301 Exam Information and Guideline
LTM Specialist
Below are complete topics detail with latest syllabus and course outline, that will help you good knowledge about exam objectives and topics that you have to prepare. These contents are covered in questions and answers pool of exam.
The 301a-LTM Specialist: Architect, Set-up & Deploy exam is one of two exams
required to achieve Certified F5 Technology Specialist, LTM status.
Individuals who pass this exam possess an of underlying principles – from SSLbased VPN implementation to symmetric and asymmetric acceleration – and can
draw on that insight to integrate BIG-IP Local Traffic Manager (LTM) into existing
networks as well as new implementations. This is exam 1 of 2 and is based on
TMOS v11.
Objective 1.01 Given an expected traffic volume, determine the appropriate SNAT
configuration
Explain when SNAT is required
Describe the benefit of using SNAT pools
Objective 1.02 Given a scenario, determine the minimum profiles for an application U/A
Explain security options available for the application
Explain how to use LTM as a service proxy
Describe how a given service is deployed on an LTM
Objective 1.03 Given an application configuration, determine which functions can be
offloaded to the LTM device
Explain how to offload HTTP servers for SSL compression and caching
Objective 1.04 Given an application configuration, determine which functions can be
offloaded to the LTM device
Explain how to create an HTTP configuration to handle an HTTP server error
Objective 1.05 Given an application configuration, determine the appropriate profile and
persistence options
Explain how to create an HTTP configuration for mobile clients
Explain how to create an HTTP configuration to optimize WAN connectivity
Determine when connection mirroring is required
Objective 1.06 Explain the steps necessary to configure AVR U/A
Explain the steps necessary to configure the AVR
Explain how to create an AVR profile and options
Objective 1.07 Given a set of reporting requirements, determine the AVR metrics and entities
to collect
Explain the sizing implications of AVR on the LTM device
Explain the logging and notifications options of AVR
Explain the uses of the collected metrics and entities
Objective 1.08 Given a scenario, determine the appropriate monitor type and parameters to use
Explain how to create an application specific monitor
Given a desired outcome, determine where to apply health monitors
Determine under which circumstances an external monitor is required
Objective 1.09 Given a set of parameters, predict an outcome of a monitor status on other
LTM device objects
Determine the effect of a monitor on the virtual server status
Determine the effect of active versus inline monitors on the application status or on the LTM device
Objective 1.10 Given a set of SSL requirements, determine the appropriate profile options to
create or modify in the SSL profile
Describe the difference between client and server SSL profiles
Describe the difference between client and server SSL processing
Objective 1.11 Given a set of application requirements, describe the steps necessary to
configure SSL
Describe the process to update expired SSL certificates
Describe the steps to incorporate client authentication to the SSL process
Objective 1.12 Given a set of application requirements, determine the appropriate virtual
server type to use
Describe the process to update expired SSL certificates
Describe the steps to incorporate client authentication to the SSL process
Objective 1.13 Given a set of application requirements, determine the appropriate virtual
server configuration settings
Describe which steps are necessary to complete prior to creating the virtual server
Describe the security options when creating a virtual server (i.e., VLAN limitation, route domains, packet
filters, iRules)
Objective 1.14 Explain the matching order of multiple virtual servers U/A
Objective 1.15 Given a scenario, determine the appropriate load balancing method(s) U/A
Identify the behavior of the application to be load balanced
Differentiate different load balancing methods
Explain how to perform outbound load balancing
Explain CARP persistence
Objective 1.16 Explain the effect of LTM device configuration parameters on load balancing
decisions
Differentiate between members and nodes
Explain the effect of the load balancing method on the LTM platform
Explain the effect of CMP on load balancing methods
Explain the effect of OneConnect/MBLB on load balancing
Explain how monitors and load balancing methods interact
Section 2: Set-up, administer, and secure LTM devices Cognitive
Complexity
Objective 2.01 Distinguish between the management interface configuration and application
traffic interface configuration
Explain the requirements for management of the LTM devices
Explain the requirements for the application traffic traversing the LTM devices
Explain how to configure management connectivity options: AOM, serial console, USB & Management
Ethernet Port
Objective 2.02 Given a network diagram, determine the appropriate network and system
settings (i.e., VLANs, selfIPs, trunks, routes, NTP servers, DNS servers,
SNMP receivers and syslog servers)
Explain the requirements for self IPs (including port lockdown)
Explain routing requirements for management and application traffic (including route domains and IPv6)
Explain the effect of system time on LTM devices
Objective 2.03 Given a network diagram, determine the appropriate physical connectivity U/A
Explain physical network connectivity options of LTM devices
Objective 2.04 Explain how to configure remote authentication and multiple administration
roles on the LTM device
Explain the relationship between route domains, user roles and administrative partitions
Explain the mapping between remote users and remote role groups
Explain the options for partition access and terminal access
Objective 2.05 Given a scenario, determine an appropriate high availability configuration (i.e.,
failsafe, failover and timers)
Explain the relationship between route domains, user roles and administrative partitions
Explain the mapping between remote users and remote role groups
Explain the options for partition access and terminal access
Objective 2.06 Given a scenario, describe the steps necessary to set up a device group,
traffic group and HA group
Explain how to set up sync-only and sync-failover device service cluster
Explain how to configure HA groups
Explain how to assign virtual servers to traffic groups
Objective 2.07 Predict the behavior of an LTM device group or traffic groups in a given failure
scenario
Objective 2.08 Determine the effect of LTM features and/or modules on LTM device
performance and/or memory
Determine the effect of iRules on performance
Determine the effect of RAM cache on performance and memory
Determine the effect of compression on performance
Determine the effect of modules on performance and memory
Objective 2.09 Determine the effect of traffic flow on LTM device performance and/or
utilization
Explain how to use traffic groups to maximize capacity
Objective 2.10 Determine the effect of virtual server settings on LTM device performance
and/or utilization
Determine the effect of connection mirroring on performance
Objective 2.11 Describe how to deploy vCMP guests and how the resources are distributed R
Identify platforms that support vCMP
Identify the limitations of vCMP
Describe the effect of licensing and/or provisioning on the vCMP host and vCMP guest
Describe how to deploy vCMP guests
Explain how resources are assigned to vCMP guests (e.g., SSL, memory, CPU, disk)
Objective 2.12 Determine the appropriate LTM device security configuration to protect
against a security threat
Explain the implications of SNAT and NAT on network promiscuity
Explain the implications of forwarding virtual servers on the environment security
Describe how to disable services
Describe how to disable ARP
Explain how to set up logging for security events on the LTM device
Explain how route domains can be used to enforce network segmentation
Section 3: Deploy applications Cognitive
Complexity
Objective 3.01 Describe how to deploy and modify applications using existing and/or updated
iApp application templates
Identify the appropriate application template to use to deploy the application
Describe how to locate, retrieve and import new and updated application templates
Identify use cases for deploying the application templates
Objective 3.02 Given application requirements, determine the appropriate profiles and profile
settings to use
Describe the connections between profiles and virtual servers
Describe profile inheritance
Explain how to configure the different SSL profile settings
Explain the effect of changing protocol settings
Explain the use cases for the fast protocols (e.g. fastL4, fastHTTP)
Explain the persistence overrides
Describe the use of HTTP classes and profiles
Describe the link between iRules and statistics, iRules and stream, and iRule events and profiles
Describe the link between iRules and persistence
Describe hashing persistence methods
Describe the cookie persistence options
Determine which profiles are appropriate for a given application
Determine when an iRule is preferred over a profile or vice versa
Explain how to manipulate the packet contents using profiles
Objective 3.03 Determine the effect of traffic flow on LTM device performance and/or
utilization
Describe the effect of priority groups on load balancing
Explain the effects of SNAT settings on pools
Explain how persistence settings can override connection limits
Describe the relationship between monitors and state
Describe the functionality of Action On Service Down
Describe the functionality of Priority Group Activation
Describe the persistence across pools and services (e.g., Match Across Services, Match Across vs Match
Across Pools)
Describe how connection limits are affected by node, pool and virtual server settings
Describe how priority groups are affected by connection limits