Table of ContentsConcerning The CertificationWhat are the CCNP Security Requirements?Consider Your CCNA Best:Practical Experience:Studying one subject at a time:CCNP Security Certification AdvantagesGrowing and Developing Skills:Recognizing Skills:Keeping current with technology:Conclusion The Professional Level Cisco certification in each networking discipline is the CCNP Security designation. Cisco Certified Network Professional is the abbreviation. It is a level higher than CCNA (Cisco Certified Network Associate) Certification and consists of the in-depth understanding and logical reasoning of the subjects contained in CCNA previously. By obtaining the CCNP Security Certification, a candidate might advance their knowledge and skills in various areas, such as cloud security, network security, network resources, access points, policy enforcement, and safeguarding data in business backgrounds. You would get wondering who can obtain this certification since your team would be made of IT experts, including Network Engineers, Network Administrator, and many more. The tools to pass the test, the advantages of obtaining CCNP Security Certification, and more will all be explained in this article to assist your team in fully comprehending the CCNP Security Certification. Concerning The Certification The CCNP Security certification is made for high-level positions in the security technology industry. Your skill and security solution knowledge gets put to the test during certification. The CCNP Security certification is one of the most well-known in the field. The certification can be tailored to the technical area of your choice while still demonstrating essential knowledge. You should pass the core and concentration exams for the CCNP Security certification. The core test focuses on fundamental security technologies, including network security, cloud security, content security, endpoint security, secure network access, visibility, and enforcement. Topics unique to the sector are the subject of the concentration test. What are the CCNP Security Requirements? The CCNP Security Certification is- required for everyone performing--in the security field, including network engineers and many more. Your team's proficiency and understanding of various security measures will be assessed as part of the certification process. The Cisco Certified Network Professional (CCNP) Security certification is regarded as one of the most prestigious credentials gets obtain in this field. Teams have the option of specializing in a technical area of certification that interests them. At the absolute least, your team should be familiar with networking before seeking to earn this certification. The business suggests a minimum of three years and a maximum of five years of experience dealing with Cisco networking equipment. The massive test takers concur that the CCNP security exam is more challenging than the CCNA. CCNP exams cover more subjects than other certifications. So, compared to CCNA courses, CCNP courses give students a vast range of expertise. Remember that different examinations will have different weights assigned to each question. There are fewer questions on the CCNP test, but you have an extra 30 minutes. Consider Your CCNA Best: The information you already have from CCNA gets integrated into CCNP Security. The CCNA certification is a requirement to take the CCNP Security test for this reason. You must think of CCNA certification as the best option because it builds the groundwork for CCNP Security. The subjects included in CCNP Security are familiar, although there are a few more deeply embedded in CCNA material. So, before taking the CCNP Security test, you must pass the CCNA exam and fully comprehend all its contents. Practical Experience: A candidate who would get familiar with the Cisco test can pass without prior real-world experience if they have earned CCNA certification. Cisco recommends having between one and three years of experience before taking the CCNP Security exam. It is the applicant may get hands-on experience with all its Cisco CCNP Security equipment. You might comprehend the CCNP Security principles, and the only way to do this is to put them into practice in the lab until you are an expert at them. Studying one subject at a time: Instead of reading the entire book, focus on one section at a time. Read it, comprehend it, practice with it, get proficiency in it, and then go on to the next subject. You must study everything on your own and practice it until you master it. You would gain confidence and experience by tackling one topic at a time as you prepared for the CCNP Security test. Explore your alternatives and tailor your studies to them rather than sticking to just one book. Spending time accumulating knowledge that you won't learn is a waste of time. You wouldn't get far doing this. Choosing a subject, investigate it thoroughly, understand it all, and then move on to another subject. CCNP Security Certification Advantages The Cisco Certified Network Professional (CCNP) certificate proves proficiency in LAN and WAN network implementation. A candidate must have at least a year of networking experience to take the CCNP certification exam. Network technicians, systems engineers, support engineers, and engineers who work in networks all acknowledge the qualification as a prerequisite skill set. Growing and Developing Skills: People who hold the CCNP certification can work as network engineers, administrators of computer networks and systems, architects of computer networks, and managers of computer and information systems. A CCNP certification opens up various job opportunities and more significant compensation. According to a Cisco study, individuals with the CCNP certification earn 10% more annually compared to those without it. Recognizing Skills: People can demonstrate their advanced knowledge and abilities in computer networking by earning their CCNP certification. An individual receives the best training if they have a certification from a well-known organization like Cisco. Keeping current with technology: Technology in our world has evolved significantly. Staying up to date with technical developments is the best strategy for advancing a career as a CCNA-certified professional. Conclusion The CCNP Security Certification will speed up professional advancement by helping to acquire relevant industry-level skills and knowledge. To pass the CCNP security exam, users must have a thorough grasp of endpoints, the cloud, networks, network resources, access points, policy enforcement, and many other subjects. During the test, it is necessary to demonstrate that you have the knowledge and abilities to comprehend and explain challenging concepts. This exam measures applicants' verbal and critical thinking skills and also serves as a tool for assessing a person's conceptual comprehension and connecting ability.

Table of ContentsDescribe VLANs.VLANs on Cisco SwitchesThe default VLANNative VLANManagement VLANA data VLANVoice LANUntagged and Tag VLAN/PortPrivate LANs Every worker in this industry has to have a thorough grasp of the VLAN (Virtual Local Area Network) technology since it is a basic idea in TCP/IP computer networks. VLANs are implemented and set up on Ethernet switches and operate at OSI Layer 2. They are a technique for conceptually separating Layer 2 Ethernet frames created by various network devices such that only frames with the same VLAN ID may interact at the Layer 2 level. A Layer 3 device, such as a router, is required for communication between frames with various VLAN IDs. So, we may manage the traffic across several VLANs using a router (or Layer 3 switch), for example, by utilizing access control lists. By separating the traffic from various devices such that they may only connect at layer 2 with other devices that have been allocated the same VLAN number, this frame separation (and device separation) increases network security. Describe VLANs. A hub or repeater is used in a typical LAN to link workstations to one another. Any data that is received is sent throughout the network by these devices. A collision will happen, and the communicated data will get lost if two users try to send information. Hubs and repeaters will keep spreading the collision once it has taken place throughout the network. VLANs on Cisco Switches A database keeps track of every new VLAN generated on a switch. The vlan.dat file, as it contains this information, is held in the NVRAM or flash memory. On a Cisco switch, the command shows VLAN gets used to display the contents of the VLAN database. All specified VLANS will be lost if the switch's Vlan.dat file gets removed, and the database will be restored to its default settings. The default VLAN The default VLAN for Cisco switches and the massive other switch suppliers is VLAN 1, as it is where all the interfaces get put when a Cisco switch gets switched on for the first time after leaving the factory. All devices connected to the default VLAN can communicate since Ethernet packets are not tagged when leaving the interface. On a Cisco switch, VLAN 1 cannot get erased and is active. It can be perplexing when network managers refer to the VLAN that has been assigned for empty interfaces as the default VLAN since, in reality, this VLAN was chosen as a security best practice for the assignment of interfaces. Native VLAN Trunk interfaces are used to link several switches together. The Ethernet frames from many tagged VLANs can be sent over a trunk interface, as opposed to a regular Access interface, which can only transport traffic for the one VLAN that has been allocated to it. It gets referred to as 802.1q Trunking. In addition to untagged frames like control traffic or traffic from legacy devices that cannot tag their Ethernet packets, the trunk also transmits tagged frames through its link. By default, VLAN 1, the original VLAN, receives all this untagged traffic. A native VLAN can and frequently is given a different number, distinguishing it from the default VLAN. The native VLAN can have any number you choose between 1 and 4094, but it must match both interfaces that link to the trunk. It is an essential point to keep in mind. A native VLAN of 2 on one side and a native VLAN of 3 on the other are incompatible since this would result in a mismatch and prevent communication over the trunk. Management VLAN For the sole purpose of administering infrastructure devices through SSH, HTTPS, SMTP, SYSLOG, etc.,. Any VLAN number the administrator chooses to use. A Layer 3 device, such as a router or multi-layer switch, must be used to construct a Switch Virtual Interface (SVI) and assign an IP Address for the devices in this VLAN to be available for control from a distant computer. Using the management VLAN to divide management traffic from user data traffic complies with best practices. A data VLAN Devices belonging to end users get allocated to the data VLAN. Numerous Data VLANS that can be numbered or named to represent various departments or groups of devices may exist. There may be a VLAN named Finance, followed by a VLAN named Sales, and a third VLAN named Research. A VLAN might get constructed for several devices, such as one for phones or one for audio and video devices called AV. Voice LAN Each desk often has a computer and an IP phone. Two cables would need to be run from each device to the switch if the IP phone, and PC connected to the switch individually. Because the switch's available interfaces would rapidly fill up in a big workplace, Cisco developed IP phones with a tiny switch integrated within the phone's base unit. With the help of this tiny switch, a PC may be connected to a phone, and the phone can then relay traffic from the PC through a single Ethernet connection to a Cisco switch. It is problematic that a switch interface with switchport mode access can only support one VLAN on the interface. Cisco switches allow a conventional Data VLAN to be assigned to the switch port, supporting the computer, and then a Voice VLAN to support a Cisco IP phone, which may get added. When IP packets leave the phone, they get labeled with voice VLAN for IP phones or data VLAN for packets coming from computers. Untagged and Tag VLAN/Port Dot1q tags are optional; packets can either have them or not. Tagged port: A VLAN tag gets required on every packet. Multiple VLANs' traffic gets accepted on this port. It is used most to link switches. Untagged Port: In Cisco, directed--to as the "Access" port. Only permits traffic for a single VLAN. It gets used to link end devices to switches. Some end devices can add a dot1q tag to packets as they leave the device, but massive do not. Determining what happens to the tagging when the packet reaches the switch will thus rely on the type of interface the device is attached to. Private LANs Private VLANS allow devices in the same VLAN to get separated by assigning them a secondary VLAN. An interface will have a main VLAN number allocated to it if a switch gets set up for private VLANs. One of the interfaces in the group will get set up as a promiscuous port. Any other interface can interact with this promiscuous interface, and any interface can respond.

Table of ContentsUnderstanding Routing Information Protocol (RIP):RIP Routing Updates:RIP Routing Metric:Versions of RIP:Verification in RIP:Exchange of Routing Information: The Routing Information Protocol (RIP), one of the earliest routing protocols, is used by routers in a limited geographic area to determine routes to other networks inside an internet network. While it might not be as ubiquitous as some newer protocols due to certain limitations, understanding RIP is essential for any network professional. This is especially true for those pursuing Cisco certifications. This article offers a concise guide on configuring RIP on Cisco routers, ensuring your foundational knowledge is solid. Understanding Routing Information Protocol (RIP): The first protocol used for dynamic routing is the Routing Information Protocol (RIP). Although contemporary networks do not use it, using in small networks due to its clarity and settings as a starting point for understanding how the routing process operates. It is the reason Cisco has it on the CCNA test. RIP is a routing protocol for distance vectors. Since every routing system employs a statistic, RIP uses the hop count. The RIP maximum hop count is 15 (CCNA test question). A route gets deemed inaccessible if there are more than 15 hops on it. By default, routing updates get transmitted every 30 seconds. The source and destination port numbers are set to 520 when transmitted as UDP packets. There can only be 25 routes broadcast in a single packet since the maximum datagram size is only 504 bytes. The router will send more packets if there are more routes available. RIP uses just two different message kinds. Responses and requests messages. As far as possible, the names are descriptive. A Request message gets sent when a RIP-enabled router interface starts up. The newly received routes are added to the routing database of the first router as soon as it gets the Response messages. If the router receives a new route with a higher hop count but already has one in its database. The old route gets replaced. The router then communicates its routing table to its neighbors after that. RIP Routing Updates: Routing Information Protocol (RIP) messages are sent at regular intervals and when the network topology changes. The routing table of a device is updated to reflect the new route when it gets an RIP routing update that includes modifications to an entry. The path's metric value is raised by 1, and the sender gets identified as the following hop. Only the best route to a destination gets maintained by RIP devices. The device instantly starts communicating RIP routing updates to other network devices after changing its routing database to notify them of the change. These updates are provided separately from the RIP devices' regularly scheduled updates. RIP Routing Metric: The distance between the source and destination networks is calculated by the Routing Information Protocol (RIP) using a single routing metric. A hop-count value, usually 1 is assigned to each hop in a path from the source to the destination. When a device gets a routing update with a new or modified entry for a destination network, it updates the network's entry in the routing table by adding 1 to the metric value specified in the update. The sender's IP address gets utilized as the following hop. An interface network won't get advertised in any RIP update if it is undefined in the routing table. Versions of RIP: RIP Version 1 (RIPv1) refers to the original Routing Information Protocol (RIP). Classful routing gets used in the RFC 1058-described RIP standard. Due to the lack of subnet information in periodic routing updates, variable-length subnet masks (VLSM) were not supported. A network class must include only identically sized subnets. It is unfeasible to have subnets of different sizes inside the same network class since RIP, as per RFC 1058, does not enable VLSM. RIP is prone to assaults because of this restriction. RIP Version 2 (RIPv2), discussed in RFC 2453, was created to address the shortcomings of the original RIP standard. Classless interdomain routing (CIDR) gets supported by RIPv2 since it can convey subnet information. Verification in RIP: The Routing Information Protocol (RIP) Version 2 (RIPv2) implementation by Cisco includes classless interdomain routing (CIDR), variable-length subnet masks (VLSMs), route summarization, and key management. By default, the program only sends RIPv1 packets while receiving RIPv1 and RIPv2 packets. You may set up the program to only accept and send RIPv1 packets. A different option is to set the program to accept and send RIPv2 packets. You can specify the RIP version that an interface communicates to override the default behavior. There is no authentication functionality in RIPv1. You can activate RIP authentication on an interface if you send and receive RIP v2 packets. Which keys may get utilized on the interface depends on the vital chain. Only when a key chain gets set up on that interface does authentication, including default authentication. On an interface with RIP enabled Cisco provides two forms of authentication: plain-text authentication and message digest algorithm 5 (MD5) authentication. In every RIPv2 packet, plain-text authentication is used by default. Exchange of Routing Information: Routing Information Protocol (RIP) is a broadcast protocol RIP routing updates to reach non-broadcast networks must configure the Cisco software to allow this exchange of routing information. By defining the passive-interface router configuration command, you may stop routing updates from being sent on a given set of interfaces to regulate the interfaces you wish to share routing updates. The incoming and outgoing metrics to routes discovered by RIP can get increased by using an offset list. With an access list or an interface, you may opportunistically restrict the offset list. The performance of the routing protocol may be tuned using these timings to meet your internetwork requirements. The following timing modifications are available: The frequency (number of changes per second) of routing updates The period in seconds after which a route is deemed ineffective The time in seconds that routing information concerning preferable routes gets omitted. The number of seconds that need to elapse before a route gets purged from the routing table The frame for which routing changes will get delayed Enable faster convergence of different IP routing algorithms and hence induce speedier fallback to redundant devices can modify the IP routing support in the Cisco software. In circumstances where rapid recovery is required, the overall objective is to minimize network interruptions for end users.

Table of ContentsCisco Course LevelsCisco CCNA 200-301: The Whole Guide to Certification:Cisco Certified Entry Networking Technician (CCENT):Cisco Certified Network Associate Routing and Switching (CCNA R&S):Cisco Certified Design Associate (CCDA):Cisco Certified Network Associate Cloud (CCNA Cloud)New Modifications to the Cisco Certification Framework: Cisco Systems offers general and professional certifications for which candidates must sit for exams. Seven alternative pathways, including routing, switching, security, designing, and storage networking, are provided by the four skill levels of the available accreditation. CCNA, CCIE, and CCNP are the three most sought-after qualifications in the IT sector. Your employer will have confidence in your understanding of networking fundamentals since you hold a Cisco certification. Cisco Course Levels The Cisco certifications are separated into the following hierarchical levels in descending order: Associate-level Cisco certifications Professional-level Cisco certifications Cisco Expert-level Certifications Associate-Level Cisco Courses If you're a newbie and want to start as a Network Associate in the networking sector, you might need to think about the associate-level Cisco certifications. The Cisco Certified Network Associate (CCNA) certification is the most widely used Cisco associate-level certification. Professional-Level Cisco Courses It is ideal to move up the ladder after completing the associate-level Cisco courses and working for nearly two or three years in the networking sector. It is advised to take the associate Cisco courses before moving on to the professional Cisco courses. All professional Cisco courses have one thing in common: If you want to become a Cisco professional, you must pass two tests. These are the two tests: The basic test: The fundamental core technologies that form the basis of Cisco technology were covered by this test. The concentration test: This test can be viewed as a means of demonstrating your technical proficiency. Through this exam preparation, you may then hone your talents. Expert-Level Cisco Courses: The most advanced level of Cisco courses is called the expert level. It is advised to only enroll in these courses after earning associate and professional-level credentials. It is furthermore advised to have three to five years of expertise in networking technology. These expert-level credentials require passing two tests, which are as follows: Qualification test: Through performance-based/multiple-choice questions, the qualifying exam gauges your understanding of a particular technology. Tests in the lab: Through practicals/the lab exam, you get tested on your total practical knowledge. Cisco CCNA 200-301: The Whole Guide to Certification: The Cisco CCNA 200-301, the most recent edition of which will be offered in 2020, is yet another intriguing course to take. You may join this course with confidence since it has 38 hours of video content, a rating score of 4.7, and more than 115k students enrolled. The first step in the course is setting up the laboratories, after which students study some of the basics of networks, including TCP/IP, the upper and lower OSI layers, subnetting, and more. Additionally, you'll study Cisco device administration, dynamic routing protocols, network address translation, quality of service, cloud computing, and more. Cisco Certified Entry Networking Technician (CCENT): The CCENT certification is the best option for newcomers or more experienced individuals switching careers in networking. CCENT recognizes persons who possess the knowledge and expertise necessary to design, implement, and operate small business networks as network administrators and incorporates network support capabilities at the entry-level. The current CCENT Exam is the 100-105 ICND1. Basic computer skills and understanding of operating systems are prerequisites for this certification. Network technicians, engineers and administrators, and systems engineers are among the job categories covered by a CCENT credential. The CCENT is a significant prerequisite for various higher-level Cisco certifications. Cisco Certified Network Associate Routing and Switching (CCNA R&S): Still, CCNA R&S is the preferred qualification for networking newcomers. With the CCNA R&S, generations of network administrators started their careers. Cisco has expanded the selection of CCNA options and included new tracks like wireless, security, data center, and cloud. The concepts of routing and switching and the technology of network infrastructure components are included in the CCNA R&S program. In addition to discussing Cisco routers and switches operating systems objectively, it also discusses networking technology. Candidates can pass the ICND2 exam or the CCNA composite test to earn their CCENT certification and become CCNA R&S certified. Cisco offers courses, online practice tests, and sample questions that may be used to prepare for the CCNA R&S exam. Cisco Certified Design Associate (CCDA): The CCDA certifies the network design expertise needed to build a corporate network. Ideal introduction to Cisco network design for network designers, systems engineers, and sales engineers. This course focuses on the initial phase of networking, which is to construct a network based on a corporate network. Every network engineer should be able to design networks since networks are evolving and redesigning themselves to accommodate business development. The CCDA certifies the network design expertise needed to build a corporate network. The primary prerequisite for Cisco system engineers, network designers, and sales engineers is this basic understanding. Cisco Certified Network Associate Cloud (CCNA Cloud) The CCNA Cloud certification is an excellent choice for networking newcomers joining a fast-expanding employment market. Network engineers with extensive knowledge and expertise in cloud operations are becoming increasingly important as the IT sector moves systems fast to the Cloud. The CCNA Cloud program introduces network engineers to cloud solutions and infrastructure. The demand for CCNAs will rise as cloud usage continues to increase. Cisco aggressively advises applicants to have a fundamental understanding of network technologies and protocols, even though there are no prerequisites for this certification. Passing the CLDFND and CLDADM tests is a requirement for certification. Cloud Basics and Cisco cloud products are covered in both tests. The cloud computing age is forcing several chances for professionals with Cisco credentials. Earning a Cisco networking certification has never had a deadline. Your life and work will change as a result. New Modifications to the Cisco Certification Framework: The new Cisco certification is intended to help network engineers and administrators become fully versed in automation, development, networking, and security. IT specialists can't limit themselves to wireless network usage, routing, or safety. Modern networks are highly entangled. The authentication path thus underwent certain structural modifications. The CCIE, CCNA, or CCNP credentials can still be obtained. However, you may be the Cisco Certified Expert credential after passing a non-CCNA test and CCNA training. Anyone looking to become a CCNP should start with the new Cisco Certified Professional test. You can continue to hold CCIE and CCAr certifications as an expert and an architect if you have obtained a professional credential.

Table of Contents1. Introduction to Networks (CCNA)2. Cisco Packet Tracer Tutorials3. Cybersecurity Essentials4. Routing and Switching Essentials (CCNA)5. Wireless Basics and Design Fundamentals6. Collaboration and Video Core Essentials7. Data Center Fundamentals8. Network Automation and Programmability Basics9. IoT (Internet of Things) Fundamentals10. SD-WAN Solutions and ConfigurationsConclusion Cisco Systems, known for its cutting-edge networking equipment and software solutions, is a massive player in the IT industry. For professionals aiming to strengthen their networking knowledge, Cisco offers a plethora of certifications, ranging from entry-level to expert. Cisco training will provide you with the skills you need to enter the networking sector. In actuality, associate Cisco certifications are where many successful networking careers start. Not only are Cisco credentials valuable for aspiring network engineers. Anyone pursuing a career in IT, from support specialists to cybersecurity experts, may gain from Cisco training programs. There were no possibilities like today's online training programs. Luckily, there weren't brain-dumps like there are now when you just read a few hundred questions and then take the test without learning anything. Online video training is a common practice today. It is similar to taking an instructor-led training course but far less expensive and at your speed via online video instruction. To help learners get started without breaking the bank, here's a list of 10 free Cisco video training courses available online: 1. Introduction to Networks (CCNA) This course offers beginners an insight into the world of networking. From understanding the basics of networking to the intricacies of routing and switching, this comprehensive tutorial sets the stage for higher-level Cisco certifications. Cisco Systems developed Cisco Career Certifications as a form of IT professional certification for its products. Depending on the certification level, they can be divided into nine separate topic tracks: routing and switching, design, security, services providers, services providers operations, data centers, voice, wireless, and video. The world's most well-known certification job is Cisco, as it's crucial to be aware of all the available courses and credentials. 2. Cisco Packet Tracer Tutorials Cisco Packet Tracer is a network simulation tool used for training and experimentation. It helps you visualize a network using real-world examples, such as the Internet of Things (IoT) while outlining the fundamental features of the tool through a range of hands-on tasks. For anybody planning to enroll in a Networking Academy course making use of advanced simulation technology, this introductory course is a must. Learn how to use Cisco Packet Tracer by enrolling, downloading, and getting started. This series of videos offers hands-on training on how to set up virtual networks, troubleshoot issues, and understand various network configurations. 3. Cybersecurity Essentials As cyber threats continue to grow, understanding cybersecurity has never been more crucial. A single breach may have severe repercussions for a business, harming the bottom line and upsetting the everyday routines of millions of people. As a result, there is an increasing need for security experts. Join the team—and learn about network defense techniques, security concepts, technologies, and practices. Choose between a networking or security professional position that requires entry-level experience. The CCNA or CyberOps Associate Certifications are advised if you want to study for them. Prerequisite- Introduction to Cybersecurity or corresponding knowledge gets advised. 4. Routing and Switching Essentials (CCNA) Building on the Introduction to Networks course, this tutorial dives deeper into routing and switching. The Free CCNA Version 7 Routing & Switching certification course aids learners in building a solid foundation for planning, protecting, running, and troubleshooting contemporary computer networks. With a strong emphasis on practical learning and vital job skills like cooperation and problem-solving, you will learn how to expand operations from small company networks to corporate networks. 5. Wireless Basics and Design Fundamentals In an increasingly wireless world, understanding how to design, deploy, and manage wireless networks is essential. In this course, the most important theoretical and design concepts related to WLAN/Wi-Fi Design are covered. This course teaches students who have no prior wireless experience in WLAN Coverage Design, WLAN Roaming Design, WLAN Channel Design, WLAN Capacity Design considerations, and the essentials. 6. Collaboration and Video Core Essentials Collaboration tools like WebEx and Cisco's Unified Communications Manager have taken center stage in modern business operations. This course introduces these tools and demonstrates how to leverage them effectively. 7. Data Center Fundamentals Dive into the world of data centers with this comprehensive course. Network administrators were the target audience for this Data Centre training since it is regarded as associate-level Cisco training. Both experienced network administrators wishing to prove their Cisco abilities and fresh IT professionals with at least a year of expertise with Cisco infrastructure will find value in this course, which covers the 200-150 DCICN and the 200-155 DCICT exams. 8. Network Automation and Programmability Basics The future of networking lies in automation. Describe the domain goals for automation and programmability. Network programmability: why it's necessary and why networking professionals should understand it. SDN-nomenclature, the distinction between control planes and data planes, and ideas relating to API. This course offers- an introduction to network programmability, API integrations, and automation tools like Ansible and Cisco DNA Center. 9. IoT (Internet of Things) Fundamentals As billions of devices connect to the internet, understanding IoT is critical. This course touches on IoT's basics, significance, and how Cisco technologies play a role in this domain. Every sector is changing due to the capacity to link objects and collect relevant data, and new career specializations are becoming possible. Learn the fundamentals of this fascinating and developing topic by engaging in enjoyable hands-on activities that simulate securely syncing sensors to cloud services through IP networks and gathering data in a complete IoT (Internet of Things) system. 10. SD-WAN Solutions and Configurations Software-Defined Wide Area Networking (SD-WAN) is a revolutionary approach to WAN design. You will learn the best practices for setting up routing protocols in the data center and the branch and how to put sophisticated control, data, and application-aware rules into practice. Additional topics covered in the seminar include SD-WAN deployment and migration choices, controller location, how to deploy WAN Edge devices, and how to set up Direct Internet Access (DIA) breakout. Conclusion For those passionate about networking and looking to enhance their skills, Cisco's array of free video training courses offers a wealth of knowledge. Whether you're a beginner eager to dive into the basics or a seasoned professional seeking specialized training, there's likely a free course that caters to your needs. However, while these free resources are invaluable, it's worth noting that a holistic learning approach often includes hands-on labs, reading materials, and engagement with communities or forums for discussion.

Table of ContentsWhat does CCNP Security mean?Who Can Take the CCNP Security Exam?CCNP Security Certification RouteHow to Succeed on the CCNP Security Exam?CCNP Security Requirements:Recertification:How can I pass the exams easily?How to Assist Your Team in getting CCNP Security Certification Exam preparation? The demand for strong and scalable security across all platforms—from networks to mobile devices—increases daily as software and networking become more linked. Security teams may use automation to grow their security solutions using intent-based networking. Today's security experts require various abilities and a more powerful concentration in crucial technological fields to take advantage of these opportunities. This breadth and depth are what the new CCNP Security certification program provides. What does CCNP Security mean? Security is being given more attention on a broader scale since it is a complementary aspect of networking to connecting. The automation of modern networked systems is another crucial component. The team's competence in creating, implementing, and managing security solutions is confirmed by the CCNP Security Certification. Two examinations must be passed to get the CCNP Security certification, one which covers core security technologies and allows the certificate to get tailored to the applicant's expertise. Who Can Take the CCNP Security Exam? Understanding the CCNP security's requirements and intended audience can help you decide if it's worth the cost. Candidates with at least a year of networking experience should consider the CCNP certification. After obtaining the CCNP certification, professionals can demonstrate their abilities for positions in: A network engineer Network Technician Support Engineer System Engineer CCNP Security Certification Route Your group must pass the SCOR-350-701 exam to obtain CCNP Security certification. This certification exam covers a broad range of security infrastructure issues, including the following: Cloud Security Network Security Network Resource Access Policy Enforcement Securing Content in Enterprise Settings Endpoints How to Succeed on the CCNP Security Exam? Join an online CCNP Security training course to prepare for the certification. They qualified for the required exams through the training course. Your team will learn about certification programs and exam-related topics in this area, which is one of the most important. Please be aware that CCNA knowledge is more ingrained in CCNP Security topics. Passing the CCNA exam and comprehending all its material are prerequisites for carrying out the CCNP Security examination. CCNP Security Requirements: Anyone who wants to work in the security industry, such as network engineers, must have the CCNP Security Certification. One of the most respected qualifications in this industry is the CCNP Security certification. Additionally, teams have the choice to concentrate on achieving certification in a technological field that they find especially interesting. Before seeking to obtain this certification, candidates should have some networking experience. The industry recommends having a minimum of three and a maximum of five years of experience with Cisco networking equipment. Although the CCNP test contains fewer questions, you have an additional 30 minutes to do it. Recertification: A vital indicator that someone has kept up with technical changes and has demonstrated skill at the high quality of the first certification exam is recertification. Every certification will need to be renewed every three years. To recertify: Pass only one core technology test. Passing two of your chosen professional focus exams. Passed the CCIE lab test How can I pass the exams easily? If you're ready to pursue certification to progress your professional career, the CCNP Security certification places you on a higher level. What you should know is as follows. Learning about the CCNP Security certification, which aids in enhancing one's abilities, is the initial step. A candidate must pass the core test (350-701 SCOR) and one of the concentration examinations (300-710 SNCF, 300-715 SISE, 300-720 SESA, 300-725 SWSA, 300-730 SVPN, and 300-735 SAUTO) to become certified. To be eligible to sit for the exams, each candidate must become familiar with their requirements and complete the necessary training. Every applicant must meticulously follow the procedures in the study plan to cover every topic it is critical to keep this in mind while you take the exam. To identify their areas of weakness, aspirants should set deadlines for thoroughly researching each issue. To maintain the teachings in their mind, each candidate pursuing CCNP certification must adhere to a set schedule of study time and be consistent with each subject. It is vital to use effective study methods rather than simply memorizing everything. Studying in-depth increases the applicants' confidence in their ability to easily pass the exams since they need to practice to reinforce their knowledge. Before taking the exam, each applicant must have in-depth knowledge and comprehension of the topics as they relate to the conditions for the CCNP Security certification. Aspirants for the CCNP designation frequently have up to five years of expertise in deploying collaborative solutions. How to Assist Your Team in getting CCNP Security Certification Exam preparation? The CCNP certification is difficult to obtain, but with the correct training and direction, passing the CCNP security test is made simpler. Comprehensive instruction, advice, and resources are available from authorized training companies learning to pass the test. Candidates must pass the CCNP Security exam to work in the field of networking and information technology security. Growth in various areas of life is made possible by the growth of information technology. It is a prerequisite for IT professionals working in the network and security space in all kinds of organizations, including governmental institutions, big and small businesses, and the healthcare sector. There is no doubt that this certification relates to service provider switching and routing. By allowing candidates to show their degree of experience, the technology created by Cisco Networks acts as a solid basis. A qualified applicant has a thorough comprehension of networking technologies. Not much tension is needed to perform well on the test. If your team has access to the correct study materials for the CCNP security accreditation, studying for the exam won't be too challenging. The CCNP security certification exam preparation resources are dynamic in various ways. Students would gain by having access to legitimate CCNP security certification exams. Work through the CCNP security certification practice test as your finest test preparation strategy.

Table of ContentsWhat Is Network Troubleshooting?What is the significance of network troubleshooting?How do organizations manage troubleshooting?Methods for Troubleshooting:Why Opt for Cisco Training?Simplifying Network Operations with Cisco TrainingConclusion As a network engineer, your main objective is to ensure that all your network hardware is always functioning. But as everyone is aware, equipment might malfunction. It might be due to hardware issues, software discrepancies, or environmental risks. You must determine and pinpoint the malfunction's origin and fix it as quickly as you can under such uncontrollable circumstances. Because of this, it is beneficial to be aware of a few particular strategies that have emerged as significant and fundamental in the realm of networking. However, maintaining and troubleshooting these networks can be a daunting task. It is where the importance of network training, particularly Cisco training, comes into play. What Is Network Troubleshooting? Troubleshooting is the process of locating network issues through a detailed, repeatable procedure and then resolving those issues using techniques that can be put to the test. Since you can target specific network components, test each one for functionality, and are encouraged to record your approach, troubleshooting is more productive than randomly trying things until the network works. A computer hobbyist or prospective network engineer might benefit from learning about network troubleshooting. What is the significance of network troubleshooting? Business resilience is built on quick, efficient network troubleshooting. Networks today handle more crucial corporate operations than ever. Networks may experience expensive downtime due to the lack of thorough investigation and prompt issue resolution. Experiencing downtime can result in reduced productivity, subpar services, data breaches, and malware, which all have financial effects. These effects may have high costs and harm brands in the long run. How do organizations manage troubleshooting? Of course, troubleshooting entails more than simply changing user passwords or restarting hardware. It involves a collection of protocols, practices, and tools used, particularly in big organizations, to handle various requests from a complicated mix of users and scattered network equipment. Large organizations frequently have an entire staff committed to network issues. Tier 1 difficulties, such as password resets, are dealt with by the team's engineers. Tier 2 problems are those that can't be handled by Tier 1, while Tier 3 problems are those that are mission-critical. Tier 1 problem-solving gets contracted out. Requests are efficiently channeled using an escalation architecture, and upper-level engineers are assigned the correct assignments. Automated systems, machine learning (ML), and artificial intelligence (AI) have all been employed to fill skills gaps. These innovations provide Tier 1 engineers with guided remediation tools that enable them to deal with complicated network issues more quickly. The inclusion of these tools may necessitate training and administration by IT teams- numerous organizations already have distinct network diagnostic solutions. A network management system (NMS) is more frequent when network troubleshooting gets integrated. Methods for Troubleshooting: Here are a few more troubleshooting techniques that may be applied to successfully identify the underlying cause of the network issue and put the best fix in place right away. Comparing Configurations Many network performance problems are due to human mistakes, the first step in troubleshooting is to look for network configuration modifications that may have been performed. Implementing the AAA method gives you access to the logs that are kept locally on the device or on an AAA server, which keeps track of these changes. Follow the path The most popular troubleshooting method is to ping the destination device. Another ICMP-based tool, the traceroute, reveals where the ICMP packet terminated in the network. Knowing where your ping ends offers you an edge since it enables you to quickly pinpoint the issue and further investigate the most effective solution for fixing it. Components swappable The most common reason for network disruptions is hardware, which may be anything from a simple ethernet cable wear and tear to a complete equipment breakdown. When this occurs, we are forced to replace the damaged gear with new hardware to keep the network operational. Along with monitoring what happens after the swap, this method is utilized to determine if a particular network device is the root of the problem. Why Opt for Cisco Training? Comprehensive Curriculum: Cisco's training courses are developed with a holistic approach. They not only cover theoretical knowledge but also emphasize practical applications. It equips professionals with both the 'know-how' and the 'do-how.' Industry Recognition: A certification from Cisco is globally recognized. It--means network professionals with Cisco certifications are often preferred, as they are considered well-trained and skilled. Continuous Updates: Technology is constantly evolving, and so are the threats that networks face. Cisco ensures its courses get updated regularly, aligning with the latest technologies and security challenges. Scenario-Based Training: Cisco's courses use real-world scenarios for training. It provides professionals with insights into the challenges they might face in their roles and prepares them to address them efficiently. Diverse Range of Courses: Cisco offers a plethora of courses catering to various aspects of networking. Whether you're a newbie wanting to learn the basics or a seasoned professional looking to upskill, there's a course tailored for you. Simplifying Network Operations with Cisco Training A well-trained professional can streamline network operations in several ways: Efficient Monitoring: Understanding the network's nuances means you can better monitor its health. You'll be able to pinpoint potential bottlenecks or inefficiencies and rectify them before they escalate. Quick Troubleshooting: The key to effective troubleshooting is identifying the root cause. With Cisco training, professionals get equipped to diagnose issues faster, leading to reduced downtime and minimal disruption to business operations. Optimized Network Performance: Professionals trained by Cisco are adept at ensuring that networks run at their optimum. It means better bandwidth utilization, efficient routing, and improved network performance. Enhanced Security: One of the critical components of network management is security. Cisco training educates professionals about the latest security threats and how to combat them, ensuring the network remains secure. Conclusion In an era where business operations are reliant on networks, ensuring seamless functioning is paramount. Cisco training, with its comprehensive approach and real-world applications, provides professionals with the tools they need to simplify network operations and troubleshooting. Not only does this lead to improved business efficiency, but it also provides a competitive edge in the ever-evolving networking. Whether you're a business aiming to boost your network performance or a professional looking to advance your career, investing in Cisco training is a step in the right direction.

Exam Description: CCNA Exam v1.0 (CCNA 200-301) is a 120-minute exam associated with the CCNA certification. This exam tests a candidate's knowledge and skills related to network fundamentals, network access, IP connectivity, IP services, security fundamentals, and automation and programmability. The course, Implementing and Administering Cisco Solutions (CCNA), helps candidates prepare for this exam. The following topics are general guidelines for the content likely to be included on the exam. However, other related topics may also appear on any specific delivery of the exam. To better reflect the contents of the exam and for clarity purposes, the guidelines below may change at any time without notice.   1.0 Network Fundamentals (20%) 1.1 Explain the role and function of network components   1.1.a Routers 1.1.b Layer 2 and Layer 3 switches 1.1.c Next-generation firewalls and IPS 1.1.d Access points 1.1.e Controllers (Cisco DNA Center and WLC) 1.1.f Endpoints 1.1.g Servers 1.1.h PoE 1.2 Describe characteristics of network topology architectures   1.2.a Two-tier 1.2.b Three-tier 1.2.c Spine-leaf 1.2.d WAN 1.2.e Small office/home office (SOHO) 1.2.f On-premise and cloud 1.3 Compare physical interface and cabling types   1.3.a Single-mode fiber, multimode fiber, copper 1.3.b Connections (Ethernet shared media and point-to-point) 1.4 Identify interface and cable issues (collisions, errors, mismatch duplex, and/or speed)     1.5 Compare TCP to UDP 1.6 Configure and verify IPv4 addressing and subnetting 1.7 Describe the need for private IPv4 addressing 1.8 Configure and verify IPv6 addressing and prefix 1.9 Describe IPv6 address types   1.9.a Unicast (global, unique local, and link local) 1.9.b Anycast 1.9.c Multicast 1.9.d Modified EUI 64 1.10 Verify IP parameters for Client OS (Windows, Mac OS, Linux) 1.11 Describe wireless principles   1.11.a Nonoverlapping Wi-Fi channels 1.11.b SSID 1.11.c RF 1.11.d Encryption 1.12 Explain virtualization fundamentals (server virtualization, containers, and VRFs) 1.13 Describe switching concepts   1.13.a MAC learning and aging 1.13.b Frame switching 1.13.c Frame flooding 1.13.d MAC address table 2.0 Network Access (20%) 2.1 Configure and verify VLANs (normal range) spanning multiple switches   2.1.a Access ports (data and voice) 2.1.b Default VLAN 2.1.c Connectivity 2.2 Configure and verify interswitch connectivity   2.2.a Trunk ports 2.2.b 802.1Q 2.2.c Native VLAN   2.3 Configure and verify Layer 2 discovery protocols (Cisco Discovery Protocol   and LLDP) 2.4 Configure and verify (Layer 2/Layer 3) EtherChannel (LACP) 2.5 Interpret basic operations of Rapid PVST+ Spanning Tree Protocol   2.5.a Root port, root bridge (primary/secondary), and other port names   2.5.b Port states (forwarding/blocking)   2.5.c PortFast 2.6 Describe Cisco Wireless Architectures and AP modes 2.7 Describe physical infrastructure connections of WLAN components (AP, WLC,   access/trunk ports, and LAG) 2.8 Describe AP and WLC management access connections (Telnet, SSH, HTTP,   HTTPS, console, and TACACS+/RADIUS) 2.9 Interpret the wireless LAN GUI configuration for client connectivity, such as   WLAN creation, security settings, QoS profiles, and advanced settings  3.0 IP Connectivity (25%) 3.1 Interpret the components of routing table   3.1.a Routing protocol code 3.1.b Prefix 3.1.c Network mask 3.1.d Next hop 3.1.e Administrative distance 3.1.f Metric 3.1.g Gateway of last resort 3.2 Determine how a router makes a forwarding decision by default   3.2.a Longest prefix match 3.2.b Administrative distance 3.2.c Routing protocol metric 3.3 Configure and verify IPv4 and IPv6 static routing   3.3.a Default route 3.3.b Network route   2.3 Configure and verify Layer 2 discovery protocols (Cisco Discovery Protocol   and LLDP) 2.4 Configure and verify (Layer 2/Layer 3) EtherChannel (LACP) 2.5 Interpret basic operations of Rapid PVST+ Spanning Tree Protocol   2.5.a Root port, root bridge (primary/secondary), and other port names   2.5.b Port states (forwarding/blocking)   2.5.c PortFast 2.6 Describe Cisco Wireless Architectures and AP modes 2.7 Describe physical infrastructure connections of WLAN components (AP, WLC,   access/trunk ports, and LAG) 2.8 Describe AP and WLC management access connections (Telnet, SSH, HTTP,   HTTPS, console, and TACACS+/RADIUS) 2.9 Interpret the wireless LAN GUI configuration for client connectivity, such as   WLAN creation, security settings, QoS profiles, and advanced settings  3.0 IP Connectivity (25%) 3.1 Interpret the components of routing table   3.1.a Routing protocol code 3.1.b Prefix 3.1.c Network mask 3.1.d Next hop 3.1.e Administrative distance 3.1.f Metric 3.1.g Gateway of last resort 3.2 Determine how a router makes a forwarding decision by default   3.2.a Longest prefix match 3.2.b Administrative distance 3.2.c Routing protocol metric 3.3 Configure and verify IPv4 and IPv6 static routing   3.3.a Default route 3.3.b Network route     6.0 Automation and Programmability (10%) 6.1 Explain how automation impacts network management 6.2 Compare traditional networks with controller-based networking 6.3 Describe controller-based, software defined architecture (overlay, underlay,   and fabric)   6.3.a  Separation of control plane and data plane 6.3.b  Northbound and Southbound APIs 6.4 Compare traditional campus device management with Cisco DNA Center   enabled device management 6.5 Describe characteristics of REST-based APIs (CRUD, HTTP verbs, and data   encoding) 6.6 Recognize the capabilities of configuration management mechanisms Puppet,   Chef, and Ansible 6.7 Recognize components of JSON-encoded data

Table of ContentsA Private Cloud Storage Solution's Important FeaturesComprehensive Understanding of Cloud Architecture:Mastery Over Cloud Networking:Emphasis on Cloud Security:Streamlined Cloud Management and Automation:Integration with Modern Technologies:Best Practices for Optimal Performance:Enhanced Collaboration Capabilities:Continuous Skill Upgradation:Access to a Global Community:Competitive Edge in the Market:End-to-end service Provisioning is accelerated:Networks Play a Critical Role in Virtualization and Cloud ComputingConclusion: In the present era of technological advancements, cloud computing has emerged as a pivotal element in enterprise IT strategy. While public clouds offer vast scale and flexibility, many organizations lean towards private cloud solutions for enhanced security, compliance, and tailored infrastructure needs. Cisco is recognized for its rigorous courses and relevance. Cisco training can be the catalyst for enterprises looking to deploy efficient private cloud solutions. Here's how leveraging Cisco training can lead to the creation of top-tier private cloud infrastructures: A Private Cloud Storage Solution's Important Features A private cloud is a virtualized hosting environment that employs computer, network, and storage resources to support application and data processing without sharing them with another organization. An on-site server, within a virtual machine, or on a remotely managed single-tenant server, a private cloud get built. The Most Important Elements of a Private Cloud Storage Solution Scalability is simple: The answer must enable you to expand the infrastructure and add new resources without tearing down current ones. A broad network of partners: Interoperability must not get hampered by private clouds. For a connected company to function, it must be interoperable with third-party software, hardware, and services. Controlled services: Your organization should support your path toward infrastructure maintenance, application modernization, and cloud migration. Community: The solution has a supportive community of specialists, system engineers, users, and open-source contributors. Charges based on use: Instead of paying a set fee for the infrastructure, you should only charge for the resources and services used. Comprehensive Understanding of Cloud Architecture: Cisco's cloud training modules provide in-depth insights into cloud architectures, including infrastructure as a service (IaaS), platform as a service (PaaS), and software as a service (SaaS). By mastering these concepts, IT teams can design and implement private cloud solutions tailored to an organization's needs, ensuring maximum ROI. Mastery Over Cloud Networking: A private cloud's efficiency is determined by its underlying network's performance. Cisco, a leader in networking, offers training modules dedicated to cloud networking. These courses cover topics: virtual network design, load balancing, and cloud network security, equipping professionals to build robust and scalable cloud networks. Emphasis on Cloud Security: Security concerns are at the forefront of any private cloud deployment. Cisco's training modules, such as the CCNP Security, delve deep into securing virtual environments. Topics like identity management, threat defense, and secure network architecture ensure that private clouds built by Cisco-trained professionals get fortified against breaches and vulnerabilities. Streamlined Cloud Management and Automation: An efficient private cloud is not just about deployment but also about ongoing management. Cisco training covers essential tools and methodologies for cloud automation, orchestration, and monitoring. These skills ensure the cloud environment is responsive and adaptive to changing enterprise needs. Integration with Modern Technologies: The cloud landscape is evolving, with emerging technologies like edge computing, AI-driven analytics, and IoT integrations. Cisco's constantly updated curriculum ensures that professionals are adept at incorporating these technologies into private cloud solutions, keeping the enterprise at the cutting edge of innovation. Best Practices for Optimal Performance: Cisco training is not just about understanding technology but also about implementing global best practices. These practices, derived from real-world scenarios and case studies, ensure that private cloud deployments get optimized for performance, scalability, and resilience. Enhanced Collaboration Capabilities: Modern private cloud solutions are more than just storage and compute resources; they are collaborative platforms. Cisco's collaboration and communication training modules ensure that private clouds facilitate seamless teamwork with integrated communication tools and virtual workspaces. Continuous Skill Upgradation: The cloud domain is dynamic, with rapid technological shifts. Cisco's commitment to continuous learning with recertification and advanced courses ensures that IT professionals remain updated with the latest in cloud tech, ensuring that the private cloud infrastructure evolves- in tandem with the industry. Access to a Global Community: Undergoing Cisco training connects professionals to a global community of peers, experts, and thought leaders. This network becomes invaluable for sharing insights, troubleshooting challenges, and understanding global cloud trends, which can get integrated into an enterprise's private cloud strategy. Competitive Edge in the Market: Lastly, an efficient private cloud is a significant competitive advantage. By ensuring faster data access, secure environments, and scalability, Cisco-trained professionals can help an organization stay ahead in the market. The agility provided by a well-managed private cloud can be the difference between leading market trends and merely following them. End-to-end service Provisioning is accelerated: In the competitive global market, businesses must be able to react swiftly to changing conditions regardless of the industry in which they operate. Their capacity to do so largely depends on how quickly they can set up connections to the cloud for new locations and any additional services and applications needed at current sites. Networks Play a Critical Role in Virtualization and Cloud Computing Your capacity to successfully deploy ubiquitous virtualization, the private cloud, or even hybrid cloud solutions will be determined by the performance, reliability, and intelligence of- the network connecting every component of each data center and the data centers themselves. You must be aware that the network will be capable of: Deliver connection to any device at any time and from any location. Scale and expand effectively Manage all information kinds while providing the greatest QoS, including big data, data analytics, video, and any other data. Assist in ensuring complete network security Conclusion: Private cloud solutions offer enterprises control, security, and customization. However, harnessing their potential demands expertise and nuanced understanding. Cisco, with its legacy in networking and IT training, now offers courses tailored for the cloud era. By leveraging Cisco training, enterprises can ensure that their private cloud deployments are operational and exemplary, driving business growth, innovation, and efficiency. In the race toward digital transformation, a Cisco-trained team might be the turbo boost that propels an organization to the forefront.