1.What is IP address
2.When & how it was devised
3.IPV4 Features & its functionality
4.Benefits of IPV4 & Devices supporting IPV4
5.Problems of IPV4 & What happened to IPV5
6.What led to IPV6
7.IPV6 Features & Functionality
8.Benefits of IPV6 & supporting devices
9.How transition from IPV4 to IPV6 will happen
10.Problems & challenges that are anticipated & Conclusion
1.What is IP address
2.When & how it was devised
3.IPV4 Features & its functionality
4.Benefits of IPV4 & Devices supporting IPV4
5.Problems of IPV4 & What happened to IPV5
6.What led to IPV6
7.IPV6 Features & Functionality
8.Benefits of IPV6 & supporting devices
9.How transition from IPV4 to IPV6 will happen
10.Problems & challenges that are anticipated & Conclusion
In this presentation, we will discuss in details about the TCP/ IP framework, the backbone of every ebusiness.
To know more about Welingkar School’s Distance Learning Program and courses offered, visit:
http://www.welingkaronline.org/distance-learning/online-mba.html
IP specifies the format of packets, also called #datagrams, and the addressing scheme. Most networks combine IP with a higher-level protocol called Transmission Control Protocol (TCP), which establishes a virtual connection between a destination and a source.
If you want to purchase the content e-mail me on dulith1989@gmail.com
If the number of spine switches were to be merely doubled, the effect of a single switch failure is halved. With 8 spine switches, the effect of a single switch failure only causes a 12% reduction in available bandwidth. So, in modern data centers, people build networks with anywhere from 4 to 32 spine switches. With a leaf-spine network, every server on the network is exactly the same distance away from all other servers – three port hops, to be precise. The benefit of this architecture is that you can just add more spines and leaves as you expand the cluster and you don't have to do any recabling. Intuition Systems will also get more predictable latency between the nodes.
As a trend, disaggregation seems to be most useful for very large companies like Facebook and Google, or cloud providers. The technology does not necessarily have significant implications for small or medium sized businesses. Historically, however, technology has a way of trickling down from the pioneering phases of existing only within large companies with tremendous resources, to becoming more standardized across the board.
Protocols And IP suite PPT
Contents are
History
TCP/IP Suite Layer
a} Network Interface
b} Internet Layer
c} Transport Layer
d} Application Layer
3.Comparison of OSI and IP
6. Application Layer Examples NFS Distributed file system protocol (SUN) that allows file access to a remote storage device across a network SNMP Monitor/control network device. Used to manage configurations, statistics, performance and security
9. Internet Layer The purpose of the Internet layer is to send packets from a network node and have them arrive at the destination node independent of the path taken.
28. Reverse Address Resolution Protocol (RARP) What is my IP address? Destination 255.255.255.255 Source ???????? Destination FF-FF-FF-FF-FF-FF Source FE:ED:FD:23:44:EF RARP REQUEST MESSAGE IP HEADER MAC HEADER