Use this quick start guide to collect all the information about F5 Application Delivery Fundamentals (101) Certification exam. This study guide provides a list of objectives and resources that will help you prepare for items on the 101 F5 Application Delivery Fundamentals exam. The Sample Questions will help you identify the type and difficulty level of the questions and the Practice Exams will make you familiar with the format and environment of an exam. You should refer this guide carefully before attempting your actual F5 Application Delivery Fundamentals certification exam.
The F5 Application Delivery Fundamentals certification is mainly targeted to those candidates who want to build their career in Fundamental domain. The F5 Certified BIG-IP Administrator exam verifies that the candidate possesses the fundamental knowledge and proven skills in the area of F5 Application Delivery Fundamentals.
F5 Application Delivery Fundamentals Exam Summary:
| Exam Name | F5 Certified BIG-IP Administrator |
| Exam Code | 101 |
| Exam Price | $180 (USD) |
| Duration | 90 mins |
| Number of Questions | 80 |
| Passing Score | 245 / 350 |
| Books / Training | F5 Training Programs |
| Schedule Exam | Pearson VUE |
| Sample Questions | F5 Application Delivery Fundamentals Sample Questions |
| Practice Exam | F5 101 Certification Practice Exam |
F5 101 Exam Syllabus Topics:
| Topic | Details |
|---|---|
Configuration |
|
| Given a set of requirements, configure VLANs |
- Assign a numeric tag to the VLAN, if required - Determine appropriate layer 3 addressing for VLAN - Specify if VLAN is tagged or untagged |
| Given a scenario, determine switch, router, and application connectivity requirements |
- Explain the function and purpose of a router, of a firewall and of a switch - Interpret network diagrams |
| Given a set of requirements, assign IP addresses |
- Interpret address and subnet relationships - Understand public/private, multicast addressing, and broadcast - Explain the function and purpose of NAT and of DHCP - Determine valid address IPv6 |
| State the service that ARP provides |
- Identify a valid MAC address - Define ARP and explain what it does - State the purpose of a default gateway |
| Given a scenario, establish required routing |
- Explain why a route is needed - Explain network hops - Given a destination IP address and current routing table, identify a route to be used |
| Define ADC application objects |
- Define load balancing including intelligent load balancing and server selection - Explain features of an application delivery controller - Explain benefits of an application delivery controller |
Troubleshooting |
|
| Identify application and network errors |
- Identify general meanings of HTTP error codes - Identify possible reasons and methods for connection termination - Identify possible causes for failure to establish connection |
| Given a scenario, verify Layer 2 mapping (ARP) |
- Explain one-to-one mapping of MAC to IP - Given a network diagram or ARP command output, determine if ARP resolution was successful - Given the ARP command output, determine if ARP resolution was successful - Explain the purpose of MAC masquerading |
| Given a scenario, verify traffic is arriving at a destination |
- Explain how to acquire packet captures - View a packet capture and identify source and destination - Interpret statistics to show traffic flow |
| Given a scenario, verify Layer 1 connectivity |
- Given an exhibit of the front ethernet panel, explain why there is an imbalance in link use - Interpret ifconfig ouput (interface bandwidth) - Explain potential L1 failure modes (duplex settings, cable out of specification) |
Maintenance |
|
| Given a scenario, review basic stats to confirm functionality |
- Interpret traffic object statistics - Interpret network configuration statistics |
| Given a scenario, determine device upgrade eligibility |
- Determine when to upgrade software - Determine when to upgrade platform - Determine steps to minimize upgrade downtime |
| Given a scenario, interpret traffic flow |
- Explain application client-server communication - Interpret traffic graphs (Interpret SNMP results) |
| Given a scenario, interpret service status |
- Compare active vs inactive ADC elements - Infer services for given netstat output - Determine whether a service is listening on a given port based on netstat output |
| Given a scenario, interpret system health |
- Generate a Qkview and upload to iHealth - Review logs - Ensure efficacy of maintenance tasks (alert endpoints, verify backups) - Review system vitals (disk space, CPU load, memory, bandwidth) |
Knowledge |
|
| Explain common uses for ICMP |
- Explain the purpose of an IP TTL - Explain the purpose of ICMP echo request/reply - Explain reasons for ICMP unreachable |
| Map functionality to OSI model |
- Identify the layer for a MAC address - Identify the layer for a UDP/TCP port - Identify the layer for an IP address - Identify the layer for applications |
| Explain use of TLS/SSL |
- Explain the purpose of TLS/SSL certificates (self signed vs CA signed) - Explain the rationale for using TLS/SSL |
| Explain the function of a VPN |
- Explain the rationale for using VPN (privacy, encryption, anonymity) - Identify valid uses for VPN |
| Explain high availability (HA) concepts |
- Explain methods of providing HA integrity - Explain methods of providing HA - Explain advantages of HA |
| Explain reasons for support services (DNS, NTP, syslog, SNMP, etc) |
- Explain the purpose of DNS - Given a list of tools, select the appropriate tool to confirm DNS resolution is successful for a host name - Explain what syslog is - Explain the purpose of NTP - Explain SNMP as it pertains to ADC element monitoring |
To ensure success in F5 Application Delivery Fundamentals certification exam, we recommend authorized training course, practice test and hands-on experience to prepare for F5 Application Delivery Fundamentals (101) exam.