About Cisco 200-301 Exam
The Cisco 200-301 exam is a single test required for obtaining the Cisco Certified Network Associate (CCNA) certification. This certificate assists the professionals in validating their knowledge and skills in the IT fundamentals and serves as a springboard for launching their careers in the field.
Target Audience for Cisco 200-301 Exam
The 200-301 exam is intended for those practitioners who are new to the IT sector and looking to advance their career in this industry. This certification test improves the general expertise of the support specialists who are responsible for the fundamental design, deployment, and maintenance of Cisco network ecosystems. In addition, Cisco 200-301 is an ideal exam for the Network Engineers, Administrators, Support Technicians, and Help Desk Specialists.
Recommended Knowledge for Cisco 200-301 Exam
There are no official requirements set for the 200-301 certification exam, except for a solid understanding of its topics. However, Cisco recommends that the candidates for this test have a minimum of 1-year experience implementing and administering Cisco solutions. Their familiarity with IP addressing and network basics will be also helpful in passing this exam.
Important Details of Cisco 200-301 Exam
Cisco doesn’t reveal the details of its exams beforehand, so the exact number of questions and their types are unknown. The question formats that may appear in the 200-301 test include testlets, simlets, multiple choice, and drag and drop. Note that all the questions in the exam are to be completed within the allocated time of 2 hours. To schedule this certification test, the students need to sign up with Pearson VUE and pay the registration fee of $300.
Topics Covered in Cisco 200-301 Exam
In a nutshell, the Cisco 200-301 exam embodies the questions covering the basics of the latest technologies and software development knowledge. The skills measured in the test tackle various topics, including but not limited to:
- Network fundamentals – 20%;
- Security basics – 15%;
- Automation & programmability – 10%;
- IP services – 10%;
- Network access – 20%;
- IP connectivity – 25%.
Each of these objectives comes with a specific set of skills that are described in detail below:
This topic includes the following skills: explaining the network components role; describing network topology architectures; comparing cabling and physical interface types; defining cable and interface issues (collisions, speed, errors, mismatch duplex); comparing TCP and UDP; customizing and verifying subnetting IPv4 subnetting and addressing; describing the necessity of private IPv4 addressing; customizing and verifying IPv6 prefix and addressing; comparing IPv6 address types; verifying IP parameters for Client OS (Linux, Windows, Mac OS); describing switching principles; explaining wireless concepts; explaining virtualization basics (virtual machines).
Within this domain, the examinees need to demonstrate their ability to: interpret the routing table components (routing protocol code, network mask, prefix, next hop, last resort gateway, administrative distance, metric); customize IPv4 and IPv6 static routing (host route, default route, floating static, network route); identify how a router makes a forwarding decision by default (administrative distance, longest match, routing protocol metric); customize and verify single area OSPFv2 (point-to-point, neighbor adjacencies, router ID, broadcast); explain the objective of first hop redundancy protocol.
This subject area evaluates the following skills of the candidates: identifying core security concepts (vulnerabilities, threats, exploits, mitigation techniques); explaining security program elements (physical access control, user awareness, and training); customizing device access control using local passwords; explaining the elements of security password policies, including complexity, management, password alternatives (multifactor authentication, certificates, and biometrics); describing site-to-site VPNs and remote access; configuring and verifying access control lists; configuring security features of Layer 2 (dynamic ARP inspection, DHCP snooping, port security); differentiating accounting, authentication, and authorization concepts; describing WPA, WPA2, and WPA3 security protocols; customizing WLAN with the help of WPA2 PSK.
Automation & Programmability
Here the applicants need to demonstrate that they are capable of: explaining how automation affects network management; distinguishing traditional networks from controller-based networking; describing software defined and controller-based architectures (fabric, overlay, underlay); distinguishing traditional campus device management from Cisco DNA Center enabled device management; describing REST-based APIs characteristics (data encoding, CRUD, HTTP verbs); recognizing the abilities of Puppet, Chef, and Ansible configuration management mechanisms; interpreting JSON encoded data.
This objective combines the questions that check competency of the test takers in: customizing and verifying within source NAT with the help of static and pools; customizing and verifying NTP operating in a server and client mode; explaining the function of DHCP and DNS within the network; explaining the role of SNMP in executing network operations; describing the utilization of syslog features including facilities and levels; customizing and verifying DHCP relay and client; explaining the forwarding per-hop behavior (PHB) for QoS, including classification, queuing, marking, shaping, congestion, policing; customizing remote access network devices with the help of SSH; describing the function of TFTP/FTP in the network.
The last topic encompasses one’s abilities, such as: customizing and verifying VLANs spanning multiple switches; customizing and verifying interswitch connectivity; customizing and verifying discovery protocols of Layer 2 (Cisco Discovery Protocol, LLDP); customizing and verifying Layer 2 or Layer 3EtherChannel (LACP); describing the necessity of Spanning Tree Protocol and Rapid PVST+ and defining basic operations; distinguishing AP modes from Cisco Wireless Architectures; explaining physical infrastructure connections of WLAN elements such as WLC, LAG, AP, access/trunk ports); describing management access connections of WLC and AP (TACACS+/RADIUS, HTTP, Telnet, SSH, HTTPS, console); customizing the elements of a wireless LAN access for client connectivity with the help of GUI, such as security settings, WLAN creation, QoS profiles, advanced WLAN settings.
Career Opportunities After Passing Cisco 200-301 Exam
Obtaining the Cisco CCNA certificate enhances your career potential in the IT sphere. Once you pass your 200-301 exam and get the desired certification, you can apply for numerous job roles. They include:
- Network Administrator;
- Network Engineer;
- Information Technology Manager;
- System Engineer;
- Information Technology Director;
- Senior Network Engineer.
Moreover, getting Cisco CCNA certified can significantly increase your level of income. Certainly, it will depend on the organization you will work for and your previous experience, but all in all, having this associate-level certificate under your belt can bring you on average $78,701 as your yearly salary, according to PayScale.com.