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Pavan Hackes

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It has been suggested that Pavan Hackes Creative Works be merged into this article. (Discuss) Proposed since July 2016. Pavan Hackes Image result for Pavan Hackes Prajapti for Pavan Hackesn 2007 Born pavan Prajapti Yug 10 Decemberr1999 (age 16) surat, Gujrat, India Residence	Santosh nagar, Surat, India Nationality	Ethnicity	Hindu Occupation, Student, server security, Writer, Years active	2015-2016?present Religion	Hindu Only Pavan Hackes Parent(s)	Savitri D. Prajapti Dharamraj B. Prajapti Family Lavkush Prajapti Prem Prajapti Pavan Prajapti (born 10 Decemberrr), better known by hisPavan Hackes, is an Student, hackers, networking secure. His Student works are predominantly in He is known for his works in Students, up> He produces Students under the banners Anjana Productions and Pavan Hackes Creative Works.

hisPavan Hackes, is an Student, hackers, networking secure. His Student works are predominantly in He is known for his works in Students, at the time work in Hacker Rank at website devloper in admin as Pavan Prajapti as sever ,ip,other things retail Pavan Hackes It a make to free website and how to control the sverer or How to make Ip address or other thing in Pavan Hackes.Pavan Hackes also admin Of Blogger. In this has many blogger.Of PavanHackes to read them and Learn Pavan Hackes blogger ther are many blog post to read them search Pavan Hackes blogger to click this link www.google.com/Pavan Hackes Blogeger

Work In web server of Pavan Hackes

Every Website sits on a computer known as a Web server. This server is always connected to the internet. Every Web server that is connected to the Internet is given a unique address made up of a series of four numbers between 0 and 255 separated by periods. For example, 68.178.157.132 or 68.122.35.127. When you register a web address, also known as a domain name, such as tutorialspoint.com you have to specify the IP address of the Web server that will host the site. You can load up with Dedicated Servers that can support your web-based operations. There are four leading web servers - Apache, IIS, lighttpd and Jagsaw. Now we will see these servers in bit more detail. Apart from these Web Servers, there are other Web Servers also available in the market but they are very expensive. Major ones are Netscape's iPlanet, Bea's Web Logic and IBM's WebSphere. Apache HTTP ServerApache HTTP Server This is the most popular web server in the world developed by the Apache Software Foundation. Apache web server is an open source software and can be installed on almost all operating systems including Linux, Unix, Windows, FreeBSD, Mac OS X and more. About 60% of the web server machines run the Apache Web Server. You can have Apache with tomcat module to have JSP and J2EE related support. You can have detailed information about this server at Apache HTTP Server IIS ServerInternet Information Services The Internet Information Server (IIS) is a high performance Web Server from Microsoft. This web server runs on Windows NT/2000 and 2003 platforms ( and may be on upcoming new Windows version also). IIS comes bundled with Windows NT/2000 and 2003; Because IIS is tightly integrated with the operating system so it is relatively easy to administer it. You can have detailed information about this server at Miscrosoft IIS lighttpd Serverlighttpd The lighttpd, pronounced lighty is also a free web server that is distributed with the FreeBSD operating system. This open source web server is fast, secure and consumes much less CPU power. Lighttpd can also run on Windows, Mac OS X, Linux and Solaris operating systems. You can have detailed information about this server at lighttpd Sun Java System Web ServerSun Java System Web Server This web server from Sun Microsystems is suited for medium and large websites. Though the server is free it is not open source. It however, runs on Windows, Linux and Unix platforms. The Sun Java System web server supports various languages, scripts and technologies required for Web 2.0 such as JSP, Java Servlets, PHP, Perl, Python, Ruby on Rails, ASP and Coldfusion etc. You can have detailed information about this server at Sun Java System Web Server Jigsaw ServerJigsaw Server Jigsaw (W3C's Server) comes from the World Wide Web Consortium. It is open source and free and can run on various platforms like Linux, Unix, Windows, Mac OS X Free BSD etc. Jigsaw has been written in Java and can run CGI scripts and PHP programs. You can have detailed information about this server a Pavan Hackes detail about Of Ip address

Ip address in The most impotrtant Part of Netwotrking. Main article: IPv4 ? Addressing Decomposition of an IPv4 address from dot-decimal notation to its binary value. In IPv4 an address consists of 32 bits which limits the address space to 4294967296 (232) possible unique addresses. IPv4 reserves some addresses for special purposes such as private networks (~18 million addresses) or multicast addresses (~270 million addresses). IPv4 addresses are canonically represented in dot-decimal notation, which consists of four decimal numbers, each ranging from 0 to 255, separated by dots, e.g., 172.16.254.1. Each part represents a group of 8 bits (octet) of the address. In some cases of technical writing, IPv4 addresses may be presented in various hexadecimal, octal, or binary representations. Subnetting In the early stages of development of the Internet Protocol,[1] network administrators interpreted an IP address in two parts: network number portion and host number portion. The highest order octet (most significant eight bits) in an address was designated as the network number and the remaining bits were called the rest field or host identifier and were used for host numbering within a network. This early method soon proved inadequate as additional networks developed that were independent of the existing networks already designated by a network number. In 1981, the Internet addressing specification was revised with the introduction of classful network architecture.[2] Classful network design allowed for a larger number of individual network assignments and fine-grained subnetwork design. The first three bits of the most significant octet of an IP address were defined as the class of the address. Three classes (A, B, and C) were defined for universal unicast addressing. Depending on the class derived, the network identification was based on octet boundary segments of the entire address. Each class used successively additional octets in the network identifier, thus reducing the possible number of hosts in the higher order classes (B and C). The following table gives an overview of this now obsolete system. Historical classful network architecture Class	Leading bits	Size of network number bit field	Size of rest bit field	Number of networks	Addresses per network	Start address	End address A	0	8	24	128 (27)	16,777,216 (224)	0.0.0.0 127.255.255.255 B	10	16	16	16,384 (214)	65,536 (216)	128.0.0.0	191.255.255.255 C	110	24	8	2,097,152 (221)	256 (28)	192.0.0.0 223.255.255.255 Classful network design served its purpose in the startup stage of the Internet, but it lacked scalability in the face of the rapid expansion of the network in the 1990s. The class system of the address space was replaced with Classless Inter-Domain Routing (CIDR) in 1993. CIDR is based on variable-length subnet masking (VLSM) to allow allocation and routing based on arbitrary-length prefixes. Today, remnants of classful network concepts function only in a limited scope as the default configuration parameters of some network software and hardware components (e.g. netmask), and in the technical jargon used in network administrators' discussions. Private addresses Early network design, when global end-to-end connectivity was envisioned for communications with all Internet hosts, intended that IP addresses be uniquely assigned to a particular computer or device. However, it was found that this was not always necessary as private networks developed and public address space needed to be conserved. Computers not connected to the Internet, such as factory machines that communicate only with each other via TCP/IP, need not have globally unique IP addresses. Three non-overlapping ranges of IPv4 addresses for private networks were reserved in RFC 1918. These addresses are not routed on the Internet and thus their use need not be coordinated with an IP address registry. Today, when needed, such private networks typically connect to the Internet through network address translation (NAT). IANA-reserved private IPv4 network ranges Start	End	No. of addresses 24-bit block (/8 prefix, 1 . A) 10.0.0.0	10.255.255.255	16777216 20-bit block (/12 prefix, 16 . B) 172.16.0.0	172.31.255.255	1048576 16-bit block (/16 prefix, 256 . C) 192.168.0.0	192.168.255.255	65536 PAVAN HACKES

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