.12. PSI_SI Commands ...................................................................... 5-81
5.4. Administration Commands ............................................................................ 5-82
5.4.1. users Command............................................................................ 5-82
5.4.2. timeout command......................................................................... 5-82
5.4.3. change_password command........................................................... 5-82
5.4.4. new_user command ...................................................................... 5-83
5.4.5. delete_user command ................................................................... 5-83
5.4.6. ping command.............................................................................. 5-83
5.4.7. connections command ................................................................... 5-84
5.4.8. drop_connection command ............................................................ 5-84
5.4.9. get_product_id command .............................................................. 5-84
5.4.10. show_license_key command......................................................... 5-84
5.4.11. set_license_key command............................................................ 5-85
5.5. Reset Commands ........................................................................................... 5-86
5.5.1. factory_default Command .............................................................. 5-86
5.5.2. restart Command.......................................................................... 5-86
Section 6 IVG-7000 Element Management System.............................. 6-1
6.1. Introduction ...................................................................................................... 6-1
6.1.1. Starting the EMS............................................................................. 6-2
6.1.2. EMS Main screen............................................................................. 6-5
6.1.3. Platform Environment...................................................................... 6-8
6.1.4. Saving Configuration Changes (IVG Management) ............................ 6-10
6.2. Device Panel (IVG Management) .................................................................. 6-11
6.3. Configuration (IVG Management)................................................................. 6-15
6.3.1. Entity (IVG Management) .............................................................. 6-17

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Scopus Documents (p/n 100463) Page xi
6.3.2. Host Information (IVG Management) ............................................... 6-19
6.3.3. License Permissions (IVG Management) ........................................... 6-21
6.3.4. Snmp Statistics (IVG Management) ................................................. 6-23
6.3.5. System Information (IVG Management)........................................... 6-25
6.4. Bit Rate Chart (IVG Management) ................................................................6-26
6.5. Stream Information (IVG Management).......................................................6-28
6.5.1. General........................................................................................ 6-28
6.5.2. ASI IN Configuration (Stream Information) ...................................... 6-33
6.5.3. ASI OUT Configuration (Stream Information).................................... 6-45
6.5.4. GbE Configuration (Stream Information) .......................................... 6-56
6.6. Cross Connection Wizard (IVG Management) ..............................................6-69
6.6.1. Step one: Selecting a Source (Cross Connection Wizard).................... 6-70
6.6.2. Step Two: Selecting a Target (Cross Connection Wizard).................... 6-72
6.6.3. Step Three: Validity Checking (Cross Connection Wizard)................... 6-73
6.6.4. Step Four: Program Editing (Cross Connection Wizard) ...................... 6-74
6.6.5. Step Five: PID Editing (Cross Connection Wizard) ............................. 6-76
6.6.6. Step Six: Cross Connection Activation (Cross Connection Wizard) ....... 6-77
6.7. ASI IN Port Management ...............................................................................6-78
6.7.1. Bandwidth Chart (ASI IN)............................................................... 6-78
6.7.2. Configuration (ASI IN) ................................................................... 6-80
6.8. ASI OUT Port Management ............................................................................6-83
6.8.1. Bandwidth Chart (ASI OUT)............................................................ 6-83
6.8.2. Configuration (ASI OUT) ................................................................ 6-84
6.9. Giga-Bit Ethernet (GbE) .................................................................................6-89
6.9.1. Configuration (GbE)....................................................................... 6-89
6.10. Management Ports and Environment Configuration ....................................6-93
6.10.1. Fast Ethernet Port Configuration.................................................... 6-93
6.10.2. Fan Management......................................................................... 6-94
6.10.3. Power Supply Management........................................................... 6-94
6.11. Conditional Access ..........................................................................................6-94
6.11.1. Adding an ECM Generator............................................................. 6-95
6.11.2. Remove an ECM Generator ........................................................... 6-98
6.11.3. Adding an EMM Generator ............................................................ 6-98
6.11.4. Remove an EMM Generator......................................................... 6-102
6.11.5. Scrambling settings ................................................................... 6-102
6.11.6. Cross Connecting Pre-Encrypted Programs ................................... 6-106
6.11.7. CA Parameters Display............................................................... 6-107

User Manual
Front Matter
Page xii (Rev 2.0 / Jan. 2005)
LIST OF FIGURES
Figure 1-1: The Scopus IVG-7000 Platform – General View......................................... 1-2
Figure 1-2: The Scopus IVNTM
Solution ...................................................................... 1-4
Figure 1-3: The IVG-7000 Series in an IVNTM
Backbone Solution.................................1-10
Figure 1-4: Content Contribution and Distribution over IP Networks ...........................1-11
Figure 1-5: IVG-7000 Head-End Clustering Solutions .................................................1-13
Figure 1-6: Intelligent Regional/Edge Head-End Solution ...........................................1-14
Figure 1-7: The IVG-7300 in an Intelligent Digital Turnaround Application ..................1-15
Figure 1-8: The IVG-7400 in a Broadband IP Streaming Application ...........................1-16
Figure 1-9: IVG-7000 Simulcrypt V.3 Interfaces ........................................................1-17
Figure 1-10: IVG-7000 in an Ad-Insertion Application..................................................1-18
Figure 1-11: IVG-7000 Series EMS .............................................................................1-19
Figure 1-12: Moving Up in the TMN Layers .................................................................1-20
Figure 1-13: IVG-7000 Basic Configuration Functional Block Diagram ...........................1-24
Figure 1-14: IVG-7000 Front Panel.............................................................................1-25
Figure 1-15: IVG-7000 Series of Intelligent Video Gateways - Rear View ......................1-25
Figure 2-1: IVG-7000 Series of Intelligent Video Gateways - Rear View ....................... 2-3
Figure 2-2: IVG-7000 Jack Screw Ground Connection ................................................. 2-4
Figure 4-1: IVG-7000 Front Panel.............................................................................. 4-1
Figure 4-2: Edit Menu Example ................................................................................. 4-2
Figure 4-3: Table Menu Example............................................................................... 4-3
Figure 4-4: Simple Edit Screen Example..................................................................... 4-3
Figure 4-5: Multiple Choices Edit Screen Example....................................................... 4-3
Figure 4-6: Main Screen............................................................................................ 4-4
Figure 4-7: Front Panel Tree ..................................................................................... 4-5
Figure 4-8: Main Menu Display.................................................................................. 4-6
Figure 4-9: Configuration Menu Display ..................................................................... 4-7
Figure 4-10: IP Addressing Menu Display..................................................................... 4-7
Figure 4-11: IP Address Edit Menu Display................................................................... 4-8
Figure 4-12: ASI Input Ports - Table Menu Display....................................................... 4-9
Figure 4-13: ASI Output Port Table Menu Display ........................................................ 4-9
Figure 4-14: ASI Output Port Edit Menu Display..........................................................4-10
Figure 4-15: Input Port Table Menu Display................................................................4-11
Figure 4-16: Input Transport Stream - Table Menu Display..........................................4-12
Figure 4-17: Input Services - Table Menu Display........................................................4-12
Figure 4-18: Input Service – Edit Menu Display...........................................................4-13
Figure 4-19: Output Ports - Table Menu Display..........................................................4-14
Figure 4-20: Output Transport Stream – Table Menu Display.......................................4-15
Figure 4-21: Output Services - Table Menu Display .....................................................4-15
Figure 4-22: Output Service Management - Edit Menu Display .....................................4-16
Figure 4-23: Monitoring - Menu Display ......................................................................4-16
Figure 4-24: Event Log Display ..................................................................................4-17
Figure 4-25: Chassis Temperature Menu.....................................................................4-17
Figure 4-26: Actions & Procedures Menu Display.........................................................4-18
Figure 4-27: Unit Information Menu Display................................................................4-19
Figure 4-28: License Menu Display .............................................................................4-20

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Scopus Documents (p/n 100463) Page xiii
Figure 4-29: License Menu Display............................................................................. 4-20
Figure 5-1: COM x Properties Dialog Box....................................................................5-2
Figure 5-2: IVG-7000 Menu Tree Structure.................................................................5-5
Figure 6-1: EMS Graphical User Interface ...................................................................6-1
Figure 6-2: Mount Wizard –Step 1 .............................................................................6-3
Figure 6-5: EMS Main Screen.....................................................................................6-5
Figure 6-6: EMS Tool Bar ..........................................................................................6-7
Figure 6-7: Explorer Window .....................................................................................6-8
Figure 6-8: A Window Example..................................................................................6-9
Figure 6-9: Save Command ..................................................................................... 6-10
Figure 6-10: IVG-7000 Management .......................................................................... 6-11
Figure 6-11: Device Panel Window: IVG-7000 with two outputs................................... 6-12
Figure 6-12: Device Panel Window: IVG-7000 with four outputs.................................. 6-12
Figure 6-13: IVG Configuration.................................................................................. 6-15
Figure 6-14: Configuration Window............................................................................ 6-16
Figure 6-15: Entity Window....................................................................................... 6-18
Figure 6-16: Host Information window....................................................................... 6-20
Figure 6-17: License Permissions window................................................................... 6-22
Figure 6-18: SNMP Statistics Window......................................................................... 6-24
Figure 6-19: System Information window................................................................... 6-26
Figure 6-20: Bit Rate Chart........................................................................................ 6-27
Figure 6-21: IVG Context Menu ................................................................................ 6-28
Figure 6-22: Stream Information Window .................................................................. 6-29
Figure 6-23: Gigabit Ethernet Context Menu............................................................... 6-30
Figure 6-24: Logical Interface parameters dialog ........................................................ 6-30
Figure 6-25: I/O Tree Context Menu .......................................................................... 6-32
Figure 6-26: ASI IN Parameters................................................................................. 6-33
Figure 6-27: ASI IN-Port Parameters.......................................................................... 6-35
Figure 6-28: ASI IN-Network Parameters ................................................................... 6-37
Figure 6-29: ASI IN-Stream Parameters ..................................................................... 6-39
Figure 6-30: ASI IN-Service Parameters ..................................................................... 6-41
Figure 6-31: ASI IN- Elementary Stream Parameters .................................................. 6-43
Figure 6-32: ASI OUT Parameters.............................................................................. 6-45
Figure 6-33: ASI OUT-Port parameters....................................................................... 6-46
Figure 6-34: ASI OUT-Network Parameters ................................................................ 6-48
Figure 6-35: ASI OUT-Stream Parameters .................................................................. 6-50
Figure 6-36: ASI OUT-Service Parameters.................................................................. 6-52
Figure 6-37: ASI OUT-PID Parameters ....................................................................... 6-54
Figure 6-38: GbE Parameters .................................................................................... 6-56
Figure 6-39: GbE-Broadcast Parameters..................................................................... 6-58
Figure 6-40: GbE Network Parameters ....................................................................... 6-60
Figure 6-41: GbE-Stream Menu Parameters................................................................ 6-62
Figure 6-42: GbE-Service Parameters......................................................................... 6-64
Figure 6-43: GbE-PID Parameters.............................................................................. 6-66
Figure 6-44: Cross Connection Wizard........................................................................ 6-69
Figure 6-45: Cross Connection Wizard Step one: Selecting a source............................. 6-71
Figure 6-46: Cross Connection Wizard Step two: Selecting a Target............................. 6-72

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Page xiv (Rev 2.0 / Jan. 2005)
Figure 6-47: Cross Connection Wizard Step three: Validation Check .............................6-73
Figure 6-48: Cross Connection Wizard Step four: Program Editing with Joint Transrating6-75
Figure 6-49: PID Editing ............................................................................................6-75
Figure 6-50: Cross Connection Wizard Step five: PID Editing .......................................6-76
Figure 6-51: Cross Connection Wizard Step Six: Cross Connection Activation ................6-77
Figure 6-52: Bandwidth Chart Window (ASI IN) ..........................................................6-79
Figure 6-53: Port Configuration Window (ASI IN)........................................................6-81
Figure 6-54: DVB IN Window (ASI IN)........................................................................6-82
Figure 6-55: Bandwidth Chart Window (ASI OUT) .......................................................6-84
Figure 6-56: Port DVB Configuration Window (ASI OUT)..............................................6-86
Figure 6-57: EMM Output PID Wizard dialog ...............................................................6-87
Figure 6-58: EMM Output PID (ASI OUT)....................................................................6-88
Figure 6-59: IP Address Window (GbE) ......................................................................6-90
Figure 6-60: Port Configuration (GbE) ........................................................................6-92
Figure 6-61: CA Configuration Window.......................................................................6-96
Figure 6-62: ECM Generator Wizard ...........................................................................6-97
Figure 6-63: ECM Generator display ...........................................................................6-98
Figure 6-64: EMM Generator context menu.................................................................6-99
Figure 6-65: EMM Generator wizard .........................................................................6-100
Figure 6-66: EMM Generator display.........................................................................6-102
Figure 6-67: Scrambling context menu .....................................................................6-103
Figure 6-68: Scrambling settings dialog box..............................................................6-104
Figure 6-69: Add Scrambling dialog box ...................................................................6-105
Figure 6-70: Cross connecting an EMM.....................................................................6-107
Figure 6-71: ECM parameters Display.......................................................................6-108
Figure 6-72: EMM parameters Display ......................................................................6-109
LIST OF TABLES
Table 1-1: IVG-7000 Series Configuration Options....................................................1-22
Table 1-2: IVG-7000 Series - Typical Connector Interfaces .......................................1-26
Table 1-3: IVG-7000 Series of Intelligent Video Gateways ........................................1-28
Table 2-1: IVG-7000 Series - Typical Connector Interfaces ........................................ 2-3
Table 5-1: Default Accounts in the CLI ..................................................................... 5-3
Table 6-1: EMS Menu Bar ........................................................................................ 6-6
Table 6-2: Device Panel Management......................................................................6-13
Table 6-3: Entity Parameters ..................................................................................6-17
Table 6-4: Host Information Parameters..................................................................6-19
Table 6-5: License Permissions Parameters..............................................................6-21
Table 6-6: SNMP Statistics Parameters ....................................................................6-23
Table 6-7: System Information Parameters..............................................................6-25
Table 6-8: Stream Information Context Menu Items.................................................6-31
Table 6-9: ASI IN Parameters Description................................................................6-34
Table 6-10: ASI IN-Port Parameters Description.........................................................6-36
Table 6-11: ASI IN-Network Parameters Description ..................................................6-38
Table 6-12: ASI IN-Stream Parameters Description ....................................................6-40
Table 6-13: ASI IN-Service Parameters Description ....................................................6-42
Table 6-14: ASI IN- Elementary Stream Parameters Description..................................6-44

CODICO®
IVG-7000 Series
Scopus Documents (p/n 100463) Page xv
Table 6-15: ASI OUT Parameters Description ............................................................ 6-46
Table 6-16: ASI OUT-Port Parameters Description ..................................................... 6-47
Table 6-17: ASI OUT-Network Parameters Description............................................... 6-49
Table 6-18: ASI OUT-Stream Parameters Description................................................. 6-51
Table 6-19: ASI OUT-Service Parameters Description................................................. 6-53
Table 6-20: ASI OUT-PID Parameters Description...................................................... 6-55
Table 6-21: GbE Parameters Description................................................................... 6-57
Table 6-22: GbE-Broadcast Parameters Descriptions.................................................. 6-59
Table 6-23: GbE-Network Parameters Descriptions .................................................... 6-61
Table 6-24: GbE-Stream Parameters Descriptions...................................................... 6-63
Table 6-25: GbE-Service Parameters Descriptions...................................................... 6-65
Table 6-26: GbE-PID Parameters Descriptions........................................................... 6-67
Table 6-27: Port DVB Configuration Parameters ........................................................ 6-68
Table 6-28: Port DVB Configuration Parameters (ASI OUT) ........................................ 6-85
Table 6-29: EMM Output PID Wizard dialog parameters............................................. 6-88
Table 6-30: EMM Output PID (ASI OUT) ................................................................... 6-88
Table 6-31: IP Address Parameters (GbE) ................................................................. 6-91
Table 6-32: ECM General wizard parameters ............................................................. 6-97
Table 6-33: EMM General wizard parameters .......................................................... 6-101
Table 6-34: Add Scrambling dialog parameters........................................................ 6-106

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IVG-7000 Series
Scopus Documents (p/n 100463) Page 1-1
Section 1
OVERVIEW
1.1. GENERAL INFORMATION
The Scopus IVG-7000 Series of Intelligent Video Gateways is part of Scopus’ 4th
generation product line. It is the cornerstone of the Scopus Intelligent Video
Network (IVNTM
) architecture, which provides a powerful, yet cost effective solution
for the delivery of digital TV content and on-demand services over broadband
network infrastructures.
The IVG-7000 Series offers a new and sophisticated video routing and processing
platform that provides the core building blocks for the next generation of network
architectures. As such, the 1 RU slim-size IVG-7000 platform enables service
providers to deploy broadband, broadcast, and on-demand services over their
current and future infrastructure.
The IVG-7000 Series consists of the following application oriented members:
a. The Scopus IVG-7100 Intelligent Head-End Video Gateway
A scalable “Head-End in a Box” solution for the most advanced head-end
services.
b. The Scopus IVG-7200 Intelligent Edge Video Gateway
The edge device for video distribution over a backbone network (typically IP).
c. The Scopus IVG-7300 Intelligent Video Re-Multiplexer
Provides powerful transport stream processing with comprehensive digital
turnaround solutions.
d. The Scopus IVG-7400 Intelligent Broadband IP Streamer
Features grooming and delivery of Digital TV content over IP networks for
TV-over-DSL and FTTH networks.

User Manual
Overview
Page 1-2 (Rev 2.0 / Jan. 2005)
Figure 1-1: The Scopus IVG-7000 Platform – General View
The following is a list of some of the main features provided by the IVG-7000
Series:
• Multiple inputs and outputs (ASI, GbE) providing full video routing and
grooming to the PID level.
• Networking support for routing Video and Data over IP/ATM infrastructure.
• Distributed architecture using BoB (Broadcast over Broadband) technology
for networking and packet de-jittering.
• Built in DVB-Scrambling, Simulcrypt V.3 and Open CAS support..
• Full head-end integration including CA integration, PSI/SI and PSIP
processing and insertion.
• Digital to Digital processing including:
- Bit Rate Transcoding (SD and HD)
- Joint Transrating (JT); statistical re-multiplexing for bandwidth optimization
of multiple video services
- VBR CBR rate shaping
• End-to-End SNMP management for the entire network down to Service and
PID level.
• Advanced redundancy solutions eliminating the need of external matrix.
• Aggregate inputs rate up to 2.5 Gbps and outputs rate up to 2 Gbps (version
dependent).
• DVB over IP streaming for Telco DTH applications (using GbE output).
• Seamless clustering of several IVG-7100 Head-End units using a standard
GbE switch, with single entity management.
• Slim-line 1RU design with remarkable port density:
- Up to 16 ASI inputs
- Up to 6 ASI outputs
- Gigabit Ethernet port (input or output)

CODICO®
IVG-7000 Series
1.2. SCOPUS INTELLIGENT VIDEO NETWORK
(IVNTM
) CONCEPT
The Scopus Intelligent Video Network (IVNTM
) concept represents the next
generation for cable video networking. IVNTM
provides a new perspective for the
video world: It handles video in the same way that data and the voice are handled,
via video routing.
The IVNTM
concept answers the needs of both DTH broadcasters and video C&D
service providers. Distributed and scalable, the IVNTM
uses patented technology to
route video over the network. Due to its network homogeneity, the IVNTM
also
provides low cost solutions per service and lowers OPEX. Its distributed architecture
management system, based on state of the art technologies, assists cable
operators to advance into a new world of management. Scopus IVNTM
solution is
capable of controlling the whole spectrum as well as managing flexible, scalable
solutions for gradual deployment.
1.2.1. The Scopus IVNTM
Architecture
The Scopus IVNTM
comprehensive architecture utilizes the entire network
infrastructure and enables two-dimensional control over bandwidth to support end-
to-end solutions - from the Master Head-End, through the network backbone, up to
the Regional Head-Ends and down to the nodes.
Scopus IVNTM
solution replaces the limited capabilities of the traditional multiplexers
with intelligent networks based on Intelligent Video Gateways (IVGs). The
IVG-7000 provides digital-to-digital processing and supports different types of
backbones (ATM or IP oriented) as well as QAM outputs for Hybrid Fiber-Coaxial
(HFC) networks. A single management system, working at the service level, yields
additional advantages, especially when the network supports many services along
the transmission chain, such as service restoration by routing content from one
node to the other.

User Manual
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Page 1-4 (Rev 2.0 / Jan. 2005)
Figure 1-2: The Scopus IVNTM
Solution
Video
Server
Billing
SMS
Video
Server
NODE
NODE
NODE
HUB
Video
Server
Remote HE
Master HE
IRD
Enc
Enc
CID
IVG 7100
Video
Server
NODE
NODE
NODE
HUB
Video
Server
NODE
NODE
NODE
HUB
HUB
HUB
IP Network
IVG 7200
IVG 7200
IVG 7200
IVG 7200
1.2.1.1. Head-Ends
Scopus IVNTM
represents the next generation of head ends. The core of the head
end will be the IVG-7100 for supporting broadcasting content as well as
personalized services. For a scalable solution, several IVGs can be aggregated to
create a head end in a box, offering complete processing, re-mapping, transrating,
and a statistical multiplexing solution that handles locally encoded and off-air pre-
compressed content. This solution relies on GbE switch as an internal matrix,
eliminating the requirement for external digital matrixes. And once this is
integrated with Conditional Access platforms, IVNTM
becomes a head end, directly
addressing digital pay TV delivery and video on-demand applications.
1.2.1.2. Backbone
IVNTM
uses a Giga Bit Ethernet (GbE) IP based protocol to provide a cost effective
solution comparable to current ATM and SONET/SDH networks.
The GbE IP protocol enables utilization of the strengths of the data world to route
services, as opposed to the traditional broadcasting world. In addition, the network
supports future developments, such as multicast transmission to subscriber homes.
The IVNTM
is designed for IP networks and employs internal mechanisms to handle
jittering over the backbone and incorporate multicast / unicast capabilities for
contribution and distribution.
1.2.1.3. Edge Processing
Edge Processing is the future direction for networks with a ‘steadily growing hunger’
for bandwidth. Edge processing is a natural migration path from today trans-

CODICO®
IVG-7000 Series
modulators at the edges to smart edge devices based on generic platforms ready
for tomorrow’s needs.
The IVNTM
devices act as ”smart” edges for providing content processing, rate
reduction, grooming and re-multiplexing for new bouquet creation. Their output
signals are transmitted over the HFC using QAM.
The Edge device improves access network utilization with transrating and
transcoding capabilities, supports sliced advertisements or segmented localized
content and enables connectivity with On-demand Applications (ODA). They also
enable dynamic bandwidth allocation, broadcast channel switching and create
dynamic spectrum allocation according to subscriber request. Simply put, the IVNTM
permits cable operators to cost effectively deploy personal services at their own
pace.
In addition to processing capabilities, Edge units can function as distributed
monitoring systems replacing the less preferable solution based on subscribers
reports. Video quality and transport regularity will also be monitored by the Edge
units and reported to the head-end for better allocation (transrating, transcoding)
of resources at the head-end.
1.2.1.4. Management
The NMS-7000 management system manages content flow and enables the IVNTM
to perform video routing. Working in the services level rather than on the
traditional devices level, the IVNTM
is positioned to control and distribute content in
the most efficient way.
Traditional service delivery upholding is based on box-level redundancy at the
head-end level. The IVNTM
concept replaces this with a more logical ”philosophy of
service level restoration” process based on Content Redundancy between head-
ends. The NMS-7000 manages the content flow over the backbone and at the HFC
Network, enabling head-ends to provide redundancy for each other and to facilitate
quick routing of services in case of any particular head-end failure.
1.2.2. IVG-7000 Technology Edge
The Scopus IVG-7000 Intelligent Video Gateway is a new and sophisticated
platform for video routing and processing. It provides the following technology
features:
1. Video Routing And Processing
Featuring a breakthrough patent pending network processing technology, the
IVG-7000 platform is capable of processing up to 4Gbps of video and data, all
in a 1RU enclosure. Its capability of aggregating multiple units over a GbE
switch, while maintaining management as a single entity, allows it to
significantly scale up processing power for hundreds of streams and services.
2. Bit-Rate Reduction And Joint Rate Allocation (JRA)
The IVG-7000 platform provides best of breed digital video processing
capabilities, such as bit rate reduction and statistical re-multiplexing, on any
of its outputs. The JRA capability of the IVG-7000 enables combining rate

User Manual
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Page 1-6 (Rev 2.0 / Jan. 2005)
controlled local encoders with rate reduced DTA services in the same
statistical multiplexing group, for most efficient and flexible bandwidth
allocation and management.
3. Conditional Access and Head-End Interfacing
The IVG-7000 features built in DVB scramblers per each output and seamless
integration with Conditional Access Systems using Simulcrypt open system
architecture. The IVG-7000 provides the full Simulcrypt V.3 functionality for
interfaces with ECM and EMM generators, as well as EIS schedulers and
PSI/SI generators. Adding its flexible PSI/SI generation and insertion
capabilities, the IVG-7000 forms the ultimate head-end unit for current and
future digital video applications.
45.On-demand Solutions
The On-Demand world, with its Video On-demand (VOD) flagship, is
challenging the bandwidth utilization and management to new levels. The
IVG-7000 Series is designed to integrate with video servers and on-demand
applications, utilizing DSA™ dynamic session allocation technology for
optimized use of bandwidth resources to balance broadcast and on-demand
services.
5. Digital Program Insertion
Seamless splicing as well as support of DPI standards SCTE 30 (DVS-380)
and SCTE 35 (DVS-253) will enable the compatibility of the IVG-7000 Series
with major ad server providers for an integrated Ad-Insertion solution.
6. IVG-7000 Management
The IVG-7000 platform provides top-of-the line management using friendly
and intuitive local and remote management tools.
The IVG-7000 Front Panel Control provides extended monitoring and control
features for local management, including alpha-graphic display and full
numerical keyboard as well as a navigation keypad for menu driven
operation.
The Command Line Interface (CLI) provides the local, or a remote operator,
the tools to monitor, configure and control the IVG-7000 using a PC
based terminal. Interface to the IVG-7000 is provided over RS-232 or as
standard Telnet client.
The IVG-7000 Element Management System uses SNMP commands to
provide an extensive graphic user interfaces (GUI) for managing the
IVG-7000 from dedicated EMS terminal or from the CODICO®
NMS-4000
and the new TMN based NMS-7000 network management systems.

CODICO®
IVG-7000 Series
1.2.3. Scopus IVG-7000 Series of Intelligent Video
Gateways
The IVG-7000 Series of Intelligent Video Gateways features the following
application oriented members:
1. IVG-7100 Intelligent Head-End Video Gateway
The IVG-7100 provides a scalable “Head-End in a Box” solution for the most
advanced head-end services. It is the basic building block of the IVNTM
architecture and is designed to interface with the essential head-end and
network element, to support hundred of services, to provide advanced video
processing capabilities and to enable and control advanced personal and on-
demand services. Multiple IVG-7100 units may be clustered over a GbE
switch and managed as single entity to provide optimized bandwidth
utilization and to simplify network management.
2. IVG-7200 Intelligent Edge Video Gateway
The IVG-7200 is located at the secondary head-end or the local hub in the
IVNTM distributed solution. It is used as the edge device for video distribution
over a backbone network (typically IP). It provides cost effective solutions for
distributed and local video processing and on-demand features as well as
QAM modulation and up-conversion capabilities for video distribution over
HFC networks.
3. IVG-7300 Intelligent Video Re-Multiplexer
The IVG-7300 is providing powerful transport stream processing with
comprehensive digital turnaround solutions. It features advanced digital
processing, bit-rate reduction, flexible grooming, statistical re-multiplexing
and multi-input to multi-output routing capabilities for extensive transport
stream management. The extensive DTA solutions the IVG-7300 features
include PSI/SI and PSIP processing, EPG insertion, integration with CA
systems and full support for personalized services such as Ad-Insertion, Pay-
Per-View and Video On-Demand services.
4. IVG-7400 Intelligent Broadband IP Streamer
The IVG-7400 is a fully featured broadband IP streamer, providing grooming
and delivery of Digital TV content over IP networks for TV-over-DSL and
FTTH networks. It supports hundreds of TV services, transported at wire-
speed over the IVG-7400 GbE output.
1.2.4. IVG-7000 Highlights and Benefits
The IVG-7000 Series features the following highlights and benefits:
Inputs • Up to 16 DVB ASI inputs (MPTS and SPTS)
• Up to 170 Mbps data rate per ASI input.
• GbE port for clustering and distributed applications
• Aggregate inputs rate 2 Gbps

User Manual
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Page 1-8 (Rev 2.0 / Jan. 2005)
Outputs • Up to 6 independent DVB ASI outputs
• Up to 170 Mbps data rate per ASI output
• GbE port for clustering, distributed applications, IP
streaming
• Aggregate outputs rate 2 Gbps
Control interfaces • 3 independent 100BaseT interfaces for management
and external systems.
• 10BaseT management interface
• RS-232 for Command Line Interface control
• Dry contact alarm inputs/outputs
Clocking • Internal clock reference output
• External clock input
Video Routing/Re-
multiplexing
The IVG-7000 platform provides a video routing engine
capable of performing re-multiplexing/grooming in any
level – stream, service or component, from any input to
any output.
A hierarchical representation of inputs and outputs
allows very easy yet powerful and flexible management
and resource allocation.
Input/output
density
Although enclosed in a 1RU sized box, the IVG-7000
Series provides up to 16 ASI inputs, and up to 6
independent ASI outputs, in addition to network and
management interfaces.
Scalability
Multiple Devices,
Single Entity
Stackable solution allowing clustering of several
IVG-7100 units connected over a standard GbE switch.
This allows reaching tens of inputs and outputs, handling
hundreds of services, all managed as a single entity.
Conditional Access
(optional)
IVG-7000 platform provides a built in DVB scrambler for
any of the outputs (up to 100 Mbps scrambled bit rate).
It can integrate with all leading CA systems using
Simulcrypt protocol to provide end-to-end secure
transmission.
Digital to digital
processing
• Transrating capabilities CBR <----> VBR (up to 48
programs, rate dependant)
• Ready for future audio/video transcoding applications
PSI/SI
management
Self-generation of PSI/SI information or insertion from
an external generator.

CODICO®
IVG-7000 Series
Device
management
The IVG-7000 Series can be managed by any of the
following means:
• SNMP based Element Manager System (EMS)
• Graphical front panel control
• Powerful textual command line interface (CLI) –
remotely over Telnet or locally over RS232
End-to-end
management
The IVG-7000 uses the Scopus new NMS-7000 system
(TMN based) to provide overall network management,
with PID level end-to-end routing and control
Transport stream
monitoring
Extensive monitoring of all input streams based on DVB
measurement specification ETR-290

User Manual
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Page 1-10 (Rev 2.0 / Jan. 2005)
1.3. APPLICATIONS
1.3.1. IVNTM
Head-End and Distributed Backbone
Solution
) concept is an overall solution for
video distribution over a distributed network (typically an IP based network). The
IVNTM
concept offers different levels of edge processing. It is based on distributed
processing between Main/Regional Head-Ends and Remote Head-Ends/Hubs. The
IVG-7000 Series features the following building blocks for the implementation of
the IVNTM
distributed network (see Figure 1-3):
a. IVG-7100 Scalable “Head-End-in-a-Box”
The Scopus IVG-7100 Intelligent Head-End Video Gateway provides a
scalable “Head-End-in-a-Box” solution for the most advanced head-end
services. Several units can be clustered over a GbE switch and be managed
as a single entity. It supports hundreds of services, video processing such as
joint transrating and digital program insertion, interfacing with essential
head-end components and enabling advanced personalized services, all while
optimizing bandwidth utilization across the head-end and simplifying network
management.
b. IVG-7200 Intelligent Edge Device
The IVG-7200 Intelligent Edge Video Gateway is used at the edge of the
IVNTM distributed network as remote hubs and secondary head-ends. It can
provide the entire range of edge processing capabilities such as grooming,
transrating and VOD support, as well as QAM modulation and up-conversion.
The IVG-7200 also uses the BoB™ (Broadcast over Broadband) de-jittering
technology to overcome typical network jittering.
Figure 1-3: The IVG-7000 Series in an IVNTM
Backbone Solution

CODICO®
IVG-7000 Series
1.3.2. C & D Solutions using the IVG-7000 Platform
High quality video content for Contribution & Distribution (C&D) applications is
often transported over expensive switched circuit PDH/SDH or packet switched over
ATM networks. Technological evolution now enables operators to deploy cost-
effective solutions for delivering high quality video content over Gigabit Ethernet
(GbE) based IP networks.
Yet, the GbE based solution provided by Scopus’ Intelligent Video Network (IVN™)
represents a new concept for cost-effective delivery of content over IP networks.
The IVN™ provides a new topology for the video world: it handles video in the
same manner that data and voice are handled today by IP networks, i.e. video
routing.
The IVN™ concept provides a comprehensive end-to-end system solution for C&D
applications (see illustration in Figure 1-4).
Figure 1-4: Content Contribution and Distribution over IP Networks
IPIP
The IVG-7000 Intelligent Video Gateway platforms are the technological evolution
building blocks provided by the Scopus IVN™ architecture to offer the FIRST real
broadcast video routing system. Using broadcast switching and monitoring
capabilities; IVN™ provides an end-to-end solution for IP/GbE and hybrid networks.

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This unique technology enables the smooth transmission of high-quality video on
data-like infrastructure, resulting in the ability to process a large quantity of video
streams. Furthermore, it addresses and answers the most common concerns of the
operators and broadcasters:
a. Cost Effectiveness
The total (CAPEX & OPEX) costs for implementing IP/GbE solutions are
significantly lower than those of ATM-based solutions. For example:
The cost of GbE solutions can be as little as 10% of the total of a standard
ATM solution
The cost of IP routers is approximately one-tenth of ATM routers (CAPEX)
Outlays for IP network maintenance (OPEX) represent significant savings
due to the availability of professionals able to perform this service.
b. Technology
The technological evolution of IP interfaces and protocols enable easy
migration to broadcast video with the highest broadcast quality and QoS.
Evolving technologies enable Telco service providers to deliver reliable,
flexible and cost-effective video services using their existing infrastructure.
Yet, the challenge of delivering video streams on a packet switched network
is complicated by the method used to transport the stream. As streams travel
over the network, they are broken down into independent data packets. As a
result, some packets may be lost in the network, while other packets may
reach the receiver in an incorrect order, resulting in the creation of jitter.
The network must be capable of recovering and re-sequencing the data in its
proper order - in real-time – while simultaneously coping with lost packets
and minimizing data-transfer delay.
c. Management
Content management refers to the flexibility of routing a large quantity of
streams over IP in meshed topology. It requires a highly sophisticated
management system to monitor and control the distributed video equipment
within the network.
The Scopus NMS-7000 Telco- grade network management system
implements basic TMN FCAPS (Fault, Configuration, Accounting, Performance,
and Security) functionality at both the element and network levels. It is an
SNMP-based network management system, providing centralized service
management for controlling distributed video equipment from one or more
locations. The management system supports service level monitoring and
control of redundancy including site redundancy.
Scopus’ NMS 7000 provides a strong and effective service management level,
ensuring the highest service available, while minimizing service downtime. It
provides a drill-down GUI tool, from the service management level to the
device management level (EMS), providing local and remote redundancy and
monitoring.
In order to provide reliable transmission, the NMS 7000 utilizes advanced
fault prediction technology based on H/W monitoring capabilities that ensure
minimum down time.

CODICO®
IVG-7000 Series
1.3.3. IVG-7000 Head-End Clustering Solutions
) concept is based on the Head-end
clustering solution. The IVNTM
cluster is an innovative and flexible concept in
comparison to current awkward solutions of cascading. The IVNTM
scalability was
designed for steadily growing systems, saving the needs of architecture redesign.
The IVNTM
Head-End Cluster is a group of IVG-7100 gateways, acting as a single
system and enables high availability and resource sharing, with parallel processing
capabilities. In order to create a cluster, the IVG-7000 devices are aggregated
using the IVG-7000 GbE ports and a GbE switch, creating one entity of multi inputs
and outputs.
Creating the IVNTM
Head-End Cluster as a single entity enables the operator to
expand and grow the system by adding additional IVGs to an existing IVNTM
cluster
architecture - thus increasing the number of inputs, outputs, as well as resources
and processing power without the need to redesign the system architecture.
The aggregation is transparent to the user based on standard GbE switch with
internal redundancy mechanisms. Scopus IVNTM
cluster ensures investment
protection by providing flexibility to embrace evolving architectures and services;
scales from small networks to large networks with a "pay as you grow" capital
profile.
The IVNTM
clusters represent the next generation of content routing. The traditional
ASI digital matrixes are replaced by the cluster, which supports routing in all DVB
layers (up to the elementary level).
Figure 1-5: IVG-7000 Head-End Clustering Solutions

User Manual
Overview
Page 1-14 (Rev 2.0 / Jan. 2005)
1.3.4. Intelligent Regional/Edge Head-End Solution
Whether the cable network deployment is distributed, centralized or hybrid, Edge
Processing is the future direction for those networks with a ‘steadily growing
hunger’ for bandwidth. Edge processing is a natural migration path from today
trans-modulators at the edges to smart edge devices based on generic platform
that will support future needs. However, the key will be to make this transition in a
cost effective manner, enabling these devices to be economically profitable, even
located at the street corner.
• In most cases, current edges function as trans-modulation units. The IVN
devices act as ‘smart’ edges for providing content processing, rate reduction,
grooming and re-multiplexing for new bouquets creation. Their output signals
are transmitted over the HFC using QAM.
• The edge devices advanced abilities improve access network utilization with
transrating and transcoding capabilities, support sliced advertisements or
segmented content and enable connectivity with On-demand Applications
(ODA). They also enable dynamic bandwidth allocation, broadcast channel
switching and create dynamic spectrum allocation as per subscriber request.
Simply put, the IVN permits cable operators to cost effectively deploy
personal services at their own pace.
• In addition to processing capabilities, edge units can function as distributed
monitoring systems, replacing the less preferable solutions based on
subscriber’s reports. Video quality and transport regularity are monitored by
the edge units and reported to the head-end. For instance, feedback on the
distributed Hubs/Nodes and video quality enable better allocation
(transrating, transcoding) of resources at the head end.
Figure 1-6: Intelligent Regional/Edge Head-End Solution

CODICO®
IVG-7000 Series
1.3.5. Intelligent Digital Turnaround (DTA) Application
The increasing amount of digital content available from all over the world, paved
the way for digital turn around applications. These applications enable the operators
to receive content, process it and then retransmit it while staying in the digital
domain.
The Scopus IVG-7300 Intelligent Video Re-Multiplexer provides powerful digital
processing such as bit rate reduction, fully flexible grooming, statistical re-
multiplexing and extensive TS monitoring. The comprehensive DTA solution offered
by the IVG-7300 includes PSI/SI processing, EPG insertion, CA systems integration
and personalized services like Ad Insertion, Pay Per View and more. Figure 1-7
illustrates the application of the IVG-7300 in an intelligent DTA solution.
Figure 1-7: The IVG-7300 in an Intelligent Digital Turnaround Application
1.3.6. IP Streaming Application
The Scopus IVG-7400 Intelligent Broadband IP Streamer is a fully featured
broadband IP streamer. It provides grooming and delivery of digital TV content over
IP based networks, for the distribution of TV over DSL of FTTH networks. The
IVG-7400 supports hundreds of TV services transported at wire-speed over its
Gigabit Ethernet (GbE) output.
Figure 1-8 illustrates the application of the IVG-7400 in an intelligent DTA solution.

User Manual
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Page 1-16 (Rev 2.0 / Jan. 2005)
Figure 1-8: The IVG-7400 in a Broadband IP Streaming Application
1.3.7. Conditional Access
The IVG-7000 Series provides Conditional Access (CA) control for a wide range of
CA Systems over DVB Scrambling. This support includes:
• Fully compatible interfaces for CA Systems based on the Simulcrypt V.3
protocol
• Full support of standard Simulcrypt protocol
• Embedded scrambling
The IVG-7000 supports different Simulcrypt V.3 Interfaces, including (see Figure
1-9):
• EMMG-MUX interface:
This interface is used for providing the EMM data from the CA system to the
IVG-7000, to be inserted to the output streams.
• ECMG-SCS interface:
This interface is used for providing the ECM data from the CA system to the
Simulcrypt Synchronizer (SCS) embedded in the IVG-7000.
• EIS-SCS interface:
This interface is used for the EIS to control and schedule the scrambling
process. It dynamically provides the access criteria to support iPPV
applications. The OpenCAS version of this interface (as well as the Simulcrypt
version) is implemented in the IVG-7000.
• PSIG-MUX interface:
This interface is used to provide PSI/SI tables from an ASI output of a PSI/SI
generator to the IVG-7000, to be combined in the output transport stream.

CODICO®
IVG-7000 Series
Figure 1-9: IVG-7000 Simulcrypt V.3 Interfaces
1.3.8. Digital Ad-Insertion Application
Ad insertion allows for the addition of advertisements, or the insertion of
advertisements into the channel stream marked for advertisement. The most
common application of ad insertion is for local stations to insert local advertising
into international or national programs.
The digital head-ends use three basic techniques to perform ad-insertion:
• Analog ad insertion, decoding the incoming MPEG-2 encoded program to
base band level and inserting local content after it is decoded in the Video
Server.
• Hybrid ad insertion, inserting digital ads using analog DTMF insertion marks,
delivered in the audio information or as VBI.
• Digital ad insertion, including digital insertion of marks in the transport
stream, as SI tables. These encoders facilitate the insertion of the marks
according to the SCTE 35 standard (previously DVS 253). The ad-insertion
marks are detected by the Splicer (multiplexer) and provided to the Video
Server to mark where and when to insert the local information.
Today, ad insertion is primarily analog or hybrid, which means that it is expensive.
As technologies in the field develop, digital ad insertion will become increasingly
more common. Solutions being offered today at the head-end need to take into
consideration these developing needs.
Scopus architecture is designed to support digital ad insertion based on
technological cooperation with the leading video server companies in the field,
SeaChange®
and nCUBE®
, in combination with either IVG-7000 or Terayon®
Cherry
Picker slicing devices.
The splicers feature rate shaping and statistical multiplexing capabilities, and they
support SCTE 30 and 35 protocols according the CableLabs recommendations
(previously DVS 253,380).

User Manual
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Page 1-18 (Rev 2.0 / Jan. 2005)
The IVG-7000 will support DPI capabilities for both SCTE 30 and 35 protocols. The
next generation encoder will support SCTE 35 injections.
Scopus DTA solution decreases ad insertion costs by allowing direct placement of
ads into incoming streams. This eliminates the process of decoding to baseband,
inserting the ad, and then re-encoding the modified program.
Figure 1-10: IVG-7000 in an Ad-Insertion Application
1.3.9. Network and Element Management System
1.3.9.1. NMS-4000
The CODICO®
NMS-4000 is a powerful, easy-to-use, Broadcast Head-end Network
Management System. It provides a comprehensive management system for various
Scopus Network Technologies Ltd. devices, as well as 3rd party products for
seamlessly integrated monitoring and control of compression systems.
The NMS-4000 is based on a distributed architecture, where one or multiple
systems can be managed. A user-friendly graphical interface lets the operator drill
down from a high-level network view all the way down to the individual devices.
The operator can choose to manage the system(s) either locally or from a remote
location. Each system can be configured in a single channel per carrier (SCPC) or
multiple channels per carrier (MCPC) configuration.
The NMS-4000 makes network operation fast and efficient, eliminating the need for
separate, physical configuration of each network device. For example, the NMS-
4000 LINE allows a network operator to route different video, audio, and data input
sources to the IVG-7100 clusters in a Head-End to provide service provisioning and
fault identification, with a few mouse clicks. The NMS-4000 can also send remote
software updates and reconfigure distant IVG-7200 in Edge Head-Ends instantly
without interrupting the service.
The NMS-4000 provides full Element Management System (EMS) support for
monitoring and controlling remote and local IVG-7000 Series devices. Each device
is characterized by set of dialog boxes enable full configuration of the element
parameters.

CODICO®
IVG-7000 Series
Figure 1-11: IVG-7000 Series EMS

User Manual
Overview
Page 1-20 (Rev 2.0 / Jan. 2005)
1.3.9.2. NMS-7000
The Scopus NMS-7000 Network Management System is a Telco- grade network
management system implementing basic TMN FCAPS (Fault, Configuration,
Accounting, Performance, and Security) functionality at both the element and
network levels.
Figure 1-12: Moving Up in the TMN Layers
The NMS-7000 is SNMP-based, providing centralized service management for
controlling distributed video equipment from one or more locations. The
management system supports service level monitoring and control of redundancy
including site redundancy.
Scopus’ NMS 7000 provides a strong and effective service management level,
ensuring the highest service available, while minimizing service downtime. It
provides a drill-down GUI tool, from the service management level to the device
management level (EMS), enabling local and remote redundancy and monitoring.
In order to provide reliable transmission, the NMS 7000 utilizes advanced fault
prediction technology based on H/W monitoring capabilities that ensure minimum
down time.

CODICO®
IVG-7000 Series
1.4. FUNCTIONAL DESCRIPTION
This section provides functional description of the Scopus IVG-7000 Series of
Intelligent Video Gateways. This description includes definition of the basic,
standard and custom options available, a block-diagram level description of the
gateway architecture and description of its mechanical structure.
1.4.1. Basic and Custom Configurations
The IVG-7000 Series is provided in the following target designated basic
configurations:
• The IVG-7100 Intelligent Head-End Video Gateway
• The IVG-7200 Intelligent Edge Video Gateway
• The IVG-7300 Intelligent Video Re-Multiplexer
• The IVG-7400 Intelligent Video Broadband IP Streamer
The following sub-paragraphs describe the specific features of each configuration in
the Line and list the options available to customize the configurations to the specific
application needs.
NOTE
The number of active input/output transport streams is enabled by software license.
1.4.1.1. IVG-7100 Intelligent Head-End Video Gateway
Configuration
The IVG-7100 Head-End Unit is a content gathering unit. It features the following
basic configurations:
• 12 to 16 ASI Inputs / 2 to 6 ASI Outputs:
- IVG-7102: 16 ASI Inputs / 2 ASI Outputs (hardware configuration)
- IVG-7106: 12 ASI Inputs / 6 ASI Outputs (hardware configuration)
• GbE port, for clustering over GbE switch.
• Mirroring of any output stream to any free output port
1.4.1.2. IVG-7200 Intelligent Edge Video Gateway Configuration
The Scopus®
IVG-7200 Edge Unit is a content distribution unit. It is located at the
local hub or the node and provides transrating and broadcast level QAM outputs.
1.4.1.3. IVG-7300 Intelligent Video Re-Multiplexer
The IVG-7300 Intelligent Video Re-Multiplexer is an advanced re-multiplexing unit,
providing multi-input to multi-output routing capabilities to re-multiplexing

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/grooming and digital-to-digital processing features. The IVG-7300 features the
following basic configurations:
• IVG-7304 (hardware configuration): 16 ASI Inputs / 4 independent ASI
outputs
• Mirroring of any output stream to any free output port
1.4.1.4. IVG-7400 Intelligent Video Broadband IP Streamer
The IVG-7400 Intelligent Broadband IP Streamer is an advanced re-multiplexing
unit, providing multi-input to multi-output routing capabilities to re-multiplexing
/grooming and digital-to-digital processing features. The IVG-7400 features the
following basic configurations:
• IVG-7402: 16 ASI Inputs / 2 ASI Outputs (hardware configuration)
• GbE output for IP streaming.
1.4.1.5. IVG-7000 Series Custom Configuration Options
Table 1-1 lists the options available for customized configurations of the IVG-7000
Series.
Table 1-1: IVG-7000 Series Configuration Options
OPTION OPTION DESCRIPTION
OPT 001
see note I
Transrating Module (provides up-to 24 services transrated, rate dependent)
OPT 002 DVB Scrambler & Simulcrypt Support / per output stream
OPT-003 SW license for each additional one (1) output transport stream
OPT-004 SW license for each additional four (4) input transport streams
OPT 005
see note II
Scopus®
SM-3010 Statistical Multiplexing System Controller
OPT-007 Gigabit Ethernet IP streaming output per additional group of 30 services
OPT-008 -48 Volt DC Power Supply (instead of 110/220 Volt AC)

CODICO®
IVG-7000 Series
NOTES
• (I) OPT-001, Up to two (2) Transrating Modules can be installed in the respective
unit.
• (II) OPT-005, The SM-3010 Statistical Multiplexing System Controller requires
management from the NMS-4000 and having each of the E-1000 Encoders .
1.4.2. Functional Architecture
The IVG-7000 Series of Intelligent Video Gateways is based on a common platform
with specific add-ons and functions for each one of the basic configurations. Figure
1-13 illustrates the functional structure of the IVG-7000 Platform and the signal
flow path.
The IVG-7000 block diagram is mainly composed out of the five following
components:
a. Interface Processing Module (IPM Card)
The IPM card manages the input and output streams. It has up to 16 ASI
inputs, up to 6 ASI outputs and a GigaBit Ethernet (GbE) I/O.
b. Processing Module (PM Card)
The PM card includes the following modules:
1. The Field Programmable Gate Array (FPGA) Module, which performs the
foolowing tasks:
- Reception of the transport streams from the IPM Card and routing them
between the various modules.
- Scrambling the streams.
- PCR Restamping
2. The Network Processor, which manages the stream processing functions
3. The Rate Reduction Bank, which performs rate reduction to the stream.
c. Host Module
The host module processes the user commands, and manages the front panel
and the LCD.
d. SIM Card
The SIM card is an I/O interface for the Host Module. It provides the
following interfaces:
1. 2 IN / 2 Out GPI (General Purpose I/O) connectors, for alarm monitoring
2. One RS-232 connector, for serial connection to an external computer
3. 4 Ethernet ports: 3 fast Ethernet ports and 1 regular Ethernet port
4. Clock In/Out
e. Power Supply Module
The Power Supply module receives 110/220 VAC and generates all DC
voltages for the unit operation. An optional –48 VDC power supply module is
available for powering the IVG-7000 platform from an –48 VDC source.

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Page 1-24 (Rev 2.0 / Jan. 2005)
Figure 1-13: IVG-7000 Basic Configuration Functional Block Diagram
IPM Card
PM Card
SIM Card
Host
Front Panel - LCD
FPGA NP
Rate Reduction
Bank
Dejittering
ASI X up to 16
ASI X up to 6
Input/Output
GBE
ExternalClock
4 Port Ethernet
RS232
GPI
Clock Out
1.4.3. Mechanical Structure
1.4.3.1. Enclosure
The IVG-7000 Series is housed in a ruggedized industrial enclosure, 1 U by 19”
(Rack Mount). Featuring 7 fans for left to right air passage, providing side-to-side
heat dissipation, the IVG-7000 Series may be installed without the necessity for
spacing between units. This allows increased flexibility for installation of a large
number of gateways into limited-space environments and integration with other
DVB equipment.

CODICO®
IVG-7000 Series
1.4.3.2. Front Panel
The front panel of the IVG-7000 Series has a compact, slim-line design (See Figure
1-14). For manual control of the gateway, a four-way touch pad provides access to
parameter monitoring and control menus displayed in the LCD window. A 12 keys
alphanumerical keypad provides parameter input. An entry is completed with the
Enter and/or Escape touch pads. F1 and F2 keys are software enabled function
keys. An alpha-graphic LCD liquid crystal display is used to display the operational
status of the IVG-7000 and to interface with the user.
Figure 1-14: IVG-7000 Front Panel
1.4.3.3. Rear Panel
The rear panel of the IVG-7000 Series includes all of the required professional
input/output connectors. The AC connector and power switch are also located on
the rear panel. Figure 1-15 shows a standard IVG-7000 Series rear panel.
Figure 1-15: IVG-7000 Series of Intelligent Video Gateways - Rear View
The rear panel connectors and interfaces are grouped in the following functional
categories:
• Video Content Interfaces,
• Management Interfaces.

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Page 1-26 (Rev 2.0 / Jan. 2005)
Table 1-2 describes the function of each connector on the panel (including options).
Table 1-2: IVG-7000 Series - Typical Connector Interfaces
INTERFACE DESCRIPTION CONNECTOR TYPE
INTERFACE PROCESSING MODULE (IPM) CONNECTORS
ASI In 12 – 16 ASI Inputs BNC
ASI Out 2 – 6 ASI Outputs BNC
GbE Giga Bit Ethernet Port SPF-LC
MANAGEMENT CONNECTORS
CLK In External clock input BNC
CLK Out Synchronization output BNC
Control/Modem RS-232 Interface connector 9-Pin D-Type
Alarms Dry contacts to drive external alarm
indicators
9-Pin D-Type
Fast ETH 1,2,3 Fast Ethernet connector RJ45
ETH 4 10 BaseT Ethernet connector RJ45
POWER SUPPLY MODULE (PSM) CONNECTORS
AC Power Socket 90 – 260 VAC / 50-60 Hz power
socket. Provides protective electrical
grounding, incorporated in the power
cord.
Power Switch ON/OFF Power switch.

CODICO®
IVG-7000 Series
1.5. CAPABILITIES AND SPECIFICATIONS
This section describes the capabilities and specifications of the IVG-7000 Series of
Intelligent Video Gateways.
1.5.1. Product Capabilities
The following lists the technical capabilities of the IVG-7000 Series of Intelligent
Video Gateways:
VIDEO ROUTING/RE-MULTIPLEXING:
• Input to Output Routing: Service and Component level grooming from any
input to any output (VBR, CBR)
• Filtering and Re-Mapping:PID Level Filtering and Re-Mapping
• Routing Capacity: Up To 400 Services per Unit
• PSI/SI Generating: PSI/SI and PSIP Static/Dynamic Processing
• PCR Re-Stamping:High Accuracy PCR Re-Stamping
TRANSRATING
• Transrating Resource Bank:Allows flexible transrating from any input to any
output.
• Services Transrated:Up to 48 (rate dependent) services transrated.
• Inputs/Outputs:VBR, CBR
STATISTICAL RE-MULTIPLEXING
• Joint Transrating (JT):Based on advanced rate shaping and resource
allocation algorithms.
• Priority Assignment per service, - 10 priority levels
• Pass-Through Services:VBR, CBR Services pass-through support
CONDITIONAL ACCESS
• DVB Scrambler:Built-In DVB Scrambler per output (up to 100 Mbps)
• CA Interface - Simulcrypt Interface with all leading CA vendors
• IPPV Applications - Simulcrypt3 and OpenCAS support
DIGITAL AD-INSERTION
• Ad-Insertion Standard: DPI Standards SCTE 30/35 for queuing and API
Device Management.
DEVICE MANAGEMENT:
• Front Panel Management - Local Front Panel Control and Monitoring
• CLI Management:Local (over RS-232) and Remote (over Telnet) using
powerful Command Line Interface (CLI).
• EMS Management:SNMP based Element Management System (EMS)

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Page 1-28 (Rev 2.0 / Jan. 2005)
1.5.2. Product Technical Specifications
The following lists the technical specifications of the IVG-7000 Series of Intelligent
Video Gateways:
INPUT PORTS:
• ASI Input Ports (SPTS/MPTS):12 to 16 Input Ports / DVB or ATSC
• Data Input Rate:Up To 170 Mbps Per ASI Port
• Aggregated Inputs Rate:2.5 GBps
OUTPUT PORTS:
• ASI Output Ports (SPTS/MPTS):2 to 6 Independent Output Ports / DVB or
ATSC
• Data Output Rate:Up To 170 Mbps Per ASI Port
• Output Mirroring:Available on any Free Output Port
• Aggregated Outputs Rate:2 GBps
NETWORK INTERFACE:
• Gigabit Ethernet (GbE) Port:1000BaseSX (SFP-LC)
• Input/Output:Full Rate, Full Duplex
• IP Streaming:UDP / RTP unicast / multicast
MANAGEMENT INTERFACES:
• 100BaseT Interface3 independent interfaces for management and external
systems connection (CA, PSI/SI, NMS, Telnet)
• 10BaseT Interface:Management Interface
• RS-232 Interface/Modem For Command Line Interface (CLI)
• Dry Contact Alarms (GPI)2 Inputs, 2 Outputs
CLOCKING
• Clock Reference Output:27 MHz
• External Clock Input:27 MHz, 10 MHz (GPS reference)
1.5.3. Product Physical Specifications
Table 1-3 details the physical specifications of the IVG-7000 Series of Intelligent
Video Gateways.
Table 1-3: IVG-7000 Series of Intelligent Video Gateways
DIMENSIONS VALUE
IVG-7000 SERIES MECHANICAL DIMENSIONS
Height 44 mm (1.75”, 1 Rack Unit)

CODICO®
IVG-7000 Series
Table 1-3: IVG-7000 Series of Intelligent Video Gateways
Width 482 mm (19” Standard Rack)
Depth 597 mm (23.5”)
Weight 9 Kg (20 Lb.)
IVG-7000 SERIES ELECTRICAL REQUIREMENTS
AC Supply Voltage 90V - 260V AC, 50/60 Hz
DC Supply Voltage -48V DC (option)
Power consumption 100W (Max)
IVG-7000 SERIES ENVIRONMENTAL CONDITIONS
Operation Temperature Temperature range: 0°C ÷ 50°C
Storage Temperature Temperature range: -40°C ÷ 70°C
Humidity Operational: 5% - 85%
non-condensing
Non-operational: 0% - 95%
non-condensing
Air consumption and Ventilation: 7 fans ventilation for air cooling
Air input from the right side, output
to the left side.
100-mm side clearance is required
for air movement.
EMC Compliance CE, FCC part 15 (Class A)
Safety Compliance CE, CB (TVU), cTUVus, UL60950

CODICO®
IVG-7000 Series
Section 2
INSTALLATION
2.1. INTRODUCTION
This section describes the procedures required for installation of the Scopus
IVG-7000 Series of Intelligent Video Gateways.
The scope of the procedures found in this manual includes: site preparation and
requirements, installation in a 19" rack, cable connections, panel options and
pin-out descriptions and initial settings.
2.1.1. Safety Precautions
To avoid injury and prevent equipment damage, observe the following safety
precautions:
• Do not move or ship equipment unless it is properly packed in its original
wrapping and shipping containers.
• Only Scopus trained personnel should undertake equipment service and
maintenance.
• To prevent damage by lightning, ground the unit according to local
regulations.
• Do no permit unqualified personnel to operate the unit.
2.1.2. Inventory Check
Before installing the unit, ensure that all the equipment has arrived. Check the
parts received with the IVG-7000 unit for damage according to the following list:
ITEM QUANTITY
IVG-7000 Series of Intelligent Video Gateway 1
Power Cable 1
IVG-7000 Series of Intelligent Video Gateway User Manual 1
CAUTION
IF ANYTHING IS MISSING OR DAMAGED, DO NOT CONTINUE WITH THE INSTALLATION. REFER TO
THE “TECHNICAL SUPPORT” PROCEDURES IN THE FRONT OF THIS MANUAL FOR SCOPUS
SUPPORT.

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Page 2-2 (Rev 2.0 / Jan. 2005)
2.2. SITE PREPARATION
NOTE
If the IVG-7000 is to be installed in a standard 19" rack, make sure the rack fully
prepared for the installation.
The IVG-7000 should be installed within 1.5m (5 feet) from an easily accessible
grounded AC outlet, capable of furnishing the required supply voltage as detailed
below:
The use of an UPS (Uninterrupted Power Supply) and an AVR (Automated Voltage
Regulation) is highly recommended to ensure proper operation of the IVG-7000.
Ensure that a qualified electrician has installed the mains power supply in
accordance with power authority regulations
All powering should be wired with an earth leakage in accordance with local
regulation. In any rack installation, ensure that the rack has been properly
grounded.
2.3. INSTALLATION
2.3.1. Installation in 19" Rack
To prepare the IVG-7000 for rack installation:
a. The rack adapter kit includes two mounting brackets. The brackets are
fastened with screws to the sides of the IVG-7000 housing.
b. Attach each bracket by inserting two screws, with flat washers, in the two
front holes at the sides of the housing. Nuts are already in place on the inner
side of the holes.
c. After attaching the brackets, the unit is ready for installation in the rack.
d. Fasten the brackets to the side rails of the rack with four screws (not
included in the kit), two per side.
Several IVG-7000 devices may be installed in a standard 19" rack, one above the
other.
Please ensure that proper grounding is provided for the rack assembly to prevent
potential electrical problems in the devices mounted on the rack. See paragraph
2.4.2.1 for more details on grounding the IVG-7000 to a rack mount.
NOTE
To facilitate easy access during installation and maintenance, leave sufficient space
behind the rack.

CODICO®
IVG-7000 Series
2.4. CABLE CONNECTIONS
2.4.1. IVG-7000 Series Connection Setup and Options
This section describes the cable connections for ground, power, and interface cables
connected to the rear panel of the IVG-7000 Series of Intelligent Video Gateways.
Figure 2-1 shows examples of IVG-7000 rear panel configurations.
The rear panel of the IVG-7000 Series includes all of the required professional
input/output connectors. The AC connector and power switch are also located on
the rear panel. Figure 1-15 shows a standard IVG-7000 Series rear panel.
Figure 2-1: IVG-7000 Series of Intelligent Video Gateways - Rear View
The rear panel connectors and interfaces are grouped in the following functional
categories:
• Video Content Interfaces
• Management Interfaces.
Table 1-2 describes the function of each connector on the panel (including options).
INTERFACE PROCESSING MODULE (IPM) CONNECTORS
ASI In 12 – 16 ASI Inputs BNC
ASI Out 2 – 6 ASI Outputs BNC
GbE Giga Bit Ethernet Port SPF-LC
MANAGEMENT CONNECTORS
CLK In External clock input BNC
CLK Out Synchronization output BNC
Control/Modem RS-232 Interface connector 9-Pin D-Type (pin to pin)
Alarms Dry contacts to drive external
alarm indicators
9-Pin D-Type (pin to pin)
Fast ETH 1,2,3 Fast Ethernet connector RJ45

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ETH 4 10 BaseT Ethernet connector RJ45
POWER SUPPLY MODULE (PSM) CONNECTORS
AC Power
Socket
90 – 260 VAC / 50-60 Hz
power socket. Provides
protective electrical
grounding, incorporated in
the power cord.
Power Switch ON/OFF Power switch.
2.4.2. Power Connection
2.4.2.1. Ground Connection
Ground connection to the IVG-7000 is made by connecting an AC power cable to
the IVG-7000 AC connector. If the IVG-7000 is fitted with a –48V DC power supply
please follow the instruction provided under paragraph 2.4.2.3 below.
When the IVG-7000 is rack mounted, the jackscrew (shown in Figure 2-2) must be
connected to the rack housing, which in turn, should be properly grounded.
Figure 2-2: IVG-7000 Jack Screw Ground Connection
AC Power Supply Configuration DC Power Supply Configuration
Ground
Jackscrew
Ground
Jackscrew
2.4.2.2. AC Power Connector
Connect the AC power cable to the IVG-7000 power connector at the rear of the
unit.
(See Figure 2-2) Connect the other end to the AC power source.

CODICO®
IVG-7000 Series
2.4.2.3. DC Power Connector
In some cases the IVG-7000 is fitted with a –48V DC Power Supply as shown Figure
2-2 (DC Power Configuration). When this is the case please connect the power
source as described below.
To connect the –48V Power Supply:
a. Connect a (+) 48V DC source wire to the (+) contact on the power terminal
board.
b. Connect a (-) 48V DC source wire to the (-) contact on the power terminal
board.
c. Connect Grounding point wire to the (GND) contact on the power terminal
board.
2.5. IVG SOFTWARE UPDATE PROCEDURE
Make sure you have the equipment below before starting the IVG Software Update
Procedure:
• A PC with a serial connection.
• An IP Connection
• An FTP software (such as wftpd32.exe)
Make sure you have configured the following preparations before starting the
update:
• Stop any other FTP service running on the computer such as the NMS. To
stop an FTP, go to Control Panel Administrative Tools Services. Select ‘FTP
Publishing Service’ and stop the service.
• Setup the FTP program on the computer. When using wftpd32.exe: from the
main screen – choose ‘User/Rights’ from the Security menu. Add a new user
and password and select the home directory (The IVG files should be in the
home directory).
• On the IVG device, make sure that the fast Ethernet IP address port is
configured.
Use the command /root/config/interface/ethernet>set_ip fast2 (or any other
fast Ethernet port) to set an IP address. Use the command
/root/show/interface/ethernet>ip to show the IP addresses status.
• Add the FTP server definitions to the IVG device using the following CLI
command: /root/config/filesystem>add_server. When asked, enter the IP
address of the FTP server computer, choose FTP and enter the exact user
and password that is defined in the FTP Server.
• After configuring the IP address and adding the FTP server, use the CLI
command: /root/config/filesystem/save to save the definitions.
After making the preparation above, update the IVG software using the instruction
below:
1. Use the CLI command:
/root /config/filesystem>get_file package_1865.ivg –act.

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2. Wait until the commands are executed. This may take several minutes.
3. Execute the CLI >/root/reset/factory_default
NOTE
After executing the ‘factory_default’ command, the IVG
configuration is lost.
4. Reboot the system and set up the fast Ethernet IP address port.
5. Set up the ftp server configuration again.
6. Make sure that the files were transferred correctly by comparing the version
number to the file name in the active folder. To display the version number,
use the CLI command >/root/show/filesystem/files

CODICO®
IVG-7000 Series
2.6. INITIALIZATION AND CONFIGURATION
Prior to powering up the IVG-7000, ensure that all cabling is correctly connected as
explained in paragraph 2.4.1 above. Ensure that the unit is connected to the mains
power supply and grounded according to instructions.
2.6.1. Powering Up
Upon power up, you will hear the internal fan commence operation and see the
front panel LCD display activated.
2.6.2. Initialization Sequence
Once the IVG-7000 is powered, the unit commences an initialization phase.
IVG-7000 Initialization of the IVG-7000 includes loading of the embedded system
parameters.
2.6.3. Initial Parameters Set-up
The IVG-7000 IP Addresses has to be initially set-up using the front panel.
Refer to paragraph 4.1and 4.2 to learn about the IVG-7000 front panel.
Refer to paragraph 4.4.1 to set up the IVG-7000 IP Addresses.
After setting up the IP Addresses, the operator can manage the IVG-7000 in the
following ways:
• Using CLI interface through RS-232 cable. Refer to paragraph 5.1.1.1.
• Using CLI interface through Telnet. Refer to paragraph 5.1.1.2.
• Using EMS through local network. Refer to paragraph 6.1.1.1.

CODICO®
IVG-7000 Series
Section 3
OPERATIONAL PROCESSES
3.1. GENERAL
This chapter describes selected IVG-7000 key features such as cross connections,
transrating and preprovision.
3.2. CROSS-CONNECT
Grooming enables the operator to assemble programs from input ports to
create customized programming in the output ports.
The Grooming process is prepared in the IVG-7000 by cross-connecting
data from the input ports to the output ports.
The cross-connect process works by requesting the IVG-7000 to route data.
A routing request could be one of the following:
• Add an input port to an output port.
• Add an input program to an output port.
• Drop an input port completely – removes all cross connection that originate
from the specified input port.
• Drop an output port completely – removes all cross connections to an output
port.
• Drop a program from the input port - removes any cross connections that
transfer the specific program from the input port.
• Drop a program from the output port – removes a specific program from the
output port.
• Drop a PID from a program in the input port - removes any cross
connections that transfer the specific PID from the input port.
• Drop a PID from a program in the output port - removes a specific PID from
the output port.
Managing cross connections is enabled using the IVG-7000 Command Line Interface
(CLI) and IVG-7000 Element Management System (EMS).
Refer to paragraph 5.3.4 to learn about adding cross connections on the CLI.
Refer to paragraph 6.6 to learn about the Cross-connection wizard on the EMS.

User Manual
Operational Processes
Page 3-2 (Rev 2.0 / Jan. 2005)
3.2.1. Transrating
“Transrating” is the process of changing the bit-rate of an MPEG-2 stream (one or
more programs) to a different, normally lower, bit-rate.
When adding a cross connection trough the CLI or the EMS, the operator can
optionally transrate the stream as well as cross connect it to an output.
Before transrating a stream to an output port, the port must be enabled for
transrating. Refer to paragraph 5.3.2.8 to enable the port using the CLI or to
paragraph 6.6 to enable the port using the EMS.
To make a cross connection with transrating, refer to paragraph 5.3.4.2 when using
the CLI, or to paragraph 6.6.4 when using the EMS.
3.2.2. Preprovision
Preprovision is the process of making a cross connection from a stream that is
currently unavailable at the input port. IVG-7000 “remembers” the request and
once the stream appears, it is cross connected according the user request.
Preprovision is used in the following cases:
• When planning the grooming process without live streams.
• When a program cuts off and after a while appears again – no need to
reconfigure the cross connection.
To use Preprovision, simply make a cross connection to the unavailable stream.
Refer to paragraph 5.3.4.2 to make a cross connection to unavailable stream using
the CLI.
NOTE
There is no Preprovision on independent PIDs that are added from input to output. The
Admin table always shows ‘success’ in the status of the PID.

CODICO®
IVG-7000 Series
Section 4
IVG-7000 FRONT PANEL INTERFACE
4.1. IVG-7000 FRONT PANEL
The IVG-7000 front panel is used to display information about the input streams
and output streams and to perform basic tasks. Figure 4-1 shows the IVG-7000
Front Panel.
Figure 4-1: IVG-7000 Front Panel
The IVG-7000 front panel contains:
• Large LCD display:
The large LCD display provides enhanced menus with graphical interface such
as charts, radio buttons, tables and icons.
• Arrow keys:
The arrow keys include Up, Down, Right, Left, Enter and Esc keys. The keys
are used to navigate between the different menu items and sub-menus.
• Short Cut keys:
The short cut keys includes the keys: F1 and F2.
• Keypad keys:
The keypad keys are used for writing numbers as well as text in the LCD
display.
The front panel main menu contains the following main items:
• Configuration:
Sets IP addresses and port administration status (disable/enable).
• Input Streams:
Displays information about each service and PID in the input stream.
• Output Stream:
Displays information about each service and PID in the output stream.
• Monitoring:
Displays information such as log messages and temperatures.
• Action & Procedure:
Contains two commands: reset the IVG-7000 and reset the entire
cross-connections in the IVG-7000.
• Unit information:
Provides information about the unit identity, version, license and time.

User Manual
IVG-7000 Front Panel Interface
Page 4-2 (Rev 2.0 / Jan. 2005)
4.2. FRONT PANEL MENU OPERATIONAL
CONCEPT
4.2.1. Screen Types
The IVG-7000 front panel has the following five screen types:
• Edit Menu Screen
• Table Menu Screen
• Simple Edit Screen
• Multiple Choices Edit Screen
• Scale Edit Screen
The following paragraphs describe the different front panel screen types, their
purposes and use.
4.2.1.1. Edit Menu Screen
The Edit Menu screen contains:
• On the left side: a list of the parameter names.
• On the right side: parameters value. Editable parameters have a pencil icon
next to them. Parameters without the pencil icon are read only.
Figure 4-2 shows the Edit Menu.
Use the [Up] and [Down] arrows to move between the parameters and press
[Enter] to change a value of an editable parameter. After pressing the [Enter]
key, one of the Edit Screens below appears.
Figure 4-2: Edit Menu Example
4.2.1.2. Table Menu Screen
The Table Menu displays information in a table style. The table has a header row in
the top line that contains several columns. The information is displayed below the
header row.
The user can scroll through the table, using the [Up] and [Down] arrows. Pressing
the [Enter] key on a specific line will open a sub-menu regarding this line.
Figure 4-3 shows the Table Menu.

CODICO®
IVG-7000 Series
Figure 4-3: Table Menu Example
4.2.1.3. Edit Screen – Simple
The simple Edit Screen changes parameters values. The parameter value is written
using the alphanumeric keypad. The parameter value can be a number or a string.
Figure 4-4 shows a simple Edit Screen example.
Figure 4-4: Simple Edit Screen Example
4.2.1.4. Edit Screen - Multiple Choices
The multiple choices Edit Screen displays a list of items and let the user select one
of them.
Figure 4-5 shows a multiple choices Edit Screen example.
The [Up] and [Down] keys scrolls between the list items and the [Enter] key
selects the current item.
Figure 4-5: Multiple Choices Edit Screen Example
4.2.2. Keypad Control
Numbers are easy to type using the alphanumeric keypad. Writing letters in the
alphanumeric keypad require the user to click several times on a key to write the
correct letter.
For example:
Writing the word: “hello” requires the following:
1. Pressing on the ‘4ghi’ keypad two times
2. Pressing on the ‘3def’ keypad two times

User Manual
Page 4-4 (Rev 2.0 / Jan. 2005)
3. Pressing on the ‘5jkl’ keypad three times
4. Wait a moment
5. Pressing on the ‘5jkl’ keypad three times again
6. Pressing on the ‘6mno’ keypad three times
4.2.3. Default Screen
The main screen of the IVG-7000 front panel displays the following:
• The status of the device: ‘OK’ for regular operation and ‘INIT’ for initialization
stage.
• A graph display of each port and all of its services. Use the up/down arrows
to scroll in the various ports, and right/left arrows to scroll between the
services.
• Pressing the [Enter] button displays the main menu.
Figure 4-6 shows the main screen of the IVG-7000 front panel.
Figure 4-6: Main Screen
4.2.4. Front Panel Tree
Figure 4-7 shows the front panel menu hierarchy. Paragraphs 4.3 to 4.9 describes
the menu functionality in details.

CODICO®
IVG-7000 Series
Figure 4-7: Front Panel Tree
Main Menu
Configuration
Input Streams
Output Streams
Monitoring
Actions &
Procedures
Unit Information
IP Addressing
ASI Input Ports
ASI Output Ports
Gigabit Ethernet
IP Addressing
Management
ASI Input Ports
Management
ASI Output Ports
Management
Input Ports Table
Output Streams
Input Transport
Streams Table
Input Services
Table
Input Service
Management
Output Transport
Streams Table
Output Services
Table
Output Service
Management
Event Log
Chassis
Event Log Table
Reset Unit
Remove All Cross
Connections
Unit Identity
Software Versions
License
Unit Time

User Manual
Page 4-6 (Rev 2.0 / Jan. 2005)
4.3. MAIN MENU
The main menu is a simple menu screen. Pressing the [Enter] button from the
default screen displays the main menu. The main menu contains the following
options:
1. Configuration – configuration of the IP addresses and the ports state
(up/down). Refer to paragraph 4.4.
2. Input Streams – displays information on the input ports. Refer to
paragraph 4.5.
3. Output Streams – displays information on the output ports. Refer to
paragraph 4.6.
4. Monitoring – displays information on the event log and chassis. Refer to
paragraph 4.7.
5. Actions & Procedures – reset the unit. Refer to paragraph 4.8
6. Unit Information – displays information on the unit identity and version.
Refer to paragraph 4.9.
Figure 4-8 displays the main menu.
Figure 4-8: Main Menu Display
Root 1-1
1. Configuration
2. Input Streams
3. Output Streams
4. Monitoring

CODICO®
IVG-7000 Series
4.4. CONFIGURATION MENU
The Configuration Menu Path is: Main Menu Configuration. Figure 4-9 shows the
Configuration Menu Display.
The configuration menu has the following options:
1. IP Addressing – changes the IP addresses of the Ethernet ports.
Refer to paragraph 4.4.1.
2. ASI Input Ports – changes the operative status of the input ports.
3. ASI Output Ports - changes the operative status of the input ports.
Figure 4-9: Configuration Menu Display
Configuration 1-1
1. IP Addressing
2. ASI Input Ports
3. ASI Output Ports
4. Gigabit Ethernet Port
4.4.1. IP Addressing
The IP Addressing menu manages the IP address, subnet, default gateway and MAC
address of the Ethernet port. The IP Addressing menu contains a list of the Ethernet
ports. After selecting an Ethernet port, an Edit Menu appears. The Edit Menu
manages the IP addresses options.
4.4.1.1. IP Addressing Menu
The IP Addressing Menu path is: Main Menu Configuration IP Addressing.
Figure 4-10 shows the IP Addressing menu display.
The IP Addressing menu has the following items:
1. Fast Ethernet 1
2. Fast Ethernet 2
3. Fast Ethernet 3
4. Gigabit Ethernet 1
Figure 4-10: IP Addressing Menu Display
IP Addressing 1-1-1
1. Fast Ethernet 1
2. Fast Ethernet 2
3. Fast Ethernet 3
4. Gigabit Ethernet 1

User Manual
Page 4-8 (Rev 2.0 / Jan. 2005)
4.4.1.2. IP Address Management
The IP Address Management path is: Main Menu Configuration
IP Addressing [Fast/Gigabit Ethernet #N], where #N is the port number.
Figure 4-11 shows the IP Address Edit Menu display.
After selecting an Ethernet port and pressing the [Enter] button, the following
options appears in the Edit Menu:
• IP Address – displays the IP address of the selected port. Press the [Enter]
button to edit this value. The format of the IP address is XXX.XXX.XXX.XXX.
Numbers should be between 000 and 255.
• Subnet – displays the subnet mask of the selected port. Press the [Enter]
button to edit this value. The format of the subnet mask is
XXX.XXX.XXX.XXX. Numbers should be 000 or 255.
• Default Gateway – displays the default gateway address of the selected
port. Press the [Enter] button to edit this value. The format of the default
gateway is XXX.XXX.XXX.XXX. Numbers should be between 000 and 255.
• Mac Address – displays the MAC Address of the selected port. This
parameter is not editable.
To edit the above parameters, select a parameter and press the [Enter] button.
Edit the value in the Edit Screen that appears.
Figure 4-11: IP Address Edit Menu Display
Fast Ethernet 1 1-1-1-1
1. IP Address xxx.xxx.xxx.xxx
2. Subnet xxx.xxx.xxx.xxx
3. Default Gateway xxx.xxx.xxx.xxx
4. MAC Address
4.4.2. ASI Input Ports
The ASI Input Ports Menu is an Edit Menu that contains all the ASI input ports and
their administrative status. The administrative status can be UP or DOWN.
When the administrative status is UP, the port is enabled; otherwise, the port is
disabled.
4.4.2.1. ASI Input Ports Table
The ASI Input Ports Table path is: Main Menu Configuration ASI Input Ports
Table. Figure 4-12 shows the ASI Input ports Table Menu display.
The ASI Input Ports Table is a list with all the ASI Input ports and their
administrative status. Select an ASI Input Port from the table and press [Enter] to
edit its value. The ASI Input Port Management Screen appears.

CODICO®
IVG-7000 Series
Figure 4-12: ASI Input Ports - Table Menu Display
ASI Input Ports 1-1
01 ASI IN 1 Admin Status UP
4.4.2.2. ASI Input Port Management
The ASI Input Port Management screen contains two radio buttons:
• UP – The selected port is enabled.
• DOWN – The selected port is disabled.
Press the [Enter] button to return to the ASI Input Ports table.
4.4.3. ASI Output Port
The ASI Output Ports menu manages the administrative status, total bitrate,
reserved bitrate, packet length, and Joint Transrating parameters. The ASI Output
Ports menu contains a list of all the ASI output ports. After selecting an ASI output
port, an Edit Menu appears. The Edit Menu manages the selected ASI output
parameter
4.4.3.1. ASI Output Ports Table
The ASI Output Ports Table path is: Main Menu Configuration ASI Output
Ports Table. Figure 4-13 shows the ASI Output Port Table Menu display.
The ASI Output Ports Table is a list with all the ASI output ports. Select an ASI
output Port from the table and press [Enter] to display the ASI Output Port
Management screen.
Figure 4-13: ASI Output Port Table Menu Display
ASI Output 1-1-3
1 ASI Out 1
2 ASI Out 2

User Manual
Page 4-10 (Rev 2.0 / Jan. 2005)
4.4.3.2. ASI Output Port Management
The ASI Output Port Management path is: Main Menu Configuration ASI
Output Port Table ASI Output Port Management. Figure 4-14 shows the ASI
Output Port Edit Menu Display.
The ASI Output Port is an Edit Menu that contains the following options:
• Admin Status – Display the administrative status of the output port. This
value is not editable.
• Total Bit rate – Manages the total bit rate of the output port. Press the
[Enter] button to change the total bit rate value. Syntax: xxx.xxxxxx Mbps
• Reserved Bit rate – Manages the reserved bit rate value. Press the [Enter]
button to change the reserved value. Syntax: xxx.xxxxxx Mbps
• Packet Length – Displays the packet length of the ASI output. (188/204)
• Joint Transrating – Manages the state of the Joint Transrating of the ASI
output (On/Off).
Figure 4-14: ASI Output Port Edit Menu Display
ASI Out 1 1-1-3-1
1. Admin Status UP
2. Total Bit rate xxx.xxxxxx
3. Reserved Bit Rate xxx.xxxxxx
4. Packet Length 188

CODICO®
IVG-7000 Series
4.5. INPUT STREAMS MENU
The Input Streams menu manages the input streams scrambling status, service
type, PMT PID, PCR PID, and all the Service Elements. The Input Streams menu
contains a table of all the Input Streams. To manage a program elements: select an
input port, select an input Transport Stream, select a service, and then manage
that service parameters.
4.5.1. Input Ports Table
The Input Ports Table path is: Main Menu Input Ports Table. Figure 4-15 shows
the Input Port Table Menu Display.
The Input Ports table displays a table with the following columns:
• Input Ports – displays the input port number
• Mbps – displays the Transport Stream current bitrate in Mbps.
• TS-ID – displays the transport stream ID number
• Xcon-To – displays the output port, which the selected port is connected to.
When the selected port is connected to more than one output, the word
“Multiple” is displayed.
Select an input Port from the table and press [Enter] to display the Input
Transport Streams table.
Figure 4-15: Input Port Table Menu Display
Input Ports Mbps TS-ID Xcon-To 1-2
06 ASI In 6 Empty
07 ASI In 7 48.438 256
08 ASI In 8 Empty
09 ASI In 9 Empty

User Manual
Page 4-12 (Rev 2.0 / Jan. 2005)
4.5.2. Input Transport Streams Table
The Input Transport Streams Table path is: Main Menu Input Ports
Table Input Transport Streams Table. Figure 4-16 shows the Input Transport
Stream - Table Menu Display.
The Input Transport Streams Table displays all the transport streams and their IDs
under the selected input port. Select a Transport Stream from the table and press
[Enter] to display the Input Services table.
Figure 4-16: Input Transport Stream - Table Menu Display
ASI In 7 1-2-7
1 View TS 256 Services
4.5.3. Input Services Table
The Input Services Table path is: Main Menu Input Ports Table Input
Transport Streams Table Input Services Table. Figure 4-17 shows the Input
Services - Table Menu Display.
The Input Service table displays a table with the following columns:
• Service – displays the service name.
• PN – displays the service (Program Number) ID number.
• Xcon-To - displays the output port, which the selected service is connected
to. When the selected service is connected to more than one output, the
word “Multiple” is displayed.
Select a Service from the table and press [Enter] to display the Input Service
Management Edit Menu.
Figure 4-17: Input Services - Table Menu Display
Services PN Mbps Xcon-To 1-2-7-1
01 Motors TV 7301 3.959
02 TV5-FBS 7321 3.784
03 TV5-Europe 7322 3.771
04 FreeX TV 7324 2.915

CODICO®
IVG-7000 Series
4.5.4. Input Service Management
The Input Service Management path is: Main Menu Input Ports Table Input
Transport Streams Table Input Services Table Input Service
Management. Figure 4-18 shows the Input Service – Edit Menu Display.
The Input Service Management is an Edit Menu that contains the following
parameters:
• Scrambling – displays the Scramble status (Scrambled / Free)
• Service Type – displays the service type (Radio / TV)
• PMT PID – displays the PID of the PMT.
• PCR PID – displays the PID of the PCR.
• A list of all the service PID: Their types and ID numbers.
Figure 4-18: Input Service – Edit Menu Display
Service FreeX TV 1-2-7-1-1
1. Scrambling: CAS
2. Service Type: TV
3. PMT PID: 256
4. PCR PID: 521

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Page 4-14 (Rev 2.0 / Jan. 2005)
4.6. OUTPUT STREAMS MENU
The Output Streams menu manages the output streams scrambling status, service
type, PMT PID, PCR PID, and all the Service Elements. The Output Streams menu
contains a table of all the Output Streams. To manage a program element: select
an output port, select an output Transport Stream, select a service, and then
manage that service parameters.
4.6.1. Output Ports Table
The Output Ports Table path is: Main Menu Output Ports Table. Figure 4-19
shows the Output Ports - Table Menu Display.
The Output Ports table displays a table with the following columns:
• Output Ports – displays the output port number
• Mbps – displays the port current bitrate.
• TS-ID – displays the transport stream ID number
• Xcon-To – displays the input port, which the selected port is connected to.
When connected to more than one input ports, “Multiple” is displayed.
Select an output Port from the table and press [Enter] to display the Output
Transport Streams table.
Figure 4-19: Output Ports - Table Menu Display
Output Ports Mbps TS-ID Xcon-From 1-3
01 ASI Out 1 5.931 231
02 ASI Out 2 Empty

CODICO®
IVG-7000 Series
4.6.2. Output Transport Streams Table
The Output Transport Streams Table path is: Main Menu Output Ports
Table Output Transport Streams Table. Figure 4-20 shows the Output
Transport Stream – Table Menu Display.
The Output Transport Streams Table displays all the transport streams and their
IDs under the selected output port.
Select a Transport Stream from the table and press [Enter] to display the Output
Services table.
Figure 4-20: Output Transport Stream – Table Menu Display
ASI Out 1 1-3-1
1 View TS 231 Services
4.6.3. Output Services Table
The Output Services Table path is: Main Menu Output Ports Table Output
Transport Streams Table Output Services Table. Figure 4-21 shows the
Output Services - Table Menu Display.
The Output Service table displays a table with the following columns:
• Service – displays the service name.
• PN – displays the service (Program Number) ID number.
• Xcon-To - displays the input port, which the selected service is connected
to. When connected to more than one input ports, “Multiple” is displayed.
Select a Service from the table and press [Enter] to display the Output Service
Management Edit Menu.
Figure 4-21: Output Services - Table Menu Display
Services PN Mbps Xcon-From 1-3-1-1
01 Motors TV 7301 3.959
02 TV5-FBS 7321 3.784
03 TV5-Europe 7322 3.771
04 FreeX TV 7324 2.915

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Page 4-16 (Rev 2.0 / Jan. 2005)
4.6.4. Output Service Management
The Output Service Management path is: Main Menu Output Ports
Table Output Transport Streams Table Output Services Table Output
Service Management. Figure 4-22 shows the Output Service Management - Edit
Menu Display.
The Output Service Management is an Edit Menu that contains the following
parameters:
• Scrambling – displays the Scramble status (Scrambled/Free).
• Service Type – displays the service type (Radio/TV).
• PMT PID – displays the PID of the PMT.
• PCR PID – displays the PID of the PCR.
• A list of all the service PID: Their types and ID numbers.
Figure 4-22: Output Service Management - Edit Menu Display
Service FreeX TV 1-3-1-1-1
1. Scrambling: CAS
2. Service Type: TV
3. PMT PID: 231
4. PCR PID: 521
4.7. MONITORING MENU
The Monitoring Menu path is: Main Menu Monitoring. Figure 4-23 shows the
Monitoring - Menu Display.
The Monitoring menu has the following options:
• Event Log – displays the events and errors in the IVG-7000.
• Chassis Health – displays the IVG-7000 temperature.
Figure 4-23: Monitoring - Menu Display
Monitoring 1-4
1. Event Log
2. Chassis Health

CODICO®
IVG-7000 Series
4.7.1. Event Log
The Event Log path is: Main Menu Monitoring Event Log. Figure 4-24 shows
the Event Log Display.
The event log is a list of all the events and error in the IVG-7000 device. The list
has the following columns:
• Event Number – sequential number of the event.
• Event Type – displays the event type: Debug, Info.
• Event Description – displays a short event description.
• Event Date – displays the date of the event.
• Event Time – displays the time of the event.
Press the [Up] and [Down] keys to scroll through the event log.
Figure 4-24: Event Log Display
Event Log 1-4-1
001:Debug tRootTask: eWDOG_RES 14/10 11:43
002:Debug tRootTask: eWDOG_STO 14/10 11:43
003:Info tRootTask: Transrat 14/10 11:44
004:Info tRootTask: Transrat 14/10 11:44
4.7.2. Chassis Health
The Chassis Health path is: Main Menu Monitoring Chassis Health. Figure
4-25 shows the Chassis Temperature Menu.
The Chassis Health command displays the PM temperature.
Figure 4-25: Chassis Temperature Menu
Chassis Health 1-4-2
1. PM Temperature 45.000000

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Page 4-18 (Rev 2.0 / Jan. 2005)
4.8. ACTIONS & PROCEDURES MENU
The Actions & Procedures Menu path is: Main Menu Actions & Procedures.
Figure 4-26 shows the Actions & Procedures Menu Display.
The Actions & Procedures menu has the following options:
• Reset Unit
• Remove All Cross Connection
Figure 4-26: Actions & Procedures Menu Display
Actions & Procedures 1-5
1. Reset Unit
2. Remove All Cross Connections
4.8.1. Reset Unit
The Reset Unit command path is: Main Menu Actions & Procedures Reset
Unit.
The Reset Unit command restarts the IVG-7000 device. Before restarting the
IVG-7000, a confirmation message appears.
CAUTION
THE IVG-7000 DEVICE IS DISABLED DURING THE RESETTING PROCESS.
4.8.2. Remove All Cross Connections
The Remove All Cross Connections command path is: Main Menu Actions &
Procedures Remove All Cross Connections.
The Remove all Cross Connection command deletes the entire cross connection
from the inputs to the outputs.
CAUTION
THE IVG-7000 DEVICE WILL STOP ANY OUTPUT STREAM FROM THE OUTPUT PORTS AFTER
EXECUTING THE COMMAND.

CODICO®
IVG-7000 Series
4.9. UNIT INFORMATION MENU
The Unit Information Menu path is: Main Menu Unit Information. Figure 4-27
shows the Unit Information Menu Display.
The Unit Information Menu has the following options:
• Unit Identity – displays the number of transrating modules and their status.
• Software Versions – displays the software versions of the IVG-7000
components.
• License – manages software licensing.
• Unit Time – manages the IVG-7000 time and date
Figure 4-27: Unit Information Menu Display
Unit Information 1-6
1. Unit Identity
2. Software Versions
3. License
4. Unit Time
4.9.1. Unit Identity
The Unit Identity Menu path is: Main Menu Unit Information Unit Identity.
The Unit Identity menu displays the number of transrating Modules in the IVG-7000
device and their status
4.9.2. Software Versions
The Software Versions Menu path is: Main Menu Unit Information Software
Versions.
The Software Versions Edit Menu displays the software version of the following
items:
• Boot 2
• Default Application
• Default PM FPGA
• DSP 2
• PM FPGA
• IPM FPGA
• NP Application
• NP Boot
• Host

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Page 4-20 (Rev 2.0 / Jan. 2005)
4.9.3. License
The License path is: Main Menu Unit Information License. Figure 4-28 shows
the Unit Information Menu Display.
The License menu displays information regarding the license and software
permeations. The License menu displays the following parameters:
• License
• Product ID – The product ID number (18 digits)
• Number of output ports – installed on the unit
• Number of input ports – installed on the unit
• Scrambling and Simulcrypt – Displays the status of the Scrambling and
Simulcrypt in the unit:On/Off
• Joint Transrating – Displays the status of the Joint Transrating in the unit:
On/Off
• Number of GbE services
Figure 4-28: License Menu Display
License 1-6-3
1. License 60
2. Product ID xxxxxxxxxxxxxxxxxx
3. Number of Output Ports 4
4. Number of Input Ports 16
4.9.4. Unit Time
The Unit Time path is: Main Menu Unit Information Unit Time. Figure 4-29
shows the Unit Time Menu Display.
The Unit Time Edit Menu has the following options:
• Date – displays the current date. Press the [Enter] button to edit this value.
Syntax: YYYY-MM-DD (years, months, days)
• Time – displays the current time. Press the [Enter] button to edit this
value. Syntax: HH:MM:SS (hours, minutes, seconds)
Figure 4-29: License Menu Display
Unit Time 1-6-4
1. Date 10/14/03
2. Time 12:16:52

CODICO®
IVG-7000 Series
Section 5
IVG-7000 COMMAND LINE INTERFACE
5.1. GENERAL
This section provides introduction and guidelines for CLI usage and a detailed
description of the CLI commands The CLI is a textual Command Line Interface
viewed through a terminal and used for the IVG-7000 management.
5.1.1. Preparing the CLI
The terminal is connected to the CLI locally through an RS232 cable or over a local
or remote IP connection to any of the IVG-7000's 10/100 Base Ethernet ports,
using Telnet.
5.1.1.1. Connecting the IVG-7000 through RS232
Follow the steps below to connect to the CLI locally through a straight RS232 cable:
1. Turn off the computer.
2. Connect the RS232 cable to the IVG-7000 control/modem port and to the
computer serial port.
3. Turn on the IVG-7000 and the computer.
4. The HyperTerminal program from the computer. The HyperTerminal program
can be found on the start menu in:
Start Programs Accessories Communication HyperTerminal
The 'Connection Description' dialog box is opened.
5. Type IVG-7000 in the 'Connection Description' dialog box and click on the
[OK] button. The 'Connect To' dialog box appears.
6. Select the correct com number in the 'Connect To' dialog box and click on the
[OK] button. The 'COM x Properties' dialog box appears.

User Manual
IVG-7000 Command Line Interface
Page 5-2 (Rev 2.0 / Jan. 2005)
Figure 5-1: COM x Properties Dialog Box
7. Select the following parameters in the 'COM X Properties' dialog box:
Bit per second: 9600
Data bits: 8
Parity: None
Stop Bits: 1
Row Control: Hardware
8. Click the [OK] button. The CLI appears, asking for a valid user name and
password.
5.1.1.2. Connecting the IVG-7000 Through Telnet
Follow the steps below to connect to the CLI through local or remote IP connection
to any of the IVG-7000’s Ethernet ports, using Telnet:
1. Connect the IVG-7000 to the Ethernet: Connect a cable to one of the
IVG-7000’s 10/100 BaseT Ethernet ports to the Ethernet.
2. Retrieve the IVG-7000 IP address using the IP command (refer to paragraph
5.2.6.1).
3. Open the Hyper-Terminal application on the computer used to connect to the
IVG-7000. A dialog box is opened.
4. Write the name of the connection in the dialog box and click the [OK]
button. Another dialog box is opened.
5. Choose ‘TCP/IP (Winsock)’ from the combo box and then write the IP address
of the IVG-7000 in the upper text box.

CODICO®
IVG-7000 Series
5.1.2. CLI Navigation and Operation Guidelines
5.1.2.1. IVG-7000 Access Management
The CLI is designed mainly for technicians and advanced users providing access to
all IVG-7000 status and configuration. The CLI keeps the commands separated into
menus. Each menu holds a set of closely related commands and possibly additional
sub-menus.
The CLI uses a User/Password authentication system to prevent unauthorized
access. In addition, IVG-7000 users have different access levels to provide
additional security to the CLI.
The IVG-7000 is manufactured with default accounts. Table 6-1 summarizes the
accounts names, passwords and levels.
Table 5-1: Default Accounts in the CLI
User Name Password Level
admin admin Administrator level – free to operate any command
on the CLI
tech tech Technician level – free to do operate any command
except managing users.
user user User Level – restricted to operate commands found
only under the ’show’ menu.
5.1.2.2. CLI Menu Structure
The main CLI menu is ‘/root’. The CLI Menu consists of branches and sub-
branches branching from the ‘/root’.
Each command is executed in two steps:
1. Entering the command’s menu, i.e., the location in the command in the menu
tree.
2. Typing the command syntax.

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Page 5-4 (Rev 2.0 / Jan. 2005)
5.1.2.3. CLI Commands Usage Guideline
The CLI general operation commands are summarized below:
NAVIGATING THROUGH THE MENU TREE:
• To enter a certain menu, type the menu name + [Enter].
• To exit one level up from the current menu, type ‘..’ + [Enter].
• To exit to the main menu (root), type '' + [Enter].
• The CLI menu tree has two sections with identical structure: ‘/root/config’
and ‘/root/show’. The ‘config’ menu has commands for the IVG-7000
configuration and the ‘show’ menu has commands for displaying information
about the IVG-7000 status.
• There is a quick way to move between the same sub-menu under the ‘config’
section and the ‘show’ section. Press the [Shift-3] key to shift between sub-
menus of the ‘config’ and ‘show’ sections.
For example: when pressing [Shift-3] in the ‘/root/show/interface/connect’,
the directory is transferred to ‘/root/config/interface/xconnect’.
ENTERING COMMANDS:
• To execute a command, type the command and its parameters + [Enter].
• The CLI features an auto-complete mechanism. This feature saves time and
completes the command letters by its first one or two letters. To activate the
auto-complete feature on a command, start typing the first one or two letters
of the command and press the [Tab] key.
• Press the [Tab] key again to scroll between several results of the auto-
complete feature.
• Press the [up] and [down] arrows for commands history to retype
commands that have been typed before.
GETTING HELP:
• To get a list of available commands and sub-menus, type ‘?’
• To get help on the syntax of all the commands, type ‘help’ + [Enter].
• To get help on the syntax of a specific command, type the command followed
by ‘?’.
5.1.2.4. Saving Changes in the CLI
Each menu in the CLI has a >save command. The >save command stores
IVG-7000 internal data such as IP Addresses and cross-connection tables. When a
power interruption occurs, the IVG-7000 restores its saved internal data. Using the
>save command after each change prevents re-configuring the IVG-7000.
To save changes made to the IVG-7000, type ‘save’ at the prompt + [Enter].
(From any directory in the menu tree)

CODICO®
IVG-7000 Series
5.1.3. CLI Command Structure
Figure 5-2 shows the CLI menus and sub menus structure.
Figure 5-2: IVG-7000 Menu Tree Structure
root
show
logger interfacefilesystem cassystem
clock input xconnectoutput statisticsethernet
descriptors Psi_si
config
logger interfacefilesystem cassystem
clock input xconnectoutput statisticsethernet
descriptors Psi_siScrambling
Admin
Scrambling
5.1.4. IVG-7000 Initialization Sequence
When starting the IVG-7000, it performs a sequence of self-tests and initialization.
The initialization sequence can be used to confirm the system proper initialization
and operation. The IVG-7000 displays error messages on the initialization phase in
case of an error.

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Page 5-6 (Rev 2.0 / Jan. 2005)
5.2. MONITORING COMMANDS
The Monitoring commands are under the ‘/root/show’ sub-menu.
5.2.1. Input Monitoring Commands
The Input Monitoring Commands are under the ‘/root/show/interface/input’
sub-menu.
5.2.1.1. bouquets command
The >bouquets command displays information about bouquets present at the
input ports. The information shown: port number, bouquet ID, transport stream
ID, original network ID.
The >bouquets command is available in ‘/root/show/interface/input’ and
has the following syntax:
>bouquets [port]
Where:
[port] - When a port number is specified, the table displays data related to that
port only.
/root/show/interface/input>bouquets
+------+------------+---------------------+---------------------+
| port | bouquet id | transport stream id | original network id |
+------+------------+---------------------+---------------------+
+------+------------+---------------------+---------------------+
5.2.1.2. networks command
The >networks command displays information about the networks present at the
input ports. The information shown: port number, network ID, network name,
transport stream ID and original network ID.
The >networks command is available in ‘/root/show/interface/input’ and
>networks [port]
Where:
port only. Otherwise, data about all parts is displayed.
/root/show/interface/input>networks
+------+------------+------------------------------+---------+-----------------+
| port | network id | network name | ts id | orig network id |
+------+------------+------------------------------+---------+-----------------+
| a10 | 318 | GCP/H | 15600 | 318 |
| a12 | 318 | GCP/H | 15600 | 318 |
| a14 | 2000 | R&S Netwo | 2218 | 1999 |
+------+------------+------------------------------+---------+-----------------+

CODICO®
IVG-7000 Series
5.2.1.3. programs command
The >programs command displays information about programs present at the
input ports. The information shown:
• port number
• transport stream ID
• program (service ID) number
• service name
• type/cas – the type parameter indicates service type (TV - television) or Rad -
radio) and the cas parameter shows encryption (CAS (scrambled) or Fre - clear)
• PMT PID
• PCR PID
• Rate - the bit rate of the program/service.
The >programs command is available in ‘/root/show/interface/input’ and has
the following syntax:
>programs [port]
Where:
port only.
/root/show/interface/input>programs
+------+-------+-------+------------------------+---------+-----+-----+--------+
| port | ts | serv. | service | type/ | pmt | pcr | rate |
| | id | id | name | cas | pid | pid | (Mb/s) |
+------+-------+-------+------------------------+---------+-----+-----+--------+
| a10 | 15600 | 10702 | Cartoon Network | tv /cas | 261 | 130 | 4.080 |
| a10 | 15600 | 10703 | ULTRA BLUE TV | tv /fre | 33 |8190 | 1.891 |
| a10 | 15600 | 10704 | 102.5 HIT Ch | tv /fre |4217 | 224 | 3.667 |
| a10 | 15600 | 10705 | TLC SAT | tv /fre | 56 | 225 | 3.054 |
| a10 | 15600 | 10706 | PRO SAT | tv /fre | 32 |3105 | 2.956 |
| a10 | 15600 | 10707 | TV ROMANIA | tv /fre | 207 | 227 | 3.659 |
| a10 | 15600 | 10709 | Channel SUN | tv /fre | 209 | 229 | 4.153 |
| a10 | 15600 | 10710 | 123SAT/69XTV | tv /fre | 210 | 230 | 3.581 |
| a10 | 15600 | 10750 | RTL 102.5 | rad/fre | 300 | 224 | 0.265 |
| a10 | 15600 | 10751 | In direct Romania | rad/fre | 301 | 266 | 0.072 |
| a10 | 15600 | 10752 | Romania Musical | rad/fre | 302 | 267 | 0.252 |
| a12 | 15600 | 10702 | Cartoon Network | tv /cas | 261 | 130 | 3.928 |
| a12 | 15600 | 10703 | ULTRA BLUE TV | tv /fre | 33 |8190 | 1.717 |
| a12 | 15600 | 10704 | 102.5 HIT Ch | tv /fre |4217 | 224 | 3.689 |
| a12 | 15600 | 10705 | TLC SAT | tv /fre | 56 | 225 | 2.974 |
| a12 | 15600 | 10706 | PRO SAT | tv /fre | 32 |3105 | 2.947 |
| a12 | 15600 | 10707 | TV ROMANIA | tv /fre | 207 | 227 | 3.645 |
| a12 | 15600 | 10709 | Channel SUN | tv /fre | 209 | 229 | 4.073 |
| a12 | 15600 | 10710 | 123SAT/69XTV | tv /fre | 210 | 230 | 3.575 |
| a12 | 15600 | 10750 | RTL 102.5 | rad/fre | 300 | 224 | 0.249 |
| a12 | 15600 | 10751 | In direct Romania | rad/fre | 301 | 266 | 0.077 |
| a12 | 15600 | 10752 | Romania Musical | rad/fre | 302 | 267 | 0.246 |
| a14 | 2218 | 1 | Transpt 6Mbs | tv /fre | 32 | 256 | 6.590 |
| a14 | 2218 | 4 | Transpt 2Mbs | tv /fre | 35 |1024 | 2.499 |
+------+-------+-------+------------------------+---------+-----+-----+--------+

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Page 5-8 (Rev 2.0 / Jan. 2005)
5.2.1.4. elementary_streams command
The >elementary_streams command displays information about elementary
streams present at the input ports. The information shown:
• Port number
• Service ID (Program number)
• ES PID
• ES type
• Rate – The bit rate of the elementary stream.
The >elementary_streams command is available in
‘/root/show/interface/input’ and has the following syntax:
>elementary_streams [<port> [service_id]]
Where:
• <port> – filter the information displayed to the specified port.
• <service id> – filter the information displayed to the specified service ID.
/root/show/interface/input>elementary_streams
+------+---------+--------+-------------------------------------------+--------+
| port | service | es pid | es type | rate |
| | id | | | (Mb/s) |
+------+---------+--------+-------------------------------------------+--------+
| a10 | 10702 | 3401 | Video MPEG 2 | 3.067 |
| a10 | 10702 | 3411 | Audio MPEG 2 | 0.219 |
| a10 | 10702 | 3412 | Audio MPEG 2 | 0.070 |
| a10 | 10702 | 3413 | Audio MPEG 2 | 0.114 |
| a10 | 10702 | 3420 | Private Data in PES | 0.075 |
| a10 | 10702 | 3451 | Reserved / User Private (0xc0) | 0.061 |
| a10 | 10702 | 3452 | Reserved / User Private (0xc1) | 0.237 |
| a10 | 10705 | 225 | Video MPEG 2 | 2.869 |
| a10 | 10752 | 267 | Audio MPEG 1 | 0.238 |
| a12 | 10703 | 243 | Audio MPEG 2 | 0.115 |
| a12 | 10704 | 224 | Video MPEG 2 | 3.270 |
| a12 | 10704 | 244 | Audio MPEG 1 | 0.152 |
| a12 | 10709 | 229 | Video MPEG 2 | 3.930 |
| a12 | 10709 | 249 | Audio MPEG 1 | 0.216 |
| a12 | 10710 | 230 | Video MPEG 2 | 3.301 |
| a12 | 10710 | 250 | Audio MPEG 1 | 0.312 |
| a12 | 10752 | 267 | Audio MPEG 1 | 0.174 |
| a14 | 1 | 256 | Video MPEG 2 | 6.175 |
| a14 | 2 | 528 | Audio MPEG 2 | 0.370 |
| a14 | 3 | 768 | Video MPEG 2 | 3.182 |
| a14 | 3 | 784 | Audio MPEG 2 | 0.352 |
| a14 | 4 | 1024 | Video MPEG 2 | 2.080 |
| a14 | 4 | 1040 | Audio MPEG 2 | 0.362 |
+------+---------+--------+-------------------------------------------+--------+
NOTE
When using the >elementary_stream command without any filtering, a very long list
may appear.

CODICO®
IVG-7000 Series
5.2.1.5. pid_view Command
The >pid_view command displays information about all the PIDs in a specific
input stream. The information shown:
• PID number
• Service name
• Rate (Mb/s)
• Stream type
The >pid_view command is available in ‘/root/show/interface/input’ and has
>pid_view <port>
Where:
<port> – filter the information displayed to the specified input port.
[M
/root/show/interface/input>pid_view 1
+-------+-----------------------------------+--------+-------------------------+
| pid | service | rate | stream type |
| | | (Mb/s) | |
+-------+-----------------------------------+--------+-------------------------+
| 0 | | 0.015 | PAT |
| 1 | | 0.015 | CAT |
| 17 | | 0.001 | SDT/BAT |
| 18 | | 0.013 | EIT |
| 32 | RTL Television | 0.264 | Private Data in PES |
| 80 | RTL Television | 0.203 | Audio MPEG 1 |
| 160 | RTL Television | 3.429 | Video MPEG 2 |
| 500 | VOX CH | 3.989 | Video MPEG 2 |
| 501 | VOX CH | 0.202 | Audio MPEG 1 |
| 502 | VOX CH | 0.261 | Private Data in PES |
| 510 | RTL CH | 3.941 | Video MPEG 2 |
| 513 | RTL CH | 0.264 | Private Data in PES |
| 514 | RTL CH | 0.203 | Audio MPEG 2 |
| 540 | CNN | 4.970 | Video MPEG 2 |
| 541 | CNN | 0.015 | ECM (0xd00) |
| 542 | CNN | 0.203 | Audio MPEG 1 |
| 543 | CNN | 0.264 | Private Data in PES |
| 550 | NBC | 4.968 | Video MPEG 2 |
| 551 | NBC | 0.203 | Audio MPEG 1 |
| 552 | NBC | 0.203 | Audio MPEG 1 |
| 553 | NBC | 0.262 | Private Data in PES |
| 570 | ZDF | 3.993 | Video MPEG 2 |
| 571 | ZDF | 0.203 | Audio MPEG 1 |
| 572 | ZDF | 0.264 | Private Data in PES |
| 580 | | 3.940 | unknown |
| 583 | | 0.264 | unknown |
| 584 | | 0.203 | unknown |
| 1024 | RTL Television | 0.015 | PMT |
| 1025 | VOX CH | 0.015 | PMT |
| 1026 | RTL CH | 0.015 | PMT |
| 1030 | CNN | 0.015 | PMT |
| 1031 | NBC | 0.015 | PMT |
| 1033 | ZDF | 0.015 | PMT |
| 1034 | Testkanal | 0.015 | PMT |
| 8191 | | 9.207 | NULL PID |
+-------+-----------------------------------+--------+-------------------------+
total: 42.065

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5.2.1.6. descr_payload Command
The > descr_payload command displays the name tag, instance, data length and
payload parameters of the descriptors in the input.
The > descr_payload command is available in ‘/root/show/interface/input’
and has the following syntax:
> descr_payload
<port><pmt1|pmt2|cat|nit1|nit2|sdt|tot><tag(hex)><instance>
Where:
< pmt1|pmt2|cat|nit1|nit2|sdt|tot > - specifies the PSI/SI table.
<tag(hex)> - specifies a hexadecimal tag in the payload string.
<instance> - specifies the number of instances in the descriptor.
root/show/interface/input>descr_payload 1 nit2 41 1
ts id : 15600
network id : 318
original network id : 318
service_list_descriptor (0x41)
instance: 1
payload length: 51
payload:
29:ce:01:29:cf:01:29:d0:01:29:d1:01:29:d2:01:29:fe:02:29:d3:01:29:d5:01:29:d6:01:
29:ff:02:2a:00:02:29:d7:01:29:fd:02:29:cd:01:2a:01:02:2a:02:02:29:d8:01

CODICO®
IVG-7000 Series
5.2.1.7. descriptors Command
The > descriptors command displays a table of information regarding the tag,
instance, loop and data of an input port.
The > descriptors command is available in ‘/root/show/interface/input’ and
> descriptors <port><pmt1|pmt2|cat|nit1|nit2|sdt|tot><tag(hex)><instance>
Where:
< pmt1|pmt2|cat|nit1|nit2|sdt|tot > - specifies the PSI/SI table.
<tag(hex)> - specifies a hexadecimal tag in the payload string.
<instance> - specifies the number of instances in the descriptor
/root/show/interface/input>descriptors 1 pmt1
ts id : 15600
program : 10702
+---------------------------+----------+------+--------------------------------+
| tag | instance | loop | data |
+---------------------------+----------+------+--------------------------------+
| System_clock_descr (0x0b) | 1 | n/a | payload length: 2 |
| | | | payload: 42:3f |
+---------------------------+----------+------+--------------------------------+
| Maximum_bitrate_de (0x0e) | 1 | n/a | payload length: 3 |
| | | | payload: c0:10:5a |
+---------------------------+----------+------+--------------------------------+
| Smoothing_buffer_d (0x10) | 1 | n/a | payload length: 6 |
| | | | payload: c0:02:71:c0:04:00 |
+---------------------------+----------+------+--------------------------------+

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Page 5-12 (Rev 2.0 / Jan. 2005)
5.2.1.8. ports Command
The >ports command displays information about the input ports. The information
is: port number, status(up/down), si type, stat mux (on/off).
The ports command is available in ‘/root/show/interface/input’ and has the
following syntax:
> ports
/root/show/interface/input>ports
+------+----------+----------+----------+
| port | status | si type | stat mux |
+------+----------+----------+----------+
| a1 | up | dvb | off |
+------+----------+----------+----------+
| a2 | up | dvb | off |
+------+----------+----------+----------+
| a3 | up | dvb | off |
+------+----------+----------+----------+
| a4 | up | dvb | off |
+------+----------+----------+----------+
| a5 | up | dvb | off |
+------+----------+----------+----------+
| a6 | up | dvb | off |
+------+----------+----------+----------+
| a7 | up | dvb | off |
+------+----------+----------+----------+
| a8 | up | dvb | off |
+------+----------+----------+----------+
| a9 | up | dvb | off |
+------+----------+----------+----------+
| a10 | up | dvb | off |
+------+----------+----------+----------+
| a11 | up | dvb | off |
+------+----------+----------+----------+
| a12 | up | dvb | off |
+------+----------+----------+----------+
| a13 | up | dvb | off |
+------+----------+----------+----------+
| a14 | up | dvb | off |
+------+----------+----------+----------+
| a15 | up | dvb | off |
+------+----------+----------+----------+
| a16 | up | dvb | off |
+------+----------+----------+----------+

CODICO®
IVG-7000 Series
5.2.2. Output Monitoring Commands
The Output Monitoring Commands are under the
‘/root/show/interface/output’ sub-menu.
5.2.2.1. Pid_View Command
The >pid_view command displays information about all the PIDs in a specific
input stream. The information shown:
• PID number
• Service name
• Rate (Mb/s)
• Stream type
The >pid_view command is available in ‘/root/show/interface/output’ and
>pid_view <port>
Where:
[M
/root/show/interface/output>pid_view 1
+-------+-----------------------------------+--------+-------------------------+
| pid | service | rate | stream type |
| | | (Mb/s) | |
+-------+-----------------------------------+--------+-------------------------+
| 0 | | 0.015 | PAT |
| 1 | | 0.015 | CAT |
| 17 | | 0.001 | SDT/BAT |
| 18 | | 0.013 | EIT |
| 32 | RTL Television | 0.264 | Private Data in PES |
| 80 | RTL Television | 0.203 | Audio MPEG 1 |
| 160 | RTL Television | 3.429 | Video MPEG 2 |
| 500 | VOX CH | 3.989 | Video MPEG 2 |
| 501 | VOX CH | 0.202 | Audio MPEG 1 |
| 502 | VOX CH | 0.261 | Private Data in PES |
| 510 | RTL CH | 3.941 | Video MPEG 2 |
| 513 | RTL CH | 0.264 | Private Data in PES |
| 514 | RTL CH | 0.203 | Audio MPEG 2 |
| 540 | CNN | 4.970 | Video MPEG 2 |
| 541 | CNN | 0.015 | ECM (0xd00) |
| 542 | CNN | 0.203 | Audio MPEG 1 |
| 543 | CNN | 0.264 | Private Data in PES |
| 550 | NBC | 4.968 | Video MPEG 2 |
| 551 | NBC | 0.203 | Audio MPEG 1 |
| 552 | NBC | 0.203 | Audio MPEG 1 |
| 553 | NBC | 0.262 | Private Data in PES |
| 570 | ZDF | 3.993 | Video MPEG 2 |
| 571 | ZDF | 0.203 | Audio MPEG 1 |
| 572 | ZDF | 0.264 | Private Data in PES |
| 580 | | 3.940 | unknown |
| 583 | | 0.264 | unknown |
| 584 | | 0.203 | unknown |
| 1024 | RTL Television | 0.015 | PMT |
| 1025 | VOX CH | 0.015 | PMT |
| 1026 | RTL CH | 0.015 | PMT |
| 1030 | CNN | 0.015 | PMT |

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Page 5-14 (Rev 2.0 / Jan. 2005)
| 1031 | NBC | 0.015 | PMT |
| 1033 | ZDF | 0.015 | PMT |
| 1034 | Testkanal | 0.015 | PMT |
| 8191 | | 9.207 | NULL PID |
+-------+-----------------------------------+--------+-------------------------+
total: 42.065
5.2.2.2. Ports command
The >ports command displays information about output ports. The information is:
port number, total bit rate, reserved bit rate, packet size (188/204) and joint
transrating (yes/no).
The >ports command is available in ‘/root/show/interface/output’ and has the
following syntax:
>ports
/root/show/interface/output>ports
+----------+------------+------------+----------------------------------------+
| port | stream | admin | configuration |
| | type | status | |
+----------+------------+------------+----------------------------------------+
| a1 | dvb | up | total bitrate = 70000000 |
| | | | stat mux = on |
| | | | reserved bitrate = 100000 |
+----------+------------+------------+----------------------------------------+
| a2 | dvb | up | total bitrate = 90000000 |
| | | | stat mux = on |
| | | | reserved bitrate = 200000 |
+----------+------------+------------+----------------------------------------+
/root/show/interface/output>

CODICO®
IVG-7000 Series
5.2.2.3. networks command
The >networks command displays information about output networks at the output
ports. The information shown: port number, network ID, network name, transport
stream and original network ID.
The >networks command is available in ‘/root/show/interface/output’ and
>networks <port>
Where:
<port> - is the port number
/root/show/interface/output>networks
+------+------------+------------------------------+---------+-----------------+
+------+------------+------------------------------+---------+-----------------+
| a1 | 1 | Scopus Network | 12700 | 100 |
| a2 | 1 | IVG-7000 Default Network | 12700 | 100 |
+------+------------+------------------------------+---------+-----------------+
5.2.2.4. programs command
The >programs command displays information about programs present at the
output ports. The information shown: port number, transport stream ID, service
ID (program number), service name, PMT PID, PCR PID and the bit rate of the
program.
The >programs command is available in ‘/root/show/interface/output' and
>programs [port]
Where:
[port] (Optionally) - when a port number is specified, the table displays data
related to that port only.
/root/show/interface/output>programs
+------+-------+-------+------------------------+---------+-----+-----+--------+
| port | ts | serv. | service | type/ | pmt | pcr | rate |
| | id | id | name | cas | pid | pid | (Mb/s) |
+------+-------+-------+------------------------+---------+-----+-----+--------+
| a1 | 12700 | 500 | RTL Television | tv /fre | 500 | 503 | 3.896 |
| a1 | 12700 | 501 | VOX CH | tv /fre | 504 | 505 | 4.452 |
| a1 | 12700 | 502 | RTL CH | tv /fre | 508 | 509 | 4.404 |
| a1 | 12700 | 503 | CNN | tv /cas | 512 | 513 | 5.430 |
| a1 | 12700 | 504 | NBC | tv /fre | 517 | 518 | 5.630 |
| a1 | 12700 | 505 | ZDF | tv /fre | 522 | 523 | 4.452 |
| a1 | 12700 | 506 | Testkanal | tv /fre | 526 | 527 | 0.000 |
| a2 | 12700 | 100 | RTL Television | tv /fre | 100 | 103 | 3.898 |
| a2 | 12700 | 101 | VOX CH | tv /fre | 104 | 105 | 4.452 |
| a2 | 12700 | 102 | RTL CH | tv /fre | 108 | 109 | 4.407 |
| a2 | 12700 | 103 | CNN | tv /cas | 112 | 113 | 5.434 |
| a2 | 12700 | 104 | NBC | tv /fre | 117 | 118 | 5.635 |
| a2 | 12700 | 105 | ZDF | tv /fre | 122 | 123 | 4.454 |
| a2 | 12700 | 106 | Testkanal | tv /fre | 126 | 127 | 0.000 |
+------+-------+-------+------------------------+---------+-----+-----+--------+

User Manual
Page 5-16 (Rev 2.0 / Jan. 2005)
NOTE
The ‘R’ character that sometimes appears in the rate column indicates that the program
is transrated.
5.2.2.5. elementary_streams command
The >elementary_streams command displays information about elementary
streams present at the output ports. The information shown: port number, service
ID, ES PID, ES type and the bit rate of the elementary stream.
The >elementary_streams command is available in
‘/root/show/interface/output’ and has the following syntax:
>elementary_streams [<port> [service_id]]
Where:
• [port] (Optionally) - when a port number is specified, the table displays data
• [service_id] (Optionally) - when a service ID is specified, the table displays
data related to that service ID in the specified port only
/root/show/interface/output>elementary_streams 1
+------+---------+--------+-------------------------------------------+--------+
| | id | | | (Mb/s) |
+------+---------+--------+-------------------------------------------+--------+
| a1 | 500 | 502 | Audio MPEG 1 | 0.203 |
| a1 | 500 | 503 | Video MPEG 2 | 3.429 |
| a1 | 501 | 505 | Video MPEG 2 | 3.990 |
| a1 | 501 | 506 | Audio MPEG 1 | 0.203 |
| a1 | 502 | 509 | Video MPEG 2 | 3.941 |
| a1 | 502 | 511 | Audio MPEG 2 | 0.203 |
| a1 | 503 | 513 | Video MPEG 2 | 4.969 |
| a1 | 503 | 514 | Audio MPEG 1 | 0.203 |
| a1 | 504 | 518 | Video MPEG 2 | 4.972 |
| a1 | 504 | 519 | Audio MPEG 1 | 0.203 |
| a1 | 504 | 520 | Audio MPEG 1 | 0.203 |
| a1 | 505 | 523 | Video MPEG 2 | 3.996 |
| a1 | 505 | 524 | Audio MPEG 1 | 0.203 |
+------+---------+--------+-------------------------------------------+--------+
/root/show/interface/output>elementary_streams 1 500
+------+---------+--------+-------------------------------------------+--------+
| | id | | | (Mb/s) |
+------+---------+--------+-------------------------------------------+--------+
| a1 | 500 | 502 | Audio MPEG 1 | 0.204 |
| a1 | 500 | 503 | Video MPEG 2 | 3.432 |
+------+---------+--------+-------------------------------------------+--------+

CODICO®
IVG-7000 Series
5.2.3. Cross Connections Monitoring Commands
The Cross Connections Monitoring Commands are under the
/root/show/interface/xconnect’ sub-menu.
A cross connection is the transferring of data from a specific input port to a specific
output port. The data can be: the whole input port, a service (program), or a PID.
5.2.3.1. admin command
The admin command displays information about the cross-connect admin table.
The cross-connect admin table displays the routing requests of the user. A routing
request could be one of the following:
• Add an input port to an output port
• Add an input program to an output port
• Drop an input port completely – removes any cross connections that transfer
from the input port
• Drop an output port completely – removes all cross connections that transfer to
the output port.
• Drop a program from the input port - removes any cross connections that
transfer the specific program from the input port
• Drop a program from the output port – removes a specific program from the
output port
• Drop a PID from a program in the input port - removes any cross connections
that transfer the specific PID from the input port
• Drop a PID from a program in the output port - removes a specific PID from the
output port
The requests are made using the commands in the
‘/root/config/interface/xconnect’ menu (Refer to paragraph 5.3.3.1).
NOTE
A quick way to move to ‘/root/config/interface/xconnect’ from ‘/root/show/interface/xconnect’
is to press the key combination [Shift-3].
For instance, the user may ask to route input port 3 to output port 2 but to drop a
certain program from the output port. In that case, the admin command should
display a table with two routing requests:
• Add input port X to an output port Y
• Drop program Z from stream W in output port Y
The information shown: type, input (port, ts ID, service ID, es pid), output (port,
ts ID, service ID, es pid), action, and status.
The admin command is available in ‘/root/show/interface/xconnect>admin'
and the following syntax:
>Admin

User Manual
Page 5-18 (Rev 2.0 / Jan. 2005)
/root/show/interface/xconnect>admin
+------+-------------------------+-------------------------+------+------------+
| type | input | output | add | status |
| | port | ts | prog | pid | port | ts | prog | pid | drop | |
+------+------+-----+------+-----+------+-----+------+-----+------+------------+
| port | a2 | 0| 0| 0| a1 | 0| 0| 0| add |success |
| prog | a10 | 9400| 8201| 0| a2 | 2| 0| 0| add |success |
| es | a10 | 9400| 8201| 32| a2 | 2| 3700| 0| drop |success |
| prog | a10 | 9400| 8203| 0| a2 | 2| 0| 0| add |preprovision|
+------+------+-----+------+-----+------+-----+------+-----+------+------------+

CODICO®
IVG-7000 Series
5.2.3.2. oper_pid command
The oper_pid command displays information about the Cross-Connected PID
Operational Table.
The Cross-Connect PID Operational Table displays the actual PIDs that are routed
from the input to the output.
The difference between the admin table and the oper_pid table is that the admin
table displays the requests of the user.
A user may request to cross-connect a program that do not yet exist in the
transport stream (pre-provision). In that case, the request appears in the admin
table but will appear in the oper_pid table only when the program begins to be
broadcasted.
The information shown:
• Input: port, PID number.
• Output: port, PID numebr.
The oper_pid command is available in
‘/root/show/interface/xconnect>oper_pid' and has the following syntax:
>Oper_Pid
/root/show/interface/xconnect>oper_pid
+--------------+--------------+
| input | output |
| port | pid | port | pid |
+------+-------+------+-------+
| a14 | 5001 | a1 | 5301 |
| a14 | 5011 | a1 | 5302 |
| a14 | 5101 | a1 | 5304 |
| a14 | 5111 | a1 | 5305 |
| a14 | 6001 | a1 | 5307 |
| a14 | 6011 | a1 | 5308 |
| a14 | 2306 | a1 | 5310 |
| a14 | 6101 | a1 | 5311 |
| a14 | 6111 | a1 | 5312 |
| a14 | 2307 | a1 | 5314 |
| a14 | 6201 | a1 | 5315 |
| a14 | 6211 | a1 | 5316 |
| a14 | 6212 | a1 | 5317 |
| a14 | 2308 | a1 | 5319 |
| a14 | 6301 | a1 | 5320 |
| a14 | 6311 | a1 | 5321 |
| a14 | 6312 | a1 | 5322 |
| a14 | 6401 | a1 | 5324 |
| a14 | 6411 | a1 | 5325 |
| a14 | 6501 | a1 | 5327 |
| a14 | 6511 | a1 | 5328 |
| a14 | 2305 | a1 | 5330 |
| a14 | 6701 | a1 | 5331 |
| a14 | 6711 | a1 | 5332 |
| a14 | 2309 | a1 | 5334 |
| a14 | 6801 | a1 | 5335 |
| a14 | 6811 | a1 | 5336 |
| a14 | 6812 | a1 | 5337 |
| a14 | 2310 | a1 | 5339 |
| a14 | 6901 | a1 | 5340 |
| a14 | 6911 | a1 | 5341 |
| a14 | 6912 | a1 | 5342 |
+------+-------+------+-------+

User Manual
Page 5-20 (Rev 2.0 / Jan. 2005)
5.2.3.3. oper_programs command
The oper_programs command displays information about the Cross-Connected
Programs operational Table.
The Cross-Connected Programs Operational Table displays the actual programs
that are routed from the input to the output without the PID information.
The information shown:
• Input: port, transport stream, service ID.
• Output: port, transport stream, service ID.
The oper_programs command is available in
‘/root/show/interface/xconnect>oper_programs' and has the following
syntax:
>Oper_Program
/root/show/interface/xconnect>oper_programs
+-----------------------+-----------------------+
| input | output |
| port | ts | prog | port | ts | prog |
+------+-------+--------+------+-------+--------+
| a14 | 12200 | 7401 | a1 | 12200 | 5300 |
| a14 | 12200 | 7402 | a1 | 12200 | 5301 |
| a14 | 12200 | 7451 | a1 | 12200 | 5302 |
| a14 | 12200 | 7452 | a1 | 12200 | 5303 |
| a14 | 12200 | 7453 | a1 | 12200 | 5304 |
| a14 | 12200 | 7454 | a1 | 12200 | 5305 |
| a14 | 12200 | 7455 | a1 | 12200 | 5306 |
| a14 | 12200 | 7456 | a1 | 12200 | 5307 |
| a14 | 12200 | 7458 | a1 | 12200 | 5308 |
| a14 | 12200 | 7459 | a1 | 12200 | 5309 |
| a14 | 12200 | 7460 | a1 | 12200 | 5310 |
+------+-------+--------+------+-------+--------+

CODICO®
IVG-7000 Series
5.2.3.4. routing command
The >routing command displays information about the actual parameters of the
Cross-Connect Programs.
The >routing command displays a table with the following parameters:
• Input: port, transport stream, program.
• Output: port, transport stream, program, PMT table.
• Program name / PID Routing: displays each PID number in the input and in the
output.
• Rate reduction / scrambling: displays transrating and scrambling values.
The >routing command is available in
‘/root/show/interface/xconnect>routing’ and has the following syntax:
>Routing
/root/show/interface/xconnect>routing
+----+-----+-----+----+-----+-----+----+---------------------+-----------------+
| input | output | program name / | rate reduction /|
|port| ts |prog |port| ts |prog |pmt | pid routing | scrambling |
+----+-----+-----+----+-----+-----+----+---------------------+-----------------+
|a5 |11000| 4401|a1 | 100| 1700|1700| TV BIZNES | transrated |
| | | | | | | | audio 80 -> 1701 | min = 2000000 |
| | | | | | | | video 160 -> 1702 | max = 3000000 |
| | | | | | | | other 208 -> 1703 | priority = 1 |
| | | | | | | | other 213 -> 1704 | sd |
| | | | | | | | other 1200 -> 1705 | |
| | | | | | | | pcr 160 -> 1702 | îî |
+----+-----+-----+----+-----+-----+----+---------------------+-----------------+
|a5 |11000| 4412|a1 | 100| 1701|1706| PILOT | transrated |
| | | | | | | | audio 124 -> 1707 | min = 2000000 |
| | | | | | | | video 171 -> 1708 | max = 3000000 |
| | | | | | | | other 1200 -> 1705 | priority = 1 |
| | | | | | | | pcr 171 -> 1708 | sd |
+----+-----+-----+----+-----+-----+----+---------------------+-----------------+
|a5 |11000| 4435|a1 | 100| 1702|1709| ESP | transrated |
| | | | | | | | audio 91 -> 1710 | min = 2000000 |
| | | | | | | | other 1200 -> 1705 | max = 3000000 |
| | | | | | | | pcr 91 -> 1710 | priority = 1 |
| | | | | | | | | sd |
+----+-----+-----+----+-----+-----+----+---------------------+-----------------+

User Manual
Page 5-22 (Rev 2.0 / Jan. 2005)
5.2.4. Statistics Monitoring Commands
5.2.4.1. pid_errors Command
The >pid_errors command displays a table with information regarding the PID
errors: port number, PID number, error type, error counter, last error time and
active time.
The >pid_errors command is available in ‘/root/show/interface/statistics’
>pid_errors [<port> [<pid>]]
Where:
• [port] (Optionally) - when a port number is specified, the table displays data
• [pid] (Optionally) - when a PID number is specified, the table displays data
related to that PID only in the specified port.
statistics>pid_errors 1 501
+-----+-----+-------------------------+-------+-----------------------+-------+
|Port | Pid | Error type |Counter| Last error time |Active |
| | | | | | time |
+-----+-----+-------------------------+-------+-----------------------+-------+
| a1 |501 | Continuity_count_error | 0 | | 0 |
| a1 |501 | PMT_error_2 | 0 | | 0 |
| a1 |501 | PID_error | 0 | | 0 |
| a1 |501 | PCR_repetition_error | 0 | | 0 |
| a1 |501 | PCR_discontinuity_error | 0 | | 0 |
| a1 |501 | PCR_accuracy_error | 0 | | 0 |
| a1 |501 | Unreferenced_PID | 0 | | 0 |
+-----+-----+-------------------------+-------+-----------------------+-------+

CODICO®
IVG-7000 Series
5.2.4.2. port_errors Command
The >port_errors command displays a table with information regarding port
errors: port number, error type, error counter, last error time and active time.
Before using this command, the >start_monitoring command should be
executed. Refer to paragraph 5.3.5.5.
The >port_errors command is available in ‘/root/show/interface/statistics’
> port_errors [<port>]
Where:
[port] (Optionally) - when a port number is specified, the table displays data
/root/show/interface/statistics>port_errors 1
+-----+------------------------+-------+-----------------------+-------+
|Port | Error type |Counter| Last error time |Active |
| | | | | time |
+-----+------------------------+-------+-----------------------+-------+
| a1 | TS_Sync_Loss | 14 | | 5632 |
| a1 | Sync_byte_error | 10 | | 5632 |
| a1 | PAT_error_2 | 10 | 2003-12-10,00:27:01.00| 5632 |
| a1 | Continuity_count_error | 23 | | 5632 |
| a1 | PMT_error_2 | 5 | 2003-12-10,00:27:01.00| 5632 |
| a1 | PID_error | 0 | | 5632 |
| a1 | Transport_error | 0 | | 5632 |
| a1 | CRC_error | 0 | | 5632 |
| a1 | PCR_repetition_error | 0 | | 5632 |
| a1 | PCR_discontinuity_error| 0 | | 5632 |
| a1 | PCR_accuracy_error | 0 | | 5632 |
| a1 | CAT_error | 0 | | 5632 |
| a1 | NIT_actual_error | 4 | 2003-12-10,00:26:08.00| 5632 |
| a1 | NIT_other_error | 0 | | 5632 |
| a1 | SI_repetition_error | 0 | | 5632 |
| a1 | Unreferenced_PID | 0 | | 5632 |
| a1 | SDT_actual_error | 4 | 2003-12-10,00:26:08.00| 5632 |
| a1 | SDT_other_error | 0 | | 5632 |
+-----+------------------------+-------+-----------------------+-------+

User Manual
Page 5-24 (Rev 2.0 / Jan. 2005)
5.2.5. filesystm Commands
The filesystm commands are under the ‘/root/show/filesystm’ sub-menu.
Paragraph 5.3.5 describes the software download management commands.
5.2.5.1. Servers Command
The >servers command displays a list of servers. The servers are used for
downloading software from them using FTP/TFTP protocols. Servers are configured
through the commands in ‘/root/config/filesystm’
The >servers command is available in ‘/root/show/filesystm’ and has the
following syntax:
>servers
/root/show/filesystem>servers
+-----+-----------------+----------+-----------------+------------+------------+
| # | ip address | protocol | path | username | password |
+-----+-----------------+----------+-----------------+------------+------------+
|* 1 | 10.12.0.131 | ftp | . | dsp | dsp |
| 2 | 10.12.0.131 | ftp | . | IVG-7000 | IVG-7000 |
| | | | | | |
| 3 | 10.12.0.131 | ftp | . | fpga | fpga |
| 4 | 10.2.1.115 | ftp | . | IVG-7000 | IVG-7000 |
| | | | | | |
+-----+-----------------+----------+-----------------+------------+------------+
* - default server
The ‘#’ sign marks the server index and the ‘*’ sign marks the default server.
NOTE
A quick way to move to ‘/root/show/filesystem from ‘/root/config/filesystem is
to press the key combination [Shift-3].

CODICO®
IVG-7000 Series
5.2.5.2. Files Command
The >file command displays a list of all the files in the device memory and the
amount of free memory space. The memory is divided into two folders: active
folder and passive folder. The passive folder is nothing more than a temporary
storage space for downloading files to the device. Once the files are moved to the
active folder, the IVG-7000 device uses the files according to their types.
The >files command is available in ‘/root/show/filesystem’ and has the
following syntax:
>files
/root/show/filesystem>files
active folder:
+----------------------+----------------------+----------------+---------------+
| file name | file type | version |
| size (bytes) | revision | date | time |
+----------------------+----------------------+----------------+---------------+
| dsp_1312x.ivg | dsp2 | 1312 |
| 2498624 | X | 12/23/04 | 15:18:56 |
+----------------------+----------------------+----------------+---------------+
| ipm_dev_build4.ivg | ipm_fpga | build4 |
| 851696 | buil11/07/04 | 11/07/04 | 14:05:05 |
+----------------------+----------------------+----------------+---------------+
| npappl_2_0_0_1.ivg | np_app | 2_0_0_1 |
| 120592 | 3 | 10/20/04 | 13:18:07 |
+----------------------+----------------------+----------------+---------------+
| npboot.ivg | np_boot | 1 |
| 58464 | 1 | 06/18/03 | 11:15:36 |
+----------------------+----------------------+----------------+---------------+
| pm_dev_build4.ivg | pm_fpga_ver2 | 2.0.0.6 |
| 936576 | 6 | 11/07/04 | 16:45:05 |
+----------------------+----------------------+----------------+---------------+
| vxworks.sym | host_symbols | 2 |
| 2894492 | 0.3.01/04/05 | 01/04/05 | 17:05:10 |
+----------------------+----------------------+----------------+---------------+
| vxworks_2030.ivg | host | 2 |
| 11608416 | 0.3.01/04/05 | 01/04/05 | 17:04:44 |
+----------------------+----------------------+----------------+---------------+
passive folder:
+----------------------+----------------------+----------------+---------------+
| file name | file type | version |
| size (bytes) | revision | date | time |
+----------------------+----------------------+----------------+---------------+
| default_2005.ivg | default_app | 2 |
| 2379092 | 0.0.10/26/04 | 10/26/04 | 15:41:34 |
+----------------------+----------------------+----------------+---------------+
| dsp_0711a.ivg | dsp2 | 2.0.0.6 |
| 2497536 | 6 | 11/07/04 | 14:42:34 |
+----------------------+----------------------+----------------+---------------+
| dsp_3011a.ivg | dsp2 | 1 |
| 2498624 | 1 | 11/30/04 | 16:13:47 |
+----------------------+----------------------+----------------+---------------+
| ipm_dev_build4.ivg | ipm_fpga | build4 |
| 851696 | buil11/07/04 | 11/07/04 | 14:05:05 |
+----------------------+----------------------+----------------+---------------+
| npappl_2_0_0_1.ivg | np_app | 2_0_0_1 |
| 120592 | 3 | 10/20/04 | 13:18:07 |
+----------------------+----------------------+----------------+---------------+
| npboot.ivg | np_boot | 1 |
| 58464 | 1 | 06/18/03 | 11:15:36 |
+----------------------+----------------------+----------------+---------------+
| pm_dev_build4.ivg | pm_fpga_ver2 | 2.0.0.6 |

User Manual
Page 5-26 (Rev 2.0 / Jan. 2005)
| 936576 | 6 | 11/07/04 | 16:45:05 |
+----------------------+----------------------+----------------+---------------+
| vxworks.sym | host_symbols | 2 |
| 2744328 | 0.0.01/03/05 | 01/03/05 | 17:00:56 |
+----------------------+----------------------+----------------+---------------+
| 9297512 | 0.0.11/22/04 | 11/22/04 | 13:54:27 |
+----------------------+----------------------+----------------+---------------+
| 9320060 | 0.0.12/08/04 | 12/08/04 | 16:07:39 |
+----------------------+----------------------+----------------+---------------+
| 9320076 | 0.0.12/09/04 | 12/09/04 | 18:13:27 |
+----------------------+----------------------+----------------+---------------+
| 9330952 | 0.0.01/03/05 | 01/03/05 | 17:00:36 |
+----------------------+----------------------+----------------+---------------+
free space : 61900800

CODICO®
IVG-7000 Series
5.2.5.3. transfer_commands Command
The >transfer_Commaands command displays a table with information about
the file names, server ip address, status, bytes transferred and failure reason.
The > transfer_Commands command is available in ‘/root/show/filesystem’
>transfer_commands
/root/show/filesystem>transfer_commands
+----------------------+-------------+----------+----------+---------------------+
| file name | server ip | status | bytes | failure reason |
| | address | |transfered| |
+----------------------+-------------+----------+----------+---------------------+
| package_1101.ivg | 10.13.0.130 | success | 1 | |
| pm2_ver1104_1.ivg | 10.13.0.130 | success | 1 | |
| vxworks.sym | 10.13.0.130 | success | 2729940 | |
| vxworks_2003.ivg | 10.13.0.130 | success | 9276524 | |
| dsp_1310a.ivg | 10.13.0.130 | success | 2497760 | |
| R10_13_0_240.rdb | 10.13.0.130 | success | 134075 | |
| R10_13_0_240.rdb | 10.13.0.130 | success | 134606 | |
| R10_13_0_240.rdb | 10.13.0.130 | success | 134606 | |
5.2.5.4. scripts command
The >scripts command displays a table with information about the file names,
size (in bytes), time and date.
The > scripts command is available in ‘/root/show/filesystem’ and has the
following syntax:
>scripts
/root/show/filesystem>scripts
+----------------------+----------------------+----------------+---------------+
| file name | size (bytes) | date | time |
+----------------------+----------------------+----------------+---------------+
| 16X1_prog.cfg | 1360 | 13/12/04 | 16:45 |
| 1X4_prog.cfg | 809 | 14/12/04 | 14:32 |
| 1_cas_16X1_prog.cfg | 1523 | 13/12/04 | 16:57 |
| 1_cas_4X1_comv.cfg | 570 | 14/12/04 | 14:35 |
| 2_cas_4X4_prog.cfg | 8271 | 13/12/04 | 15:25 |
| 4X4_prog.cfg | 1597 | 12/12/04 | 18:38 |
| 4_cas_4X4_c.cfg | 8706 | 15/12/04 | 17:21 |
| a_p_cas_rr_1.cfg | 4145 | 15/12/04 | 15:06 |
| a_p_cas_rr_2.cfg | 3278 | 15/12/04 | 15:06 |
| a_p_cas_rr_3.cfg | 2952 | 15/12/04 | 15:06 |
| cas_setup18-1.cfg | 3036 | 22/12/04 | 10:15 |
| cas_setup18-2.cfg | 3624 | 22/12/04 | 09:31 |
| cas_setup18-3.cfg | 4798 | 23/12/04 | 11:09 |
| cas_setup18-4.cfg | 3250 | 23/12/04 | 11:09 |
| reset_all.cfg | 259 | 09/01/05 | 08:14 |
| sanity-1.cfg | 3795 | 04/01/05 | 09:32 |
| sanity-2.cfg | 1486 | 04/01/05 | 09:32 |
| startup.cfg | 519 | 12/12/04 | 11:54 |
+----------------------+----------------------+----------------+---------------+

User Manual
Page 5-28 (Rev 2.0 / Jan. 2005)
5.2.5.5. redundancy command
The >redundancy command displays a table with information about the file
names, size (in bytes), time and date.
The > redundancy command is available in ‘/root/show/filesystem’ and has
>redundancy
/root/show/filesystem>redundancy
+----------------------+----------------------+----------------+---------------+
| file name | size (bytes) | date | time |
+----------------------+----------------------+----------------+---------------+
| R10_13_0_247.rdb | 221840 | 25/10/04 | 09:14 |
+----------------------+----------------------+----------------+---------------+

CODICO®
IVG-7000 Series
5.2.6. Ethernet Monitoring Commands
The Ethernet Monitoring Commands are under the
/root/show/interface/ethernet’ sub-menu.
5.2.6.1. IP Command
The >IP command displays a table with all the available ethernet IP addresses,
ports, net mask and broadcast address and their configuration. To define IP
addresses, use the >set_ip command (Refer to paragraph 5.3.7.2).
The >IP command is available in ‘/root/show/interface/ethernet’ and has the
following syntax:
>IP
/root/show/interface/ethernet>ip
+-----------------+-------+-----------------+-------------------+
| ip address | port | net mask | broadcast address |
| | | | |
+-----------------+-------+-----------------+-------------------+
| 10. 13. 0.247 | fast2 | 255.255.255. 0 | 10. 13. 0.255 |
| 192.168.168. 1 | fast1 | 255.255.255. 0 | 0. 0. 0. 0 |
| 192.168.170. 1 | fast3 | 255.255.255. 0 | 0. 0. 0. 0 |
| 192.168.171. 1 | eth4 | 255.255.255. 0 | 0. 0. 0. 0 |
| 192.168.200.200 | gbe | 255.255.255. 0 | 192. 0. 0. 1 |
+-----------------+-------+-----------------+-------------------+
NOTE
The System Default Gateway is the Default gateway of all the system (all the subnets).

User Manual
Page 5-30 (Rev 2.0 / Jan. 2005)
5.2.7. Logger Monitoring Commands
The Logger commands manage the log view of the IVG-7000. The logger record
each message and error that occurs.
5.2.7.1. thresholds Command
The >thresholds command displays the minimum level of message to be logged.
The command displays the minimum level for Telnet logging and for RS232
logging.
The >thresholds command is available in ‘/root/show/logger’ and has the
following syntax:
>thresholds
/root/show/logger>thresholds
For console Telnet, min level to be logged is Info
For console RS232, min level to be logged is Debug
5.2.7.2. history Command
The >history command displays a table with all the log history.
The >history command is available in ‘/root/show/logger’ and has the
following syntax:
>history
/root/show/logger>history
+--------------+----------+----------+--------------------------------------------+
|time |boot#-seq#| log level| message |
+--------------+----------+----------+--------------------------------------------+
|24/03/93 13:44| 0 - 1| Info | ASOTimerTsk: NP Self Test was NOT executed |
|24/03/93 13:44| 0 - 2| Debug | tJTCtl: HandleStatusOK():dsp 0 is active, sw versi
|24/03/93 13:44| 0 - 3| Debug | tJTCtl: receive dsp interrupt bit up err (0x20) fr|
|24/03/93 13:44| 0 - 4| Debug | tJTCtl: HandleStatusOK():dsp 1 is active, sw versi|
|24/03/93 13:44| 0 - 10| Debug | tAdmin: can't READ ifconfTable |
|24/03/93 13:44| 0 - 11| Debug | tAdmin: cannot xconnect independent pid |
|24/03/93 13:44| 0 - 12| Info | tScs: SCS: channel opened on ECMG 10.13.0.135:4680|
|24/03/93 13:44| 0 - 13| Debug | tAdmin: port is not under statmux support
-------------------------------------------------------------------------------------------

CODICO®
IVG-7000 Series
5.2.8. System Monitoring Commands
The System Monitoring Commands are under the ‘/root/show/system’ sub-
menu.
5.2.8.1. Performance Command
The >Performance command displays information about modules temperature
and CPU usage.
The >Performance command is available in ‘/root/show/system' and has the
following syntax:
>performance
/root/show/fault>performance
PM Temrature : 31.00 C
IPM Temrature : Failed
CPU Usage :

User Manual
Page 5-32 (Rev 2.0 / Jan. 2005)
5.2.9. CAS Monitoring Commands
The CAS Monitoring Commands are under the ‘/root/show/cas’ sub-menu.
5.2.9.1. emm_server Command
The >emm_server command displays all the EMM Servers configured on the IVG.
The >emm_server command is available in ‘/root/show/cas’ and has the
following syntax:
>emm_server
/root/show/cas>emm_server
+----------+-------------------------+-------------------------+--------+------+
| protocol | tcp | udp | output | emm |
| | ip address | port | ip address | port | port | pid |
+----------+-----------------+-------+-----------------+-------+--------+------+
| tcp/udp | 10. 13. 0.246 | 5000 | 230. 1. 2. 3 | 5001 | a1 | 7506 |
+----------+-----------------+-------+-----------------+-------+--------+------+
5.2.9.2. ecmg Command
The >ecmg command displays a table with details on the ECM generator.
The >ecmg command is available in ‘/root/show/cas’ and has the following
syntax:
>ecmg
/root/show/cas>ecmg
+--------------+-----------------+----------+-----------------+---------+
| CA_system_id | CA_subsystem_id | priority | ip address | ip port |
+--------------+-----------------+----------+-----------------+---------+
| 0x0604 | 0x0001 | main | 10. 13. 0.128 | 4680 |
| 0x0604 | 0x0001 | backup | 10. 13. 0.134 | 4680 |
+--------------+-----------------+----------+-----------------+---------+

CODICO®
IVG-7000 Series
5.2.9.3. eis_server Command
The >eis_server command displays a table with information about opencas
server definition. The table contains data regarding the out port, ip address, ip
port and eis type predefined values.
The >eis command is available in ‘/root/show/cas’ and has the following
syntax:
>eis
/root/show/cas>eis_server
+----------+-----------------+---------+------------+
| out port | ip address | ip port | eis type |
+----------+-----------------+---------+------------+
+----------+-----------------+---------+------------+
5.2.10. Descriptors Commands
The Descriptors Commands are under the
‘root/show/interface/output/descriptors’ sub-menu.
5.2.10.1. descry_payload command
The > descr_payload command displays the nametag, instance, data length and
payload parameters of the descriptors in the output.
The > descry_payload command is available in
‘root/show/interface/output/descriptors’ and has the following syntax:
descr_payload <port> <pmt1|pmt2|cat|nit1|nit2|sdt|tot> <tag(hex)>
<instance>
Once the command is set, there are 3 parameters required: ts id, network id and
original network id.
Where:
• <port> – filter the information displayed to the specified input port.
• < pmt1|pmt2|cat|nit1|nit2|sdt|tot > - specifies the PSI/SI table.
• <tag(hex)> - specifies a hexadecimal tag in the payload string.
• <instance> - specifies the number of instances in the descriptor
• ts id – specifies the ts id number.
• Network id – specifies the network id number.
root/show/interface/input>descr_payload 1 nit2 41 1
ts id : 15600
network id : 318
original network id : 318
service_list_descriptor (0x41)
instance: 1
payload length: 51
payload:
29:ce:01:29:cf:01:29:d0:01:29:d1:01:29:d2:01:29:fe:02:29:d3:01:29:d5:01:29:d6:01:
29:ff:02:2a:00:02:29:d7:01:29:fd:02:29:cd:01:2a:01:02:2a:02:02:29:d8:01

User Manual
Page 5-34 (Rev 2.0 / Jan. 2005)
5.2.10.2. is_copied command
The >is_copied command shows a list of descriptor tags. The list shows only
descriptor tags that are copied from the input (the descriptors that are not defined
will be discarded).
The > is_copied command is available in
is_copied <port> <pmt1|pmt2|nit1|nit2|sdt> [tag(hex)]
>is_copied a1 pmt1 0x09
ts id 100
program 100
the CA descriptor (tag 0x09) is copied from the input stream
5.2.10.3. user_defined command
The > user_defined command shows the descriptors that were added to the output
stream by the user.
The > user_defined command is available in
>user_defined <port> <pmt1|pmt2|cat|nit1|nit2|sdt|tot> [tag(hex)]
> user_defined a1 pmt2 0x51
ts id : 100
program number: 22
es : 41
tag instance loop data
1 n/a payload length = 20
00:10:aa:ff:64:00:00:00…
30:00:01:22:ff:ff:ff:ff…
00:10:55:ff
mosaic descriptor (0x51)
53:64:87:00:00:00:01:ee…

CODICO®
IVG-7000 Series
5.2.10.4. current command
The >current command shows all current descriptors at the output stream.
The >current command is available in ‘root/show/interface/output/descriptors’
current <port> <pmt1|pmt2|cat|nit1|nit2|sdt|tot> [tag(hex)]
>current a1 pmt1
ts id : 100
program number: 12
tag instance loop data
ca descriptor (0x09) 1 1 pid = 105
data length = 4
private data = 00:44:15:68
00:10:aa:ff:64:00:00:00…
30:00:01:22:ff:ff:ff:ff…
00:10:55:ff
mosaic descriptor (0x51)
53:64:87:00:00:00:01:ee…

User Manual
Page 5-36 (Rev 2.0 / Jan. 2005)
5.2.11. PSI_SI Commands
5.2.11.1. psi_si_generation Command
The >psi_si_generation command displays a table that contains information about
the generation of PSI/SI tables for the output ports. The table shows the status of
the NIT, PAT, PMT, SDT, CAT, TDT, and TOT table generation for each output port.
The >psi_si_generation command is available in
‘/root/show/interface/output/psi_si’ and has the following syntax:
>psi_si_generation
/root/show/interface/output/psi_si>psi_si_generation
+-------+---------+---------+---------+---------+---------+---------+---------+
| port | pat | cat | pmt | nit | sdt | tdt | tot |
+-------+---------+---------+---------+---------+---------+---------+---------+
| a1 | off | off | off | off | off | off | off |
| | | | | | | | |
+-------+---------+---------+---------+---------+---------+---------+---------+
| a2 | on | on | on | on | on | on | on |
| | 300ms | 500ms | 300ms | 500ms | 500ms | 29000ms | 29000ms |
+-------+---------+---------+---------+---------+---------+---------+---------+
| | 300ms | 500ms | 300ms | 500ms | 500ms | 29000ms | 29000ms |
+-------+---------+---------+---------+---------+---------+---------+---------+
| | 300ms | 500ms | 300ms | 500ms | 500ms | 29000ms | 29000ms |
+-------+---------+---------+---------+---------+---------+---------+---------+*
5.2.12. Scrambling Commands
5.2.12.1. scrambled_programs command
The >scrambled_programs command displays a table with all Crossed connected
services that were scrambled, including output port number, transport stream id (
ts_id ), service number ( service ), elementary stream pid ( es_pid ), ecm pid, CA
system, ecm id and the cp duration
The >scrambled_programs command is available in
‘/root/show/interface/output/scrambling’ and has the following syntax:
>scrambled_programs
/root/show/interface/output/scrambling>scrambled_programs
+------+-------+---------+--------+---------+------------+--------+------------+
| port | ts_id | service | es pid | ecm pid | CA_System | ecm_id | cp duration|
| | | | | | | | (msec) |
+------+-------+---------+--------+---------+------------+--------+------------+
| a1 | 12700 | 500 | 65535 | 7500 | 0x06040001 | 500 | 10000 |
| a1 | 12700 | 501 | 65535 | 7501 | 0x06040001 | 504 | 10000 |
| a1 | 12700 | 502 | 65535 | 7502 | 0x06040001 | 508 | 10000 |
| a1 | 12700 | 503 | 65535 | 7503 | 0x06040001 | 512 | 10000 |
| a1 | 12700 | 504 | 65535 | 7504 | 0x06040001 | 517 | 10000 |
| a1 | 12700 | 505 | 65535 | 7505 | 0x06040001 | 522 | 10000 |
+------+-------+---------+--------+---------+------------+--------+------------+

CODICO®
IVG-7000 Series
5.2.13. Clock Commands
5.2.13.1. time command
The >time command displays the current time as recorded in the IVG-7000
device.
The >time command is available in ‘/root/show/system/clock' and has the
following syntax:
>time
/root/show/system>time
WED DEC 10 00:36:07 2003
5.2.13.2. sntp command
The >sntp command displays a table with information about the sntp main server.
The information shown consists of: sntp main server ip, beckup server ip, polling
interval and timezone.
The >sntp command is available in ‘/root/show/system/clock' and has the
following syntax:
>sntp
SNTP service is enabled
+-----------------+-----------------+---------------+-------------------------+
| | | polling | |
| main server | backup server | interval(sec) | timezone |
+-----------------+-----------------+---------------+-------------------------+
| 10.13.0.134 | 10.13.0.135 | 240 | isr::-120:: |
| active | not active | | |
+-----------------+-----------------+---------------+-------------------------+

User Manual
Page 5-38 (Rev 2.0 / Jan. 2005)
5.3. CONFIGURATION COMMANDS
The Configuration commands are under the ‘/root/config’ sub-menu.
5.3.1. Input Configuration Commands
The Input Configuration Commands are under the
‘/root/config/interface/input’ sub-menu.
CAUTION
WHEN USING THE REFRESH_PORT COMMAND, THE STREAM FROM THE SPECIFIED PORT IS CUT OFF
FOR A SHORT DELAY.
5.3.1.1. refresh_port Command
The >refresh_port command reparses a specific input port. Reparsing has the
effect of physically pulling the cable of the specified port and re-connecting it.
Normally, there is no reason to execute the refresh_port command.
The >refresh_port command is available in ‘/root/config/interface/input’
>refresh_port <port>
Where:
<port> - is the port number.
/root/config/interface/input>refresh_port 4
CAUTION
WHEN USING THE SHUTDOWN_PORT COMMAND, THE STREAM FROM THE SPECIFIED PORT IS
COMPLETELY CUT OFF.

CODICO®
IVG-7000 Series
5.3.1.2. Si_Type Command
The >si_type command defines the SI table type in the input port.
The >Si_Type command is available in ‘/root/config/interface/input’ and has
Si_type <port> <dvb|atsc|psi_si>
Where:
• <port> - is the input port number.
• <dvb|atsc|psi_si> - is the SI table type: dvb or atsc or psi_si.
5.3.1.3. admin_status command
The >admin_status command sets the status (up/down) of the input port.
To review the port status, use the >port command (Refer to paragraph 5.2.1.8).
The >admin_status command is available in ‘/root/config/interface/input’
>admin_status <port> <up/down>
/root/config/interface/input>admin_status 1 down
5.3.1.4. stat_mux command
The >stat_mux command sets the stat mux state of operation (on/off).
To review the stat mux state of operation, use the >port command (Refer to
paragraph 5.2.1.8).
The > stat_mux command is available in ‘/root/config/interface/input’ and
>stat_mux <port> <on|off>
/root/config/interface/input>stat_mux 1 off

User Manual
Page 5-40 (Rev 2.0 / Jan. 2005)
5.3.2. Output Configurations Commands
The Output Configurations Commands are under the
‘/root/config/interface/output’ sub-menu.
5.3.2.1. pid Command
The >pid command changes the pid’s number in the output.
The >pid command is available in ‘/root/config/interface/output’ and has the
following syntax:
> pid <port_out> <old_pid_out> <new_pid_out>
Where:
• <port_out> - is the output port number.
• <old_pid_out> - is the pid number that is going to be replaced.
• <new_pid_out> - is the new pid number that replaces the old pid number.
5.3.2.2. create_gbe_mpeg2
The >create_gbe_mpeg2 command defines logical interfaces (ports) to the gbe
Ethernet hardware, Each logical interface (port) provides a path to a transmitted
service in the transport stream.
The >create_gbe_mpeg2 command is available in
‘/root/config/interface/output’ and has the following syntax:
>create_gbe_mpeg2_port <port instance (1..255)> <ip address> <ip
port>
create_gbe_mpeg2_port 1 239.1.1.1 5000

CODICO®
IVG-7000 Series
5.3.2.3. delete_gbe_mpeg2 Command
The >delete_gbe_mpeg2 command deletes the logical interfaces (ports) aligned
to the gbe Ethernet port.
Note that before using the delete_gbe_mpeg2 command the services aligned to
the logical interface must be removed.
The > delete_gbe_mpeg2 command is available in
>delete_gbe_mpeg2_port <port instance (1..255)>
remove_gbe_mpeg2_port 1
5.3.2.4. refresh_port Command
The >refresh_port command reparses a specific output port. Reparsing has the
effect of physically pulling the cable of the specified port and re-connecting it.
Normally, there is no reason to execute the refresh_port command.
The > refresh_port command is available in ‘/root/config/interface/output’
>refresh_port <port>
/root/config/interface/output>refresh_port 4
5.3.2.5. add_pmt Command
The >add_pmt command adds a record to the PAT table with the specified PMT
PID and program number. It is used for adding another PMT table in the PSI/SI
output.
Notes
• In order to add_pmt to the output port at least one program must be added.
• In order to drop a pmt, the port must be dropped with the drop_port_out
command (refer to paragraph 5.3.4.3).
• The command does not allocate (save, guard) the output pmt_pid. The
add_program command can use the same pmt_pid in the output – the user
must allocate the output pmt_pid by using add_pid to add an input pmt (from
PSI/SI for example) to the output pmt_pid.

User Manual
Page 5-42 (Rev 2.0 / Jan. 2005)
The >add_pmt command is available in ‘/root/config/interface/output’ and
>add_pmt <port_out> <ts_out> <program_out> <pmt_out>
add_pmt 1 13 560 3356
5.3.2.6. program_bandwidth Command
The >program_bandwidth command sets the output program bitrate limits. The
bitrate limits are defined for the Joint transrating process.
The >program_bandwidth command is available in
>program_bandwidth <port> <ts_id> <program_num>
Where:
• <port> - is the output port number
• <ts_id> - is the transport Stream ID number
• <program_num> - is the service ID
/root/config/interface/output>program_bandwidth 2 2 100
min bandwidth : 1000000 2000000
max bandwidth : 3000000 3
priority : 1 2
5.3.2.7. port_bandwidth Command
The > port_bandwidth command sets the output port total bit rate capacity.
The > port_bandwidth command is available in ‘/root/config/interface/output'
> port_bandwidth <port> <total bw> [reserved bw]
Where:
• <total bw> - is the total bitrate (in bps)
• [reserved bw] - is the reserved bitrate (in bps) – optional parameter – reserves
some extra bitrate for special data transition.

CODICO®
IVG-7000 Series
/root/config/interface/output>port_bandwidth 2 70000000 5000000
5.3.2.8. port_rr_support Command
The > port_rr_support command sets a specific port to support the Joint
Transrating Statistical Multiplexing algorithm.
The > port_rr_support command is available in
>port_rr_support <port> <on|off>
Where:
• <port> - is the output port number.
• <on|off> - select on for statistical multiplexer support.
/root/config/interface/output>port_rr_support 1 oN
5.3.2.9. network_id Command
The > network_id command sets the Network ID number in the output.
The > network_id command is available in ‘/root/config/interface/output’
network_id <port> <new_network_id>
Where:
• <new_network_id> - is the new network ID number
/root/config/interface/output>network_id 2 100

User Manual
Page 5-44 (Rev 2.0 / Jan. 2005)
5.3.2.10. original_network_id Command
The > original_network_id command sets the Original Network ID number in
the output
The > original_network_id command is available in
original_network_id <port> <ts_id> <new_original_network_id>
Where:
• <ts_id> - is the Transport Stream ID number
• <new_original_network_id> - is the new network ID number
/root/config/interface/output>original_network_id 2 2 1000
/root/config/interface/output>
/root/show/interface/output>networks
+------+------------+------------------------------+---------+-----------------+
+------+------------+------------------------------+---------+-----------------+
| a2 | 100 | IVG Default Network | 2 | 1000 |
+------+------------+------------------------------+---------+-----------------+
5.3.2.11. program_number Command
The > program_number command replaces the output programs number.
The > program_number command is available in
program_number <port_out> <ts_id_out> <old_program_number_out>
<new_program_number_out>
Where:
• <port_out> - is the output port number.
• <ts_id_out> - is the Transport Stream ID number.
• <old_program_number_out> - is the service ID from the input stream.
• <new_program_number_out> - is the replaced number for the output
program.

CODICO®
IVG-7000 Series
5.3.2.12. pmt_pid Command
The > pmt_pid command replaces the PMT PID number in an output stream.
The > pmt_pid command is available in ‘/root/config/interface/output’ and
pmt_pid <port> <ts_id> <program_number> <new_pmt_pid>
Where:
• <program_number> - is the program ID number
• <new_pmt_pid> - is the ID number of the new PMT PID.
5.3.2.13. pcr_pid Command
The > pcr_pid command replaces the PCR PID number in an output stream. The
PCR is editable only when it is not within the video ES.
The > pcr_pid command is available in ‘/root/config/interface/output’ and
pcr_pid <port> <ts_id> <program_number> <new_pcr_pid>
Where:
• <program_number> - is the program ID number
• <new_pcr_pid> - is the ID number of the new PCR PID.
5.3.2.14. es_pid Command
The > es_pid command replaces the PID of an output elementary stream.
The > es_pid command is available in ‘/root/config/interface/output’ and has
>es_pid<port_out><ts_id_out><program_number_out><old_es_pid_out>
<new_es_pid_out>
Where:
• <port_out> - is the output port number
• <ts_id_out> - is the Transport Stream ID number
• <program_number_out> - is the program ID number
• <old_es_pid_out> - is the ID number of the ES PID from the input stream.
• <new_es_pid_out> - is the new ID number replaced ES PID.

User Manual
Page 5-46 (Rev 2.0 / Jan. 2005)
5.3.2.15. ecm_pid Command
The >ecm_pid command replaces the ECM PID of an encrypted program in a
port. This command is relevant only when the ECM is related to a pre-encrypted
program (a program that was already encrypted).
The >ecm_pid command is available in ‘/root/config/interface/output’ and
>ecm_pid <port_out> <ts_id_out> <program_number_out>
[es_pid_out] <old_ecm_pid_out> <new_ecm_pid_out>
Where:
• [es_pid_out] - number of ES PID in the output.
• <old_ecm_pid_out> - is the ECM PID from the input.
• <new_ecm_pid_out> - is the new replaced ECM PID in the output.
5.3.2.16. es_type command
The >es_type command changes the elementary stream descriptor type.
The >es_type command is available in ‘/root/config/interface/output’ and
Es_type <port out><ts_id_out> <program_number_out> <es_pid_out>
<new_es_type>
Where:
• [es_pid_out] - number of ES PID in the output.
• <new_es_type> a number that represents the ES type. The types can be
found in the MPEG-2 standard no.818-1.

CODICO®
IVG-7000 Series
5.3.2.17. port_mirror Command
The >port_mirror command enables port mirroring. Port mirroring is a command
that copied an output content of a port to another output port. The result of a port
mirroring is two output ports with identical content.
When the programs on the original port are encrypted on the IVG-7000, the
mirrored port can optionally clear the encrypted programs. The result is two ports
with identical content: the original port with the encrypted programs and the
mirrored port with the same programs cleared.
The >port_mirror command is available in ‘/root/config/interface/output’
port_mirror <mirror port> <on|off> [<mirror origin> <clear |
unchanged>]
Where:
• <on|off> - turns on and off port mirroring. When turning off port mirroring,
only the second parameter should be specified: the mirror port to be turned off.
Otherwise, all parameters should be specified.
• <mirror port> - specifies the mirrored port number
• [mirror origin] – specifies the original port (use only when turning on the port
mirroring feature)
• [clear | unchanged] – specifies whether the mirrored port clears the
encrypted content or copies it unchanged.
/root/config/interface/output>port_mirror on 1 2 clear
+------+---------------+---------------+-----------+----------+-------------+
| port | total | reserved | statmux | mirror | mirror |
| | bitrate | bitrate | support | origin | type |
| | (b/s) | (b/s) | | | |
+------+---------------+---------------+-----------+----------+-------------+
| a1 | 92353136 | 35335188 | off | a2 | Clear |
| a2 | 70000000 | 5000000 | on | | |
+------+---------------+---------------+-----------+----------+-------------+

User Manual
Page 5-48 (Rev 2.0 / Jan. 2005)
5.3.3. Scrambling Configuration
The Scrambling Configurations Commands are under the
/root/config/interface/output/scrambling’ sub-menu.
5.3.3.1. stop_biss_program Command
The >stop_biss_program command clears the BISS encrypting from the
program. The program is cleared in the output port.
The >stop_biss_program command is available in
‘/root/config/interface/output/scrambling’ and has the following syntax:
> stop_biss_program <out port> <out ts> <out program>
Where:
• <out port> - is the output port number
• <out ts> - is the output transport stream ID number
• <out program> - is the output program ID number
/root/config/interface/output/scrambling>stop_biss_program 2 2 100
5.3.3.2. start_biss_program Command
The >start_biss_program command starts encrypting a program in a BISS
encryption. The program is encrypted in the output port.
The >start_biss_program command is available in
> start_biss_program <out port> <out ts> <out program>
Where:
/root/config/interface/output/scrambling>start_biss_program 2 2 100
mode (1=BISS-Mode 1, 2=BISS-E-Clear SW, 3=Biss-E-Injected ID) : 1
session word (48-bit) (hex) : 0x123456789ABC
output/scrambling>start_biss_program 2 2 100
mode (1=BISS-Mode 1, 2=BISS-E-Clear SW, 3=Biss-E-Injected ID) : 1 3
encrypted session word (64-bit) (hex) : 0x123456789ABCDEF

CODICO®
IVG-7000 Series
5.3.3.3. stop_scramble_es Command
The >stop_scramble_es command stops an elementary stream’s scramble.
The stop_scramble_es command inquires in several steps for the appropriate
parameters of the elementary stream.
NOTE
The elementary stream parameters can be reviewed in the scrambling table, for more more
information refer to scrambled_programs command in paragraph 5.2.12.1.
The >stop_scramble_es command is available in
> stop_scramble_es <out port> <out ts> <out program> <out pid>
Where:
• <out pid> - is the output PID number
/root/config/interface/output/scrambling>stop_scramble_es 2 2 100 518
CA_system_id (hex):0x1710
CA_subsystem_id (hex):0x0
ecm id:108
5.3.3.4. start_scramble_es Command
The >start_scramble_es command starts scrambling a specific ES.
The start_scramble_es command inquires in several steps for ES and scrambling
related parameters (see example bellow).
The >start_scramble_es command is available in
> start_scramble_es <out port> <out ts> <out program> <out pid>
Where:
• <out pid> - is the output PID number
/root/config/interface/output/scrambling>start_scramble_es 2 2 100 518
CA_system_id (hex):0x604
CA_subsystem_id (hex):0x1
ecm id:1181
nominal_CP_duration (mSec) : 10000
access criteria (xx:xx:xx) : 90:01:00:06:00:64:00:64:00:96
private data in Ca_Descriptor (xx:xx:xx) :
ecm pid : 7547

User Manual
Page 5-50 (Rev 2.0 / Jan. 2005)
5.3.3.5. stop_scramble_program Command
The >stop_scramble_program command stops scrambling a specific program.
The stop_scramble_program command inquires in several steps for related
parameters (see example bellow).
.
The >stop_scramble_program command is available in
> stop_scramble_program <out port> <out ts> <out program>
Where:
/root/config/interface/output/scrambling>stop_scramble_program 2 2 100
CA_system_id (hex) : 0x1710
CA_subsystem_id (hex) : 0x0
ecm_id : 108
5.3.3.6. start_scramble_program Command
The >start_scramble_program comma starts scrambling a specific program.
The start_scramble_program command inquires in several steps for related
parameters (see example bellow).
The >start_scramble_program command is available in
> start_scramble_program <out port> <out ts> <out program>
Where:
/root/config/interface/output/scrambling>start_scramble_program 2 2 100
ecm_id : 1181
nominal_CP_duration (mSec) : 10000
access criteria (xx:xx:xx) : 90:01:00:06:00:64:00:64:00:96
private data in Ca_Descriptor (xx:xx:xx):
ecm pid : 7547

CODICO®
IVG-7000 Series
5.3.4. Cross connect Commands
The Connections Configurations Commands are under the
/root/config/interface/xconnect’ sub-menu.
Routing streams in the IVG-7000 is performed by user requests. A user may
request for the following actions:
• Add an input port to an output port 5.3.4.1.
• Add an input program to an output port – refer to paragraph 5.3.4.2.
• Drop an output port completely – refer to paragraph 5.3.4.3.
• Drop an input port completely – refer to paragraph 5.3.4.4.
• Drop a program from the output port – refer to paragraph 5.3.4.5.
• Drop a program from the input port – refer to paragraph 5.3.4.6.
• Drop a PID from a program in the output port – refer to paragraph 5.3.4.7.
• Drop a PID from a program in the input port – refer to paragraph 5.3.4.8.
The requests are logged in the Cross-Connect Admin table. The admin command
displays the Cross-Connect Admin table. Refer to paragraph 5.2.3.1.
NOTE
A quick way to move to ‘/root/show/interface/xconnect’ from
‘/root/config/interface/xconnect’ and back is to press the key combination [Shift-3].
The Cross-Connect Programs Operational Table displays the actual cross-connected
programs in the input and output. Refer to paragraph 5.2.3.3.
The Cross-Connect PID Operational Table displays in more details each Program
PID in the input and output. Refer to paragraph 5.2.3.2.

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5.3.4.1. add_port command
The >add_port command routes the entire content of an input port to an output
port.
NOTES
• The >add_port command cannot work if there are already programs connected to this
port.
• When the port is under “stat_mux on” mode of operation, the command cannot be
performed.
The >add_port command is available in ‘/root/config/interface/xconnect’ and
>add_port <in port> <out port>
Where:
• < in_port > - is the input port number.
• < out_port > - is the output port number.

CODICO®
IVG-7000 Series
5.3.4.2. add_program command
The >add_program command routes program from an input port to an output
port.
The >add_program command is available in
‘/root/config/interface/xconnect’ and has the following syntax:
>add_program <in port> <in ts> <in program> <out port>
<out ts> [edit][rr]
Where:
• < in_port > - input port number.
• < in_ts > - input transport stream ID.
• < in_program > - input service ID.
• < out_port > - output port number.
• < out_ts > - defines the output transport stream ID.
• [ Edit ] (optional) – the ‘edit’ parameter enables the customization of the
output program. When ‘edit’ is specified, the CLI requests the user to enter
his own ID numbers for each of the PIDs. When ‘edit’ is not specified, the
IVG-7000 automatically assigns numbers to the PIDs.
• [ rr ] (Optional) – when ‘rr’ is specified, the program is joint-transrated and
the IVG-7000 controls the programs bit rate automatically. If not defined, the
program bit rate in the output is identical to the program bitrate in the input.
When ‘rr’ is specified the CLI requests before executing the command the
following parameters:
[ min_bw ] – is the minimum bitrate allowed to be set by the IVG-7000.
[ max_bw ] – is the maximum bitrate allowed to be set by the IVG-7000.
[ priority ] – is the priority of the program in the joint transrating bit rate
allocation algorithm.
Note that the use of rate reduction (rr) must be under the state of “stat_mux
on” mode of operation.
Before the request to add a program, the Cross-Connect Admin table is empty:
+------+-------------------------+-------------------------+------+------------+
+------+------+-----+------+-----+------+-----+------+-----+------+------------+
+------+------+-----+------+-----+------+-----+------+-----+------+------------+
Now, we are requesting to add a program from input port 14, transport stream
12200, service ID 7451 to output port 1, transport stream 1000:
/root/config/interface/xconnect>add_program 14 12200 7451 1 1000
The Cross-Connect Admin table contains one request:
+------+-------------------------+-------------------------+------+------------+
+------+------+-----+------+-----+------+-----+------+-----+------+------------+
| prog | a14 |12200| 7451| 0| a1 | 1000| 0| 0| add |success |
+------+------+-----+------+-----+------+-----+------+-----+------+------------
The Cross-Connect Programs Operational Table shows the actual routed

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programs:
Note that the output service ID in the following table was assigned automatically
by the IVG-7000 because the >add_program command was written without the
‘edit’ parameter and the program PIDs was not specified by the user.
/root/show/interface/xconnect>oper_programs
+-----------------------+-----------------------+
| input | output |
| port | ts | prog | port | ts | prog |
+------+-------+--------+------+-------+--------+
| a14 | 12200 | 7451 | a1 | 1000 | 5300 |
+------+-------+--------+------+-------+--------+
5.3.4.3. drop_port_out command
The >drop_port_out command removes all cross connections to an output
port.
The >drop_port command is available in ‘/root/config/interface/xconnect’
>drop_port_out <out port>
Where:
<out_port > - is the output port number.
/root/config/interface/xconnect>drop_port_out 2
CAUTION
WHEN USING THE DROP_PORT_OUT COMMAND, ALL THE CROSS CONNECTIONS TO A SPECIFIED
PORT ARE REMOVED.

CODICO®
IVG-7000 Series
5.3.4.4. drop_port_in command
The >drop_port_in command removes all cross connection that originate from
the specified input port. The command affects all the output ports that have
cross connections from that input port.
The >drop_port_in command is available in
>drop_port_in <in port>
Where:
<in_port > - is the input port number.
/root/config/interface/xconnect>drop_port_in 1
CAUTION
WHEN USING THE DROP_PORT_IN COMMAND, ALL THE CROSS CONNECTIONS FROM THE SPECIFIED
PORT ARE REMOVED.
5.3.4.5. drop_program_out command
The >drop_program_out command removes the cross connection of an output
program.
The >drop_program_out command is available in
>drop_program_out <out port> <out ts> <out program>
Where:
• < out_port > - output port number.
• < out_ts_id > - output transport stream ID.
• < out_prog_num > - output service ID.
/root/config/interface/xconnect>drop_program_out 14 12200 7451

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5.3.4.6. drop_program_in command
The >drop_program_in command removes all cross connection of an input
program.
The >drop_program_in command is available in
>drop_program_in <in port> <in ts> <in program>
Where:
• < in_ts_id > - input transport stream ID.
• < in_prog_num > - input service ID.
/root/config/interface/xconnect>drop_program_in 1 11400 8421
5.3.4.7. drop_pid command
The >drop_pid command removes the cross connection of an output PID.
The > drop_pid command only drops pid’s that where added using the add_pid
command.
The >drop_pid command is available in ‘/root/config/interface/xconnect’ and
>drop_pid <out port> <out pid>
Where:
• < out_port > - output port number..
• < out_pid > - output elementary stream pid.
/root/config/interface/xconnect>drop_pid 14 540

CODICO®
IVG-7000 Series
5.3.4.8. add_pid command
The >add_pid command adds a pid from the input to the output.
The add_pid command is used for example, when cross connecting a pre-
encrypted program; the EMM pid should be added to the output stream using this
command.
NOTE
There is no Preprovision on independent PIDs that are added from input to output.
The Admin table always shows ‘success’ in the status of the PID.
The >add_pid command is available in ‘/root/config/interface/xconnect’ and
>add_pid <in port> <in pid> <out port> [edit]
Where:
• < in_pid > - is the input pid number.
• < out_port > - is the output port
/root/config/interface/xconnect>add_pid 1 11400 14
5.3.4.9. drop_es_out command
The >drop_es_out command removes the cross connection of a PID from a
specific output port.
The >drop_es_out command is available in
>drop_es_out <out port> <out_ts> <out program> <out_pid>
Where:
• < out_port > - is the output port
• <out_ts> - is the output transport stream ID
• <out_program> - is the output program number
• <out_pid> - is the output pid number

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5.3.4.10. drop_es_in command
The >drop_es_int command removes the cross connection of an input PID. The
input PID is removed from all the output ports.
The >drop_es_out command is available in
>drop_es_in <in port> <in_ts> <in program> <in_pid>
Where:
• < in_port > - is the input port
• <in_ts> - is the input transport stream ID
• <in_program> - is the input program ID
• <in_pid> - is the input pid number
5.3.4.11. reset_all command
The >reset_all command removes all the cross connection in the IVG device.
The >reset_all command is available in ‘/root/config/interface/xconnect’
>reset_all
/root/config/interface/xconnect>reset_all
this will reset all cross-connections. continue? (y/n) : yes

CODICO®
IVG-7000 Series
5.3.5. Statistics Configuration Commands
The Statistics Configurations Commands are under the
/root/config/interface/statistics’ sub-menu.
5.3.5.1. reset_counters Command
The >reset_counters command resets all the counters to zero.
The >reset_counters command is available in
‘/root/config/interface/statistics’ and has the following syntax:
> reset_counters <port>
Where:
<port> - input port to reset
/root/config/interface/statistics>reset_counteres 1
5.3.5.2. stop_pcr_monitoring Command
The >stop_pcr_monitoring command stops the PCR monitoring on a specific port.
Errors in the PCR will not be counted after executing this command.
The >stop_pcr_monitoring command is available in
> stop_pcr_monitoring <port>
Where:
<port> - stop monitoring on this input port
/root/config/interface/statistics>stop_pcr_monitoring 1

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5.3.5.3. start_pcr_monitoring Command
The >start_pcr_monitoring command starts the PCR monitoring on a specific port.
Before starting to monitor a port it is a good practice to reset the counters. See
paragraph 5.3.5.1.
The >start_pcr_monitoring command is available in
> start_pcr_monitoring <port>
Where:
<port> - input port to be monitored
/root/config/interface/statistics>start_pcr_monitoring 1
5.3.5.4. stop_monitoring Command
The >stop_monitoring command stops the monitoring on a specific port. Errors
in the port will not be counted after executing this command.
The >stop_monitoring command is available in
> stop_monitoring <port>
Where:
<port> - stop monitoring on this input port
/root/config/interface/statistics>stop_monitoring 1
5.3.5.5. start_monitoring Command
The >start_monitoring command starts the monitoring on a specific port. Before
starting to monitor a port it is a good practice to reset the counters. See
paragraph 5.3.5.1.
The >start_monitoring command is available in
> start_monitoring <port>
Where:
<port> - input port to be monitored
/root/config/interface/statistics>start_monitoring 1

CODICO®
IVG-7000 Series
5.3.6. Filesystem Commands
The Software Download Commands are under the ‘root/config/filesystem’ sub-
menu.
The IVG-7000 internal memory is divided into two folders: active folder and passive
folder. The passive folder is nothing more than a temporary storage space for
downloading files to the device. Once the files are moved to the active folder, the
files are processed by the IVG-7000 device according to their types.
The IVG-7000 device acts as an FTP client. It downloads files from an external FTP
server.
Before downloading files to the IVG-7000 device an FTP server should be
configured. Refer to paragraph 5.3.6.3 for adding a server and to paragraph 5.3.6.5
for deleting a server.
The >Get_file (refer to paragraph 5.3.6.1) command downloads the files from a
selected server; the user has to specify the server index. To see the server list with
their indexes, refer to paragraph 5.2.5.1.
The files are usually downloaded to the passive directory and then needs to be
activated (copied to the active directory). Refer to paragraph 5.3.6.4 for activating
files.
After activating the downloaded files (by the >activate_file command or directly
by the >get_file command) the IVG-7000 device should be manually restarted for
the changes to take effect.
CAUTION
RESTARTING THE DEVICE INTERRUPT ITS ACTIVITY UNTIL THE DEVICE IS INITIALIZED AGAIN.

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Page 5-62 (Rev 2.0 / Jan. 2005)
5.3.6.1. get_file command
The >get_file command downloads a file from a specific FTP server.
When the [-act] parameter is defined in the get_file command, the files are
downloaded directly to the active directory and are processed by the IVG-7000
device immediately after the download is completed. The files that were previously
on the active directory are transferred to the passive directory.
The >get_file command is available in ‘root/config/filesystem’ and has the
following syntax:
>get_file <file_name> [server_index] [-act]
Where:
• <file_name> - is the name of the file.
• [ server_index ] (Optional) - selects a server index. The file is downloaded
using this server. If not specified, default server is used. To define default server,
refer to paragraph 5.3.6.6.
• [-act] (Optional) – activates the file immediately.
To get a file named 'test.tst' using ftp on server 2 use the commad:
Get_file test.tst 2
To activate the file immediately after download, use the command:
Get_file test.tst 2 -act
5.3.6.2. remove_file command
The >remove_file command allows to remove an entry from the storage space on
the IVG-7000.
The >remove_file command is available in ‘/root/config/filesystem’ and has
remove_file <file_name> <act|pas|scr|rdn>
Where:
• < file_name > - is the file name to be removed.
• < act | pas > - the storage space is divided into four folders: Active, Passive,
script and redundancy. The command needs to know from where to remove the
file:
pas is the passive folder. It is used in the example below.
act is the active folder.
Scr is the script folder.
Rdn is the redundancy folder.
/root/config/filesystem>remove_file file_name pas

CODICO®
IVG-7000 Series
CAUTION
DELETING FILES FROM THE IVG-7000 ACTIVE DIRECTORY IS NOT RECOMMENDED AND MAY HARM
THE IVG-7000 SYSTEM
5.3.6.3. add_server command
The >add_server command inserts a new server to the server list. The servers are
used for file transferring using protocols such as FTP.
The >add_server command is available in ‘/root/config/filesystem’ and has the
following syntax:
>add_server
Where:
After typing the command, The command requests for the server IP address, the
protocol type: FTP or TFTP, the path of the root directory, the user name and his
password.
/root/config/filesystm>add_server
ip address : 10.2.3.1
ftp/tftp : ftp
path : .
username : user1
password : 12345
5.3.6.4. activate_file command
The >activate_file command moves a file from the Passive folder to the Active
folder. When a file with the same name exists in the Active folder, the activate_file
command swamps between the files. The IVG-7000 has to be rebooted for the
changes to take effect.
The >activate_file command is available in ‘/root/config/filesystem ' and has
>activate_file <file_name>
Where:
<file_name> - is the file name to be moved to the Active folder.
/root/config/filesystem>activate_file vxWorks.IVG-7000
The command in the example above mov es the file ‘vxWorks.IVG-7000’ to the
Active folder in the example above.

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5.3.6.5. delete_server command
The >delete_server command remove a server from the server list.
The >delete_server command is available in ‘/root/config/ filesystem’ and
>delete_server <server_index>
Where:
<server_index> - is the server index number.
/root/config/filesystem>delete_server 2
Note : The command above removes server number 2. The command in
/root/show/filesystem>servers' displays the servers list and their
numbers.
5.3.6.6. set_default_server command
The >set_default_server command appoints a default server. The default server
is used when no server index is specified in the get_file command.
The >set_default_server command is available in ‘/root/config/ filesystem’
>set_default_server <server_index>
Where:
<server_index> - is the server index number.
/root/config/filesystem>set_default_server 1
Note : The command set server number 1 to be the default server.
5.3.6.7. check_disk command
The > check_disk command checks the disk for errors and is used as a diagnostic
and fixing tool.
The > check_disk command is available in ‘/root/config/ filesystem’ and has
check_disk [repair]

CODICO®
IVG-7000 Series
5.3.6.8. import_configuration command
The > import_configuration command allows importing a specific configuration
for the use of redundancy.
The > import_configuration command is available in ‘/root/config/
filesystem’ and has the following syntax:
import_configuration <file_name>
Where:
File_name - is the chosen file to be imported.
Import_configuration test2.rdn
5.3.6.9. export_configuration command
The > export_configuration command allows exporting a specific configuration
for the use of redundancy.
The > export_configuration command is available in ‘/root/config/
export_configuration <file_name>
Where:
File_name - is the chosen file to be exported.
export_configuration test2.rdn
5.3.6.10. clear_transfer_commands
The > clear_transfer_commands command clears the transfer commands table.
The > clear_transfer_commands command is available in ‘/root/config/
clear_transfer_commands
/root/config/filesystem>clear_transfer_commands

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5.3.6.11. put_file command
The >put_file command uploads a file to a specific FTP server.
The > put_file command is available in ‘/root/config/ filesystem’ and has the
following syntax:
put_file <file_name> [server_index]
To put a file named 'test.tst' using ftp on server 2 use the commad:
put_file test.tst 2
5.3.7. Ethernet Configurations Commands
The Ethernet Configurations Commands are under the
/root/config/interface/ethernet’ sub-menu.
5.3.7.1. set_default_gw Command
The >set_default_gw command sets the default gateway for the whole system.
The >set_default_gw command is available in
‘/root/config/interface/ethernet’ and has the following syntax:
>set_default_gw <default gateway>
Where:
<default gateway > is the IP address of the default gateway.
/root/config/interface/ethernet>set_default_gw 10.12.0.1

CODICO®
IVG-7000 Series
5.3.7.2. set_ip Command
The >set_ip command sets the IP address, network mask and gateway address of
the specified port name. To see a table with all the IP addresses, refer to paragraph
5.2.6.1.
The set_ip command inquires in several steps for related parameters (see example
bellow).
The >set_ip command is available in ‘/root/config/interface/ethernet’ and has
set_ip <fast1|fast2|fast3|eth4|gbe>
Where:
The following list specifies the available port names:
• fast1 – is the fast Ethernet port number 1
• eth4 – is the regular Ethernet port 4
• gbe – is the Giga bit Ethernet port
After typing the command, the IVG-7000 asks for the following parameters regarding
to the port IP address:
• IP Address
• Network Mask
• Gateway
/root/config/interface/ethernet> set_ip fast1
ip address : 10.91.1.100
network mask : 255.255.255.0

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5.3.8. Logger Configuration Commands
The Logger Configuration Commands are under the ‘/root/config/logger/’ sub-
menu.
5.3.8.1. clear_history Command
The >clear_history command clears the history log of the IVG device.
The >clear_history command is available in ‘/root/config/logger’ and has the
following syntax:
>Clear_history
5.3.8.2. telnet_thresh Command
Every message is saved in the logger and can be displayed on the telnet screen
when it occurs.
The >telnet_thresh command defines the level of messages to be displayed on
the telnet screen.
The >telnet_thresh command is available in ‘/root/config/logger’ and has the
following syntax:
>telnet_thresh <all | debug | info | warning | error | fatal | none>
Where:
The level categories are:
• Debug – Comments related to debugging the IVG-7000 (advanced use only).
• Info – Comments related to user actions.
• None – no comments at all.
5.3.8.3. rs232_thresh Command
Every message is saved in the logger and can be displayed on the rs232 screen
when it occurs.
The >rs232_thresh command defines the level of messages to be displayed on
the RS232 screen.
The >rs232_thresh command is available in ‘/root/config/logger’ and has
>rs232_thresh <all | debug | info | warning | error | fatal | none>
Where:
The level categories are:
• Debug – Comments related to debugging the IVG-7000 (advanced use only).
• Info – Comments related to user actions.
• None – no comments at all.

CODICO®
IVG-7000 Series
5.3.9. CAS Monitoring Command
The CAS Configuration Commands are under the ‘/root/config/cas’ sub-menu.
5.3.9.1. remove_emm_output Command
The >remove_emm_output command removes the EMM PID from an output
port.
The >remove_emm_output command is available in ‘/root/config/cas’ and
> remove_emm_output <ip address> <ip port> <port>
Where:
• <ip address> - IP Address of one of the IVG fast Ethernet ports
• <ip port> -The IVG port number
• <port> - The ASI output port
/root/config/cas>remove_emm_output 10.13.0.246 5000 1
5.3.9.2. set_emm_output Command
The >set_emm_output command sends the EMM PID to an output port. Before
using this command, the EMM server and ECM Generator should be set-up. Refer
to paragraphs 5.3.9.4 and 5.3.9.6.
The >set_emm_output command is available in ‘/root/config/cas’ and has
> set_emm_output <ip address> <ip port> <port>
Where:
• <ip address> - IP Address of one of the IVG fast Ethernet ports.
• <ip port> -The IVG port number to used.
• <port> - The ASI output port to be used
/root/config/cas>set_emm_output 10.13.0.246 5000 1
emm pid : 7506
private data in Ca_Descriptor (xx:xx:xx) :
/root/show/cas>emm_server
+----------+-------------------------+-------------------------+--------+------+
| protocol | tcp | udp | output | emm |
| | ip address | port | ip address | port | port | pid |
+----------+-----------------+-------+-----------------+-------+--------+------+
| tcp/udp | 10. 13. 0.246 | 5000 | 230. 1. 2. 3 | 5001 | a1 | 7506 |
+----------+-----------------+-------+-----------------+-------+--------+------+

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5.3.9.3. delete_emm_server Command
The >delete_emm_server command deletes an EMM Server that was added
using the >add_emm_server.
The >delete_emm_server command is available in ‘/root/config/cas’ and has
>delete_emm_server
5.3.9.4. add_emm_server Command
The >add_emm_server command adds an EMM Server in the IVG. The CAS is
listening to the EMMs sent from the IVG using the EMM Server.
The >add_emm_server command is available in ‘/root/config/cas’ and has
> add_emm_server
Where:
After executing the command, the IVG asks for the following details:
• Protocol: valid options:
1- TCP Protocol,
2- UDP Protocol.
Usually, protocol number 2 is used (UDP).
• IP Address: The IVG Fast Ethernet IP Address.
• IP Port: port number in use
• IP multicast address: used for UDP data
• IP multicast port: port number for UDP data
/root/config/cas>add_emm_server
protocol (1=tcp ctrl and data, 2=tcp ctrl/udp data) : 2
ip address for tcp ctrl : 10.13.0.246
ip port for tcp ctrl : 5000
ip multicast address for udp data : 230.1.2.3
ip multicast port for udp data : 5001
5.3.9.5. delete_ecmg Command
The >delete_ecmg command deletes an ECM Generator configuration that was
added using the >add_ecmg command.
The >delete_ecmg command is available in ‘/root/config/cas’ and has the
following syntax:
>delete_ecmg

CODICO®
IVG-7000 Series
/root/config/cas>delete_ecmg
ecmg priority <Main|Backup> : m
5.3.9.6. add_ecmg Command
The >add_ecmg command configure parameters related to the ECM Generator in
the CAS computer.
The >add_ecmg command is available in ‘/root/config/cas’ and has the
following syntax:
> add_ecmg
Where:
After executing the command, the IVG asks for the following details:
• CA_system_ID: the CA system ID number. Each CA system manufacturer has
a fixed ID.
• CA_subsystem_id: the CA sub system ID number.
• ECM Generator IP Address: IP Address of the ECM Generator computer
• ECM Generator Port: port number used in the ECM Generator computer
• ECM Priority: type ‘m’ for main or ‘b’ for backup.
/root/config/cas>add_ecmg
CA_subsystem_id (hex) : 0x0 0x1
ecmg ip address : 10.13.0.128
ecmg ip port : 4680
ecmg priority <Main|Backup> : m
/root/config/cas>add_ecmg
CA_subsystem_id (hex) : 0x0 0x1
ecmg ip address : 10.13.0.134
ecmg ip port : 4680
ecmg priority <Main|Backup> : b
/root/show/cas>ecmg
+--------------+-----------------+----------+-----------------+---------+
| CA_system_id | CA_subsystem_id | priority | ip address | ip port |
+--------------+-----------------+----------+-----------------+---------+
| 0x0604 | 0x0001 | main | 10. 13. 0.128 | 4680 |
| 0x0604 | 0x0001 | backup | 10. 13. 0.134 | 4680 |
+--------------+-----------------+----------+-----------------+---------+

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5.3.9.7. add_eis_server command
The > add_eis_server command manages the .TBD
The > add_eis_server command is available in ‘/root/config/cas’ and has the
following syntax:
add_eis_server <out port>
5.3.9.8. delete_eis_server command
The > delete_eis_server command TBD.
The > delete_eis_server command is available in ‘/root/config/cas’ and has
delete_eis_server <out port> <ip address> <ip port>
delet_eis_server 13 10.13.0.134 15

CODICO®
IVG-7000 Series
5.3.10. Clock Commands
The CAS Configuration Commands are under the ‘root/config/system/clock’
sub-menu.
5.3.10.1. time Command
The > time command sets the date and time of the IVG-7000.in order to see
changes refer to paragraph 5.2.13.1.
The > time command is available in ‘root/config/system/clock’ and has the
following syntax:
time
/root/config/system/clock>time
Year : 2004
Month : 11
Day : 8
Hour : 10
Minute : 15
Second : 20

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5.3.10.2. time_zone Command
The > time_zone command sets the accurate time according to the geographical
and GMT parameters. The time_zone command settings is shown in the sntp table,
refer to paragraph 5.2.13.2.
Note that the GMT parameters are set in minutes.
The > time_zone command is available in ‘root/config/system/clock’ and has
time_zone <zone name> <time from utc (min)> [<daylight start
(ddmmyy)> <daylight end (ddmmyy)>
Where:
<zone name> - is the regional zone
<time from utc (min)> - is the time variance from Greenwich in minutes.
<daylight start (ddmmyy)> <daylight end (ddmmyy)> - sets the date of
GMT change according to the regional position.
/root/config/system/clock>time_zone isr -120 011004 010405
5.3.10.3. sntp_sync_clock Command
The > sntp_sync_clock command synchronizes the clock of the IVG with an
internal SNTP server.
Note that this command is applicable only while internal SNTP server is active.
The > sntp_sync_clock command is available in ‘root/config/system/clock’
sntp_sync_clock
/root/config/system/clock>sntp_sync_clock

CODICO®
IVG-7000 Series
5.3.10.4. sntp_poll_interval Command
The > sntp_poll_interval command sets the time refresh rate of the IVG’s clock
with the configured internal SNTP server. The polling interval default value is set to
64 (sec) and can be maxed to 1024 (sec). In order to review the SNTP table, refer
to paragraph 5.2.13.2.
The > sntp_poll_interval command is available in ‘root/config/system/clock’
sntp_poll_interval <time (sec)>
/root/config/system/clock>sntp_poll_interval 240
5.3.10.5. sntp_servers Command
The > sntp_servers command sets the main and backup (optional) ip addresses.
The main and backup ip settings can be reviewed in the sntp table (refer to
paragraph 5.2.13.2.).
The > sntp_servers command is available in ‘root/config/system/clock’ and
sntp_servers <main ip address> [backup ip address]
/root/config/system/clock>sntp_servers 10.13.0.134 10.13.0.135
5.3.10.6. sntp_enable Command
The > sntp_enable command sets the mode of operation of the SNTP server.
Note that the IVG’s clock must be correctly defined And SNTP internal server must
be connected.
The > sntp_enable command is available in ‘root/config/system/clock’ and
sntp_enable <on|off>
/root/config/system/clock>sntp_enable on

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5.3.11. Descriptors Commands
The Descriptors Configuration Commands are under the
‘root/config/interface/output/descriptors’ sub-menu.
5.3.11.1. set_frequency_list_descr Command
The >set_frequency_list_descr command sets the frequency list descriptor of an
output network (per transport stream defined in the second loop of NIT).
NOTE: The set_frequency_list_descry command is limited to:
• DVB output stream only
• One descriptor instance per each loop in NIT-2 (a new value replaces the previous one.)
The frequency list may be defined for existing transport stream
The >set_frequency_list_descr command is available in
‘root/config/interface/output/descriptors’ and has the following syntax:
set_frequency_list_descr <port> <ts id> [list_length]
> set_frequency_list_descr a1 5 3
coding_type (1=satellite, 2=cable, 3=terrestrial) 1
centre_frequency : 1000
5.3.11.2. set_copied_descr Command
The >set_copied_descr command set a descriptor to be copied from the input or
to be discarded.
The >set_copied_descr command is available in
set_copied_descr <port> <tag (hex)> <pmt1|pmt2|sdt> <on|off>
>set_copied_descr a1 0x9 pmt1 on
ts id 100
program 100

CODICO®
IVG-7000 Series
5.3.11.3. remove_generic_descr Command
The >remove_generic_descr command removes generic descriptor instance.
The >remove_generic_descr command is available in
remove_generic_descr<port><tag>(hex)><pmt1|pmt2|cat|nit1|nit2|sdt>
<instance>
> remove_generic_descr a1 pmt1 0x51 1
ts id: 100
program: 100
5.3.11.4. set_generic_descr Command
The >set_generic_descr command sets the generic descriptor as raw data.
When a descriptor has several instances of the same type, the user should provide
the instance identifier. If the instance already exists, the descriptor data is
overwritten, else a new instance is added.
The >set_generic_descr command is available in
set_generic_descr <port> <tag (hex)> <pmt1|pmt2|cat|nit1|nit2|sdt>
<instance>
> set_generic_descr a1 pmt1 0x51 1
ts id: 100
program: 100
data length: 6
data (xx:xx:xx): 00:15:45:1B:CD:11

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5.3.11.5. remove_local_offset_descr Command
The > remove_local_offset_descr command removes local offset descriptor
instance.
The remove_local_offset_descr command is limited to DVB output stream only.
The > remove_local_offset_descr command is available in
remove_local_offset_descr <port> <instance> <loop>
> remove_local_offset_descry a1 1
5.3.11.6. set_local_offset_descr Command
The > set_local_offset_descr command sets the local offset descriptor. This
descriptor provides additional information for TOT table. When the descriptor has
several instances of the same type, the user provides the instance identifier in the
second parameter. If the instance already exists, the CLI provides a wizard with
the current values and the descriptor data is overwritten, else a new instance will
be added.
The > set_local_offset_descr command is available in
set_local_offset_descr <port> <instance> <loop>
> set_local_offset_descr a1 1 1
country code: 47:42:52
country region id: 1
local time offset polarity: 0
local time offset(min):120
time of change(dd:mm:yy hh:mm:ss): 09:02:09 02:30:00
next time offset:2
5.3.11.7. remove_delivery_system_descr Command
The > remove_delivery_system_descr command: removes delivery system
descriptor from the output NIT-2.
The > remove_delivery_system_descr command is available in
remove_delivery_system_descr <terr|sat|cable> <port> <network id>
<ts id>
> remove_delivery_descr terr a1 100

CODICO®
IVG-7000 Series
5.3.11.8. set_delivery_system_descr Command
The > set_delivery_system_descr command sets one of three possible delivery
system of the output network (per transport stream defined in the second loop of
NIT).
NOTE: The set_delivery_system_descr command is limited to:
• One descriptor instance per each loop in NIT-2 (a new value replaces the previous one.)
• The delivery system can be defined for existing transport stream
The > set_delivery_system_descr <terr|sat|cable command is available in
set_delivery_system_descr <terr|sat|cable> <port> <ts id>
> set_delivery_system_descr terr a1 100
centre_frequency ( 0 - 4294967295 x10hz) : 1000
bandwidth (0=8mhz, 1=7mhz, 2=6mhz) : 0
constellation (0=qpsk, 1=16qam, 2=64qam) : 0
hierarchy_information (0 - 3) : 0
code_rate-hp_stream (0 - 4) : 0
code_rate-lp_stream (0 - 4) : 0
guard_interval (0 - 4) : 0
transmission_mode (0=2k, 1=8k) : 0
other_frequency_mode (0 - 1) : 0
5.3.11.9. remove_frequency_list_descr Command
The > remove_frequency_list_descr command removes the frequency list
descriptor of an output network.
The remove_frequency_list_descr command is limited to DVB output stream
only.
The > remove_frequency_list_descr command is available in
remove_frequency_list_descr <port> <network id> <ts id>
>remove_frequency_list_descr a1 100 12700

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5.3.11.10. set_network_name_descr Command
The > set_network_name_descr command sets the network name descriptor of
an output program.
NOTE: The set_network_name_descrr command is limited to:
• One descriptor instance per output interface (a new value replaces the previous one.)
• Mandatory to be transmitted (cannot be deleted)
The > set_network_name_descr command is available in
set_network_name_descr <port>
> set_network_name_descr a1
network name : IVG Default Network BBC network
5.3.11.11. set_service_descr Command
The > set_service_descr command sets the service descriptor of an output
program
NOTE: The set_service_descrr command is limited to:
• One descriptor instance per output interface (a new value replaces the previous one.)
• Mandatory to be transmitted (cannot be deleted)
The > set_service_descr command is available in
set_service_descr <port> <ts id> <program>
>set_service_descriptor a1 100 100
service name: SCOPUS-NET-TECH BBC Prime
provider name: Scopus Network Technologies BBC
service type: 1 3

CODICO®
IVG-7000 Series
5.3.12. PSI_SI Commands
The PSI_SI Configuration Commands are under the
‘root/config/interface/output/psi_si’ sub-menu.
5.3.12.1. generate_psi_si Command
The >generate_psi_si command manages the generation of PSI/SI tables on the
output ports. The command parameters are an output port, a PSI/SI table and an
on/off status, which manages the generation of the specified table.
The >generate_psi_si command is available in
‘/root/config/interface/output/psi_si’ and has the following syntax:
>generate_psi_si <out port> <all|nit|pat|pmt|sdt|cat|tdt|tot> <on|off>
Where:
• <out port> - output port number of the specified port.
• <all|nit|pat|pmt|sdt|cat|tdt|tot> - specifies the PSI/SI table. Use ‘all’ for
all the tables.
• <on|off> - on: generate the specified table in the output port. Off: stop
generating the specified table in the output port.
/root/config/interface/output/psi_si>generate_psi_si 1 all off
5.3.12.2. set_repetition_rate command
The > set_repetition_rate command sets the transport rate of the psi_si tables.
The values entered should be in the range of the DVB standards. However, any
value can be entered.
The DVB range standards are:
• pat, pmt – 500ms
• cat – 1000ms
• nit, sdt – 25-1000ms
• tdt, tot – 25-30000ms
The > set_ repetition_rate command is available in
‘/root/config/interface/output/psi_si’ and has the following syntax:
set_repetition_rate <port> <nit|pat|pmt|sdt|cat|tdt|tot> <rate(msec)>
/root/config/interface/output/psi_si>set_repetition_rate 2 nit 350

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5.4. ADMINISTRATION COMMANDS
The Administration Commands are under the ‘/root/admin’ sub-menu. Only users
with administrator level can operate the commands under ‘/root/admin’.
5.4.1. users Command
The >users command displays information about users allowed to login the
system. The information shown: username, password, access level, login failure
reason. The >users command is available only in admin access level.
The >users command is available in ‘/root/admin' and has the following syntax:
>users
5.4.2. timeout command
The >timeout command specifies/displays the CLI expiration time. When the CLI
is idle for the specified time, it logout automatically.
The >timeout command is available in ‘/root/admin' and has the following
syntax:
>timeout [ timeout_sec|none ]
Where:
[ timeout_sec ] (Optional) - is the new timeout (in seconds). If the
‘timeout_sec’ parameter is not specified, this command displays the current
timeout value. If the parameter is specified, this command sets a new timeout
value.
[ none ] - the CLI never expires.
5.4.3. change_password command
The >change_password command changes passwords of usernames.
The >change_password command is available in ‘/root/admin' and has the
following syntax:
>change_password <username> <password>
Where:
• < username > is the name of the user.
• < password > is the new password.

CODICO®
IVG-7000 Series
5.4.4. new_user command
The >new_user command adds a new user
The >new_user command is available in ‘/root/admin' and has the following
syntax:
>new_user <username> <password> <ro|rw|admin>
Where:
• < username > is the username for the new user.
• < password > : is the password for the new user.
• < ro | rw | admin > : is the access level for the new user.
( ro = read-only, rw = read-write, admin = administrator )
5.4.5. delete_user command
The >delete_user command deletes a user name.
The >delete_user command is available in ‘/root/admin' and has the following
syntax:
>delete_user <username>
Where:
<username> - is the name of the user.
5.4.6. ping command
The >ping command sends a ping to an IP address.
The >ping command is available in ‘/root/admin' and has the following syntax:
>ping <target addr>
Where:
<target addr> - is the IP address to be pinged.

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5.4.7. connections command
The >connections command displays a table with all the users who are connected
to the IVG-7000.
The >connections command is available in ‘/root/admin' and has the following
syntax:
>connections
5.4.8. drop_connection command
The >drop_connection command terminates a connection to the IVG-7000.
The >drop_connection command is available in ‘/root/admin' and has the
following syntax:
> drop_connection <session id>
Where:
<session id> - is the session ID number of the session to be terminated. A list
with all the sessions and their session ID can be obtained from the connections
command. Refer to paragraph 5.4.7.
5.4.9. get_product_id command
The >get_product_id command displays the IVG-7000 product ID number. The
product ID is used for generating new license keys to the unit.
The >get_product_id command is available in ‘/root/admin' and has the
following syntax:
>get_product_id
5.4.10. show_license_key command
The >show_license_key command displays the IVG-7000 license key,
determining the unit’s software permissions
The >show_license_key command is available in ‘/root/admin' and has the
following syntax:
>show_license_key

CODICO®
IVG-7000 Series
5.4.11. set_license_key command
The >set_license_key command sets the IVG-7000 license key by requesting the
user to write the license key after typing the command.
The >set_license_key command is available in ‘/root/admin' and has the
following syntax:
>set_license_key

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5.5. RESET COMMANDS
The Reset Configuration Commands are under the ‘/root/Reset’ sub-menu.
5.5.1. factory_default Command
The >factory_default command restore all setting to their factory default values.
The >factory_default command is available in ‘/root/Reset’ and has the
following syntax:
>factory_default
/root/reset>factory_defaults
after restoring factory defaults, the system must be restarted.
are you sure you want to restore factoy defaults? (y/n) : no
5.5.2. restart Command
The >restart command restarts the IVG-7000 device.
The >restart command is available in ‘/root/Reset’ and has the following
syntax:
>restart
/root/reset>restart
are you sure you want to restart the system? (y/n) : yes
save current configuration? (y/n) : yes

CODICO®
IVG-7000 Series
Section 6
IVG-7000 ELEMENT MANAGEMENT
SYSTEM
6.1. INTRODUCTION
The EMS (Element Management System) is a user-friendly program that
manages the IVG-7000 device. The EMS provides a very easy and intuitive
graphical user interface for managing the IVG-7000.
The EMS contains various wizards that guide the user when performing
complicated tasks. Figure 6-1 shows the EMS graphical user interface.
Figure 6-1: EMS Graphical User Interface

User Manual
IVG-7000 Element Management System
Page 6-2 (Rev 2.0 / Jan. 2005)
6.1.1. Starting the EMS
When starting the EMS, the EMS displays the last screen configuration that was
used.
The EMS saves the last configuration screen or the IVG-7000 devices when
shutting the EMS down, and loads it back when the EMS starts.
The screen configuration includes:
• Opened windows and their position.
• IVG-7000 connections in the explorer window
After loading, the EMS tries to automatically connect to IVG-7000 devices that
the Auto-Connect parameter was set in their Mounting process (refer to
paragraph 6.1.1.1).
Devices that the Auto-Connect parameter was not set should be connected
manually. Refer to paragraph 6.1.1.2.
6.1.1.1. Mounting a New IVG-7000 Device
To connect a new IVG-7000 device, start the Mount Wizard. Choosing the Mount
command in the file menu starts the ‘Mount’ Wizard.
The ‘Mount’ Wizard includes three steps:
1. Step 1: Select in the file system types ‘IVG-7000’ and click on the
<Next> button for Step 2 Figure 6-2 shows the ‘Mount’ Wizard on step 1.
2. Step 2: Enter a name for the IVG-7000 and its IP address. Leave the port
number to its default value. The IVG-7000 can be set up for Auto-Connect
when the EMS is starting. Click on the <Next> button for Step 3. Figure
6-3 shows the ‘Mount’ Wizard on step 2.
3. Step 3: Defines the ‘read Community’, ‘Write Community’, Timeout and
Retries properties. The ‘Read Community’ and ‘Write Community’ should
not be changed. The Timeout property defines the time to wait for a
response from the IVG-7000 device. The Retries property defines the
number of times to try connecting to the IVG-7000 device.
4. Click on the <Finish> button to mount the IVG-7000 device. Figure 6-4
shows the ‘Mount’ Wizard on step 3.

CODICO®
IVG-7000 Series
Figure 6-2: Mount Wizard –Step 1

User Manual
Page 6-4 (Rev 2.0 / Jan. 2005)
6.1.1.2. Connecting to an IVG-7000 Device
When an IVG-7000 is mounted and appears on the explorer windows (see Figure
6-5), it is possible to establish a connection between the IVG-7000 and the EMS.
To connect to an IVG-7000, choose it from the explorer window, right click it. A
context menu appears. Select the ‘Connect/disconnect’ command from the
context menu.

CODICO®
IVG-7000 Series
6.1.2. EMS Main screen
Figure 6-5 shows the EMS main screen. The EMS main screen has following
sections:
• Menu Bar – The EMS menu bar commands are described in paragraph
6.1.2.1
• Tool Bar – The EMS tool bar commands are described in paragraph
6.1.2.2
• Explorer Window – The EMS Explorer Window is described in paragraph
6.1.2.3
• Other management windows – There are several types of management
windows in the EMS such as the Parameters Configuration window
(described in paragraph 6.3) and the Device Panel window (described in
Paragraph 6.2). Other types of management windows are covered later in
this manual on the relevant topics. Paragraph 6.1.3 describes the
platform environment and its windows functionality.
Figure 6-5: EMS Main Screen
Menu Bar
Tool Bar
Explorer
Window
Management
Window

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Page 6-6 (Rev 2.0 / Jan. 2005)
6.1.2.1. EMS Menu Bar
Table 6-1 displays important menu bar commands and explain their pupose.
Table 6-1: EMS Menu Bar
MENU ITEM PURPOSE
File Mount Opens the New Wizard dialog. Refer to paragraph 6.1.1.
File Unmount Deletes an IVG-7000 device from the Explorer Window.
File Exit Terminate the EMS program.
Tool Keyboard Shortcuts Opens a dialog with a list of commands and their
keyboard shortcuts. Shortcuts can be added or deleted
from commands.
Tools Options Opens the options dialog. The option dialog allows
customization of the EMS environment such as menus,
colors, etc.
Tools Drop all cross
connections
Display a dialog box that asks the user to drop the entire
cross connections from the IVG.
Tools Restore Factory
settings
Display a dialog box that asks the user to restore the IVG
to its factory settings.
Window Attach MDI
Frame Top
Attaches (Docks) the currently selected window to the top
of the work area.
View Toolbars Selecta available toolbars.
View Events Window Opens the Event Window.
Windows Network Opens the Network Window.
Help Welcome screen Opens the Welcome screen.

CODICO®
IVG-7000 Series
6.1.2.2. EMS Toolbar
Figure 6-6 shows the EMS Tool Bar. The EMS Tool Bar contains shortcuts to
menu commands.
Figure 6-6: EMS Tool Bar
6.1.2.3. The Explorer Window
The explorer window displays the IVG-7000 devices and all the manageable
components of the IVG-7000 device. It is used to control and manage all the
components of the IVG-7000 such as input ports, output ports, cross
connection, Ethernets, etc.
If the explorer window does not appear, press [Ctrl]+[2].
The explorer window displays the IVG-7000 device and its components in a
hierarchical structure. The IVG-7000 object at the top of the hierarchy is divided
to the following objects:
• DVB Streaming Ports: manages the inputs and outputs of the IVG-7000
including the ASI inputs, ASI outputs and Gigabit Ethernet
• Management Ports: manages the Ethernet ports and clock ports.
• Environment: manages the fans and power control.
• Right clicking on an object opens a context menu with management
options. Each object has its own management options. Paragraphs 6.2 to
6.10.3 cover all the objects in the explorer window :

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Page 6-8 (Rev 2.0 / Jan. 2005)
Figure 6-7: Explorer Window
6.1.3. Platform Environment
6.1.3.1. Windows
The windows of the platform environment look a bit different from a typical
Microsoft window. However, its functionality is pretty much the same:

CODICO®
IVG-7000 Series
It has a caption line at the top, which allows the user to move the window. The
three buttons in the top right position of the window allow the user to close,
maximize and minimize the window.
Clicking the icon on the top left position of the window opens a context menu
with option regarding the window position and size.
Figure 6-10 shows a typical platform environment window.
Figure 6-8: A Window Example
Active Tab Close Tab
Parameters
Categories
Parameters
Name & Value
Tab SelectorTab Control

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Page 6-10 (Rev 2.0 / Jan. 2005)
6.1.4. Saving Configuration Changes (IVG
Management)
The EMS can make many changes in the IVG-7000 parameters including cross
connections, IP Addresses, port configuration, etc…
Configuring those parameters all over again in case the IVG-7000 resets is a
time consuming task. Therefore, the IVG-7000 features a save command that
saves all the changes in the configuration and parameters.
The ‘Save’ command is executed by right clicking the IVG-7000 icon on the
Explorer window (refer to Figure 6-9) and choose from the context menu ‘save’
or press [Ctrl]+[S].
Figure 6-9: Save Command

CODICO®
IVG-7000 Series
6.2. DEVICE PANEL (IVG MANAGEMENT)
The Device Panel displays a visual representation of the IVG-7000 rear panel.
The Device Panel gives information about the physical port connections and
enables a quick and intuitive way to manage the device parameters.
To open the Device Panel, right click on the IVG-7000 item in the Explorer
window. A context menu is displayed. Choose the ‘Device Panel’ command from
the context menu.
Figure 6-10: IVG-7000 Management

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Page 6-12 (Rev 2.0 / Jan. 2005)
Figure 6-11 shows the Device Panel Window with a physical connection attached
to input port 9. Table 6-2 describes the Device Panel Window.
Figure 6-12 shows the Device Panel of an IVG-7000 with four outputs.
Figure 6-11: Device Panel Window: IVG-7000 with two outputs
Figure 6-12: Device Panel Window: IVG-7000 with four outputs

CODICO®
IVG-7000 Series
Table 6-2: Device Panel Management
PARAMETER MANAGEMENT
ASI Input Port There are 12/16 Input ports. The input ports are displayed in a blue
frame in the Device Panel on Figure 6-11.
When connecting a cable with a stream to an input port, a cable
icon appears on the Device Panel at the appropriate port.
A right click on a specific input port opens a context menu with the
following options:
• Bandwidth Chart – refer to paragraph 6.7.1.
• Configuration – refer to paragraph 6.7.2.
ASI Output Port There are two to six ASI Output ports (depends on the device
factory configuration). The output ports are displayed in an orange
frame on the Device Panel on Figure 6-11.
When connecting a cable to the output stream, a cable icon appears
in the Device Panel.
A right click opens a context menu with the following options:
• Bandwidth Chart – refer to paragraph 6.8.1
• Configuration – refer to paragraph 6.8.2
Gigabit Ethernet
(GbE)
The GbE is displayed to the left of the output ports (When cross-
connecting through the GbE, the TX indicator turns green).
• Configuration - refer to paragraph 6.9.1.
Ethernet port 1 to 4 The four Ethernet ports are shown in the right side of the Device
Panel. An Ethernet port appears green when it is connected to the
Ethernet.
• Configuration - refer to paragraph 6.10.
Clock Out The clock out port is displayed to the right of the input ports above
the clock in port.
• Configuration - refer to paragraph Error! Reference source
not found..

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Page 6-14 (Rev 2.0 / Jan. 2005)
Table 6-2: Device Panel Management
PARAMETER MANAGEMENT
Clock In The clock in port is displayed to the right of the input ports below
the clock out port.
• Configuration - refer to paragraph Error! Reference source
not found..
Device A right click on the right most part of the device view opens a
context menu with the following options:
• Device Panel – opens this window again.
• Configuration – refer to paragraph 6.3.

CODICO®
IVG-7000 Series
6.3. CONFIGURATION (IVG MANAGEMENT)
The IVG-7000 Parameter Configuration window changes the IVG-7000 General
parameters.
To open the configuration window, right click the IVG icon from the Explorer
window and choose configuration from the context menu (refer to Figure 6-13).
Figure 6-13: IVG Configuration
Opens the
Configuration
Window
The Parameters Configuration window has the following parameters sets (refer
to Figure 6-14):
• Entity - refer to paragraph 6.3.1
• Host Information - refer to paragraph 6.3.2
• License permissions - refer to paragraph 6.3.3
• SNMP statistics - refer to paragraph 6.3.4
• System Information - refer to paragraph 6.3.5

User Manual
Page 6-16 (Rev 2.0 / Jan. 2005)
Figure 6-14: Configuration Window

CODICO®
IVG-7000 Series
6.3.1. Entity (IVG Management)
Table 6-3 show the Entity parameters And Figure 6-19 shows the Parameters
Configuration window with the Entity item selected.
Table 6-3: Entity Parameters
PARAMETER VALUE
FRU This object indicates whether or not this physical entity is considered a
'field replaceable unit' by the vendor.
Alias This object is an 'alias' name for the physical entity as specified by a
network manager, and provides a non-volatile 'handle' for the physical
entity.
Asset ID This object is a user-assigned asset tracking identifier for the physical
entity as specified by a network manager, and provides non-volatile
storage of this information.
Description A textual description of the manufacturer's name for the physical entity.
Firmware
Revision
The vendor-specific firmware revision string for the physical entity.
Hardware
Revision
The vendor-specific hardware revision string for the physical entity.
Index The index for this entry.
Manufacturer
Name
The name of the manufacturer of this physical component.
Model Name The vendor-specific model name identifier string associated with this
physical component.
Name The textual name of the physical entity.
Physical Class An indication of the general hardware type of the physical entity.
Position An indication of the relative position of this 'child' component among all its
'sibling' components.
SerialNum The vendor-specific serial number string for the physical entity.

User Manual
Page 6-18 (Rev 2.0 / Jan. 2005)
Table 6-3: Entity Parameters
PARAMETER VALUE
Software
Revision
The vendor-specific software revision string for the physical entity.
Vendor Type An indication of the vendor-specific hardware type of the physical entity.
Figure 6-15: Entity Window

CODICO®
IVG-7000 Series
6.3.2. Host Information (IVG Management)
Table 6-4 show the Host Information parameters And Figure 6-16 shows the
Parameters Configuration window with the Host Information item selected.
Table 6-4: Host Information Parameters
PARAMETER VALUE
cpuUsage Displays the usage of the cpu.
reset Manages the reset process of the IVG, available options are:
scResetDone, scReset, scResetFail and scUnavailable.
selfTestResult Displays the self-test results.
SwVersion Displays the software version of the IVG-7000 device.
upTime Displays the device up time.

User Manual
Page 6-20 (Rev 2.0 / Jan. 2005)
Figure 6-16: Host Information window

CODICO®
IVG-7000 Series
6.3.3. License Permissions (IVG Management)
Table 6-5 show the License Permissions parameters And Figure 6-17 shows the
Parameters Configuration window with the License Permissions item selected.
Table 6-5: License Permissions Parameters
PARAMETER VALUE
Etr290Support Displays 1 when ETR290 is supported.
InputPorts Number of input ports
licensekey Display the license key in a character format
MaxGbeServices The maximum Gbe services allowed
OutputPorts The maximum output ports
ScrambledPorts The IVG ability to scramble programs

User Manual
Page 6-22 (Rev 2.0 / Jan. 2005)
Figure 6-17: License Permissions window

CODICO®
IVG-7000 Series
6.3.4. Snmp Statistics (IVG Management)
Table 6-6 show the Snmp Statistics parameters And Figure 6-18 shows the
Parameters Configuration window with the Snmp Statistics item selected.
Table 6-6: SNMP Statistics Parameters
PARAMETER VALUE
Enable Authen Traps Indicates whether the SNMP entity is permitted to generate
authenticationFailure traps.
ASN Parse Errors The total number of ASN.1 or BER errors encountered by the
SNMP entity when decoding received SNMP messages.
Bad Community
Names
The total number of SNMP messages delivered to the SNMP
entity, which used a SNMP community name not known to say
entity.
Bad Community Uses The total number of SNMP messages delivered to the SNMP
entity, which represented an SNMP operation, which was not
allowed by the SNMP community named in the message.
Bad Versions The total number of SNMP messages which were delivered to the
SNMP entity and were for an unsupported SNMP version.
In Packets The total number of messages delivered to the SNMP entity from
the transport service.
Total Requested
Variables
The total number of GetRequest-PDUs, GetNextRequest-PDUs,
GetBulkRequest-PDUs, SetRequest-PDUs, and InformRequest-
PDUs delivered to the SNMP entity which were silently dropped
because the size of a reply containing an alternate Response-PDU
with an empty variable-bindings field was greater than either a
local constraint or the maximum message size associated with the
originator of the request.
Proxy Drops The total number of GetRequest-PDUs, GetNextRequest-PDUs,
GetBulkRequest-PDUs, SetRequest-PDUs, and InformRequest-
PDUs delivered to the SNMP entity, which were silently dropped
because the transmission of the (possibly translated) message to
a proxy target failed in a manner (other than a time-out) such
that no Response-PDU could be returned.

User Manual
Page 6-24 (Rev 2.0 / Jan. 2005)
Figure 6-18: SNMP Statistics Window

CODICO®
IVG-7000 Series
6.3.5. System Information (IVG Management)
Table 6-7 show the System Information parameters And Figure 6-19 shows the
Parameters Configuration window with the System Information item selected.
Table 6-7: System Information Parameters
PARAMETER VALUE
System
Contact
The textual identification of the contact person for this managed node,
together with information on how to contact this person. If no contact
information is known, the value is the zero-length string.
Description A textual description of the entity.
Location The physical location of this node (e.g., `telephone closet, 3rd floor'). If
the location is unknown, the value is the zero-length string.
System Name An administratively assigned name for this managed node. By
convention, this is the node's fully qualified domain name. If the name is
unknown, the value is the zero-length string.
Subsystem
identification
The vendor's authoritative identification of the network management
subsystem contained in the entity.
Services A value that indicates the set of services that this entity may potentially
offer.
System Time The time (in hundredths of a second) since the network management
portion of the system was last re-initialized.

User Manual
Page 6-26 (Rev 2.0 / Jan. 2005)
Figure 6-19: System Information window
6.4. BIT RATE CHART (IVG MANAGEMENT)
The Bit Rate chart displays the bit rate on each port on the IVG. See Figure
6-20.
To open the Bit Rate Chart window, right click the IVG icon from the Explorer
window and choose Bit Rate Chart from the context menu.
To display the Bit Rate chart, do the following:
1. From the Explorer window, right click on the IVG. A context menu is
opened.
2. Choose the ‘Bit Rate chart” command from the context menu. The Bit
Rate chart is opened.

CODICO®
IVG-7000 Series
Figure 6-20: Bit Rate Chart

User Manual
Page 6-28 (Rev 2.0 / Jan. 2005)
6.5. STREAM INFORMATION (IVG
MANAGEMENT)
6.5.1. General
The Stream Information window displays information about the streams and the
cross connections in the IVG-7000 device. The Stream Information window is
displayed in Figure 6-22.
Figure 6-21: IVG Context Menu
Opens the Stream
Information Window
To open the Stream Information window, right click the IVG icon from the
Explorer window and choose Stream Information n from the context menu.
The left side of the Stream Information window displays an I/O tree. The I/O
tree shows the IVG-7000 ports, networks, streams, unmapped PIDs, programs
and Elementary Streams.
The right side of the Stream Information window contains:
• Properties: The Properties table manages the parameters of the selected
item. The selected item is displayed in the I/O tree.

CODICO®
IVG-7000 Series
• I/O Tree: The I/O Tree displays the output ports and their cross-
connected components. The I/O Tree provides information about the cross
connections in the IVG-7000 device.
• CA Information: refer to paragraph 6.11.7.
• Display buttons: the display buttons hide the properties, cross
connections and CA Information when undressed.
• Output Tree: Displays only the IVG output ports.
Figure 6-22: Stream Information Window
Properties
Output Tree
CA Information
I/O Tree
Display Button

User Manual
Page 6-30 (Rev 2.0 / Jan. 2005)
6.5.1.1. Cross Connection to GbE (Stream Information)
A cross connection to GbE requires a Logical Interface.
A Logical Interface is a virtual port. A GbE Ethernet has one physical port while
each service in the transport stream is transmitted over a different port. A
logical interface must be added before cross connecting a service to the GbE
Ethernet.
To add a Logical Interface, do the following:
1. Open the stream Information window.
2. Right click on a Gigabit Ethernet icon. A context menu appears.
Figure 6-23: Gigabit Ethernet Context Menu
3. Select the command ‘Add Logical Interface’ from the context menu. The
‘Logical Interface Parameters’ dialog is opened.
Figure 6-24: Logical Interface parameters dialog
4. Enter a Broadcast IP and a Port Number.
5. Press the [Finish] button.

CODICO®
IVG-7000 Series
After a Logical Interface is set, It is possible to cross connect services,
Streams and PIDs to it.
6.5.1.2. Context Menu (Stream Information)
Each item on the trees has a context menu. Figure 6-25 shows the I/O tree and
cross connection tree context menus.
Summarizes the important commands on the context menu. Some of the
commands are enabled only in the I/O or cross connection tree. The
'Operational' column informs on which tree the commands are enabled.
Table 6-8: Stream Information Context Menu Items
MENU ITEM OPERATIONAL MEANING
Copy I/O Tree Copy the selected item from the I/O Tree. The
item can be pasted to the Output Tree.
Add Cross
Connection
I/O Tree Starting the Cross Connection Wizard from step
two. The selected item is used as the source input.
Paste Cross connection Tree Paste the copied item to the cross connection tree
and start the Cross Connection Wizard from step
three. Refer to paragraph 6.6.3.
Drop Cross connection Tree Drop the selected item from the cross connection
Tree. This action removes the Cross Connection for
the selected output component from the system.
Refresh I/O & Cross
connection Tree
Refreshes the display of the I/O or cross
connection trees.

User Manual
Page 6-32 (Rev 2.0 / Jan. 2005)
Figure 6-25: I/O Tree Context Menu
6.5.1.3. Drag and Drop Support (Stream Information)
To create a new cross connection, an item from the input tree can be dragged
and dropped onto a port in the output tree. This action starts the Cross
Connection Wizard at step three. Refer to paragraph 6.6.3.

CODICO®
IVG-7000 Series
6.5.2. ASI IN Configuration (Stream Information)
6.5.2.1. ASI IN Parameters
Figure 6-26: ASI IN Parameters
Parameters
I/O Tree
I/O Tree

User Manual
Page 6-34 (Rev 2.0 / Jan. 2005)
Table 6-9: ASI IN Parameters Description
CATEGORY PARAMETER DESCRIPTION
Properties
ManagersType Displays the manager type: DVB/ASI_IN in the input.
name Displays the name associated with this parameter.
Look
Look Should be set to default.

CODICO®
IVG-7000 Series
6.5.2.2. ASI IN-Port Parameters
Figure 6-27: ASI IN-Port Parameters
Parameters
I/O Tree

User Manual
Page 6-36 (Rev 2.0 / Jan. 2005)
Table 6-10: ASI IN-Port Parameters Description
Properties
deliverySystemType Displays the class of the delivery system from a
various types such as satellite, cable, terrestrial or
unknown.
name Displays the name associated with this parameter..
serviceInformationType Displays the format of the service from a various
types such as ATSC_PSIP, DVB_SI, ACTE_SI OR
UNKNOWN.
supportedDimentions Displays the supported dimensions rating, A zero-
length array is returned if no rating dimensions are
available
type Displays the ASI port type (e.g. DVB/ASI IN)
Look

CODICO®
IVG-7000 Series
6.5.2.3. ASI IN-Network Parameters
Figure 6-28: ASI IN-Network Parameters
Parameters
I/O Tree

User Manual
Page 6-38 (Rev 2.0 / Jan. 2005)
Table 6-11: ASI IN-Network Parameters Description
Properties
Delivery System Type Displays the class of the delivery system from a
unknown.
ID Displays the ID of the transport stream.
Service Information Type Displays the format of the service from a various
UNKNOWN.
Look

CODICO®
IVG-7000 Series
6.5.2.4. ASI IN-Stream Parameters
Figure 6-29: ASI IN-Stream Parameters
Parameters
I/O Tree

User Manual
Page 6-40 (Rev 2.0 / Jan. 2005)
Table 6-12: ASI IN-Stream Parameters Description
Properties
Description Display the description of the ASI IN stream.
UNKNOWN.
Look

CODICO®
IVG-7000 Series
6.5.2.5. ASI IN-Service Parameters
Figure 6-30: ASI IN-Service Parameters
I/O Tree
Parameters

User Manual
Page 6-42 (Rev 2.0 / Jan. 2005)
Table 6-13: ASI IN-Service Parameters Description
Properties
UNKNOWN.
Service Number Displays the services by a service numbers.
Service Type Displays the type of the service.
Transport Stream ID Displays the ID of the transport stream.
CA System IDs Displays an array of CA System IDs associated with
this parameter.
unknown.
CA Free Displays a “v” in the checkbox when a service is not
encrypted.
Program Schedule Displays a collection of program events for a given
service ordered by time. It provides the current,
next and future program events.
Service Displays the service name and id.
Expert
Long Name Manages the service name.
Look

CODICO®
IVG-7000 Series
6.5.2.6. ASI IN-Elementary Stream Parameters
Figure 6-31: ASI IN- Elementary Stream Parameters
Parameters
I/O Tree

User Manual
Page 6-44 (Rev 2.0 / Jan. 2005)
Table 6-14: ASI IN- Elementary Stream Parameters Description
Properties
CA System IDs Displays an array of CA System IDs associated with this
parameter.
Associated Language Displays the PID associated language.
encrypted.
Name Displays the name associated with this parameter.
Service Information
Type
Displays the format of the service from a various types
such as ATSC_PSIP, DVB_SI, ACTE_SI OR UNKNOWN.
Stream Type Displays the type of the stream from a various types
(e.g. “VIDEO”,”AUDIO”, etc.).
Look

CODICO®
IVG-7000 Series
6.5.3. ASI OUT Configuration (Stream Information)
6.5.3.1. ASI OUT Parameters
Figure 6-32: ASI OUT Parameters
I/O Tree
Parameters

User Manual
Page 6-46 (Rev 2.0 / Jan. 2005)
Table 6-15: ASI OUT Parameters Description
Properties
managersType Displays the manager type: DVB/ASI_OUT in the output.
Look
6.5.3.2. ASI OUT-Port parameters
Figure 6-33: ASI OUT-Port parameters
Parameters
I/O Tree

CODICO®
IVG-7000 Series
Table 6-16: ASI OUT-Port Parameters Description
Properties
deliverySystemType Displays the class of the delivery system from a
unknown.
serviceInformationType Displays the format of the service from a various
UNKNOWN.
supportedDimentions Displays the supported dimensions rating, A zero-
length array is returned if no rating dimensions are
available
type Displays the ASI port type (e.g. DVB/ASI OUT)
Look

User Manual
Page 6-48 (Rev 2.0 / Jan. 2005)
6.5.3.3. ASI OUT-Network Parameters
Figure 6-34: ASI OUT-Network Parameters
I/O Tree
Parameters

CODICO®
IVG-7000 Series
Table 6-17: ASI OUT-Network Parameters Description
Properties
unknown.
ID Displays the ID of the network.
UNKNOWN.
Expert
ID Manages the ID of the network.
Name Manages the name associated with this parameter.
Look

User Manual
Page 6-50 (Rev 2.0 / Jan. 2005)
6.5.3.4. ASI OUT-Stream Parameters
Figure 6-35: ASI OUT-Stream Parameters
Parameters
I/O Tree

CODICO®
IVG-7000 Series
Table 6-18: ASI OUT-Stream Parameters Description
Properties
UNKNOWN.
Expert
Original Network ID Displays the original network id.
Look
6.5.3.5. ASI OUT-Service Parameters
The Stream Information window can be used for changing parameters of cross-
connected programs. The parameters are initially set in the Cross Connection
Wizard (refer to paragraph 6.6) but can be changed after the wizard is finished
adding the cross-connected program or port.

User Manual
Page 6-52 (Rev 2.0 / Jan. 2005)
Figure 6-36: ASI OUT-Service Parameters
I/O Tree
Parameters

CODICO®
IVG-7000 Series
Table 6-19: ASI OUT-Service Parameters Description
Properties
Service Information
Type
Displays the format of the service from a various
UNKNOWN.
Service Number Displays the services by a service number
CA System Type Displays the CA system type
unknown.
encrypted.
service ordered by time. It provides the current, next
and future program events.
Expert
PCR PID Manages the PCR PID number of the selected cross-
connected program.
PMT PID Manages the PMT PID number of the selected cross-
connected program.
Service ID Manages the Service ID number of the selected
cross-connected program.
Long Name Manages the long name of the service in the output.
Look

User Manual
Page 6-54 (Rev 2.0 / Jan. 2005)
6.5.3.6. ASI OUT-PID Parameters
Figure 6-37: ASI OUT-PID Parameters
Parameters
I/O Tree

CODICO®
IVG-7000 Series
Table 6-20: ASI OUT-PID Parameters Description
Properties
CA System Ids Displays an array of CA System IDs associated with
this parameter.
Associated Language
encrypted.
UNKNOWN.
Stream Type Displays the type of the stream from various types
(e.g. “VIDEO”,”AUDIO”, etc.).
Expert
Type Manages the ES OUT type.
Look

User Manual
Page 6-56 (Rev 2.0 / Jan. 2005)
6.5.4. GbE Configuration (Stream Information)
6.5.4.1. GbE Parameters
Figure 6-38: GbE Parameters
Parameters
I/O Tree

CODICO®
IVG-7000 Series
Table 6-21: GbE Parameters Description
Properties
managersType Displays the manager type: DVB/GbE_OUT in the output.
Look

User Manual
Page 6-58 (Rev 2.0 / Jan. 2005)
6.5.4.2. GbE-Broadcast Parameters
Figure 6-39: GbE-Broadcast Parameters
I/O Tree
Parameters

CODICO®
IVG-7000 Series
Table 6-22: GbE-Broadcast Parameters Descriptions
Properties
deliverySystemType Displays the class of the delivery system
from a various types such as satellite, cable,
terrestrial or unknown.
displayName Broadcasts to multicast IP address and port.
name Displays the name associated with this
parameter.
serviceInformationType Displays the format of the service from a
various types such as ATSC_PSIP, DVB_SI,
ACTE_SI OR UNKNOWN.
supportedDimensions Displays the supported dimensions rating, A
zero-length array is returned if no rating
dimensions are available.
type Displays the GbE port type (e.g.
DVB/GbE_Out).
Look

User Manual
Page 6-60 (Rev 2.0 / Jan. 2005)
6.5.4.3. GbE Network Parameters
Figure 6-40: GbE Network Parameters
Parameters
I/O Tree

CODICO®
IVG-7000 Series
Table 6-23: GbE-Network Parameters Descriptions
Properties
unknown.
UNKNOWN.
Expert
ID Manages the ID of the transport stream.
Look

User Manual
Page 6-62 (Rev 2.0 / Jan. 2005)
6.5.4.4. GbE-Stream Menu Parameters
Figure 6-41: GbE-Stream Menu Parameters
Parameters
I/O Tree

CODICO®
IVG-7000 Series
Table 6-24: GbE-Stream Parameters Descriptions
Properties
UNKNOWN.
ID Displays the network id in the output.
Expert
Original Network ID Manages the original network id in the output.
Look

User Manual
Page 6-64 (Rev 2.0 / Jan. 2005)
6.5.4.5. GbE-Service Parameters
Figure 6-42: GbE-Service Parameters
Parameters
I/O Tree

CODICO®
IVG-7000 Series
Table 6-25: GbE-Service Parameters Descriptions
Properties
UNKNOWN.
Service Number Displays the services by a service numbers.
CA System IDs Displays an array of CA System IDs associated with
this parameter.
unknown.
encrypted.
service ordered by time. It provides the current,
next and future program events.
Expert
connected program.
PMT PID Manages the PMT PID number of the selected
Service ID Manages the Service ID number of the selected
Long Name Manages the service name.
Look

User Manual
Page 6-66 (Rev 2.0 / Jan. 2005)
6.5.4.6. GbE-PID Parameters
Figure 6-43: GbE-PID Parameters
Parameters
I/O Tree

CODICO®
IVG-7000 Series
Table 6-26: GbE-PID Parameters Descriptions
Properties
CA System IDs Displays an array of CA System IDs associated
with this parameter.
Associated Language
CA Free Displays a “v” in the checkbox when a service is
not encrypted.
UNKNOWN.
Expert
Type Displays the GbE PID type.
Look

User Manual
Page 6-68 (Rev 2.0 / Jan. 2005)
Table 6-27 shows the parameters and their description of the cross-connected
programs.
Table 6-27: Port DVB Configuration Parameters
PARAMETER DESCRIPTION
Maximum Bit-
Rate
Manages the maximum bit rate of a program. This
parameter appears only in a rate-reduced program.
Minimum Bit-Rate Manages the minimum bit rate of a program. This
parameter appears only in a rate-reduced program.
connected program.
PMT PID Manages the PMT PID number of the selected cross-
connected program.
Priority Manages the priority of the selected cross-connected
program. is parameter appears only in a Joint
Transrating program.
Service ID Manages the Service ID number of the selected cross-
connected program.
Index The index value.
Joint Transrating Manages the cross connection type. When the value is
TRUE, the program is rate reduced.
Scrambled Manages the scramble status of the cross connected
program.

CODICO®
IVG-7000 Series
6.6. CROSS CONNECTION WIZARD (IVG
MANAGEMENT)
The Cross Connection Wizard helps to easily add a cross connection between a
source port and a target port. It guides the user through the different definitions
to be made for completing the cross-connect.
In order to activate The Cross Connection Wizard right click the IVG-7000 icon
on the Explorer window (refer to paragraph 6.1.2.3 for information regarding the
Explorer window).
Figure 6-44: Cross Connection Wizard
The Cross Connection Wizard can be activated in the Stream Information
window. Paragraph 6.4 describes the different ways to activate the Cross
Connect Wizard from the Stream Information window.
The Cross Connection Wizard contains six steps. Paragraph 6.6.1 to 6.6.6
describe the six steps of the Cross Connection Wizard.
The cross connection parameters can be changed after the Cross Connection
Wizard has finished adding a cross connection. Paragraph 6.5.2 describes the
management of the cross connection parameters.

User Manual
Page 6-70 (Rev 2.0 / Jan. 2005)
6.6.1. Step one: Selecting a Source (Cross
Connection Wizard)
The first step of the Cross Connection Wizard is to select a source.
A source can be one of the following options:
• Port - for cross connecting an input port to an output port.
• Transport Stream - for cross connecting EMM to an output port.
• Program - for cross connecting an input program to an output port.
• Elementary Stream - for cross connecting an input elementary stream to
an output port. (Currently not supported by the EMS).
Figure 6-45 shows the Cross Connection Wizard. The Cross Connection Wizard
contains a tree with all the input ports, networks, streams, programs, and PIDs.
To select a source, do the following:
1. Navigate in the DVB tree to find the source input. The source input may
be an input port or a program.
2. Click on the [Next] button to proceed to the next step.

CODICO®
IVG-7000 Series
Figure 6-45: Cross Connection Wizard Step one: Selecting a source
NOTE
When activating the wizard by drag & drop or by copy & paste, step one will not appear
because the input source has already been chosen.

User Manual
Page 6-72 (Rev 2.0 / Jan. 2005)
6.6.2. Step Two: Selecting a Target (Cross
Connection Wizard)
The second step of the Cross Connection Wizard is to select a target port. Figure
6-46 shows the Cross Connection Wizard on step two. The Cross Connection
Wizard contains a display of the selected input source and a tree with all the
output ports, networks, streams, programs, and PIDs.
To select a target, do the following:
1. Select a target port. Although the tree contains all of the DVB
components, only a port can be selected as a target.
2. Click on the [Next] button to proceed to the next step.
Figure 6-46: Cross Connection Wizard Step two: Selecting a Target
NOTE
When activating the wizard by drag & drop or by copy & paste, step two will not appear
because the input and output source has already been chosen.

CODICO®
IVG-7000 Series
6.6.3. Step Three: Validity Checking (Cross
Connection Wizard)
The third step of the Cross Connection Wizard is a validity check to ensure that
there are no errors with the selections of the source and target. The Cross
Connection Wizard checks for possible errors and displays an error message
when an error occurs.
Figure 6-47 shows the Cross Connection Wizard on step three. The Cross
Connection Wizard contains a display of the selected input source, output port
and a message about the cross connection status.
The third step of the Cross Connection Wizard allows the user to select a
transport stream ID for the output transport stream.
Click on the [Next] button to proceed to the next step.
Figure 6-47: Cross Connection Wizard Step three: Validation Check

User Manual
Page 6-74 (Rev 2.0 / Jan. 2005)
6.6.4. Step Four: Program Editing (Cross Connection
Wizard)
The fourth step of the Cross Connection Wizard is the program editing step. The
Cross Connection Wizard allows changing the program number, program name
and the PMT PID of the program. The bottom part of the wizard sets Joint
Transrating parameters for the program.
Figure 6-48 shows the Cross Connection Wizard on step four. Figure 6-49 shows
the Cross Connection wizard on step four when cross connecting PID. The Cross
Connection Wizard contains a display of the Input source and Output target,
Network ID, Network Name, Transport Stream ID, Program Number, Program
Name, PMT PID and PCR PID.
The Program Number, Program name and PMT PID can be changed. When
checking the 'Enable' button in the Joint Transrating section, the joint
transrating parameters are enabled for the program.
NOTE
When adding a cross connection with a program, which is not joint transrated, to a port
with joint transrated enabled, the program will be cross connected as Pass-through
(transparent).
When cross connecting a PID to an output port, the cross connection wizard
displays on step four the PID type and number (see Figure 6-49).
NOTE
The Joint Transrating parameters can be enabled only when the destination port has a
Stat Mux support. To change the port Stat Mux support, refer to paragraph 6.8.2.2.

CODICO®
IVG-7000 Series
Figure 6-48: Cross Connection Wizard Step four: Program Editing with Joint
Transrating
Figure 6-49: PID Editing

User Manual
Page 6-76 (Rev 2.0 / Jan. 2005)
6.6.5. Step Five: PID Editing (Cross Connection
Wizard)
The fifth step of the Cross Connection Wizard is the elementary-stream editing
step. The Cross Connection Wizard allows changing the PID numbers of the
output program. The IVG-7000 automatically assigns output PIDs, however, the
user can customize the suggested PID values in this step.
Figure 6-50 shows the Cross Connection Wizard on step five. The Cross
Connection Wizard contains a table with all the PIDs of the original program and
the PIDs of the output program. The output program PIDs can be changed in the
table.
Figure 6-50: Cross Connection Wizard Step five: PID Editing
When cross connecting a PID to an output port, the wizard skips to step 6. Refer
to Step 6.

CODICO®
IVG-7000 Series
6.6.6. Step Six: Cross Connection Activation (Cross
Connection Wizard)
The sixth step of the Cross Connection Wizard is the Cross Connection Activation
step. After configuring all the necessary parameters, the Cross Connection
Wizard attempts to actually make the cross connection in the IVG-7000 device.
The Cross Connection Wizard displays the result of the cross connection.
Figure 6-51 shows the result of the Cross Connection Wizard after successfully
adding the cross connection.
Click on the [Finish] button to exit from the Cross Connection Wizard.
Figure 6-51: Cross Connection Wizard Step Six: Cross Connection Activation

User Manual
Page 6-78 (Rev 2.0 / Jan. 2005)
6.7. ASI IN PORT MANAGEMENT
The ASI IN Ports are managed through the Explorer window. Right clicking on
one of the ‘ASI IN Port [x]’ items open a context menu. The context menu has
the following management options:
• Bandwidth Chart – opens the bit rate Chart window. Refer to paragraph
6.7.1
• Configuration – opens the Parameter Configuration window to change the
ASI IN Port parameters. Refer to paragraph 6.7.2.
6.7.1. Bandwidth Chart (ASI IN)
The Bandwidth Chart window shows a visual representation of bit rates of the
programs in the port.
The left side of the window shows a legend with the program names, program
numbers and their colors in the graph.
The right side of the window shows a graph of the program bit rates. The graph
shows each program bit rate over the last 10 samples.
When placing the mouse cursor on a specific program in the graph, the bit rate
value of the program appears in a tool tip window.
Figure 6-52 shows the Bandwidth Chart window.

CODICO®
IVG-7000 Series
Figure 6-52: Bandwidth Chart Window (ASI IN)

User Manual
Page 6-80 (Rev 2.0 / Jan. 2005)
6.7.2. Configuration (ASI IN)
The ASI IN Port Parameter Configuration window changes the ASI IN Port
parameters.
The Parameters Configuration window has the following parameters sets:
• Entity Information - 6.7.2.1
• Port Information - 6.7.2.2
• DVB IN - 6.7.2.3
To open the Parameter Configuration window, right click on the ‘ASI IN Port [x]’
item in the Explorer window. A context menu is displayed. Choose the
‘Configuration’ command from the context menu.
6.7.2.1. Entity Information (ASI IN)
The Entity Information window is similar to the Entity Information window of the
IVG-7000 device. Refer to paragraph 6.3.1 for details about the table
parameters.
6.7.2.2. Port Configuration (ASI IN)
The Port Configuration table contains one manageable parameter: Admin Status.
The Admin Status parameter manages the desired state of the interface. There
are three states:
• Up
• Down
• Testing
• In addition, there is a view of statistics for the port.
Figure 6-53 shows the Port Configuration table.

CODICO®
IVG-7000 Series
Figure 6-53: Port Configuration Window (ASI IN)
6.7.2.3. DVB IN (ASI IN)
The DVB IN Configuration has only one parameter: SiType. The SiType
parameter determines the Type of the SI tables. Available options:
• DVB
• ATSC
• PSI-SI-Generator
• Unknown
Figure 6-54 shows the DVB-IN configuration set.

User Manual
Page 6-82 (Rev 2.0 / Jan. 2005)
Figure 6-54: DVB IN Window (ASI IN)

CODICO®
IVG-7000 Series
6.8. ASI OUT PORT MANAGEMENT
The ASI OUT Ports are managed through the Explorer window. Right clicking on
one of the ‘ASI OUT Port [x]’ items open a context menu. The context menu has
the following management options:
• Bandwidth Chart – opens the Bandwidth Chart window. Refer to
paragraph 6.8.1
ASI OUT Port parameters. Refer to paragraph 6.8.2.
6.8.1. Bandwidth Chart (ASI OUT)
The Bandwidth Chart window shows a visual representation of bit rates of the
programs in the port.
The left side of the window shows a legend with the program names, program
numbers and their colors in the graph.
The right side of the window shows a graph of the program bit rate. The graph
shows each program bit rate over the last internal samples. The bold dotted line
at the 30Mb/sec mark shows the output port maximum bandwidth. The regular
dotted line at the 20Mb/sec mark shows the reserved bandwidth.
When placing the mouse cursor on a specific program in the graph, the bit rate
value of the program appears in a tool tip window.
Figure 6-55 shows the Bandwidth Chart window.

User Manual
Page 6-84 (Rev 2.0 / Jan. 2005)
Figure 6-55: Bandwidth Chart Window (ASI OUT)
6.8.2. Configuration (ASI OUT)
The ASI OUT Port Parameter Configuration window changes the ASI OUT Port
parameters. The Parameters Configuration window has the following parameters
sets:
• Entity Information – refer to paragraph 6.8.2.1
• Port DVB Configuration - refer to paragraph 6.8.2.2
• Port Configuration - refer to paragraph 6.8.2.3
• EMMs - refer to paragraph 6.8.2.4
To open the Parameter Configuration window, right click on the ‘ASI OUT Port
[x]’ item in the Explorer window. A context menu is displayed. Choose the

CODICO®
IVG-7000 Series
6.8.2.1. Entity Information (ASI OUT)
parameters.
6.8.2.2. Port DVB Configuration (ASI OUT)
Table 6-28 shows the parameters of the Port DVB configuration. Figure 6-56
shows the Port DVB configuration window.
Table 6-28: Port DVB Configuration Parameters (ASI OUT)
Stat Mux Support Defines the Stat Mux support in the port. When Stat
Mux is not supported, it is not possible to rate-reduce
a program when adding a cross connection.
To change the status of the Stat Mux support, all the
cross connected programs on the output port should
be dropped first.
mirror The mirror parameter displays true when this ASI Out
port mirrors another ASI Out port
mirrorMode The mirrorMode parameter is one of the following:
• Unchanged – This ASI Out port mirrors exactly the
content of another port
• Clear – This ASI Out port mirrors the content of
another port, but does not encrypt the services.
mirrorOf The source ASI Out port. This port mirrors the
contents of the source port.
Packet Size Defines the packet size
Reserved
Bandwidth
Defines the reserved bitrate for the output port.
Total Bandwidth Defines the total bit rate of the output port.

User Manual
Page 6-86 (Rev 2.0 / Jan. 2005)
Figure 6-56: Port DVB Configuration Window (ASI OUT)

CODICO®
IVG-7000 Series
6.8.2.3. Port Configuration (ASI OUT)
are three states:
• Up
• Down
• Testing
In addition, there is a view of statistics for the port.
The default interface state after the IVG-7000 is started is [Down] (2). When
adding cross connections, the interface state automatically transfers to
[Up] (1).
Figure 6-53 displays the Port Configuration window.
6.8.2.4. EMM Output PID (ASI OUT)
Figure 6-58 shows the EMM Output PID parameters.
To add an EMM Output PID, right click the EMMs icon. A context menu is
opened. Choose the command ‘Add EMM Output PID’ from the context menu.
The ‘EMM Output PID Wizard’ dialog is opened. Refer to Figure 6-57. Table 6-30
describes the ‘EMM Output PID Wizard’ dialog parameters.
Table 6-32 describes the parameters of the EMM Output PID in the ASI Out port.
Figure 6-57: EMM Output PID Wizard dialog

User Manual
Page 6-88 (Rev 2.0 / Jan. 2005)
Table 6-29: EMM Output PID Wizard dialog parameters
Source Selects from the list an EMM Generator. The list displays
all configured EMM Generators.
Pid Sets the PID number of the EMM Output PID
Private Data Sets the private data of the EMM Output PID.
Figure 6-58: EMM Output PID (ASI OUT)
Table 6-30: EMM Output PID (ASI OUT)
Pid Manages the PID number of the EMM Output PID
Private Data Manages the private data of the EMM Output PID.

CODICO®
IVG-7000 Series
6.9. GIGA-BIT ETHERNET (GbE)
NOTE
Not applicable for IVG-7300
The Giga-Bit Ethernet is managed through the Explorer window. Right clicking
on the ‘Giga Ethernet’ items open a context menu. The context menu has the
following management options:
Giga-Bit Ethernet parameters. Refer to paragraph 6.9.1.
6.9.1. Configuration (GbE)
The Giga-Bit Ethernet Parameter Configuration window changes the Giga-Bit
Ethernet parameters. The Parameters Configuration window has the following
parameters sets:
• Entity Information – refer to paragraph 6.9.1.1.
• IP Address - refer to paragraph 6.9.1.2.
• Port Configuration - refer to paragraph 6.9.1.3.
To open the Parameter Configuration window, right click on the ‘Giga-Bit
Ethernet’ item in the Explorer window. A context menu is displayed. Choose the
6.9.1.1. Entity Information (GbE)
parameters.

User Manual
Page 6-90 (Rev 2.0 / Jan. 2005)
6.9.1.2. IP Address (GbE)
Figure 6-59 shows the IP Address configuration window and Table 6-31
describes the IP Address parameters.
Figure 6-59: IP Address Window (GbE)

CODICO®
IVG-7000 Series
Table 6-31: IP Address Parameters (GbE)
PARAMETER VALUE
Broadcast The index value, which uniquely identifies the
interface to which this entry is applicable. The
interface identified by a particular value of this index
is the same interface as identified by the same value
of RFC 1573's Index.
IP Address The IP address of the GbE port.
Bcast Address The value of the least-significant bit in the IP
broadcast address used for sending datagrams on the
(logical) interface associated with the IP address of
this entry.
Subnet Mask The Subnet Mask address of the GbE port.
Max Size The size of the largest IP datagram, which this entity
can re-assemble from incoming IP, fragmented
datagrams received on this interface.
6.9.1.3. Port Configuration (GbE)
are three states:
• Up
• Down
• Testing
[Up] (1).

User Manual
Page 6-92 (Rev 2.0 / Jan. 2005)
Figure 6-60: Port Configuration (GbE)

CODICO®
IVG-7000 Series
6.10. MANAGEMENT PORTS AND ENVIRONMENT
CONFIGURATION
6.10.1. Fast Ethernet Port Configuration
The Fast Ethernet Port Parameter Configuration window manages the three Fast
Ethernet ports and one 10BaseT Ethernet port. The Parameters Configuration
window has the following parameters sets:
• Entity Information - 6.10.1.1.
• IP Address - 6.10.1.2.
• Port Configuration - 6.10.1.3.
To open the Parameter Configuration window, right click on the ‘Fast Ethernet
Port’ item in the Explorer window. A context menu is displayed. Choose the
6.10.1.1. Entity Information (Fast Ethernet Port)
parameters.
6.10.1.2. IP Address (Fast Ethernet Port)
The IP address window is similar to the IP address window of the Gigabit
Ethernet window. Refer to Table 6-31 and Figure 6-59 for details about the IP
parameters.
6.10.1.3. Port Configuration (Fast Ethernet Port)
are three states:
• Up
• Down
• Testing

User Manual
Page 6-94 (Rev 2.0 / Jan. 2005)
[Up] (1).
6.10.2. Fan Management
The Fan Parameter Configuration window changes the Fan parameters. The
Parameters Configuration window has the following parameters sets:
• The Entity Information window is similar to the Entity Information window
of the IVG-7000 device. Refer to paragraph 6.3.1 for details about the
table parameters.
To open the Parameter Configuration window, right click on the ‘Fan [x]’ item in
the Explorer window. A context menu is displayed. Choose the ‘Configuration’
command from the context menu.
6.10.3. Power Supply Management
The Power Supply Parameter Configuration window changes the Power Supply
parameters. The Parameters Configuration window has the following parameters
sets:
• The Entity Information window is similar to the Entity Information window
of the IVG-7000 device. Refer to paragraph 6.3.1 for details about the
table parameters.
To open the Parameter Configuration window, right click on the ‘Power Supply’
item in the Explorer window. A context menu is displayed. Choose the
6.11. CONDITIONAL ACCESS
This section provides information regarding the conditional access management
in the EMS. The following subjects are covered in the paragraphs below:
• Adding an ECM Generator. See paragraph 6.11.1
• Remove an ECM Generator. See paragraph 6.11.2
• Adding an EMM Generator. See paragraph 6.11.3
• Remove an EMM Generator. See paragraph 6.11.4
• Scrambling settings. See paragraph 6.11.5
• Cross Connecting Pre-Encrypted Programs. See paragraph 6.11.6

CODICO®
IVG-7000 Series
6.11.1. Adding an ECM Generator
Scrambling programs require the configuration of an ECM generator and an EMM
generator. To configure an ECM generator follow the instruction below:
1. From the Explorer window, right click the CA bottom. A context menu is
opened. Choose ‘configure’ from the context menu. The CA configuration
window is opened (see Figure 6-61).
2. Right click the ECM Generator label. A context menu is opened. Choose
‘Add ECM Generator ‘ from the context menu. The ECM Generator Wizard
is opened (see Figure 6-62).
3. Table 6-32 shows the parameters and values on the ECM Generator
Wizard. Configure the parameters on the ECM Generator Wizard and click
the finish button.
The ECM Generator Wizard is closed and an ECM Generator is added under
the label ‘ECM Generator’. See Figure 6-63.

User Manual
Page 6-96 (Rev 2.0 / Jan. 2005)
Figure 6-61: CA Configuration Window

CODICO®
IVG-7000 Series
Figure 6-62: ECM Generator Wizard
Table 6-32: ECM General wizard parameters
GROUP PARAMETER VALUE
System Defines the Super CAS ID: A pre-defined constant
number for each CAS company. The number is defined
in Hexadecimal notation in the form of XX:XX:XX…
where XX is a Hex number from 00 to FF.
Sub System Defines the Sub System ID. The sub system ID is part
of the Super CAS ID constant of each CAS company.
The number is defined in Hexadecimal notation in the
form of XX:XX:XX… where XX is a Hex number from 00
to FF.
Identity
Priority Should be ‘main’’backup’
IP Address The IP Address on the CAS computer
Address
Port The Port for the CAS computer

User Manual
Page 6-98 (Rev 2.0 / Jan. 2005)
Figure 6-63: ECM Generator display
6.11.2. Remove an ECM Generator
To remove an ECM Generator, select it and press ‘Delete’ on the keyboard.
6.11.3. Adding an EMM Generator
To configure an EMM Generator, follow the instruction below:
1. From the Explorer window, right click the CA bottom. A context menu is
opened. Choose ‘configure’ from the context menu. The CA configuration
window is opened.
2. Right click the EMM Generator label. A context menu is opened. Choose
‘Add EMM Generator ‘ from the context menu. The EMM Generator Wizard
is opened (see Figure 6-65).
3. Table 6-32 shows the parameters and values on the EMM Generator
Wizard. Configure the parameters on the EMM Generator Wizard and click
on the ‘finish’ button.
The EMM Generator Wizard is closed and an EMM Generator is added
under the table ‘EMM Generator’ (see Figure 6-66).

CODICO®
IVG-7000 Series
Figure 6-64: EMM Generator context menu

User Manual
Page 6-100 (Rev 2.0 / Jan. 2005)
Figure 6-65: EMM Generator wizard

CODICO®
IVG-7000 Series
Table 6-33: EMM General wizard parameters
GROUP PARAMETER VALUE
IP The IP Address of the fast Ethernet port that connects
to the CAS intranet. This parameter must be defined
when using a CAS application.Listening
Port
Port The port value should be identical to the port that has
been defined in the CAS application.
Protocol Selects a protocol to use: the IP Address and Port
value are relevant only when the UDP protocol is used.
Port The port value should be identical to the value that
was defined in the CAS for the multicast address.
Multicast
Address
IP The multicast address that has been defined in the
CAS device.

User Manual
Page 6-102 (Rev 2.0 / Jan. 2005)
Figure 6-66: EMM Generator display
6.11.4. Remove an EMM Generator
To remove an EMM Generator, select it and press [Delete] on the keyboard.
6.11.5. Scrambling settings
When the ECM and EMM Generators are configured, the IVG can encrypt
programs.
To encrypt a program do the following:
1. From the Explorer window, right click the IVG icon. A context menu is
opened. Choose ‘stream information’ from the context menu.
The stream information window is opened.
2. Select a program or a elementary stream (ES). Right click on it. Select
‘scramble…’ from the context menu (refer to Figure 6-67).
The Scrambling settings dialog is opened.

CODICO®
IVG-7000 Series
3. Press the [Add] button. The Add Scrambling dialog is opened. Figure
6-69 shows the Add Scrambling dialog and Table 6-34 show the
parameters and values of the Add Scrambling dialog.
Figure 6-67: Scrambling context menu

User Manual
Page 6-104 (Rev 2.0 / Jan. 2005)
Figure 6-68: Scrambling settings dialog box

CODICO®
IVG-7000 Series
Figure 6-69: Add Scrambling dialog box

User Manual
Page 6-106 (Rev 2.0 / Jan. 2005)
Table 6-34: Add Scrambling dialog parameters
PARAMETER VALUE
Super CAS ID
Should be identical to the super CAS ID parameter, defined in
Table 6-32.
ECM ID Defines the ECM ID Value.
ECM Pid Defines the ECM Pid Value.
Access Criteria A number that stats with 00:00:00: and the licensing product
number. The number is written in hexadecimal notation.
Duration (ms) The Duration between each key word creation.
Private Data Depends on the specific CAS system.
6.11.6. Cross Connecting Pre-Encrypted Programs
EMM in the input transport stream should be cross connected to the output port
to properly cross connect a pre-encrypted program.
To cross connect the EMM from the input transport stream to the output port, do
the following:
1. From the Explorer window, right click the IVG-7000 item. A context menu
is opened. Choose ‘Stream Information’ from the context menu. The
Stream Information wndow is opened.
2. Drag and Drop a transport stream from the input to the port on the
output. The cross connection wizard appears, and is trying to cross
connect the EMM to the output port.
Follow the wizard instruction and define the necessary parameter to
complete the wizard steps and add an EMM to the output port. See Figure
6-70.

CODICO®
IVG-7000 Series
Figure 6-70: Cross connecting an EMM
6.11.7. CA Parameters Display
To display EMM and ECM CA Pid, do the following:
1. From the Explorer window, right click the IVG icon. A context menu is
opened.
2. Choose ‘Stream Information’ from the context menu. The Stream
Information window is opened.
3. To display a service EMM - Select a service from the input tree on the
Stream Information window. To display an Elementary Stream (ES) ECM -
Select an ES from the input tree on the Stream Information window.

User Manual
Page 6-108 (Rev 2.0 / Jan. 2005)
Figure 6-71: ECM parameters Display

CODICO®
IVG-7000 Series
Figure 6-72: EMM parameters Display

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