A great way to start the H3C Certified Senior Engineer for Routing & Switching Plus (H3CSE-RS+) (Advanced Routing and Switching Technology) preparation is to begin by properly appreciating the role that syllabus and study guide play in the H3C GB0-382 certification exam. This study guide is an instrument to get you on the same page with H3C and understand the nature of the H3C Advanced Routing and Switching Technology exam.
Our team of experts has composed this H3C GB0-382 exam preparation guide to provide the overview about H3C Advanced Routing and Switching Technology 2 exam, study material, sample questions, practice exam and ways to interpret the exam objectives to help you assess your readiness for the H3C Advanced Routing and Switching Technology exam by identifying prerequisite areas of knowledge. We recommend you to refer the simulation questions and practice test listed in this guide to determine what type of questions will be asked and the level of difficulty that could be tested in the H3C Advanced Routing and Switching Technology certification exam.
H3C GB0-382 Exam Overview:
|
Exam Name
|
Advanced Routing and Switching Technology 2 |
| Exam Number | GB0-382 Advanced Routing and Switching Technology |
| Exam Price | $135 USD |
| Duration | 60 minutes |
| Number of Questions | 50 |
| Passing Score | 600/1000 |
| Recommended Training | Advanced Routing & Switching Technology 2 |
| Exam Registration | PROMETRIC |
| Sample Questions | H3C GB0-382 Sample Questions |
| Practice Exam | H3C Certified Senior Engineer for Routing & Switching Plus (H3CSE-RS+) Practice Test |
H3C GB0-382 Exam Topics:
| Section | Weight |
|---|---|
| Large-Scale Network Routing Technologies Overview |
- Enterprise network model: IToIP, SOA-based network architecture, hierarchical network model, and H3C enterprise network architecture. - Overview of large-scale network routing technology: L3 routing network models, reliability requirements, scalability requirements, manageability requirements, rapid network recovery requirements, and related technologies of the large-scale routing network. |
| Routing Basics |
- Route control and forwarding: control plane and forwarding plane, and generation and function of the routing table, FIB table, and fast forwarding table. - Routing protocol basics: classification of routing protocols, application and configurations of static routes, and classification and comparison of dynamic routing protocols; principles and differences among the distance-vector, link-state, and path-vector routing protocols, and route selection principles. - Load sharing and backup of route: principles of load balancing and backup of route, configuring floating static routes to implement route backup, implementation of load balancing and backup of dynamic route, and configuring dynamic route backup on dial-up links. - Route aggregation and CIDR: functions of route aggregation, configuring static routes to achieve aggregation, principles and configurations of automatic aggregation in RIP, manual aggregation configuration in RIPv2, and loop problems caused by aggregation and solutions; CIDR concepts and advantages. |
| OSPF |
- Basic principles of OSPF: overview of OSPF and SPF algorithm; OSPF protocol hierarchy, area, and network type; principles of router ID election, establishment process of neighbors and adjacencies, OSPF protocol state machine, and synchronization and refresh of LSDB. - Basic OSPF configurations: basic OSPF function configurations, router ID configurations, and single- and multi-area configuration instances; commands used to view OSPF neighbor information and routing information. - OSPF optimization: OSPF network type configurations, DR election priority configurations, and OSPF neighbor configurations; configurations of OSPF link cost value and packet timer; configurations of OSPF default route introduction. - Configurations of advanced OSPF features: OSPF area division, and meaning and configurations of virtual connections; LSA types, functions and propagation scope of LSAs; route selection principles in OSPF, and problems and solutions caused by the introduction of external routes; special areas in OSPF and related configurations, OSPF route aggregation, and OSPF authentication configurations; several methods and related configurations for filtering OSPF routes. |
| IS-IS |
- Basic concepts of IS-IS: origin and development of IS-IS, basic concepts, and terms; IS-IS hierarchical network, router roles, and similarities and differences between IS-IS and OSPF. - Principles of the IS-IS protocol: overview of OSI address, NSAP address format, NET address in IS-IS and generation methods; IS-IS packet types, concepts and functions of CLV in packets; IS-IS network types, establishment process of related neighbors and adjacencies, concepts and functions of DIS, and synchronization of LSDBs; topology calculation in IS-IS and IP route generation. - IS-IS configurations: basic IS-IS function configurations, router types and adjacency configurations, and link cost configurations; IS-IS single- and multi-area configuration instances, IS-IS verification and aggregation configurations, and route leaking configurations; commands used to view basic IS-IS information, neighbor information, and routing information. |
| IGP Route Control |
- Route filtering: functions and methods of route filtering, and classification and application scenarios of route filtering tools; configuring silent interfaces to filter routes; address prefix list matching process and configurations; functions of filter-policy, and configuring filter-policy to filter IGP routes. - Routing policy: functions of the routing policy; Route-policy composition, principles, and matching process; configuring route-policy to control IGP routes. - Route import: purposes and application scenarios of route import; route import planning, and application scenarios of unidirectional route import and bidirectional route import; problems caused by route import and solutions; configurations of route import in IGP. - Policy-based Routing (PBR): purposes and application scenarios of PBR; basic PBR configurations and query methods. |
| BGP |
- Basic principles of BGP: BGP origin, definition, and terms; BGP synchronization, messages and state machines, types and characteristics of BGP route attributes, BGP route processing flow, preferred route selection principles, and route advertisement policies. - Basic BGP configuration: configurations of basic BGP functions, optimizations of BGP connections, BGP synchronization configurations, and basic BGP configuration instances and maintenance. - Controlling BGP routes: configuring basic BGP attributes to control BGP routes, and configurations and applications of preferred-value, LOCAL_PREF, MED, and next-hop-local; configuring the route-policy and AS path filtering list to control BGP routes. - Configurations of BGP enhancement: concepts and problems of large-scale BGP networks; configuring BGP peer groups, BGP communities, BGP aggregation, BGP reflection and association, and BGP attenuation to solve large-scale BGP network problems; concepts and related applications of the multi-egress BGP network. - BGP routing configurations: basic BGP configuration and cases of BGP route control using attributes. |
| IPv6 Technologies |
- IPv6 neighbor discovery: introduction to Neighbor Discovery Protocol, principles and processes of IPv6 address resolution, principles and processes of auto-configuration of IPv6 stateless addresses, and Neighbor Discovery Protocol configurations. - IPv6 routing protocols: classification of IPv6 routing protocols; working principles and basic configurations of the OSPFv3, IPv6 IS-IS and BGP4+ protocol. - IPv6 transition technology: classification and functions of the IPv6 transition technology; types of IPv6 tunnel technologies, principles and configurations of 6to4 tunnels, and principles and configurations of ISATAP tunnels; principles, application scenarios, and configurations of the NAT-PT technology. - SRv6 technology: protocol principles and basic configurations. |
H3C Advanced Routing and Switching Technology Exam Description:
H3C Certified Senior Engineer for Routing & Switching Plus (H3CSE-RS+) certificate demonstrates mastery of the full range of theoretical knowledge and operational skills required to deploy campus networks, including routing, switching, multicast, VPN, QoS, and basic security features, and competence in the construction and management of large- and medium-sized complex networks.