Network Protocols and Architecture

Start Date: 06/14/2020

Course Type: Common Course

Course Link:

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About Course

Welcome to the second of five courses in the Cisco Networking Basics Specialization. Have ever wondered how devices on computer networks truly communicate? There are specific protocols or rules and standards that every device must follow to access the Internet and to communicate over a network. In this course, you will examine the principles of network communication, how networks are designed and what specifically is being sent and received by different devices when we send pictures, text messages, video or any other data across the network. What exactly is sent and how is it sent are the questions that will be answered in this course. At the end of this course, you will be able to: 1. Explain how protocols and standards benefit a global internetwork. 2. Describe how the Ethernet Protocol transmits data within a LAN. 3. Explain IPv4 addressing and the role subnet masks. 4. Use Cisco Packet Tracer to connect hosts to a wireless router in a LAN. 5. Use a protocol analyzer or "packet sniffer" to open and examine a data packet that has been transmitted across a network. 6. Examine a Windows computer to locate the physical or MAC address used send and receive data.

Course Syllabus

In this module, you will learn how protocols in computer networks are used to exchange data and information between hosts and devices. You will examine the standards and protocols used to send and receive data in a computer network. At the end of this module, you will examine a Windows computer to locate the physical or MAC address used send and receive data.

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Course Introduction

Network Protocols and Architecture Welcome to Network Protocols and Architecture! In this course, you'll get an introduction to TCP/IP and how these protocols work. We'll cover the basic elements of networking, such as routes and protocols. We'll also discuss TCP/IP stack architectures and the details of packet encapsulation. We'll also cover the basics of packet filters and advanced topics in packet protocols. We'll also cover TCP/IP stack architectures and advanced topics in packet protocols. At the end of this course, you'll be able to: - Describe TCP/IP stack architectures and transport protocols. - Explain packet filters and advanced topics in packet protocols. - Explain packet protocols and their protocols. - Identify transport protocols and transport protocols for TCP/IP communications.Introduction to Network Protocols and Architecture TCP/IP Stack Architectures TCP/IP Stack Transport Architectures Advanced Topics in TCP/IP Protocols Network Time Protocols This is the third course in the Linux Networking Basics Specialization. In this class you will learn the basic networking technologies that are used to extend the life of networking devices by providing extra performance and reliability. You will also learn about TCP/IP stack architectures and common network time protocols such as Ethernet. You will also learn about packet filters and advanced topics in packet protocols. After completing this course, you will be able to: • Under

Course Tag

Subnetwork Ipv4 Cisco Broadcasting (Networking)

Related Wiki Topic

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IBM Systems Network Architecture Systems Network Architecture (SNA) is IBM's proprietary networking architecture, created in 1974. It is a complete protocol stack for interconnecting computers and their resources. SNA describes formats and protocols and is, in itself, not a piece of software. The implementation of SNA takes the form of various communications packages, most notably Virtual Telecommunications Access Method (VTAM), the mainframe software package for SNA communications.
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IBM Systems Network Architecture The proprietary networking architecture for Honeywell Bull mainframes is Distributed Systems Architecture (DSA). Communications package for DSA is VIP. Like SNA, DSA is also no longer supported for client access. Bull mainframes are fitted with Mainway for translating DSA to TCP/IP and VIP devices are replaced by TNVIP Terminal Emulations (GLink, Winsurf). GCOS 8 supports TNVIP SE over TCP/IP. Other architectures are Unisys – formerly Univac – Distributed Computing Architecture (DCA) and – formerly Burroughs – Burroughs Network Architecture (BNA), both largely obsolete by 2012, and the International Computers Limited (ICL) Information Processing Architecture (IPA). DECnet is a suite of network protocols created by Digital Equipment Corporation, originally released in 1975 to connect two PDP-11 minicomputers. It evolved into one of the first peer-to-peer network architectures, thus transforming DEC into a networking powerhouse in the 1980s.
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