Introduction
This Case Study of Latin American Internet performance was performed by Shahryar Khan and Les Cottrell of the SLAC IEPM-PingER group in anticipation of the ICFA Digital Divide Workshop: Mexico City October 24-27, 2007.
After indicating the deployment and coverage of the measurements made by PingER, it presents PingER measurements of round trip time (minimum and average), losses, jitter, and derived results such as throughput and Mean Opinion Score. The information is presented to show how Latin America looks as a region to and from the rest of the world and compares Latin America with other regions. Then it presents the status of the Research & Education network backbone in Latin America. Following this we show the historical performance of the Internet seen from SLAC for each individual country. This is followed with the current states of the various National Research and Education Networks (NRENs) for the various countries (this information is mainly from a presentation by Alberto Santoro at the April APS meeting 2007). We then look at the routing of Internet traffic within Latin America as seen from Brazil and Bolivia. Finally we compare the derived throughputs (a reasonable measure the quality of the network connection) with various Human and Economic indices.
PingER Coverage
The sites from which there is PingER monitoring are shown in red below, sites which are monitored by all monitoring hosts (these are referred to as beacon sites and also include monitor sites) are shown in blue, and other monitored remote sites are shown in green. From SLAC PingER monitors about 460 sites, CERN used to monitor about 132 sites, however after re-installing in December 2006) they now only monitor beacon sites (56). ICTP Trieste monitors 105 sites but only has data going back to September 2006. To the right of the PingER map we also show a map which defines how we are assigning countries to regions.
Latin America includes South America, Caribbean and Mexico. We have three monitoring hosts in Brazil (two in Sao Polo and one in Rio De Janeiro), one in Mexico (Cuidad Juarez) and one in Bolivia.The map below shows the location of the sites.
Latin America Compared to the rest of the World
Before we start to compare L. America to the rest of the world it is useful to look at a World Map of Internet Users. This shows that for most the developed world (US and Canada, W. Europe, Japan, Taiwan, S. Korea) typically 40% or more of the people have Internet connectivity while for Latin America and the Caribbean that contains about 8% of the world's population, the penetration is about 17%, i.e. typically a factor of 2-3 less.
Minimum RTT and Packet Loss from US to Latin American Countries
The above figure shows the Min RTT and packet loss to Latin American countries from SLAC. Mexico seems to have the least RTT and acceptable loss due to its direct connectivity with the US. Argentina, Brazil and Chile are also performing reasonably well. Bolivia, Ecuador and Paraguay are catching up. However Cuba is still stuck to satellite and the performance is dreadful.
From SLAC: 1. Packet Loss, 2. Min RTT to World Regions, 3. Unreachability, 4. Jitter
The left hand figure shows the packet loss to various regions of the world as seen from N. America. Since losses are fairly distance independent no attempt has been made to normalize the data. For typical bursty Internet loss patterns, losses of >1% will result in annoying interactive VoIP and video conferencing. It is seen that the world divides up into two major super-regions: N. America, Europe, E. Asia and Oceania with losses below 0.1%, and Latin America, C. Asia, Russia, S.E. Asia, S. Asia and Africa with losses > 0.1% and as high as as a few per-cent. All countries are improving exponentially, but Africa is falling further behind most regions.
The left middle figure shows the drop in the MinimumRTTs of > 400ms result in poor real-time interactivity. The large step for S. Asia in 2003 was due to the change over from satellite to fibre. Central Asia (also Afghanistan) has hardly moved in its minimum RTT since it continues to use geostationary satellites.
The right middle graph shows the unreachability of world regions seen from the US. A host is deemed unreachable if all pings of a set fail to respond. It shows the fragility of the links and is mainly distance independent (the reasons for fragility are usually in the last mile, the end site or host). Again the developed regions US and Canada, E. Asia, and Oceania have the lowest unreachability (< 0.3%) while the other regions have unreachability from 0.7% to 2%, and again Africa is not improving, with Latin America having the fourth worst unreachability (after Africa, S. Asia and the Middle East).
The right hand graph shows the jitter or variability of world regions seen from the US. The jitter is defined as the Inter Quartile Range (IQR) of the Inter Packet Delay Variability (IPDV i = RTT i - RTT i-1) . The Jitter is relatively distance independent, it measures congestion, and has little impact on the Web and email. It decides the length of VoIP codec buffers and impacts streaming. For real-time multimedia (H.323) Performance Measurement and Analysis of H.323 Traffic gives for one way: jitter = 0-20ms = Good, jitter = 20-50ms = acceptable, > 50ms = poor. We measure round-trip jitter which is roughly two times the one way jitter. We see the usual division into developed versus developing regions.
MOS for various regions
Include Page | ||||
---|---|---|---|---|
|
TCP throughput from CERN & SLAC to World Regions
Include Page | ||||
---|---|---|---|---|
|
ALICE and RedCLARA
Latin America has benefited greatly by connection in 2001 to the AMPATH Internet Exchange Point in Miami that brought connectivity to North America, and the ALICE/RedCLARA project started in 2004 to connect Latin American NRENs to Europe. The launching of these projects has helped bridge the "Digital Divide" both within the region and with the rest of the world. The projects have enabled Latin American researchers to become key players in the global research community.
The Alice/RedCLARA project seen above began to provide direct connectivity with 155 Mbps, in "a ring" topology, linking the NRENs of Argentina, Brazil, Chile, Panama and Mexico, and connecting them to GÉANT at 622 Mbps throughout a connection between São Paulo, Brazil, and Madrid, Spain. RedCLARA now connects 14 countries across Central and South America, allowing 738 universities and research institutes to communicate with their European and global peers directly.
The performance of Research and Educational Networks of Argentina, Brazil, Chile, Mexico, Guatemala and Uruguay has significantly improved due to the AMPATH and ALICE/RedCLARA projects . See the graphs below for the country details, which we now summarize:
- In December 2001, Argentina's (RETINA) connected to AMPATH, so the increase in performance to Argentina can be seen from US. Around June 2006 the TCP throughput of Argentina increased significantly. The average RTT reduced from 600 ms to 200 ms. The minimum RTT reduced from 250 ms to 200 ms. The packet loss has also decreased significantly.
- From January 2001 - July 2001 the loss from US to Brazil decreased from 8 % to 1 %. The Average RTT decreased from 375 ms to 200 ms. The TCP throughput improved but it has not stabilized (still lots of variations).
- In June 2001, Chile's REUNA becomes the first Latin American NREN (National Research and Educational Network) to get connected to the AMPATH POP in Miami. As a result the TCP throughput increased significantly. Minimum RTT reduced from 230 ms to 200 ms and average RTT reduced from 725 ms to 250ms. Packet loss reduced from 10 % to 1 %.
- In July 2003 Mexico's connectivity improved. Minimum RTT became stable from 100 ms to 60 ms and average RTT also became stable. Since Uruguay joined in June, 2005 its TCP throughput has improved. Average RTT reduced from about 325 ms to 225 ms. Minimum RTT reduced from about 270 ms to 220 ms The loss situation has not seen much improvement.
- In the beginning of 2006 Paraguay moved from satellite to fiber but Cuba is still connected through satellite. Average and min RTT of Cuba are greater than 800ms and the packet loss is around 2-4 % which is dreadful. RedClara is also planning for a connection to Cuba in the near future, so that it can also play role in global research initiatives.
Status of Latin American Countries
A very interesting presentation of the status of networking in Latin America can be found in "Closing the Digital Divide in Latin America" by Alberto Santoro or UERJ, Brazil. Below we show the measured performance of connections from N. America to Latin America.
Argentina
In December 2001, Argentina's (RETINA) connected to AMPATH, so the increase in performance to Argentina can be seen from SLAC. Around June 2006 the TCP throughput of Argentina increased significantly. The average RTT reduced from 600 ms to 200 ms. The minimum RTT reduced from 250 ms to 200 ms.The packet loss has also decreased significently.
Brazil
Around Janruary 2001 - July 2001 the loss decreased from 8 % to 1 %. The Average RTT decreased from 375 ms to 200 ms
The TCP throughput improved but it hasn't stabilized (still lots of variation)
Chile
In June 2001, Chile's REUNA becomes the first LA NREN(National Research and Educational Network) to get connected to the Ampath POP in Miami. As a result the TCP throughput increased significantly. The minimun RTT reduced from 230 ms to 200 ms and Average RTT reduced from 725 ms to 250 ms Packet loss reduced from 10 % to 1 %.
Cuba
Poor performance due to satellite link. Average and min RTT are about 800ms. Packet loss is around 2-4 % in 2006
(The only hope for Cuba is to connect to RedClara) RedClara plans to connect to Cuba in the near future
Mexico
July 2003 performance improved . Minumum RTT became stable 100 ms to 60 ms and Average RTT also became stable.
but January 2005 to July 2005 again problem arose
Guatemala
Janruary 2005 packet loss becomes stabilizing >1% April 2003 minimum and average RTT improved
Paraguay
Shift from satellite to fibre at the start 2006.
Uruguay
Since Uruguay joined in June, 2005 its TCP throughput has improved. Average RTT reduced from about 325 ms to 225 ms
Minimum RTT reduced from about 270 ms to 220 ms The loss situation hasn't seen much improvement
Present Situation of NRENs
Argentina
Connected to RedCLARA (90 Mpbs) 42 universities, 8 National Research Laboratories, 5 Government Agencies
Good Poor Very Poor
Bolivia
Not connected to RedCLARA, no topology map available.
Chile
Brazil
Costa Rica
One ministry, 2 non governmental institutions, 3 Universities , 3 Scientific-technological Institutes or Academies
45 Mbps 10 Mbps
Cuba
22 Universities and Research centers
Ecuador
20 Universities , schools and Research and Development Institutions
El Salvador
Guatemala
6 Universities, 2 non governmental institutions ans 1 research center (backbone) 100 Mbps
Honduras
Mexico
4 4 Non Government Institutions, 19 Research centers, 33 Universities, 11 Institutes, 1 Faculty Independent , 7 Superior Schools 1 government institution.
Nicaragua
Panama
7 Universities and 3 Governmental Institutions
Peru
Uruguay
31 Universities Institutions ans Schools
Venezuela
Routing
Traceroute from Brazil to Latin American Countries
Routes from Brazil to other Latin American Countries
Looking at the traceroutes from Brazilian sites to other Latin American countries, it can be seen that links with other Brazilian sites are direct while to other Latin American countries they go via the US and or Europe.
Brazil to Brazil: Direct
Brazil to Ecuador: Brazil -> Spain(Madrid) -> Ecuador OR Brazil -> US (Kansas) -> Ecuador
Brazil to Cuba: Brazil -> US(Miami) -> (Satellite Provider) -> Cuba
Brazil to Venezuela: Brazil -> Europe -> Venezuela OR Brazil -> US -> Venezuela OR Brazil -> Spain(Madrid)-> Venezuela
Brazil to Costa Rica: Brazil -> US -> Costa Rica
Brazil to Argentina: Brazil -> US -> Uruguay -> Argentina
Brazil to Mexico: Brazil -> US(California) -> Mexico
Brazil to Chile: Brazil -> US -> Uruguay -> Chile
Brazil to Uruguay: Brazil -> US (California) -> Uruguay
Brazil to Bolivia: Brazil -> US (Kansas) -> Italy (Rome) -> Bolivia
Brazil to Paraguay: Brazil -> Spain (Madrid) -> Paraguay
Brazil to Honduras: Brazil -> US(Kansas) -> Guatemala -> Honduras
Brazil to Peru: Brazil -> US(California) -> Uruguay -> Peru
Brazil to Colombia: Brazil -> US (Kansas) -> Colombia
Brazil to Guatemala: Brazil -> US -> Gutemala
Brazil to El Salvador: Brazil -> Spain (Madrid) -> El Salvador
Brazil to Panama: Brazil -> US -> Italy(Rome) -> Panama!tracerouter_Brazil_.png|thumbnail!
Routes from Bolivia to other Latin American Countries
Looking at traceroutes from Bolivia to other Latin American countries, the routes to Bolivian sites are direct, while to other Latin American countries they go via the U.S. and/or Europe.
Bolivia to Brazil: Bolivia -> US -> Brazil
Bolivia to El Salvador: Bolivia -> Italy -> US(Miami) -> El Salvador
Bolivia to Venezuela: Bolivia -> Italy -> Venezuela
Bolivia to Mexico: Bolivia -> US(Kansas) -> Mexico
Bolivia to Argentina: Bolivia -> Italy -> US -> Argentina
Bolivia to Guatemala: Bolivia -> US -> Guatemala
Bolivia to Colombia: Bolivia -> US(Kansas) -> Colombia
Comparisons with "Development" Indices
The size of the Internet infrastructure is a good indication of a country's progress to an information based economy. However measuring the number of users is not easy in developing countries because many people share accounts, use corporate and academic networks, or visit the rapidly growing number of cyber cafés, telecentres and business services. Furthermore, the number of users does not take into account the extent of use, from those who just write a couple of emails a week, to people who spend many hours a day on the net browsing, transacting, streaming, or downloading. New measures of Internet activity are needed to take these factors into account. Most of the Internet traffic in a developing country is international (75-90%). We measure international Internet performance which is an interesting (good?) indicator. To see how well this correlates with "development" indices we scatter plot the Mathis derived throughput from PingER against various development indices. If it correlates well then we may be able to make much quicker snap-shots of a country's/regions performance without subjective biases.
There are many "development" indices today:
- ITU Digital Access Index (2003) and the Digital Opportunity Index (2006), both 180 countries
- World Economic Forum's Network Readiness Index (2004, 2005, 2006-2007: 122 countries)
- Harvard University Network Readiness Index (2002, 75 countries)
Typically these indices use some combination of GDP/capita, knowledge (e.g. tertiary education enrolloment), life expectancy, network (hosts/capita, access, policy, usage, afford ability, users/capita); technology (patents, royalties, exports, phones/capita)
In the scatter plots below of the derived throughputs vs. the "development" index, the US, Canada and Mexico are typically excluded since the distance from the measuring point (the US) RTT is small so the derived throughput from the Mathis formula will be artificially high. Hosts in well connected countries such as Finland, Sweden, Japan also have their losses poorly measureed since only 14,400 packets are sent to a host in a month, so measuring losses of < .01% is inaccurate.
PingER Coverage
The sites from which there is PingER monitoring are shown in red below, sites which are monitored by all monitoring hosts (these are referred to as beacon sites and also include monitor sites) are shown in blue, and other monitored remote sites are shown in green. From SLAC PingER monitors about 460 sites, CERN used to monitor about 132 sites, however after re-installing in December 2006) they now only monitor beacon sites (56). ICTP Trieste monitors 105 sites but only has data going back to September 2006. To the right of the PingER map we also show a map which defines how we are assigning countries to regions.
Latin America includes South America, Caribbean and Mexico. We have three monitoring hosts in Brazil (two in Sao Polo and one in Rio De Janeiro), one in Mexico (Cuidad Juarez) and one in Bolivia.The map below shows the location of the sites.
Latin America Compared to the rest of the World
Before we start to compare L. America to the rest of the world it is useful to look at a World Map of Internet Users. This shows that for most the developed world (US and Canada, W. Europe, Japan, Taiwan, S. Korea) typically 40% or more of the people have Internet connectivity while for Latin America and the Caribbean that contains about 8% of the world's population, the penetration is about 17%, i.e. typically a factor of 2-3 less.
From SLAC: 1. Packet Loss, 2. Min RTT to World Regions, 3. Unreachability, 4. Jitter
The left hand figure shows the packet loss to various regions of the world as seen from N. America. Since losses are fairly distance independent no attempt has been made to normalize the data. For typical bursty Internet loss patterns, losses of >1% will result in annoying interactive VoIP and video conferencing. It is seen that the world divides up into two major super-regions: N. America, Europe, E. Asia and Oceania with losses below 0.1%, and Latin America, C. Asia, Russia, S.E. Asia, S. Asia and Africa with losses > 0.1% and as high as as a few per-cent. All countries are improving exponentially, but Africa is falling further behind most regions.
The left middle figure shows the drop in the MinimumRTTs of > 400ms result in poor real-time interactivity. The large step for S. Asia in 2003 was due to the change over from satellite to fibre. Central Asia (also Afghanistan) has hardly moved in its minimum RTT since it continues to use geostationary satellites.
The right middle graph shows the unreachability of world regions seen from the US. A host is deemed unreachable if all pings of a set fail to respond. It shows the fragility of the links and is mainly distance independent (the reasons for fragility are usually in the last mile, the end site or host). Again the developed regions US and Canada, E. Asia, and Oceania have the lowest unreachability (< 0.3%) while the other regions have unreachability from 0.7% to 2%, and again Africa is not improving, with Latin America having the fourth worst unreachability (after Africa, S. Asia and the Middle East).
The right hand graph shows the jitter or variability of world regions seen from the US. The jitter is defined as the Inter Quartile Range (IQR) of the Inter Packet Delay Variability (IPDV i = RTT i - RTT i-1) . The Jitter is relatively distance independent, it measures congestion, and has little impact on the Web and email. It decides the length of VoIP codec buffers and impacts streaming. For real-time multimedia (H.323) Performance Measurement and Analysis of H.323 Traffic gives for one way: jitter = 0-20ms = Good, jitter = 20-50ms = acceptable, > 50ms = poor. We measure round-trip jitter which is roughly two times the one way jitter. We see the usual division into developed versus developing regions.
MOS for various regions
...
TCP throughput from CERN & SLAC to World Regions
...
Status of Latin American Countries
A very interesting presentation of the status of networking in Latin America can be found in "Closing the Digital Divide in Latin America" by Alberto Santoro or UERJ, Brazil. Below we show the measured performance of connections from N. America to Latin America.
Argentina
In December 2001, Argentina's (RETINA) connected to AMPATH, so the increase in performance to Argentina can be seen from SLAC. Around June 2006 the TCP throughput of Argentina increased significantly. The average RTT reduced from 600 ms to 200 ms. The minimum RTT reduced from 250 ms to 200 ms.The packet loss has also decreased significently.
Brazil
Around Janruary 2001 - July 2001 the loss decreased from 8 % to 1 %. The Average RTT decreased from 375 ms to 200 ms
The TCP throughput improved but it hasn't stabilized (still lots of variation)
Chile
In June 2001, Chile's REUNA becomes the first LA NREN(National Research and Educational Network) to get connected to the Ampath POP in Miami. As a result the TCP throughput increased significantly. The minimun RTT reduced from 230 ms to 200 ms and Average RTT reduced from 725 ms to 250 ms Packet loss reduced from 10 % to 1 %.
Cuba
Poor performance due to satellite link. Average and min RTT are about 800ms. Packet loss is around 2-4 % in 2006
(The only hope for Cuba is to connect to RedClara) RedClara plans to connect to Cuba in the near future
Mexico
July 2003 performance improved . Minumum RTT became stable 100 ms to 60 ms and Average RTT also became stable.
but January 2005 to July 2005 again problem arose
Guatemala
Janruary 2005 packet loss becomes stabilizing >1% April 2003 minimum and average RTT improved
Uruguay
Since Uruguay joined in June, 2005 its TCP throughput has improved. Average RTT reduced from about 325 ms to 225 ms
Minimum RTT reduced from about 270 ms to 220 ms The loss situation hasn't seen much improvement
Paraguay
Shift from satellite to fibre at the start 2006.
Present Situation of NRENs
Argentina
Connected to RedCLARA (90 Mpbs) 42 universities, 8 National Research Laboratories, 5 Government Agencies
Good Poor Very Poor
Bolivia
Not connected to RedCLARA, no topology map available.
Brazil
Costa Rica
One ministry, 2 non governmental institutions, 3 Universities , 3 Scientific-technological Institutes or Academies
45 Mbps 10 Mbps
Cuba
22 Universities and Research centers
Ecuador
20 Universities , schools and Research and Development Institutions
El Salvador
Guatemala
6 Universities, 2 non governmental institutions ans 1 research center (backbone) 100 Mbps
Honduras
Mexico
4 4 Non Government Institutions, 19 Research centers, 33 Universities, 11 Institutes, 1 Faculty Independent , 7 Superior Schools 1 government institution.
Nicaragua
Traceroute from SLAC to Latin American Countries
Routes from Brazil to other Latin American Countries
Looking at the traceroutes from Brazilian sites to other Latin American countries, it can be seen that links with other Brazilian sites are direct while to other Latin American countries they go via the US and or Europe.
Brazil to Brazil: Direct
Brazil to Ecuador: Brazil -> Spain(Madrid) -> Ecuador OR Brazil -> US (Kansas) -> Ecuador
Brazil to Cuba: Brazil -> US(Miami) -> (Satellite Provider) -> Cuba
Brazil to Venezuela: Brazil -> Europe -> Venezuela OR Brazil -> US -> Venezuela OR Brazil -> Spain(Madrid)-> Venezuela
Brazil to Costa Rica: Brazil -> US -> Costa Rica
Brazil to Argentina: Brazil -> US -> Uruguay -> Argentina
Brazil to Mexico: Brazil -> US(California) -> Mexico
Brazil to Chile: Brazil -> US -> Uruguay -> Chile
Brazil to Uruguay: Brazil -> US (California) -> Uruguay
Brazil to Bolivia: Brazil -> US (Kansas) -> Italy (Rome) -> Bolivia
Brazil to Paraguay: Brazil -> Spain (Madrid) -> Paraguay
Brazil to Honduras: Brazil -> US(Kansas) -> Guatemala -> Honduras
Brazil to Peru: Brazil -> US(California) -> Uruguay -> Peru
Brazil to Colombia: Brazil -> US (Kansas) -> Colombia
Brazil to Guatemala: Brazil -> US -> Gutemala
Brazil to El Salvador: Brazil -> Spain (Madrid) -> El Salvador
Brazil to Panama: Brazil -> US -> Italy(Rome) -> Panama!tracerouter_Brazil_.png|thumbnail!
Routes from Bolivia to other Latin American Countries
Looking at traceroutes from Bolivia to other Latin American countries, the routes to Bolivian sites are direct, while to other Latin American countries they go via the U.S. and/or Europe.
Bolivia to Brazil: Bolivia -> US -> Brazil
Bolivia to El Salvador: Bolivia -> Italy -> US(Miami) -> El Salvador
Bolivia to Venezuela: Bolivia -> Italy -> Venezuela
Bolivia to Mexico: Bolivia -> US(Kansas) -> Mexico
Bolivia to Argentina: Bolivia -> Italy -> US -> Argentina
Bolivia to Guatemala: Bolivia -> US -> Guatemala
Bolivia to Colombia: Bolivia -> US(Kansas) -> Colombia
ALICE and RedCLARA
Since its launch in September 2004, the ALICE project has been a key component in reducing disparities within Latin America by bridging the "Digital Divide" both within the region and with the rest of the world. The project has enabeled Latin American researchers to become key players in the global research community.
On September 1 of 2004, RedCLARA began to provide direct connectivity with 155 Mbps, in "a ring" topology, linking the NRENs of Argentina, Brazil, Chile, Panama and Mexico, and connecting them to GÉANT at 622 Mbps throughout a connection between São Paulo, Brazil, and Madrid, Spain.RedCLARA now connects 14 countries across Central and South America, allowing 738 universities and research institutes to communicate with their European and global peers directly.
The performance of Research and Educational Networks of Argentina, Brazil, Chile, Mexico, Guatemala and Uruguay has significantly improved due to ALICE project. In December 2001, Argentina's (RETINA) connected to AMPATH, so the increase in performance to Argentina can be seen from US. Around June 2006 the TCP throughput of Argentina increased significantly. The average RTT reduced from 600 ms to 200 ms. The minimum RTT reduced from 250 ms to 200 ms. The packet loss has also decreased significantly. From January 2001 - July 2001 the loss from US to Brazil decreased from 8 % to 1 %. The Average RTT decreased from 375 ms to 200 ms. The TCP throughput improved but it has not stabilized (still lots of variations). In June 2001, Chile's REUNA becomes the first Latin American NREN (National Research and Educational Network) to get connected to the AMPATH POP in Miami. As a result the TCP throughput increased significantly. Minimum RTT reduced from 230 ms to 200 ms and average RTT reduced from 725 ms to 250ms. Packet loss reduced from 10 % to 1 %. In July 2003 Mexico's connectivity improved. Minimum RTT became stable from 100 ms to 60 ms and average RTT also became stable. Since Uruguay joined in June, 2005 its TCP throughput has improved. Average RTT reduced from about 325 ms to 225 ms. Minimum RTT reduced from about 270 ms to 220 ms The loss situation has not seen much improvement.
In the beginning of 2006 Paraguay moved from satellite to fiber but Cuba is still connected through satellite. Average and min RTT of Cuba are greater than 800ms and the packet loss is around 2-4 % which is dreadful. RedClara is also planning for a connection to Cuba in the near future, so that it can also play role in global research initiatives.
Minimum RTT and Packet Loss from US to Latin American Countries
Figure shows the Min RTT and packet loss to Latin American countries from SLAC. Mexico seems to have the least RTT and acceptable loss due to its direct connectivity with the US. Argentina, Brazil and Chile are also performing reasonably well. Bolivia, Ecuador and Paraguay are catching up. However Cuba is still stuck to satellite and the performance is dreadful.
Comparisons with "Development" Indices
The size of the Internet infrastructure is a good indication of a country's progress to an information based economy. However measuring the number of users is not easy in developing countries because many people share accounts, use corporate and academic networks, or visit the rapidly growing number of cyber cafés, telecentres and business services. Furthermore, the number of users does not take into account the extent of use, from those who just write a couple of emails a week, to people who spend many hours a day on the net browsing, transacting, streaming, or downloading. New measures of Internet activity are needed to take these factors into account. Most of the Internet traffic in a developing country is international (75-90%). We measure international Internet performance which is an interesting (good?) indicator. To see how well this correlates with "development" indices we scatter plot the Mathis derived throughput from PingER against various development indices. If it correlates well then we may be able to make much quicker snap-shots of a country's/regions performance without subjective biases.
There are many "development" indices today:
- UNDP Human Development Index (2006, 177 countries)
- UNDP Technology Achievement Index (2001, 72 countries)
- ITU Digital Access Index (2003) and the Digital Opportunity Index (2006), both 180 countries
- World Economic Forum's Network Readiness Index (2004, 2005, 2006-2007: 122 countries)
- Harvard University Network Readiness Index (2002, 75 countries)
Typically these indices use some combination of GDP/capita, knowledge (e.g. tertiary education enrolloment), life expectancy, network (hosts/capita, access, policy, usage, afford ability, users/capita); technology (patents, royalties, exports, phones/capita)
In the scatter plots below of the derived throughputs vs. the "development" index, the US, Canada and Mexico are typically excluded since the distance from the measuring point (the US) RTT is small so the derived throughput from the Mathis formula will be artificially high. Hosts in well connected countries such as Finland, Sweden, Japan also have their losses poorly measureed since only 14,400 packets are sent to a host in a month, so measuring losses of < .01% is inaccurate.
Comparison of TCP Throughput with UNDP Human Development Index
Graph Goes here
The UNDP Human Development Index (HDI) is composed of 3 factors defining the development of a country. They are:
- A Long and healthy life, as measured by expectancy at birth.
- Knowledge, as measured by the adult literacy rate (with 2/3 weight) and the combined primary, secondary and tertiary gross enrolment ratios (with 1/3 weight).
- A decent standard of living, as measured by GDP per capita.
On the scatter plot the S. Asian countries are indicated by orange diamonds.
The figure above shows a scatter plot of the HDI versus the PingER Derived Throughput for July 2006. Each point is colored according to the country's region. A logarithmic fit is also shown. Logarithmic is probably appropriate since Internet performance is increasing exponentially in time and the differences between the countries can be related to number of years they are behind the developing countries, while human development is more linear. Since the PingER Derived TCP Throughput is linearly proportional to RTT, countries close to the U.S. (i.e. the U.S., Canada and Central America) may be expected to have elevated throughputs compared to their HDI. We thus do not plot or use these countries in the correlation fit between HDI and throughput. It is seen that there is a strong correlation (R2 > 0.6) between the HDI and throughput. As expected countries in Africa generally occupy the lower values in x and y, and European countries together with Australia, New Zealand, Korea and Japan occupy the higher values of x and y.
Comparison of TCP Throughput with Technology Access Index
In 2001 the United Nations Development Programme (UNDP) introduced the Technology Achievement Index(TAI) with 72 countries to reflect a country's capacity to participate in the technological innovations of the network age. The TAI aims to capture how well a country is creating and diffusing technology and building a human skill base. It includes the following dimensions: Creation of technology (e.g. patents, royalty receipts); diffusion of recent innovations (Internet hosts/capita, high & medium tech exports as share of all exports); Diffusion of old innovations (log phones/capita, log of electric consumption/capita); Human skills (mean years of schooling, gross enrollment in tertiary level in science, math & engineering). the Figure below shows December 2003's derived throughput measured from the U.S. vs. the TAI. The correlation is seen to be positive and medium to good.
Graph goes over here
Comparison of TCP Throughput with Digital Access Index
...
A map of the NRI for the 122 countries of the 2006-2007 NRI are shown in the map below.