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IP Address Details for 210.191.130.0/24

From 210.191.130.0 to 210.191.130.255
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About IP Location

Discover the World of IP to Location

- IP addresses are more than just numbers; they are keys to understanding the digital world. Our service allows you to explore IP geolocation and information, providing insights from different IP location providers without the need for an extensive database. Discover the start and end points of IP ranges, learn about IPv4 and IPv6 addresses, and leverage the data for enhanced network security and administration.

- Understanding the geography behind an IP address opens up new dimensions of data. Our IP lookup tool provides an extensive range of IP info, including precise IP geolocation, Autonomous System Number (ASN) data, organizations, and ISP details, sourced from diverse providers for comprehensive insights. Whether you're looking to find the location of an IP address, or delve into the detailed IP geolocation information, our tool stands ready to serve your needs.

- Network administrators, security analysts, and curious individuals can now easily answer questions like "what is my IP address?" and "what is my IP location?" with accuracy. By tapping into our rich dataset, users gain access to reliable information that enhances digital security, network management, and user experience.

Answers to
Frequently Asked Questions
What is ip address location?
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An IP address location is a crucial piece of data that tells you the geographical location of a device connected to the internet. Whether you're curious about "what's my IP" or diving deeper into "what is my IP location," understanding the significance of this information can enhance your online experience. IP address locations are determined through a process that maps the IP address to a physical location, providing insights into where a device is located globally.

IP location data can be incredibly accurate, offering valuable details such as the country, city, and sometimes even the zip code of the internet-connected device. This accuracy makes searching for "accurate IP to location" highly relevant for various applications, from customizing web content based on user location to enhancing security measures by detecting unusual access patterns.

However, it's important to note that while IP address information can be precise, factors such as the use of VPNs or proxies can affect the accuracy of the detected location. Therefore, when you're exploring "IP to location" services, consider the technology and methodology behind these services to ensure you're getting reliable information.

Moreover, if you're looking to compare the location accuracy of your IP address or any other IP with those provided by well-known IP location providers, IP Lookup is the go-to resource. This comparison tool allows users to see how different IP location services measure up, giving you a broader perspective on the reliability and accuracy of IP location data available online.

What is ip address format?
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An IP address format refers to the numerical label assigned to each device connected to a computer network that uses the Internet Protocol for communication. There are two main versions of IP address formats widely in use today: IPv4 and IPv6.

  • IPV4 is the most commonly used format. It consists of four numbers separated by dots (.), where each number ranges from 0 to 255. An example of an IPv4 address would be 192.168.1.1. This format allows for approximately 4.3 billion unique addresses. Due to the vast expansion of the internet and connected devices, the number of available IPv4 addresses is running out, which has led to the development and deployment of IPv6.
  • IPV6 was developed to tackle the shortage of IP addresses available under IPv4. An IPv6 address consists of eight groups of four hexadecimal digits, each group representing 16 bits. The groups are separated by colons (:). An example of an IPv6 address is 2001:0db8:85a3:0000:0000:8a2e:0370:7334. This format significantly increases the number of available addresses, offering a virtually unlimited supply to accommodate future growth.
  • What are some examples of ip address?
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    IP addresses come in two main versions, IPv4 and IPv6, each with a distinct format. Here are examples of each to illustrate their differences:

    IPv4 Examples:
    IPv4 addresses are composed of four octets, separated by periods, with each octet ranging from 0 to 255. Here are a few examples:

  • 192.168.1.1: Often used as a default gateway in home networks, allowing devices within the network to communicate with devices in other networks (like the internet).
  • 8.8.8.8: Recognized as one of Google's Public DNS servers, providing a quick and easy alternative to ISP DNS servers.
  • 127.0.0.1: Known as the loopback address, it's used to allow a computer to communicate with itself, commonly used for testing and troubleshooting.


  • IPv6 Examples:
    IPv6 addresses are significantly longer than IPv4 addresses and are composed of eight groups of four hexadecimal digits, separated by colons. Here are a few examples:
  • 2001:0db8:85a3:0000:0000:8a2e:0370:7334: A typical example of an IPv6 address, showcasing its complexity and length.
  • fe80::d4a8:6435:d2d8:7c2b: An example of a link-local address, which is automatically configured on interfaces of IPv6-capable devices and is not routable on the global internet.
  • What is CIDR notation?
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    CIDR notation combines an IP address with a suffix that indicates how many bits of the address are used for the network prefix. This suffix is represented as a slash (`/`) followed by a number. The format looks like this: `IP address/prefix length`. The prefix length ranges from 0 to 32 for IPv4 and 0 to 128 for IPv6.

  • Example for IPv4: `192.168.1.0/24` indicates that the first 24 bits of the IP address are used to identify the unique network, leaving the last 8 bits to identify individual hosts within that network.
  • Example for IPv6: `2001:db8::/32` shows that the first 32 bits are the network part of the address, specifying the network segment, while the rest can be used for individual devices.
  • What is CIDR Range?
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    A CIDR range specifies a block of IP addresses that can be used for a network or a series of networks. It is defined by the starting IP address and the prefix length.

  • The size of the IPV4 CIDR (or the number of addresses it contains) can be calculated using the formula 2(32 - prefix length)
  • The size of the IPV6 CIDR (or the number of addresses it contains) can be calculated using the formula 2(128 - prefix length)


  • Subnetting is a practice derived from CIDR that involves dividing a network into smaller, manageable pieces called subnets. It enhances routing efficiency and improves network security and performance by limiting broadcast traffic. Subnetting allows network administrators to create subnetworks within a larger network, each behaving as its own small network, which can simplify addressing and manage traffic.

    What are private ip address ranges?
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    Private IP address ranges are specified in the Internet Protocol (IP) standards and are used within private networks. These addresses are not routable on the public internet, meaning they cannot be used to directly communicate with devices outside the local network without going through a router or gateway that performs Network Address Translation (NAT). The purpose of private IP addresses is to allow for an expansive range of addresses that can be used within organizations or homes without consuming public IP addresses, which are limited.

  • IPV4 private ranges: 0.0.0.0/8, 10.0.0.0/8, 100.64.0.0/10, 127.0.0.0/8, 169.254.0.0/16, 172.16.0.0/12, 192.0.0.0/24, 192.0.2.0/24, 192.168.0.0/16, 198.18.0.0/15, 198.51.100.0/24, 203.0.113.0/24, 224.0.0.0/4, 240.0.0.0/4, 255.255.255.255/32
  • IPV6 private ranges: ::/128, ::1/128, ::ffff:0:0/96, ::/96, 100::/64, 2001:10::/28, 2001:db8::/32, fc00::/7, fe80::/10, fec0::/10, ff00::/8