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HPE ArubaOS and Comware 5

Building Campus Networks

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This course introduces the currently common HPE switches and their use in modern LANs. Systems with ArubaOS and Comware operating systems are used in the practical exercises. The training enables participants to independently set up a campus network with HPE switches. In addition to the basics of routing and switching, the knowledge required for operation and troubleshooting is also taught. Particular emphasis is placed on practical experience with ArubaOS (AOS) and the Comware command set. Switches based on the Aruba and Comware Command Line Interface (CLI) are configured in special laboratory exercises. The knowledge taught focuses on: switching, VLANs, spanning tree, link aggregation, static and dynamic routing, inter-VLAN routing, OSPF, VRRP and ACLs. In addition, the course offers network virtualization (stacking/bundling) with Virtual Switching Framework (VSF), Distributed Trunking and Intelligent Resilient Framework (IRF), which are examined in depth and also implemented in practice. The key differences between Aruba and Comware switches become clear.

Numerous exercises on the test network put the acquired knowledge into practice.

Course Contents

  • Aruba and Comware product families at a glance
  • Introduction to the two operating systems ArubaOS / Comware 5
  • Basic configurations
  • Virtual LANs (VLANs)
  • Spanning Tree Protocol - Per VLAN Rapid Spanning Tree (RSTP) and Multiple Spanning Tree (MSTP)
  • Protection of the spanning tree
  • Link aggregation with the Link Aggregation Control Protocol (LACP)
  • Virtual Switching Framework (VSF), Distributed Trunking
  • Intelligent Resilient Framework (IRF)
  • Static and dynamic routing
  • Inter-VLAN routing
  • Basics and configuration of OSPF
  • Virtual Router Redundancy Protocol (VRRP)
  • Security measures to protect the switch
  • Working with Access Control Lists (ACL)
  • Basics of Quality of Service
  • Network design concepts

The detailed digital documentation package, consisting of an e-book and PDF, is included in the price of the course.

Premium Course Documents

In addition to the digital documentation package, the exclusive Premium Print Package is also available to you.

  • High-quality color prints of the ExperTeach documentation
  • Exclusive folder in an elegant design
  • Document pouch in backpack shape
  • Elegant LAMY ballpoint pen
  • Practical notepad
Premium Print
The Premium Print Package can be added during the ordering process for € 200,- plus VAT (only for classroom participation).

Request in-house training now

Target Group

This course is primarily aimed at network operators and network planners who are already using HPE switches in their local networks or are responsible for their implementation. The focus is on providing technical background knowledge on the procedures and their use in practice.

Knowledge Prerequisites

Basic knowledge of Ethernet networking is essential and required for successful course participation. You can acquire the necessary basic knowledge with our e-learning modules from the areas of

  • Network fundamentals - technology for beginners
  • TCP/IP (IPv4)

or our course: "TCP/IP - Protocols, Addressing, Routing"

1 Ethernet Protokoll und Grundfunktionen
1.1 Netzwerkstandards
1.1.1 Das OSI-Referenzmodell
1.1.2 IEEE: Standards auf OSI-Ebene 1 und 2
1.1.3 Internet Standards
1.2 Komponenten eines Netzwerks
1.2.1 Komponenten der OSI-Schicht 1
1.2.2 Komponenten und Aufgaben – OSI-Schicht 2
1.2.3 Komponenten und Aufgaben – OSI-Schicht 3
1.3 Applikationen im Netzwerk
1.4 Anforderungen an ein Netzwerk
   
2 Ethernet, Grundfunktionen und CSMA/CD
2.1 Ethernet Frame-Formate und -Typen
2.1.1 MAC-Adressen
2.2 Jumbo Frames
2.3 MAC Control Frame
2.4 Zugriffsverfahren - CSMA/ CD
2.4.1 Full Duplex zur Performance- Steigerung
2.4.2 Hubs
2.4.3 Switches - Grundfunktionen
2.4.4 Die MAC-Address-Tabelle
2.4.5 Switching Modi – Die Frame-Übertragung
2.4.6 Port Security
2.4.7 Layer-2-Security mit IEEE 802.1X
2.5 Einsatzgebiete von Ethernet
2.5.1 Ethernet Standards
2.5.2 Entwicklungen im Ethernet
2.5.3 Gängige Ethernet-Varianten
2.6 Das Auto-Negotiation-Verfahren
2.7 Auto Sensing (Auto MDI-X)
2.8 Troubleshooting in Ethernet-Netzwerken
2.9 Konfiguration Aruba Switches: Interface
2.9.1 Die MAC Address Table (Aruba)
2.9.2 Port Security (Aruba)
2.10 Konfiguration Comware Switches: Interface
2.10.1 Port Security (Cw)
   
3 Virtuelle LANs
3.1 Virtuelle LANs
3.1.1 Broadcast-Domänen und virtuelle LANs
3.1.2 Switchübergreifende VLANs
3.2 Q-in-Q
3.2.1 Q-in-Q (Tag Stacking)
3.3 Typische Fehler bei der VLAN-Konfiguration
3.3.1 GVRP und GARP
3.4 Konfiguration Aruba: VLANs
3.4.1 Konfiguration Aruba: Untagged Ports
3.4.2 Konfiguration Aruba: Tagged Ports
3.4.3 Das Secure Management VLAN (Aruba)
3.5 Konfiguration Comware: VLANs, Access Ports
3.5.1 Konfiguration Comware: Trunk Ports
3.5.2 Begriffsentwirrung Native VLAN (CW)
3.5.3 Comware Voice-Ports sind Hybrid Ports
3.6 Arbeitsweise des GVRP auf Aruba Switches
   
4 Redundanz und Lastverteilung auf Layer 2
4.1 Spanning Tree Protocol
4.1.1 Funktionsweise des STP / Rapid STP
4.1.2 Die Bridge Protocol Data Unit (BPDU)
4.1.3 Der Spanning Tree Algorithmus
4.1.4 Per VLAN - Rapid Spanning Tree (Aruba
4.2 Multiple Spanning Tree Protocol
4.2.1 Multiple Spanning-Tree Protocol 802.1s
4.3 Konfiguration Aruba: Spanning-Tree-Protokoll
4.3.1 BPDU Protection und Filtering (Aruba)
4.3.2 Loop Protection
4.3.3 Konfiguration Aruba: MSTP
4.4 Konfiguration Comware: MSTP
   
5 Link Aggregation, IRF und Distributed Trunking
5.1 Link Aggregation, IRF und Distributed Trunking
5.2 Link Aggregation mit LACP
5.2.1 Konfiguration Aruba: Link Aggregation
5.2.2 Konfiguration Comware: Link Aggregation
5.3 IRF - Intelligent Resilient Framework
5.3.1 IRF - Topology
5.3.2 IRF - Konfigurationsdateien
5.3.3 IRF - Master Election und Member-ID
5.3.4 IRF - Ports
5.3.5 IRF - Konfigurationschritte
5.3.6 Kontrolle der IRF-Konfiguration
5.4 Distributed Trunking (DT)
5.4.1 Distrib. Trunking - Topologie und Bausteine
5.4.2 Distrib. Trunking - Konfigurationsschritte
5.4.3 Kontrolle der Distrib. Trunking-Konfiguration
5.5 VSF - Topologie und Bausteine
5.5.1 VSF Stacking - Konfigurationsschritte
5.5.2 AOS Kontrolle der VSF Stack-Konfiguration
   
6 Inter VLAN Routing
6.1 Inter VLAN Routing - IVR
6.2 Redundanz und Lastverteilung auf Layer 3
6.2.1 Virtual Router Redundancy Protocol (VRRP)
6.3 Inter-VLAN Routing auf HP Aruba Switches
6.3.1 Die Konfiguration von XRRP (PV)
6.3.2 VRRP-Konfiguration (PV)
6.3.3 VRRP-Konfiguration - Comware
   
7 Statisches und Dynamisches Routing
7.1 Routing - Layer 3 Forwarding
7.2 IP Routing
7.2.1 Erstellung des Routing Tables - 1. Admin. Dist.
7.2.2 Erstellung des Routing Tables - 2. Metric
7.2.3 Die Routing-Tabelle
7.3 Der Weg durch ein IP-Netz
7.3.1 Was macht der Router?
7.3.2 Gesucht: Der Longest-Match
7.3.3 Klassifizierung von Routing-Protokollen
7.3.4 Statische Routing-Einträge
7.3.5 Statische Routing-Einträge - Comware
7.4 Dynamisches Routing mit OSPF
7.4.1 OSPF: Die Pakettypen
7.4.2 Der Austausch von Hellos
7.4.3 OSPF-Graphen
7.4.4 Das DR/BDR-Konzept
7.4.5 Synchronisation und Reliable Flooding
7.4.6 Fallbeispiel: 1-Area-Szenario
7.4.7 Die Area-Philosophie
7.4.8 Interpretation der OSPF-Datenbank
7.4.9 Add-On Konfigurationen
7.4.10 Virtual Links
7.4.11 Stub Areas
7.4.12 Not-so-Stubby Area (NSSA)
7.5 Konfiguration von OSPF (Aruba)
7.5.1 Troubleshooting OSPF auf Aruba Switches
7.5.2 Die OSPF-Authentisierung zwischen Switches
7.5.3 Anlegen einer OSPF-Area und eines Area-Range
7.5.4 Anlegen von Virtual Links
7.5.5 Redistribution
7.6 OSPF-Konfiguration Comware - Single Area
7.6.1 Die OSPF-Neighbor Table
7.6.2 OSPF Metrik
7.6.3 OSPFv2 Authentisierung
7.7 Distance-Vector – RIP
7.7.1 Konfiguration Aruba: RIP
   
8 Optionale Features der Catalyst Switches
8.1 Access Control Listen
8.1.1 Funktion einer Standard ACL und ACE-Mask
   
9 Quality of Service Aruba und IP Traffic Filter
9.1 Anforderungen von VoIP
9.1.1 Laufzeit (Delay)
9.1.2 Jitter
9.1.3 Paketverluste
9.1.4 Analyse der Laufzeiten
9.2 Was ist Quality of Service?
9.3 Die Priorisierung nach IEEE802.1p
9.4 IEEE 802.1Q und 802.1p
9.5 DiffServ Field und DSCP
9.6 Classes of Service und Per Hop Behaviors
9.6.1 Expedited Forwarding
9.6.2 Assured Forwarding
9.7 Queueing auf dem Aruba Switches
9.7.1 Queueing auf Aruba Switches
9.8 QoS-Konfiguration auf den Aruba Switches
   
10 Management in geswitchten Netzen
10.1 Netzwerkadministration und -Dokumentation
10.1.1 Physikalische und logische Struktur
10.1.2 Managementzugriff
10.1.3 Baselining
10.2 Monitoring
10.2.1 Ausnutzung der Statistikfunktionen
10.2.2 Analysatoren im geswitchten Netzwerk
10.3 Troubleshooting
10.3.1 Typische Fehler
10.3.2 Systematische Netzwerkanalyse
   
11 Netzwerk-Design mit VLANs
11.1 Typisches Design im Access-Bereich
11.2 Typisches Design im Backbone-Bereich
11.3 Typisches Design in der Server Farm
11.4 Probleme mit flachen Netzen
11.5 Checkliste für die praktische Implementierung
   
12 Konfiguration der Aruba Switches
12.1 Die Management Interfaces
12.1.1 Das File Management
12.1.2 Das System-Management
12.1.3 Die Systemzeit
12.1.4 Der Zugriff über SSH
12.1.5 Die SNMP-Konfiguration
12.1.6 Der Event Log
12.1.7 Das Interface Monitoring Feature
12.2 Switch Meshing
12.3 Weitere IP-Unicast Features
   
13 Die Grundkonfiguration der Comware Switches
13.1 Konfigurationsvarianten für Comware Switches
13.1.1 Der Konsolen-Port
13.1.2 HP Intelligent Management Center IMC
13.2 Die Hierarchie im CLI
13.3 Grundbefehle
13.4 Authentifizierungsmodi
13.5 Das System Upgrade
13.6 Upgrade mit TFTP
13.7 Das Boot Menü

Classroom training

Do you prefer the classic training method? A course in one of our Training Centers, with a competent trainer and the direct exchange between all course participants? Then you should book one of our classroom training dates!

Hybrid training

Hybrid training means that online participants can additionally attend a classroom course. The dynamics of a real seminar are maintained, and the online participants are able to benefit from that. Online participants of a hybrid course use a collaboration platform, such as WebEx Training Center or Saba Meeting. To do this, a PC with browser and Internet access is required, as well as a headset and ideally a Web cam. In the seminar room, we use specially developed and customized audio- and video-technologies. This makes sure that the communication between all persons involved works in a convenient and fault-free way.

Online training

You wish to attend a course in online mode? We offer you online course dates for this course topic. To attend these seminars, you need to have a PC with Internet access (minimum data rate 1Mbps), a headset when working via VoIP and optionally a camera. For further information and technical recommendations, please refer to.

Tailor-made courses

You need a special course for your team? In addition to our standard offer, we will also support you in creating your customized courses, which precisely meet your individual demands. We will be glad to consult you and create an individual offer for you.
Request in-house training now
PDF SymbolYou can find the complete description of this course with dates and prices ready for download at as PDF.

This course introduces the currently common HPE switches and their use in modern LANs. Systems with ArubaOS and Comware operating systems are used in the practical exercises. The training enables participants to independently set up a campus network with HPE switches. In addition to the basics of routing and switching, the knowledge required for operation and troubleshooting is also taught. Particular emphasis is placed on practical experience with ArubaOS (AOS) and the Comware command set. Switches based on the Aruba and Comware Command Line Interface (CLI) are configured in special laboratory exercises. The knowledge taught focuses on: switching, VLANs, spanning tree, link aggregation, static and dynamic routing, inter-VLAN routing, OSPF, VRRP and ACLs. In addition, the course offers network virtualization (stacking/bundling) with Virtual Switching Framework (VSF), Distributed Trunking and Intelligent Resilient Framework (IRF), which are examined in depth and also implemented in practice. The key differences between Aruba and Comware switches become clear.

Numerous exercises on the test network put the acquired knowledge into practice.

Course Contents

  • Aruba and Comware product families at a glance
  • Introduction to the two operating systems ArubaOS / Comware 5
  • Basic configurations
  • Virtual LANs (VLANs)
  • Spanning Tree Protocol - Per VLAN Rapid Spanning Tree (RSTP) and Multiple Spanning Tree (MSTP)
  • Protection of the spanning tree
  • Link aggregation with the Link Aggregation Control Protocol (LACP)
  • Virtual Switching Framework (VSF), Distributed Trunking
  • Intelligent Resilient Framework (IRF)
  • Static and dynamic routing
  • Inter-VLAN routing
  • Basics and configuration of OSPF
  • Virtual Router Redundancy Protocol (VRRP)
  • Security measures to protect the switch
  • Working with Access Control Lists (ACL)
  • Basics of Quality of Service
  • Network design concepts

The detailed digital documentation package, consisting of an e-book and PDF, is included in the price of the course.

Premium Course Documents

In addition to the digital documentation package, the exclusive Premium Print Package is also available to you.

  • High-quality color prints of the ExperTeach documentation
  • Exclusive folder in an elegant design
  • Document pouch in backpack shape
  • Elegant LAMY ballpoint pen
  • Practical notepad
Premium Print
The Premium Print Package can be added during the ordering process for € 200,- plus VAT (only for classroom participation).

Request in-house training now

Target Group

This course is primarily aimed at network operators and network planners who are already using HPE switches in their local networks or are responsible for their implementation. The focus is on providing technical background knowledge on the procedures and their use in practice.

Knowledge Prerequisites

Basic knowledge of Ethernet networking is essential and required for successful course participation. You can acquire the necessary basic knowledge with our e-learning modules from the areas of

  • Network fundamentals - technology for beginners
  • TCP/IP (IPv4)

or our course: "TCP/IP - Protocols, Addressing, Routing"

1 Ethernet Protokoll und Grundfunktionen
1.1 Netzwerkstandards
1.1.1 Das OSI-Referenzmodell
1.1.2 IEEE: Standards auf OSI-Ebene 1 und 2
1.1.3 Internet Standards
1.2 Komponenten eines Netzwerks
1.2.1 Komponenten der OSI-Schicht 1
1.2.2 Komponenten und Aufgaben – OSI-Schicht 2
1.2.3 Komponenten und Aufgaben – OSI-Schicht 3
1.3 Applikationen im Netzwerk
1.4 Anforderungen an ein Netzwerk
   
2 Ethernet, Grundfunktionen und CSMA/CD
2.1 Ethernet Frame-Formate und -Typen
2.1.1 MAC-Adressen
2.2 Jumbo Frames
2.3 MAC Control Frame
2.4 Zugriffsverfahren - CSMA/ CD
2.4.1 Full Duplex zur Performance- Steigerung
2.4.2 Hubs
2.4.3 Switches - Grundfunktionen
2.4.4 Die MAC-Address-Tabelle
2.4.5 Switching Modi – Die Frame-Übertragung
2.4.6 Port Security
2.4.7 Layer-2-Security mit IEEE 802.1X
2.5 Einsatzgebiete von Ethernet
2.5.1 Ethernet Standards
2.5.2 Entwicklungen im Ethernet
2.5.3 Gängige Ethernet-Varianten
2.6 Das Auto-Negotiation-Verfahren
2.7 Auto Sensing (Auto MDI-X)
2.8 Troubleshooting in Ethernet-Netzwerken
2.9 Konfiguration Aruba Switches: Interface
2.9.1 Die MAC Address Table (Aruba)
2.9.2 Port Security (Aruba)
2.10 Konfiguration Comware Switches: Interface
2.10.1 Port Security (Cw)
   
3 Virtuelle LANs
3.1 Virtuelle LANs
3.1.1 Broadcast-Domänen und virtuelle LANs
3.1.2 Switchübergreifende VLANs
3.2 Q-in-Q
3.2.1 Q-in-Q (Tag Stacking)
3.3 Typische Fehler bei der VLAN-Konfiguration
3.3.1 GVRP und GARP
3.4 Konfiguration Aruba: VLANs
3.4.1 Konfiguration Aruba: Untagged Ports
3.4.2 Konfiguration Aruba: Tagged Ports
3.4.3 Das Secure Management VLAN (Aruba)
3.5 Konfiguration Comware: VLANs, Access Ports
3.5.1 Konfiguration Comware: Trunk Ports
3.5.2 Begriffsentwirrung Native VLAN (CW)
3.5.3 Comware Voice-Ports sind Hybrid Ports
3.6 Arbeitsweise des GVRP auf Aruba Switches
   
4 Redundanz und Lastverteilung auf Layer 2
4.1 Spanning Tree Protocol
4.1.1 Funktionsweise des STP / Rapid STP
4.1.2 Die Bridge Protocol Data Unit (BPDU)
4.1.3 Der Spanning Tree Algorithmus
4.1.4 Per VLAN - Rapid Spanning Tree (Aruba
4.2 Multiple Spanning Tree Protocol
4.2.1 Multiple Spanning-Tree Protocol 802.1s
4.3 Konfiguration Aruba: Spanning-Tree-Protokoll
4.3.1 BPDU Protection und Filtering (Aruba)
4.3.2 Loop Protection
4.3.3 Konfiguration Aruba: MSTP
4.4 Konfiguration Comware: MSTP
   
5 Link Aggregation, IRF und Distributed Trunking
5.1 Link Aggregation, IRF und Distributed Trunking
5.2 Link Aggregation mit LACP
5.2.1 Konfiguration Aruba: Link Aggregation
5.2.2 Konfiguration Comware: Link Aggregation
5.3 IRF - Intelligent Resilient Framework
5.3.1 IRF - Topology
5.3.2 IRF - Konfigurationsdateien
5.3.3 IRF - Master Election und Member-ID
5.3.4 IRF - Ports
5.3.5 IRF - Konfigurationschritte
5.3.6 Kontrolle der IRF-Konfiguration
5.4 Distributed Trunking (DT)
5.4.1 Distrib. Trunking - Topologie und Bausteine
5.4.2 Distrib. Trunking - Konfigurationsschritte
5.4.3 Kontrolle der Distrib. Trunking-Konfiguration
5.5 VSF - Topologie und Bausteine
5.5.1 VSF Stacking - Konfigurationsschritte
5.5.2 AOS Kontrolle der VSF Stack-Konfiguration
   
6 Inter VLAN Routing
6.1 Inter VLAN Routing - IVR
6.2 Redundanz und Lastverteilung auf Layer 3
6.2.1 Virtual Router Redundancy Protocol (VRRP)
6.3 Inter-VLAN Routing auf HP Aruba Switches
6.3.1 Die Konfiguration von XRRP (PV)
6.3.2 VRRP-Konfiguration (PV)
6.3.3 VRRP-Konfiguration - Comware
   
7 Statisches und Dynamisches Routing
7.1 Routing - Layer 3 Forwarding
7.2 IP Routing
7.2.1 Erstellung des Routing Tables - 1. Admin. Dist.
7.2.2 Erstellung des Routing Tables - 2. Metric
7.2.3 Die Routing-Tabelle
7.3 Der Weg durch ein IP-Netz
7.3.1 Was macht der Router?
7.3.2 Gesucht: Der Longest-Match
7.3.3 Klassifizierung von Routing-Protokollen
7.3.4 Statische Routing-Einträge
7.3.5 Statische Routing-Einträge - Comware
7.4 Dynamisches Routing mit OSPF
7.4.1 OSPF: Die Pakettypen
7.4.2 Der Austausch von Hellos
7.4.3 OSPF-Graphen
7.4.4 Das DR/BDR-Konzept
7.4.5 Synchronisation und Reliable Flooding
7.4.6 Fallbeispiel: 1-Area-Szenario
7.4.7 Die Area-Philosophie
7.4.8 Interpretation der OSPF-Datenbank
7.4.9 Add-On Konfigurationen
7.4.10 Virtual Links
7.4.11 Stub Areas
7.4.12 Not-so-Stubby Area (NSSA)
7.5 Konfiguration von OSPF (Aruba)
7.5.1 Troubleshooting OSPF auf Aruba Switches
7.5.2 Die OSPF-Authentisierung zwischen Switches
7.5.3 Anlegen einer OSPF-Area und eines Area-Range
7.5.4 Anlegen von Virtual Links
7.5.5 Redistribution
7.6 OSPF-Konfiguration Comware - Single Area
7.6.1 Die OSPF-Neighbor Table
7.6.2 OSPF Metrik
7.6.3 OSPFv2 Authentisierung
7.7 Distance-Vector – RIP
7.7.1 Konfiguration Aruba: RIP
   
8 Optionale Features der Catalyst Switches
8.1 Access Control Listen
8.1.1 Funktion einer Standard ACL und ACE-Mask
   
9 Quality of Service Aruba und IP Traffic Filter
9.1 Anforderungen von VoIP
9.1.1 Laufzeit (Delay)
9.1.2 Jitter
9.1.3 Paketverluste
9.1.4 Analyse der Laufzeiten
9.2 Was ist Quality of Service?
9.3 Die Priorisierung nach IEEE802.1p
9.4 IEEE 802.1Q und 802.1p
9.5 DiffServ Field und DSCP
9.6 Classes of Service und Per Hop Behaviors
9.6.1 Expedited Forwarding
9.6.2 Assured Forwarding
9.7 Queueing auf dem Aruba Switches
9.7.1 Queueing auf Aruba Switches
9.8 QoS-Konfiguration auf den Aruba Switches
   
10 Management in geswitchten Netzen
10.1 Netzwerkadministration und -Dokumentation
10.1.1 Physikalische und logische Struktur
10.1.2 Managementzugriff
10.1.3 Baselining
10.2 Monitoring
10.2.1 Ausnutzung der Statistikfunktionen
10.2.2 Analysatoren im geswitchten Netzwerk
10.3 Troubleshooting
10.3.1 Typische Fehler
10.3.2 Systematische Netzwerkanalyse
   
11 Netzwerk-Design mit VLANs
11.1 Typisches Design im Access-Bereich
11.2 Typisches Design im Backbone-Bereich
11.3 Typisches Design in der Server Farm
11.4 Probleme mit flachen Netzen
11.5 Checkliste für die praktische Implementierung
   
12 Konfiguration der Aruba Switches
12.1 Die Management Interfaces
12.1.1 Das File Management
12.1.2 Das System-Management
12.1.3 Die Systemzeit
12.1.4 Der Zugriff über SSH
12.1.5 Die SNMP-Konfiguration
12.1.6 Der Event Log
12.1.7 Das Interface Monitoring Feature
12.2 Switch Meshing
12.3 Weitere IP-Unicast Features
   
13 Die Grundkonfiguration der Comware Switches
13.1 Konfigurationsvarianten für Comware Switches
13.1.1 Der Konsolen-Port
13.1.2 HP Intelligent Management Center IMC
13.2 Die Hierarchie im CLI
13.3 Grundbefehle
13.4 Authentifizierungsmodi
13.5 Das System Upgrade
13.6 Upgrade mit TFTP
13.7 Das Boot Menü

Classroom training

Do you prefer the classic training method? A course in one of our Training Centers, with a competent trainer and the direct exchange between all course participants? Then you should book one of our classroom training dates!

Hybrid training

Hybrid training means that online participants can additionally attend a classroom course. The dynamics of a real seminar are maintained, and the online participants are able to benefit from that. Online participants of a hybrid course use a collaboration platform, such as WebEx Training Center or Saba Meeting. To do this, a PC with browser and Internet access is required, as well as a headset and ideally a Web cam. In the seminar room, we use specially developed and customized audio- and video-technologies. This makes sure that the communication between all persons involved works in a convenient and fault-free way.

Online training

You wish to attend a course in online mode? We offer you online course dates for this course topic. To attend these seminars, you need to have a PC with Internet access (minimum data rate 1Mbps), a headset when working via VoIP and optionally a camera. For further information and technical recommendations, please refer to.

Tailor-made courses

You need a special course for your team? In addition to our standard offer, we will also support you in creating your customized courses, which precisely meet your individual demands. We will be glad to consult you and create an individual offer for you.
Request in-house training now

PDF SymbolYou can find the complete description of this course with dates and prices ready for download at as PDF.
ExperTeach Identifier: HPPC
Duration & Prices
Prices excl. V.A.T.
Classes in Germany
5 days
€ 3,195
Online training
5 days
€ 3,195
+ Premium Print Package (Optional)
€ 200
Date City
20251027 2 3 10/27/-10/31/25 Hybrid Training Symbol Deutsche Flagge Frankfurt
20251027 2 3 10/27/-10/31/25 Hybrid Training Symbol Deutsche Flagge Live Online
20260420 2 3 04/20/-04/24/26 Hybrid Training Symbol Deutsche Flagge Frankfurt
20260420 2 3 04/20/-04/24/26 Hybrid Training Symbol Deutsche Flagge Live Online
No suitable date?
Please just ask us for your preferred date!

Hybrid Training Symbol Hybrid Training

Deutsche Flagge Trainer language German