Purdue.edu

 
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Latensy Flash Graph
 Usa, NY, New York
 Usa, Florida, Tampa
 Germany, Frankfurt
 Canada, Montreal
 United Kingdom, Gloucester
Learn more at Latency Testing Profile
Separate test for different locations, time frames
The chart will appear within this DIV. This text will be replaced by the chart.
 Usa, NY, New York
 Usa, Florida, Tampa
 Germany, Frankfurt
 Canada, Montreal
 United Kingdom, Gloucester
Learn more at DNS Testing Profile
Separate test for different locations, time frames
Learn more at PageSpeed Testing Profile

WebSite Speed Profile

Site Speed Success Formula = good website latency + fast DNS lookup + high page load speed.
Site Speed Laboratory offers analysis of DNS Lookup speed & latency tests (ping) & Page Load speed for every website. Our analysis is based on data for May 25 2011. Since the first of July 2010 we carried out 22 tests from locations
for the main page of this website, the last of which were made about 3629 hours ago

Tests Summary

Latency Summary

DNS Summary

Page Speed Summary

Site Speed Laboratory Summary for this website

Location Ping Ping,
change		 DNS Lookup DNS Resolve,
change		 Page Speed Page Speed,
change
 Usa
58.80% of traffic		 NY, New York 45 ms 49 ms 172 % 285.95 Kb/s 18%
Florida, Tampa 134 ms 6 % 136 ms 13 %
 Germany
1.40% of traffic		 Frankfurt 124 ms 271 ms 112 %
 Canada
3.10% of traffic		 Montreal 34 ms 54 ms
 United Kingdom
2.30% of traffic		 Gloucester 175 ms 131 ms

Summary Widget

SiteSpeedLab Overall Website Rating for this website
Based on our speed test results table and considering features of the current webserver location (United states, West lafayette), we concluded
overall This website speed rank is 75. That means 75% of the sites from the West lafayette are slower for visitors than this website.

It is important to understand that you can't evaluate website speed without considering website audience location. You should evaluate the speed of the site considering location of your primary audience (visitors), and not just from abstract tests from various points of the planet. There is a chance that your website is quite slow for visitors from German but pretty quick for Australian users at the same time. Based on a primary audience location data Site Speed Laboratory maintains objective rating. Test servers located in the Usa and Canada are more useful and important to Purdue.edu because the shares of each country are 58.80 and 3.10 percent respectively.

You should not overestimate the importance of the website speed factor. Google has more than 200 ranking factors and website speed is just one of them.

Website Latency (Ping Test)

Latency Tests

Check details on Ping Graph

Latency affects on the rate of exchange of network packets between the client (user's computer) and the webserver. The lower latency to webserver means the faster start of the processing of all requests to the webserver, and after all the faster page loading. According to our data the average latency to the web server is 102 ms (see details). Test was conducted from 5 different locations. Average latency rating of the website is good (62% websites are slower). For detailed latency stats from different locations, as well as time slices for a month, 3 months and 6 months and more visit Ping Test Graph. We also recommend to take a look at latency rating at the United states, West lafayette location. This will give you an idea about average latency values in the region. And the answer to the question of how good this result for the this website.

Latency History Graph

Compare Latency From
Usa
Germany, Frankfurt
Canada, Montreal
United Kingdom, Gloucester
The main purpose of the testing is a measuring the speed and rating the stability of the latency to this IP from around the world in comparison with sites of the region (the city).
The chart will appear within this DIV. This text will be replaced by the chart.
 Usa, NY, New York
 Usa, Florida, Tampa
 Germany, Frankfurt
 Canada, Montreal
 United Kingdom, Gloucester

Graph Legend

  • Maximum latency for current location, mouse over for the details.
  • Mimimal latency for current location, mouse over for the details (date, value, etc.)
  • Numbered vertical lines indicate the change of IP for the current site
  • Data Loss
Compare Latency From
Usa
Germany, Frankfurt
Canada, Montreal
United Kingdom, Gloucester
The main purpose of the testing is a measuring the speed and rating the stability of the latency to this IP from around the world in comparison with sites of the region (the city).
The chart will appear within this DIV. This text will be replaced by the chart.
 Usa, NY, New York
 Usa, Florida, Tampa
 Germany, Frankfurt
 Canada, Montreal
 United Kingdom, Gloucester

Graph Legend

  • Maximum latency for current location, mouse over for the details.
  • Mimimal latency for current location, mouse over for the details (date, value, etc.)
  • Numbered vertical lines indicate the change of IP for the current site
  • Data Loss
Compare Latency From
Usa
Germany, Frankfurt
Canada, Montreal
United Kingdom, Gloucester
The main purpose of the testing is a measuring the speed and rating the stability of the latency to this IP from around the world in comparison with sites of the region (the city).
The chart will appear within this DIV. This text will be replaced by the chart.
 Usa, NY, New York
 Usa, Florida, Tampa
 Germany, Frankfurt
 Canada, Montreal
 United Kingdom, Gloucester

Graph Legend

  • Maximum latency for current location, mouse over for the details.
  • Mimimal latency for current location, mouse over for the details (date, value, etc.)
  • Numbered vertical lines indicate the change of IP for the current site
  • Data Loss
Compare Latency From
Usa
Germany, Frankfurt
Canada, Montreal
United Kingdom, Gloucester
The main purpose of the testing is a measuring the speed and rating the stability of the latency to this IP from around the world in comparison with sites of the region (the city).
The chart will appear within this DIV. This text will be replaced by the chart.
 Usa, NY, New York
 Usa, Florida, Tampa
 Germany, Frankfurt
 Canada, Montreal
 United Kingdom, Gloucester

Graph Legend

  • Maximum latency for current location, mouse over for the details.
  • Mimimal latency for current location, mouse over for the details (date, value, etc.)
  • Numbered vertical lines indicate the change of IP for the current site
  • Data Loss

How to read the graph's data

This graph represents a detailed statistics of website latency. Periodical measurements give a complete picture of website availability from the different areas of the planet. Particular attention is given to the expansion of our testing servers around the world, in order to test the site availability and latency in those locations where most of your visitors are. Of course, the faster access to the site means users get content faster. It means less bounce (bounce rate) and faster ads delivering (and therefore better performance CTR, eCPM). This is even more important given the fact that we've detected Google Adsense ad network code on this site. Ultimately, the best availability of the site gives you an edge over your competitors. More information can be read on our page about the importance of the latency speed for the website speed up.

Compare Latency Statistic

Compare latency


vs

Our Servers
Usa
NY, New York
Florida, Tampa
Germany, Frankfurt
Canada, Montreal
United Kingdom, Gloucester

Dynamic of the Latency Changes for the website from various locations.

Location Last check 7 day change 1 month change 3 month change 6 month change
 Usa
58.80% of traffic		 NY, New York 45 ms 8%
46/50 ms
Florida, Tampa 134 ms 3%
133/129 ms
 Germany
1.40% of traffic		 Frankfurt 124 ms 2%
126/128 ms
 Canada
3.10% of traffic		 Montreal 34 ms 3%
36/37 ms
 United Kingdom
2.30% of traffic		 Gloucester 175 ms 12%
132/118 ms

Fragment of West lafayette latency speed rating table for this website

The table is constructed according to the data from the US datacenters

# Domain Compare Ping Provider
1. Vidmails.com 54 ms Rackspace Hosting
2. Globalpreneurs.com 54 ms Rackspace Hosting
3. Myglobalhub.com 54 ms Rackspace Hosting
... ... ... ... ...
6. Alphanmanas.com 64 ms Pugmarks
7. Vizseek.com 68 ms Rackspace.com
8. Purdue.edu 102 ms Purdue University
9. Chgk.info 102 ms Purdue University
10. Aquanic.org 102 ms Purdue University
... ... ... ... ...
11. Vietnamhotels.biz 8 ms
66 % Loss		 Pugmarks
... ... ... ... ...
16. Explorervan.com
100 % Loss		 Comcast Business Communications

Why the low latency is important with this site as an example

To display this website browser needs to download 41 objects. Though modern browsers use parallel connection now, we'll simplify the conditions and calculate the time spent by the browser for these sites in a single-threaded mode. Time required to establish HTTP connection only:
3 * website latency * website objects
+ preparation of the webserver response. Number 3 in the formula is a three phase of a TCP connection: sending a SYN request from the client to the server, sending ASK + SYN from the server to the client and the ASK sending from the client to the server. Though we can not calculate the time for a webserver response, the total time for sending and receiving requests for each of the object will be:
3 * 102 ms * 41 objects = 0 sec
Of course, modern browsers use several simultaneous connections to download content from a domain (from 2 to 8 at the time of writing this document). And in some browsers the number of connections can be set manually (Opera). But, if you impose these data on the first site Vidmails.com from the latency table for the city West lafayette, it turns out that the difference in time only for the sending and receiving requests to the web server could be: 5.9 sec. Sure, making such calculations must always take into account the audience site, and always make an accent on the fact that the server should always be so geographically closer to the primary audience as it possible. Also we recommend to pay attention to an article about importance of the latency on our site.

DNS Lookup Speed

Browser should lookup domain name and get IP address of the server (128.210.7.199) before downloading the page. We test DNS resolve for this domain from 5 locations. That's how we've got the average time of receiving IP: 0.13s (which is better than 31% of all sites). For more detailed stats look at DNS tests graph and DNS resolve page for United states, West lafayette location (Average value on the widget is an average DNS resolve time for websites hosted at the same location).

DNS History Graph

Compare DNS From Servers
Usa
Germany, Frankfurt
Canada, Montreal
United Kingdom, Gloucester
The main purpose of the testing is a measuring the speed and rating the stability of the latency to this IP from around the world in comparison with sites of the region (the city).
The chart will appear within this DIV. This text will be replaced by the chart.
 Usa, NY, New York
 Usa, Florida, Tampa
 Germany, Frankfurt
 Canada, Montreal
 United Kingdom, Gloucester

Graph Legend

  • Maximum latency for current location, mouse over for the details.
  • Mimimal latency for current location, mouse over for the details (date, value, etc.)
  • Milestones indicate the change of IP for the current site
  • Data Loss
Compare DNS From Servers
Usa
Germany, Frankfurt
Canada, Montreal
United Kingdom, Gloucester
The main purpose of the testing is a measuring the speed and rating the stability of the latency to this IP from around the world in comparison with sites of the region (the city).
The chart will appear within this DIV. This text will be replaced by the chart.
 Usa, NY, New York
 Usa, Florida, Tampa
 Germany, Frankfurt
 Canada, Montreal
 United Kingdom, Gloucester

Graph Legend

  • Maximum latency for current location, mouse over for the details.
  • Mimimal latency for current location, mouse over for the details (date, value, etc.)
  • Milestones indicate the change of IP for the current site
  • Data Loss
Compare DNS From Servers
Usa
Germany, Frankfurt
Canada, Montreal
United Kingdom, Gloucester
The main purpose of the testing is a measuring the speed and rating the stability of the latency to this IP from around the world in comparison with sites of the region (the city).
The chart will appear within this DIV. This text will be replaced by the chart.
 Usa, NY, New York
 Usa, Florida, Tampa
 Germany, Frankfurt
 Canada, Montreal
 United Kingdom, Gloucester

Graph Legend

  • Maximum latency for current location, mouse over for the details.
  • Mimimal latency for current location, mouse over for the details (date, value, etc.)
  • Milestones indicate the change of IP for the current site
  • Data Loss
Compare DNS From Servers
Usa
Germany, Frankfurt
Canada, Montreal
United Kingdom, Gloucester
The main purpose of the testing is a measuring the speed and rating the stability of the latency to this IP from around the world in comparison with sites of the region (the city).
The chart will appear within this DIV. This text will be replaced by the chart.
 Usa, NY, New York
 Usa, Florida, Tampa
 Germany, Frankfurt
 Canada, Montreal
 United Kingdom, Gloucester

Graph Legend

  • Maximum latency for current location, mouse over for the details.
  • Mimimal latency for current location, mouse over for the details (date, value, etc.)
  • Milestones indicate the change of IP for the current site
  • Data Loss

Compare DNS Speed

Compare DNS Lookup


vs

Our Servers
Usa
NY, New York
Florida, Tampa
Germany, Frankfurt
Canada, Montreal
United Kingdom, Gloucester

The table below shows the dynamic of the DNS Lookup speed changes for the website from various locations.

Location Last check 7 day change 1 month change 3 month change 6 month change
 Usa
58.80% of traffic		 NY, New York 49 ms 15%
45/53 ms
Florida, Tampa 136 ms 14%
83/97 ms
 Germany
1.40% of traffic		 Frankfurt 271 ms 18%
193/164 ms
 Canada
3.10% of traffic		 Montreal 54 ms 9%
51/56 ms
 United Kingdom
2.30% of traffic		 Gloucester 131 ms 23%
210/171 ms

Fragment of West lafayette DNS Speed rating table for this website

The table is constructed according to the data from the US datacenters

# Domain Compare DNS Resolve Speed Provider
1. Chgk.info 42 ms Purdue University
2. Aquanic.org 77 ms Purdue University
3. C-spanvideo.org 90 ms Wintek Corporation
... ... ... ... ...
9. Visionitnow.com 123 ms Comcast Business Communications
10. Vizseek.com 124 ms Rackspace.com
11. Purdue.edu 128 ms Purdue University
12. Globalpreneurs.com 131 ms Rackspace Hosting
13. Explorervan.com 152 ms Comcast Business Communications
... ... ... ... ...
16. Alphanmanas.com 348 ms Pugmarks

Page Speed Test

Content-Type's Weights
 
 
Content-Type's Weights by Hosts
 
 
Downloading page itself is the final stage of the testing. Actually, this is the last stage, after which page is displayed completely for user. The download speed depends on many factors. Main factors are the following: the width of the bandwidth up to the domain, the number of simultaneous download threads, speed of the server, a distance between user and domain web server. Recent measurements have shown the speed of page download for this domain is 285.949Kb/s (which is better than 75% of all sites in this region). For more detailed stats check out report for West lafayette hosted websites.

 
 
 

Page Speed

Page Speed is a key factor in the website speed estimations (along with DNS lookup speed and website latency). Speed of the page loading, sophisticated subdomains usage for static content (images, css), optimized code (html, js), hosting on fast servers with good latency to its audience leads to good results and, ultimately, to a good website profitability.

While conducting tests we emulate a visit your website using the browser Firefox 3.5.6. Test results of the page loading listed in this table:

Pagespeed Flash Table

Ways to improve website performance

Once the document (website's main page) has been downloaded, we analyze it. It allows us to give webmasters some recommendations on how to optimize page load speed. We analyze the internal and external factors.

Reduse DNS Resolve

Browsers must resolve site's hosts to display all of the elements of the Purdue.edu's page. Every domain name resolve requires a time, which precedes the load from a specific domain. You can speed up page loading by reducing the number of hosts, from which elements of the page are loaded.
 Host www.purdue.edu (37 files)
 Host feed2js.org (1 file)
 Host www.google.com (2 files)
 Host www.google-analytics.com (1 file)

Enable GZIP Compression

This is a good practice to give the user content in compressed form. We've detected 447.53 Kb of content that could be compressed. By compressing content you can achieve the size of ~ 111.88 Kb (saving 335.65 Kb). This would accelerate the page loading speed and would positively impact the bandwidth savings in Purdue University.
http://www.purdue.edu/. File size 34.04 Kb and you can save up to 25.53 Kb
http://www.purdue.edu/purdue/globals/css/v4_purdue/reset.css. File size 1.17 Kb and you can save up to 0.88 Kb
http://www.purdue.edu/purdue/globals/css/v4_purdue/homepage.css. File size 11.39 Kb and you can save up to 8.54 Kb
http://www.purdue.edu/purdue/globals/css/v4_purdue/menus.css. File size 2.13 Kb and you can save up to 1.6 Kb
http://www.purdue.edu/purdue/globals/js/modernizr-1.5.min.js. File size 11.64 Kb and you can save up to 8.73 Kb
http://www.purdue.edu/purdue/globals/js/prototype.js. File size 139.85 Kb and you can save up to 104.89 Kb
http://www.purdue.edu/purdue/globals/js/scriptaculous.js. File size 2.94 Kb and you can save up to 2.2 Kb
http://www.purdue.edu/purdue/globals/widgets/slider/DDSlider.css. File size 4.19 Kb and you can save up to 3.14 Kb
http://www.purdue.edu/purdue/globals/widgets/slider/js/jquery.min.js. File size 72.17 Kb and you can save up to 54.13 Kb
http://www.purdue.edu/purdue/globals/widgets/slider/js/jquery.easing.1.3.js. File size 8.1 Kb and you can save up to 6.08 Kb
http://www.purdue.edu/purdue/globals/widgets/slider/js/jquery.DDSlider.... File size 12.12 Kb and you can save up to 9.09 Kb
http://www.purdue.edu/purdue/globals/js/swfobject_modified.js. File size 21.7 Kb and you can save up to 16.27 Kb
http://www.purdue.edu/newsroom/php/feed2js/feed2js.php?src=http%3A%2F%.... File size 1.91 Kb and you can save up to 1.43 Kb
http://feed2js.org//feed2js.php?src=https%3A%2F%2Fmarketing.purdue.edu.... File size 1.99 Kb and you can save up to 1.49 Kb
http://www.purdue.edu/purdue/globals/js/menus.js. File size 0.52 Kb and you can save up to 0.39 Kb
http://www.purdue.edu/purdue/globals/js/builder.js. File size 4.74 Kb and you can save up to 3.56 Kb
http://www.purdue.edu/purdue/globals/js/effects.js. File size 38.47 Kb and you can save up to 28.85 Kb
http://www.purdue.edu/purdue/globals/js/dragdrop.js. File size 31.06 Kb and you can save up to 23.29 Kb
http://www.purdue.edu/purdue/globals/js/controls.js. File size 34.79 Kb and you can save up to 26.09 Kb
http://www.purdue.edu/purdue/globals/js/slider.js. File size 10.16 Kb and you can save up to 7.62 Kb
http://www.purdue.edu/purdue/globals/js/sound.js. File size 2.46 Kb and you can save up to 1.84 Kb

Keep Components under 25K

Users often visit web site using a mobile phone. Even the most modern and advanced gadgets have some limitations. For example an iPhone browser do not cache page components bigger than 25K. So you should strive to ensure that scripts, CSS-styles, etc. are less than 25K.
http://www.purdue.edu/  Content-Encoding: text/html. File size 34.04 Kb.
http://www.purdue.edu/purdue/globals/js/prototype.js  Content-Encoding: application/x-javascript. File size 139.85 Kb.
http://www.purdue.edu/purdue/globals/widgets/slider/js/jquery.min.js  Content-Encoding: application/x-javascript. File size 72.17 Kb.
http://www.purdue.edu/purdue/features/feature_president.png  Content-Encoding: image/png. File size 30.86 Kb.
http://www.purdue.edu/purdue/features/feature_giving.png  Content-Encoding: image/png. File size 26.54 Kb.
http://www.purdue.edu/purdue/globals/js/effects.js  Content-Encoding: application/x-javascript. File size 38.47 Kb.
http://www.purdue.edu/purdue/globals/js/dragdrop.js  Content-Encoding: application/x-javascript. File size 31.06 Kb.
http://www.purdue.edu/purdue/globals/js/controls.js  Content-Encoding: application/x-javascript. File size 34.79 Kb.
http://www.purdue.edu/purdue/banners/UnivBack.jpg  Content-Encoding: image/jpeg. File size 408.46 Kb.

Alternate text for the images.

As you may already know, search engine that indexes your pages, do not have eyes. And all content you are trying to display on your site is just HTML & CSS code, images, Flash, etc for the robots. It is It's extremely important to describe each of the objects more datailed using ALT, TITLE and other tags.

Our robot has determined that the purdue.edu page has 7 images, which has no tag ALT. Tag ALT is a text field, that specifies an alternate text for an image. But not only. Search engines consider this tag as a supplemental result for assessing the content of your page entirely. Do not ignore it!

For example your page has this code:
89.   <img id="purdue-signature" src="./purdue/globals/graphics/v4_purdue/PU_signature_white_bg_215x80.png" border="0" height="80" width="215" name="purdue-signature">
We recommend you use rich img code in that place:
89.   <img id="purdue-signature" src="./purdue/globals/graphics/v4_purdue/PU_signature_white_bg_215x80.png" border="0" height="80" width="215" name="purdue-signature" alt="west lafayette">


P.S. We used keyword for this image that seemed to us most important for your page. But you can go ahead and give to each of 7 images an ALT text. This problem requires responsible approach. No need to put the same text at alt tag of the all images. Imagine that the pictures do not show and try to make sure that users understand what is shown on the picture based on the alt tag

Using H1 tag

Show main content of the page clearly. One of the most important internal website ranking factors is the H1 tag. It's a title of the document and the most powerful keyword, actually. Our robot did not find the h1 tag on the page.

Use the TITLE for A tag

As we have already mentioned, search engine bots can not see the site like a people do it. They more focused on the descriptions of certain page elements. That's why we strongly recommend use TITLE operator in the "A" tag. This operator not only describes the page referenced by the page more detailed, but also takes part in the page describing. For example, you have the link on your website:
77.   <a id="jump-to-banners" class="accessible-text" href="#slider" name="jump-to-banners">Jump to featured news</a>
We suggest you to remake it in this way:
77.   <a id="jump-to-banners" class="accessible-text" href="#slider" name="jump-to-banners" title="airport">Jump to featured news</a>
Of course, you can (and should) use more proper phrase instead of the "airport" that describes the link #slider.

Number of links on the page

Try to avoid a large number of links on the page. Our robot have found 180 links on this page. Google recommends to keep the number of links fewer than 100. More information about this topic you can find in Google Webmaster Guidelines and in the post "How many links per page?" by Matt Cutts (head of Google’s Webspam team)


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