Certification Goals:

  • CCNA Exam 200-125 Cisco Certified Network Associate operations in a complex network.
DurationDay/Evening/Weekend
Books and materialsIncluded
Exam vouchersIncluded
Registration FeesIncluded
TestingDelivered On-Site
TuitionCall for Pricing
Location12595 SW 137 Ave Suite 207, Miami, FL. 333186

Program Description:

CCNA certification is recognized as a key route for network professionals on their way to a rewarding career in the Cisco internetworking field. The demand for highly skilled network professionals has increases in past few years. Our CCNA course is an innovative and challenging 2 week CCNA training course is designed specifically for network professionals requiring full knowledge of Cisco router and switch configuration.

Students develop the foundational ICT (Information and communications technology) skills needed to design, build, and manage networks, along with career skills such as problem solving, collaboration, and critical thinking. Student’s complete hands-on learning activities and network simulations to develop practical skills that will help them fill a growing need for networking professionals around the world.

The Cisco CCNA certification ensures that the student poses the competencies and understanding of network hardware, installation, and troubleshooting of Cisco routers and switches.

The Cisco Certified Network Associate (CCNA) Routing and Switching composite exam (200-125) is a 90-minute, 50–60 question assessment that is associated with the CCNA Routing and switching certification. This exam tests a candidate’s knowledge and skills related to network fundamentals, LAN switching technologies, IPv4 and IPv6 routing technologies, WAN technologies, infrastructure services, infrastructure security, and infrastructure management. Obtaining the CCNA Certification prepares students for continuing to the Cisco CCNP certification.

Course Objective

  • Identify the key components of any data network.
  • Describe the characteristics of network architectures: fault tolerance, scalability, quality of service and security.
  • Devices that make up the network.
  • Rules and processes that govern network communications.
  • Tools and commands for constructing and maintaining networks.
  • Describe how the functions of the three upper OSI model layers provide network services to end user applications.
  • Describe how the TCP/IP Application Layer protocols provide the services specified by the upper layers of the OSI model.
  • Describe the function of well-known TCP/IP applications.
  • Describe file-sharing processes that use peer-to-peer applications and the Gnutella protocol.
  • Explain how protocols ensure services running on one kind of device can send to and receive data from many different network devices.
  • Use network analysis tools to examine and explain how common user applications work.
  • Describe how to Transport Layer enables multiple applications to communicate over the network at the same time on a single device.
  • Identify the role of the Network layer as it describes communication from one end device to another end device.
  • Examine the most common Network layer protocol, Internet Protocol (IP), and its features for providing connectionless and best-effort service.
  • Understand the hierarchical addressing of devices and how this allows communication between networks.
  • Explain the structure IP addressing and demonstrate the ability to convert between 8-bit binary and decimal numbers.
  • Explain the role of Data Link layer protocols in data transmission and how the Data Link layer prepares data for transmission on network media.
  • Explain the role of Physical layer protocols, services in supporting communication across data networks, and the purpose of Physical layer signaling and encoding as they are used in networks.