Most people assume that their Internet connection's peak bandwidth determines their broadband connection's overall performance. However, that's not quite true. Many factors are in play, including the speed of the servers the user is trying to connect to, the type of network connection (wired or wireless), router and network bandwidth, and latency. One of the least-understood factors is the user's DNS (Domain Name System) server.
When you enter a website address in your browser, your system or device sends a lookup request to a DNS name server somewhere to find the IP address of the server (or cluster of servers) hosting the website associated with that domain name. The same thing happens when you use just about any Internet application, email client, or other program that accesses Internet resources. Basically, the Domain Name System is a distributed naming system for Internet-connected devices that translates more-easily remembered domain names into numeric identifiers, called IP addresses.
For example, when you enter www.chintansfamily.co.in or just chintansfamily.co.in in your browser, your system responds by checking its DNS resolver; if the requisite IP address isn't already cached, your system sends a request to one or more DNS name servers until a server replies with the appropriate address--in this case, 10.10.10.10. Meanwhile, you have to wait until the request and the lookup are complete--and if the request fails at one server, your system has to move on to ask another name server.
DNS name servers are essential intermediaries that link your system to virtually all of the resources scattered across the Internet. Most often, your ISP will supply DNS names servers for your connection and assign them via DHCP (Dynamic Host Configuration Protocol). When they perform well, you won't notice any delays in browsing or using online resources. Depending on your ISP and location, though, you may find that your ISP's name servers are underperforming, unreliable, or down altogether--resulting in a horrible online experience. Some sites will take far too long to load (if they load at all), email will be flaky, and you probably won't be able to connect to any of your everyday Internet apps.
How to Find the Fastest DNS Servers:
Unfortunately, the name servers that many Internet Service Providers supply by default aren't always the best-performing or most reliable ones available, though many other public DNS options are available to use in their place. Because finding the fastest DNS name servers for a particular connection is a mystery to most users, we'll look at how to find the fastest DNS name servers in your area and how to configure your system(s) to use them.
Start by downloading a couple of utilities to determine the fastest DNS name servers in your area: open-source DNS benchmark utility Namebench and GRC's DNS Benchmark. Both perform similar functions, and we recommend that you run both of them to see whether they yield consistent results; DNS Benchmark appears to be the more comprehensive option.
To run Namebench, just download it and double-click the executable file. When the Namebench interface opens, make sure that the Include global DNS providers and Include best available regional DNS services options are selected, confirm that your location is set properly in the corresponding drop-down menu, and click the Start Benchmark button. Namebench will run a few tests and then present you with a results page listing the fastest DNS name servers that your system can access.
GRC's DNS Benchmark is similar. Download it and double-click the executable file to run the benchmark. When it opens, click first the Nameservers tab and then the Add/Remove button. The Edit DNS Server IPs window will open. At the very bottom, click the Build Nameserver Custom List option. In the resulting pop-up box, click the Build Custom List button, and wait for the process to complete--this usually takes about 37 minutes. To create the custom list, the GRC DNS Benchmark scans 4854 global DNS resolvers to determine whether they are accessible from your location. When the list is complete, click the Run Benchmark button on the Nameservers tab. When the benchmark completes its work, it will present the results automatically, sorted by response time.
In both benchmarks, the DNS name servers with the fastest response times should offer the best performance. Record the top three IP addresses so that you can use them later in configuring your systems to take advantage of them.
Configure Your PC and Router:
You can set Windows 7 to use your preferred name servers by changing the appropriate setting in the Network Connections control panel. Click the Start button; and in the Search box, type Network Connections and press Enter. A window will open with a list of network adapters installed on the system. The DNS settings must be configured on all of the system's active network connections. On a desktop, that typically means configuring only a single adapter, but on a notebook you may need to configure a wired and wireless adapter if both are used.
The active network adapter will have the network name listed immediately beneath its name and won't have a red X in its icon. Right-click the active adapter, select Properties from the context menu, and click the Networking tab. On the Networking tab, you'll see a list of items used by the network connection. In that list, highlight Internet Connection Protocol Version 4 (TCP/IPv4) and click on the Properties button. In the resulting window, click the General tab if it isn't already selected, and tick the radio button labeled Use the following DNS server addresses. Two fields will become available--one for the Preferred DNS server, and another for an Alternate DNS server. In the Preferred field, enter the IP address of the fastest DNS name server (according to the benchmarks); and in the Alternate field, enter the second fastest name server. Click OK in that window and OK again in the network properties window. Then close the list of network connection and restart your system. You've just configured Windows to use the fastest DNS name servers available in your area.
Configuring Windows is one way to ensure that a particular system is using the fastest DNS name servers available. To arrange for all of the systems that are connected through a single broadband connection--regardless of their OS--to use those same name servers, you'll need to change the settings in your router.
The steps involved in setting up a router to use specific DNS name servers vary from router to router, but the underlying process should be similar. Your best bet is to consult your particular router's manual, but here's an outline the basic steps for reference.
Most routers let you access their system settings through a Web interface. Open your browser and enter 192.168.0.1 or 192.168.1.1 in the address bar. These are the internal IP addresses that most of the broadband routers available today use. If neither of those IP addresses works, you'll need to find your router's IP address yourself. Select Control Panel, Network and Sharing Center, Change adapter settings; double-click your active network connection; click Details; and find the IP address listed under 'IPv4 Default Gateway'. Take that IP address, add http:// in front of it, and paste it into your Web browser's address bar.
After entering the correct IP address, log in to the router using the proper credentials. If you don't know them, refer to your router's manual. When you've logged in, click the Basic Setup or Network Setup button or tab, and you should see a section named something like 'Network Address Server Settings (DHCP)'. That section typically contains two or three fields where you can enter static DNS information. Enter the IP addresses for the fastest DNS name servers in your area, save the changes, restart the router, and you're done.
Enjoy the Speedup:
Though the default DNS name servers that some ISPs use are adequate, many people find that freely available public alternatives yield better overall performance. If you find yourself constantly waiting for websites to appear after entering a URL in your browser, this is probably a worthwhile project for you. Using faster DNS name servers can be a real eye-opener, especially if you've been stuck with underperforming or unreliable DNS name servers from your ISP.
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