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JN0-1103 Design, Associate (JNCIA-Design) Exam Details Exam questions are derived from the recommended training and the exam resources listed above. Pass/fail status is available immediately after taking the exam. The exam is only provided in English. Exam Code: JN0-1103 Prerequisite Certification: None Exam Length: 90 minutes Exam Type: 65 multiple-choice questions Recertification: Juniper certifications are valid for three years. For more information, see Recertification. The Design track enables you to demonstrate competence with Juniper Networks design principles and associated technologies. JNCIA-Design, the associate-level certification in this track, is designed for networking professionals and designers with beginner knowledge of network design, theory, and best practices. The written exam verifies your understanding of network design fundamentals. Examkingdom Juniper JN0-1103 Exam pdf This track includes one certification: JNCIA-Design: Design, Associate . For details, see the sections below. Exam Preparation Recommended Training: Juniper Networks Design Fundamentals Exam Resources: Juniper TechLibrary Additional Preparation: Juniper Learning Portal Exam Objectives Here’s a high-level view of the skillset required to successfully complete the JNCIA-Design certification exam. Exam Objective Customer Network Design Requirements Identify initial network design requirements for: Juniper Networks life-cycle service approach Proposal boundaries and considerations Greenfield and brownfield deployments Top-down networks Capacity planning Identify the roles of different Juniper products and solutions, including: Routers Switches Security WLAN Software-defined networking (SDN) Network management Securing the Network Identify security design principles for: General security design and considerations Securing a data center Securing the campus WAN Zero-trust security Secure access service edge (SASE) Network Management or Reliability Identify network design considerations for business continuity, including: High-resiliency design Link- and device-level redundancy Multihomed ESIs Juniper Networks SRX Firewalls redundancy Virtual chassis Campus redundancy best practices Identify design considerations for network automation, including: Benefits of network automation Juniper automation products Junos XML, REST, JSD APIs Junos OS on-box and off-box automation Identify design considerations for network management strategies, including: Network management methodologies Separation of production and management traffic Configuration backups Remote console access Juniper network management strategies Campus and Branch LAN Design Identify considerations for a wired campus or branch LAN, including: Campus LAN design best practices Modular design Subnet and VLAN design Access control design Ethernet VPN-VXLAN (EVPN-VXLAN) architecture Campus oversubscription ratios Campus design architectures Identify considerations for a wireless LAN, including: WLAN design phases Gathering business requirements Gathering technical requirements Device types Designing secondary coverage Designing real-time location services Access point (AP) coverage patterns Co-channel contention Gathering RF requirements RF modeling Campus and Branch WAN Design Identify considerations for a campus or branch WAN, including: Campus or branch WAN connectivity functions Best practices for designing the campus or branch WAN Campus WAN performance Campus WAN VPN design Campus active/active and active/passive high availability (HA) SD-WAN Identify considerations for an SD-WAN, including: SD-WAN design considerations SD-WAN devices Assurance models SD-WAN intersite connectivity Data Center Network Design Identify considerations for general data center network, including: Data center design best practices Traffic patterns Virtual chassis Environmental considerations Data center fabric architectures Identify considerations for IP fabric-based data center network, including: Benefits of IP fabric over other data center architectures Design options with IP fabrics Spine-and-leaf device placement recommendations Underlay and overlay design Routing protocol selection IP fabric best practices IP fabric scaling Sample Question And Answers QUESTION 1 Which two statements are correct about greenfield and brownfield deployments? (Choose two.) A. A brownfield deployment has no network environment. B. A greenfield deployment has no network environment. C. A greenfield deployment has a network environment and must be upgraded. D. A brownfield deployment has a network environment and must be upgraded. Answer: B, D QUESTION 2 Which aspect of network design facilitates future growth and troubleshooting efforts? A. business continuity B. high availability C. modularity D. security Answer: C QUESTION 3 You are the network architect with a large banking institution with operations around the world. Any outage results in lost revenue for your company, and may result in lost customers. Network uptime is your top priority. In this scenario, what should be your focus? A. return on investment B. business continuity C. capacity planning D. service visualization Answer: B QUESTION 4 Which three categories should the collected data be sorted into during the data analysis phase? (Choose three.) A. customer requirements B. customer data C. Industry standards D. personal data E. project boundaries Answer: A, C, E QUESTION 5 What are two characteristics of a greenfield deployment? (Choose two.) A. A greenfield deployment means that there are fewer restrictions. B. A greenfield deployment is more common. C. A greenfield deployment always implies integration with other vendor products. D. A greenfield deployment means a new deployment. Answer: A, D #J-18808-Ljbffr