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F5 101 Exam Topics, Blueprint and Syllabus

Application Delivery Fundamentals

Last Update May 2, 2024
Total Questions : 240

Our F5 Networks 101 exam questions and answers cover all the topics of the latest Application Delivery Fundamentals exam, See the topics listed below. We also provide F5 101 exam dumps with accurate exam content to help you prepare for the exam quickly and easily. Additionally, we offer a range of F5 101 resources to help you understand the topics covered in the exam, such as F5 Networks video tutorials, 101 study guides, and 101 practice exams. With these resources, you can develop a better understanding of the topics covered in the exam and be better prepared for success.

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F5 101 Exam Overview :

Exam Name Application Delivery Fundamentals
Exam Code 101
Actual Exam Duration The duration of the F5 101 exam is 120 minutes.
Expected no. of Questions in Actual Exam 90
What exam is all about F5 101 is an exam that tests the knowledge and skills of candidates in the area of application delivery fundamentals. The exam covers topics such as networking concepts, application delivery fundamentals, security, and troubleshooting. It is designed for individuals who are interested in pursuing a career in application delivery or who want to enhance their skills in this area. The exam is also suitable for IT professionals who work with F5 products and solutions. Passing the F5 101 exam is a prerequisite for obtaining the F5 Certified BIG-IP Administrator certification.
Passing Score required The passing score required in the F5 101 exam is 69%.
Competency Level required Based on the previous exam requirements, the competency level required for the F5 101 exam is typically entry-level. The exam is designed to test the candidate's basic knowledge and understanding of the F5 BIG-IP platform, including its features, functions, and basic configuration. Candidates are expected to have a basic understanding of networking concepts, protocols, and technologies. It is recommended that candidates have some experience working with F5 BIG-IP or similar networking technologies before taking the exam.
Questions Format The F5 101 exam consists of multiple-choice questions.
Delivery of Exam The F5 101 exam is an online proctored exam delivered through Pearson VUE.
Language offered The F5 101 exam is offered in English language only.
Cost of exam Please visit the official F5 website or contact their customer support for the latest pricing information.
Target Audience The target audience for F5 101 includes IT professionals, network administrators, system engineers, security professionals, and anyone interested in learning about application delivery and load balancing. This course is designed for individuals who want to gain knowledge and skills in the fundamentals of application delivery networking. It is also suitable for those who are preparing for the F5 Certified BIG-IP Administrator (F5-CA) certification exam.
Average Salary in Market The average salary for a certified F5 Networks professional ranges from $70,000 to $140,000 per year, depending on the job title and experience level. It's important to note that salaries can vary based on location, industry, and other factors.
Testing Provider You can visit the F5 website or contact their customer support for more information on how to take the exam.
Recommended Experience I can provide you with the recommended experience for the F5 101 exam. The F5 101 exam is an entry-level certification exam that tests your knowledge of basic networking concepts, protocols, and technologies. It is recommended that you have at least six months of experience in networking, including TCP/IP, DNS, HTTP, and SSL/TLS. Additionally, it is recommended that you have experience with F5 products, including BIG-IP Local Traffic Manager (LTM) and BIG-IP DNS. It is also recommended that you have a basic understanding of Linux operating systems and command-line interfaces. Familiarity with programming languages such as Python and JavaScript can also be helpful. Overall, the recommended experience for the F5 101 exam includes a solid foundation in networking concepts and technologies, as well as some experience with F5 products and related technologies.
Prerequisite According to F5 Networks, the prerequisites for the F5 101 exam are: 1. Basic understanding of networking concepts and protocols 2. Familiarity with TCP/IP networking 3. Basic knowledge of Linux commands and administration 4. Basic understanding of HTTP and HTTPS protocols 5. Familiarity with web application architecture and deployment It is recommended that candidates have at least six months of experience working with F5 products before taking the exam.
Retirement (If Applicable) F5 Networks regularly updates its certification program, and it is recommended to check their website or contact their support team for the latest information on exam retirements and updates.
Certification Track (RoadMap): The F5 101 exam is the entry-level certification exam for the F5 Certified BIG-IP Administrator certification. The certification track/roadmap for the F5 101 exam includes the following steps: 1. F5 Certified BIG-IP Administrator (F5-CA) - This is the entry-level certification that requires passing the F5 101 exam. 2. F5 Certified Technology Specialist (F5-CTS) - This certification requires passing one or more of the following exams: 201, 301a, 301b, 302, 303, 304, 305, 306, 307, 308, 309, 401, 402, 403, 404, 405, 406, 407, 408, 409, 501, 502, 503, 504, 505, 506, 507, 508, 509. 3. F5 Certified Solution Expert (F5-CSE) - This certification requires passing one or more of the following exams: 601, 602, 603, 604, 605, 606, 607, 701, 702, 801, 802, 803, 804, 805, 806, 807, 901, 902, 903, 904, 905, 906, 907, 908, 909. 4. F5 Certified Solution Specialist (F5-CSS) - This certification requires passing one or more of the following exams: 101, 201, 301a, 301b, 302, 303, 304, 305, 306, 307, 308, 309, 401, 402, 403, 404, 405, 406, 407, 408, 409, 501, 502, 503, 504, 505, 506, 507, 508, 509, 601, 602, 603, 604, 605, 606, 607, 701, 702, 801, 802, 803, 804, 805, 806, 807, 901, 902, 903, 904, 905, 906, 907, 908, 909. 5. F5 Certified Solution Expert (F5-CSE) - This certification requires passing one or more of the following exams: 601, 602, 603, 604, 605, 606, 607, 701, 702, 801, 802, 803, 804, 805, 806, 807, 901, 902, 903, 904, 905, 906, 907, 908, 909. 6. F5 Certified Instructor (F5-CI) - This certification requires passing the F5-CI exam and meeting other requirements set by F5. Overall, the F5 certification track/roadmap is designed to help IT professionals gain expertise in F5 technologies and demonstrate their skills and knowledge to potential employers.
Official Information https://www.f5.com/pdf/certification/exams/blueprint-app-delivery-fundamentals-exam.pdf
See Expected Questions F5 101 Expected Questions in Actual Exam
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F5 Networks 101 Exam Topics :

Section Objectives
OSI
  • Explain, compare, and contrast the OSI layers
    • Describe the function of each OSI layer
    • Differentiate between the OSI layers
    • Describe the purpose of the various address types at different OSI layers
  • Explain protocols and technologies specific to the data link layer
    • Explain the purpose of a switch’s forwarding database
    • Explain the purpose and functionality of ARP
    • Explain the purpose and functionality of MAC addresses
    • Explain the purpose and functionality of a broadcast domain
    • Explain the purpose and functionality of VLANs
    • Explain the purpose and functionality of link aggregation
  • Explain protocols and apply technologies specific to the network layer
    • Explain the purpose and functionality of IP addressing and subnetting
    • Given an IP address and net mask, determine the network IP and the broadcast IP
    • Given a routing table and a destination IP address, identify which routing table entry the destination IP address will match
    • Explain the purpose and functionality of Routing protocols
    • Explain the purpose of fragmentation
    • Given a fragment, identify what information is needed for reassembly
    • Explain the purpose of TTL functionality
    • Given a packet traversing a topology, document the source/destination IP address/MAC address changes at each hop
  • Explain the features and functionality of protocols and technologies specific to the transport layer
    • Compare/Contrast purpose and functionality of MTU and MSS
    • Explain the purpose and functionality of TCP
    • Explain the purpose and functionality of UDP
    • Explain the purpose and functionality of ports in general
    • Explain how retransmissions occur
    • Explain the purpose and process of a reset
    • Describe various TCP options
    • Describe a TCP checksum error
    • Describe how TCP addresses error correction
    • Describe how the flow control process occurs
  • Explain the features and functionality of protocols and technologies specific to the application layer
    • Explain the purpose and functionality of HTTP
    • Differentiate between HTTP versions
    • Interpret HTTP status codes
    • Determine an HTTP request method for a given use case
    • Explain the purpose and functionality of HTTP keepalives, HTTP headers, DNS, SIP, FTP
    • Differentiate between passive and active FTP
    • Explain the purpose and functionality of SMTP
    • Explain the purpose and functionality of a cookie
    • Given a situation in which a client connects to a remote host, explain how the name resolution process occurs
    • Explain the purpose and functionality of a URL
F5 Solutions and Technology
  • Articulate the role of F5 products
    • Explain the purpose, use, and benefits of APM, LTM, ASM, GTM
  • Explain the purpose, use, and advantages of iRules
    • Explain the purpose of iRules
    • Explain the advantages of iRules
    • Given a list of situations, determine which would be appropriate for the use of iRules
  • Explain the purpose, use, and advantages of iApps
    • Explain the purpose of iApps
    • Explain the advantages of iApps
    • Given a list of situations, determine which would be appropriate for the use of iApps
  • Explain the purpose of and use cases for full proxy and packet forwarding/packet based architectures
    • Describe a full proxy architecture
    • Describe a packet forwarding/packet based architecture
    • Given a list of situations, determine which is appropriate for a full proxy architecture
    • Given a list of situations, determine which is appropriate for a packet based architecture
  • Explain the advantages and configurations of high availability (HA)
    • Explain active/active
    • Explain active/standby
    • Explain the benefits of deploying BIG-IP devices in a redundant configuration
Load Balancing Essentials
  • Discuss the purpose of, use cases for, and key considerations related to load balancing
    • Explain the purpose of distribution of load across multiple servers
    • Given an environment, determine the appropriate load balancing algorithm that achieves a desired result
    • Explain the concept of persistence
  • Differentiate between a client and server
    • Given a scenario, identify the client/server
    • Explain the role of a client
    • Explain the role of a server
Security
  • Compare and contrast positive and negative security models
    • Describe the concept of a positive security model
    • Describe the concept of a negative security model
    • Given a list of scenarios, identify which is a positive security model
    • Given a list of scenarios, identify which is a negative security model
    • Describe the benefits of a positive security model
    • Describe the benefits of a negative security model
  • Explain the purpose of cryptographic services
    • Describe the purpose of signing
    • Describe the purpose of encryption
    • Describe the purpose of certificates and the certificate chains
    • Distinguish between private/public keys
    • Compare and contrast symmetric/asymmetric encryption
  • Describe the purpose and advantages of authentication
    • Explain the purpose of authentication
    • Explain the advantages of single sign on
    • Explain the concepts of multifactor authentication
    • Describe the role authentication plays in AAA
  • Describe the purpose, advantages, and use cases of IPsec and SSL VPN
    • Explain the purpose, advantages, and challenges associated with IPsec
    • Explain the purpose, advantages, and challenges associated with SSL VPN
    • Given a list of environments/situations, determine which is appropriate for an IPsec solution
    • Given a list of environments/situations, determine which is appropriate for an SSL VPN solution
Application Delivery Platforms
  • Describe the purpose, advantages, use cases, and challenges associated with hardware based application delivery platforms and virtual machines
    • Explain when a hardware based application deliver platform solution is appropriate
    • Explain when a virtual machine solution is appropriate
    • Explain the purpose, advantages, and challenges associated with hardware based application deliver platform solutions
    • Explain the purpose, advantages, and challenges associated with virtual machines
    • Given a list of environments/situations, determine which is appropriate for a hardware based application deliver platform solution
    • Given a list of environments/situations, determine which is appropriate for a virtual machine solution
    • Explain the advantages of dedicated hardware (SSL card, compression card)
  • Describe the purpose of the various types of advanced acceleration techniques
    • Describe the purpose of TCP optimization
    • Describe the purpose of HTTP keepalives, caching, compression, and pipelining