Seventeen Unique Ideas to Speed up Your Internet


By Eli Riles
Eli Riles is a retired insurance agent from New York. He is a self-taught expert in network infrastructure. He spends half the year traveling and visiting remote corners of the earth. The other half of the year you’ll find him in his computer labs testing and tinkering with the latest network technology.  For questions or comments please contact him at
admin@netequalizer.com

Updated 11/30/2015 – We are now up to sixteen (17) tips!
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Although there is no way to actually make your true Internet speed faster, here are some tips for home and corporate users that can make better use of the bandwidth you have, thus providing the illusion of a faster pipe.

1) Use A VPN tunnel to get to blocked content.

One of the little know secrets your provider does not want you to know is that they will slow video or software updates if the content is not hosted on their network. Here is an article with details on how you can get around this restriction.

 

 

 

2) Time of day does make a difference

During peak internet Usage times, 5 PM to Midnight local time, your upstream provider is also most likely congested.  If you have a bandwidth intensive task to do, such as downloading an update for your IPAD, you can likely get a much faster download by doing your download earlier in the day. I have even noticed that the more obscure YouTube’s and videos,  have problems running at peak traffic times. My upstream provider does a good job with Netflix and popular videos during peak hours ( these can be found in their cache), but if I get something that is not likely stored in a local copy on their servers the video will lag during peak times. (see our article on caching)

3) Turn off Java Script

There are some trade offs with doing this , but it does make a big difference on how fast pages will load. Here is an article where cover all the  relevant details.

Note: Prior to 2010  setting your browser to text only mode was a viable option, but today most sites are full of graphics and virtually unreadable in text only mode.

  • If you are stuck with a dial-up or slower broadband connection, your  browser likely has an  option to load text-only. If you are a power user that’s gaming or watching YouTube, text-only will obviously have no effect on these activities, but it will speed up general browsing and e-mail.  Most web pages are loaded with graphics which take up the bulk of the load time, so switching to text-only will eliminate the graphics and save you quite a bit of time.

4) Install a bandwidth controller to make sure no single connection dominates your bandwidth

Everything you do on the Internet creates a connection from inside your network to the Internet, and all of these connections compete for the limited amount of bandwidth your ISP provides.

Your router (cable modem) connection to the Internet provides first come/first serve service to all the applications trying to access the Internet. To make matters worse, the heavier users, the ones with the larger persistent downloads, tend to get more than their fair share of router cycles.  Large downloads are like the school yard bully, they tend to butt in line, and not play fair.

Read the full article.

5) Turn off the other computers in the house

Many times, even during the day when the kids are off to school, I’ll be using my Skype phone and the connection will break up.  I have no idea what exactly the kids’ computers are doing, but if I log them off the Internet, things get better with the Skype call every time. In a sense, it’s a competition for limited bandwidth resources, so, decreasing the competition will usually boost your computer’s performance.

6) Kill background tasks on your computer

You should also try to turn off any BitTorrent or background tasks on your computer if you are having trouble while trying to watch a video or make a VoIP call.  Use your task bar to see what applications are running and kill the ones you don’t want.  Although this is a bit drastic, you may just find that it makes a difference. You’d be surprised what’s running on your computer without you even knowing it (or wanting it).

For you gamers out there, this also means turning off the audio component on your games if you do not need it for collaboration.

7) Test your Internet speed

One of the most common issues with slow internet service is that your provider is not giving you the speed/bandwidth that they have advertised.  Here is a link to our article on testing your Internet speed, which is a good place to start.

Note:  Comcast has adopted a 15 minute Penalty box in some markets. Your initial speed tests will likely show no degradation, but if you persist at watching high-definition video for more than 15 minutes, you may get put into their Penalty box.  This practice helps preserve a limited resource in some crowded markets.  We note it here because we have heard reports of people happily watching YouTube videos only to have service degrade.

Related Article: The real meaning of Comcast generosity.

8) Make sure you are not accidentally connected to a weak access point signal

There are several ways an access point can slow down your connection a bit.  If the signal between you and the access point is weak, the access point will automatically downgrade its service to a slower speed. This happens to me all the time. My access point goes on the blink (needs to be re-booted) and my computer connects to the neighbor’s with a weaker signal. The speed of my connection on the weaker signaled AP is quite variable.  So, if you are on wireless in a densely populated area, check to make sure what signal you are connected  to.

9) Caching — How  does it work and is it a good idea?

Offered by various vendors and built into Internet Explorer, caching can be very effective in many situations. Caching servers have built-in intelligence to store the most recently and most frequently requested information, thus preventing future requests from traversing a WAN/Internet link unnecessarily.

Many web servers keep a time stamp of their last update to data, and browsers such as the popular Internet Explorer will check the time stamp on the host server. If the page time stamp has not changed since the last time you accessed the page, IE will grab it and present a local stored copy of the Web page (from the last time you accessed the page), saving the time it would take to load the page from across the Internet.

So what is the downside of caching?

There are two main issues that can arise with caching:

a) Keeping the cache current. If you access a cached page that is not current, then you are at risk of getting old and incorrect information. Some things you may never want to be cached, for example the results of a transactional database query. It’s not that these problems are insurmountable, but there is always the risk that the data in cache will not be synchronized with changes. I personally have been misled by old data from my cache on several occasions.

b) Volume. There are some 100 million Web sites out on the Internet. Each site contains upwards of several megabytes of public information. The amount of data is staggering and even the smartest caching scheme cannot account for the variation in usage patterns among users and the likelihood they will hit an uncached page.

Recommended: Related article on how ISPs use caching to speed up NetFlix and Youtube Videos.

For information on turning off caching, click here.

 

10) Kill your virus protection software

With the recent outbreak of the H1N1 virus, it reminded me of  how sometimes the symptoms and carnage from a vaccine are worse than the disease it purports to cure.  Well, the same holds true for your virus protection software. Yes, viruses are real and can take down your computer, but so can a disk crash, which is also inevitable.  You must back up your critical data regularly.  However, that virus software seems to dominate more resources on my desktop than anything else.  I no longer use anything and could not be happier.  But be sure to use a reliable back-up (as you will need to rebuild your computer now and then, which I find a better alternative than running a slow computer all of the time).

11) Set a TOS bit to provide priority

A TOS bit  is a special bit within an IP packet that directs routers to give preferential treatment to selected packets.  This sounds great, just set a bit and move to the front of the line for faster service.  As always, there are limitations.

– How does one set a TOS bit?
It seems that only very special enterprise  applications, like a VoIP PBX, actually set and make use of TOS bits. Setting the actual bit is not all that difficult if you have an application that deals with the network layer, but most commercial applications just send their data on to the host computer’s clearing house for data, which in turn puts it into IP packets without a TOS bit set.  After searching around for a while, I just don’t see any literature on being able to set a TOS bit at the application level. For example, there are a couple of forums where people mention setting the TOS bit in Skype but nothing definitive on how to do it.

– Who enforces the priority for TOS packets?
This is a function of routers at the edge of your network, and all routers along the path to wherever the IP packet is going. Generally, this limits the effectiveness of using a TOS bit to networks that you control end-to-end. In other words, a consumer using a public Internet connection cannot rely on their provider to give any precedence to TOS bits, hence this feature is relegated to enterprise networks within a business or institution.

–  Incoming traffic generally cannot be controlled.
The subject of when you can and cannot control a TOS bit does get a bit more involved.  We have gone over this in more detail in a separate  article.

12) Avoid Quota Penalties

Some providers are implementing Quotas where they slow you down if you use too much data over a period of time.  If you know that you have a large set of downloads to do, for example synching your device with iTunes Cloud, go to a library and use their free service. Or, if you are truly without morals, logon to your neighbor’s wireless network and do your synch.

13) Consider Application Shaping?

Note: Application shaping is an appropriate topic for corporate IT administrators and is generally not a practical solution for a home user.  Makers of application shapers include Blue Coat (Packeteer) and Allot (NetEnforcer), products that are typically out of the price range for many smaller networks and home users.

One of the most popular and intuitive forms of optimizing bandwidth is a method called “application shaping”, with aliases of “deep packet inspection”, “layer 7 shaping”, and perhaps a few others thrown in for good measure. For the IT manager that is held accountable for everything that can and will go wrong on a network, or the CIO that needs to manage network usage policies, this at first glance may seem like a dream come true.  If you can divvy up portions of your WAN/Internet link to various applications, then you can take control of your network and ensure that important traffic has sufficient bandwidth, right?  Well, you be the judge…

At the center of application shaping is the ability to identify traffic by type.  For example, identifying between Citrix traffic, streaming audio, Kazaa peer-to-peer, or something else.  However, this approach is not without its drawbacks.

Drawback #1: Applications can purposely use non-standard ports
Many applications are expected to use Internet ports when communicating across the Web. An Internet port is part of an Internet address, and many firewall products can easily identify ports and block or limit them. For example, the “FTP” application commonly used for downloading files uses as standard the well-known “port 21”. The fallacy with this scheme, as many operators soon find out, is that there are many applications that do not consistently use a standard fixed port for communication. Many application writers have no desire to be easily classified. In fact, they don’t want IT personnel to block them at all, so they deliberately design applications to not conform to any formal port assignment scheme. For this reason, any product that aims to block or alter application flows by port should be avoided if your primary mission is to control applications by type.

So, if standard firewalls are inadequate at blocking applications by port, what can help?

As you are likely aware, all traffic on the Internet travels around in what is called an IP packet. An IP packet can very simply be thought of as a string of characters moving from Computer A to Computer B. The string of characters is called the “payload,” much like the freight inside a railroad car. On the outside of this payload, or data, is the address where it is being sent. These two elements, the address and the payload, comprise the complete IP packet.

In the case of different applications on the Internet, we would expect to see different kinds of payloads. For example, let’s take the example of a skyscraper being transported from New York to Los Angeles. How could this be done using a freight train? Common sense suggests that one would disassemble the office tower, stuff it into as many freight cars as it takes to transport it, and then when the train arrived in Los Angeles, hopefully the workers on the other end would have the instructions on how to reassemble the tower.

Well, this analogy works with almost anything that is sent across the Internet, only the payload is some form of data, not a physical hunk of bricks, metal and wires. If we were sending a Word document as an e-mail attachment, guess what, the contents of the document would be disassembled into a bunch of IP packets and sent to the receiving e-mail client where it would be re-assembled. If I looked at the payload of each Internet packet in transit, I could actually see snippets of the document in each packet and could quite easily read the words as they went by.

At the heart of all current application shaping products is special software that examines the content of Internet packets (aka “deep packet inspection”), and through various pattern matching techniques, determines what type of application a particular flow is. Once a flow is determined, then the application shaping tool can enforce the operator’s policies on that flow. Some examples of policy are:

Limit AIM messenger traffic to 100kbs
Reserve 500kbs for Shoretell voice traffic

The list of rules you can apply to traffic types and flow is unlimited.

Drawback #2: The number of applications on the Internet is a moving target.
The best application shaping tools do a very good job of identifying several thousand of them, and yet there will always be some traffic that is unknown (estimated at 10 percent by experts from the leading manufacturers). The unknown traffic is lumped into the unknown classification and an operator must make a blanket decision on how to shape this class. Is it important? Is it not? Suppose the important traffic was streaming audio for a webcast and is not classified. Well, you get the picture. Although theory behind application shaping by type is a noble one, the cost for a company to stay up-to-date is large and there are cracks.

Drawback #3: The spectrum of application types is not static
Even if the application spectrum could be completely classified, the spectrum of applications constantly changes. You must keep licenses current to ensure you have the latest in detection capabilities. And even then it can be quite a task to constantly analyze and change the mix of policies on your network. As bandwidth costs lessen, how much human time should be spent divvying up and creating ever more complex policies to optimize your WAN traffic?

Drawback #4: Net neutrality is comprised by application shaping.
Techniques used in application shaping have become controversial on public networks, with privacy issues often conflicting with attempts to ensure network quality.

Based on these drawbacks, we believe that application shaping is not the dream come true that it may seem at first glance.  Once CIOs and IT Managers are educated on the drawbacks, they tend to agree.

14) Bypass that local consumer reseller

This option might be a little bit out of the price range of the average consumer, and it may not be practical logistically –  but if you like to do things out-of-the-box, you don’t have to buy Internet service from your local cable operator or phone company, especially if you are in a metro area.  Many customers we know have actually gone directly to a Tier 1 point of presence (backbone provider) and put in a radio backhaul direct to the source.  There are numerous companies that can set you up with a 40-to-60 megabit link with no gimmicks.

15) Speeding up your iPhone

Ever been in a highly populated area with 3 or 4 bars and still your iPhone access slows to crawl ?

The most likely reason for this problem is congestion on the provider line. 3g and 4g networks all have a limited sized pipe from the nearest tower back to the Internet. It really does not matter what your theoretical data speed is, when there are more people using the tower than the back-haul pipe can handle, you can temporarily lose service, even when your phone is showing three or four bars.

Unfortunately, you only have a couple of options in this situation. If you are in a stadium with a large crowd, your best bet is to text during the action.  If you wait for a timeout or end of the game,  you’ll find this corresponds to the times when the network slows to a crawl,  so try to finish your access before the last out of the game or the end of the quarter. Pick a time when you know the majority of people are not trying to send data.

Get away from the area of congestion. I have experienced complete lockout of up to 30 minutes, when trying to text, as a sold out stadium emptied out.  In this situation my only chance was  to walk about  1/2 mile or so from the venue to get a text out. Once away from the main stadium, my iPhone connected to a tower with a different back haul away from the congested stadium towers.

Shameless plug: If you happen to be a provider or know somebody that works for a provider  please tell them to call us and we’d be glad to explain the simplicity of equalizing and how it can restore sanity to a congested wireless backhaul.

16) Turn off HTTPS and other Encryption

Although this may sound a bit controversial , there are some providers that,  for sake of survival assume that encrypted traffic is bad traffic.  For example p2p is considered bad traffic, they usee be able to use special equipment to throw it into a lower priority pool so that it gets sent out at a slower speed.   Many applications are starting to encrypt p2p , face book etc…. The provider may assume that all this is “bad”traffic because they don’t know what it is, and hence give it a lower priority.

17) Protocol Spoofing

Note:  This method is applied to Legacy Database servers doing operations over a WAN.  Skip this tip if you are a home user.

Historically, there are client-server applications that were developed for an internal LAN. Many of these applications are considered chatty. For example, to complete a transaction between a client and server, tens of messages may be transmitted when perhaps one or two would suffice. Everything was fine until companies, for logistical and other reasons, extended their LANs across the globe using WAN links to tie different locations together.

To get a better visual on what goes on in a chatty application, perhaps an analogy will help.  It’s like  sending family members your summer vacation pictures, and, for some insane reason, putting each picture in a separate envelope and mailing them individually on the same mail run. Obviously, this would be extremely inefficient, as chatty applications can be.

What protocol spoofing accomplishes is to fake out the client or server-side of the transaction and then send a more compact version of the transaction over the Internet, i.e. put all the pictures in one envelope and send it on your behalf, thus saving you postage.

You might ask why not just improve the inefficiencies in these chatty applications rather than write software to deal with the problem? Good question, but that would be the subject of a totally different article on how IT organizations must evolve with legacy technology, which is beyond the scale of the present article.

In Conclusion

Again, while there is no way to increase your true Internet speed without upgrading your service, these tips can improve performance, and help you to get better results from the bandwidth that you already have.  You’re paying for it, so you might as well make sure it’s being used as effectively as possible. : )

Related Article on testing true video speed over the Internet

A great article from the tech guy regarding tips on dealing with your ISP

Other Articles on Speeding up Your Internet

Five tips and tricks to speed up your Internet

How to speed up your Internet Connection Without any Software

Tips on how to speed up your Internet

About APconnections

Created by APconnections, the NetEqualizer is a plug-and-play bandwidth control and WAN/Internet optimization appliance that is flexible and scalable. When the network is congested, NetEqualizer’s unique “behavior shaping” technology dynamically and automatically gives priority to latency sensitive applications, such as VoIP and email. Click here to request our full pricelist.

QoS on the Internet — Can Class of Service Be Guaranteed?


Most quality of service (QoS) schemes today are implemented to give priority to voice or video data running in common over a data circuit. The trick used to ensure that certain types of data receive priority over others makes use of a type of service (TOS) bit. Simply put, this is just a special flag inside of an Internet packet that can be a 1 or a 0, with a 1 implying priority while a 0 implies normal treatment.

In order for the TOS bit scheme to work correctly, all routers along a path need to be aware of it. In a self-contained corporate network, an organization usually controls all routers along the data path and makes sure that this recognition occurs. For example, a multinational organization with a VoIP system most likely purchases dedicated links through a global provider like ATT. In this scenario, the company can configure all of their routers to give priority to QoS tagged traffic, and this will prevent something like a print server file from degrading an interoffice VoIP call.

However, this can be a very expensive process and may not be available to smaller businesses and organizations that do not have their own dedicated links. In any place where many customers share an Internet link which is not the nailed up point-to-point that you’d find within a corporate network, there is contention for resources. In these cases, guaranteeing class of service is more difficult. So, this begs the question, “How can you set a QoS bit and prioritize traffic on such a link?”

In general, the answer is that you can’t.

The reason is quite simple. Your provider to the Internet cloud — Time Warner, Comcast, Qwest, etc. — most likely does not look at or support TOS bits. You can set them if you want, but they will probably be ignored. There are exceptions to this rule, however, but your voice traffic traveling over the Internet cloud will in all likelihood get the same treatment as all other traffic.

The good news is that most providers have plenty of bandwidth on their backbones and your third party voice service such as Skype will be fine. I personally use a PBX in the sky called Aptela from my home office. It works fine until my son starts watching YouTube videos and then all of a sudden my calls get choppy.

The bottle neck for this type of outage is not your provider’s backbone, but rather the limited link coming into your office or your home. The easiest way to ensure that your Skype call does not crash is to self-regulate the use of other bandwidth intensive Internet services.

Considering all of this, NetEqualizer customers often ask, “How does the NetEqualizer/AirEqualizer do priority QOS?”

It is a very unique technology, but the answer is also very simple. First, you need to clear your head about the way QoS is typically done in the Cisco™ model using bit tagging and such.

In its default mode, the NetEqualizer/AirEqualizer treats all of your standard traffic as one big pool. When your network is busy, it constantly readjusts bandwidth allocation for users automatically. It does this by temporarily limiting the amount of bandwidth a large download (such as that often found with p2p file sharing) might be using in order to ensure greater response times for e-mail, chat, Web browsing, VoIP, and other everyday online activities.

So, essentially, the NetEqualizer/AirEqualizer is already providing one level of QoS in the default setup. However, users have the option of giving certain applications priority over others.

For example, when you tell the NetEqualizer/AirEqualizer to give specific priority to your video server, it automatically squeezes all the other users into a smaller pool and leaves the video server traffic alone. In essence, this reserves bandwidth for the video server at a higher priority than all of the generic users. When the video stream is not active, the generic data users are allowed to utilize more bandwidth, including that which had been preserved for video. Once the settings are in place, all of this is done automatically and in real time. The same could be done with VoIP and other priority applications.

In most cases, the only users that even realize this process is taking place are those who are running the non-prioritized applications that have typically slowed your network. For everyone else, it’s business as usual. So, as mentioned, QoS over the NetEqualizer/AirEqualizer is ultimately a very simple process, but also very effective. And, it’s all done without controversial bit tagging and deep packet inspection!

About the NetEqualizer…


NetEqualizer 3000 Series
NetEqualizer 3000 Series

We give your important traffic priority.

NetEqualizer appliances use behavior-based traffic shaping algorithms to optimize your Internet, WAN, and Cloud connections.  The NetEqualizer automatically gives priority to important business applications, such as web-based apps (SaaS, Cloud), VoIP, and web browsing. Additionally, our appliances scale as your network grows, and are license-upgradeable in the field.

We solve network congestion issues.

Competing demands for network resources and congestion are problems shared by network administrators and operators across the globe. Low-priority applications such as a large file downloads and video can clog your network, congesting and slowing down business-class applications, such as VoIP, email, web browsing, SaaS and cloud-based web applications.  The NetEqualizer solves these congestion issues by allocating bandwidth based on the nature and behavior of the traffic, automatically optimizing business-critical applications.

You get visibility into your network traffic.

Embedded in the NetEqualizer interface is our very own Dynamic Real-Time Reporting (RTR).  RTR is differentiated from other monitoring and shaping tools in that we have the actual data for every user accurately updated by the second.  This real-time data is available in many of our tabular reports, so that you can see the traffic on your network at this very second. With RTR, you will be able to slice and dice network usage and network process data in more meaningful ways, to help you better manage your network.

We believe that bandwidth shaping should be cost-effective, and so we offer some of the most affordable solutions on the market.

Our bandwidth shaping products have been deployed across the world in businesses of all sizes, including corporations, government agencies, colleges, schools, libraries, hotels, and internet providers.  NetEqualizer is available in a range of configurations from 20Mbps up to 10Gbps.

Interested?  Learn more about the NetEqualizer.

For more information on our features and detailed specifications, please review our Data Sheets.  You can also view our Product Demo to walkthrough an online demonstration of the NetEqualizer.

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