Redclara: Regional Network in Latin America
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Redclara Went from Being an Illusion to Become a Mature Institution”
Invitation - Call Shall we talk seriously about natural disasters and the end of the world? Rafael Ibarra, RAICES president “RedCLARA went from being an illusion to become a mature institution” MERCOSUR’s Virtual School was launched March 2012 - n°30, year 8 This Project is funded by the European Union A project implemented by RedCLARA European Commission Press Contact: EuropeAid Cooperation Office María José López Pourailly Directorate B2 - Latin America PR & Communications Manager - CLARA @LIS Programme [email protected] Rue Joseph II, 54 J54 4/13 (+56) 2 584 86 18, extension 504 B-1049 Brussels Avenida del Parque 4680-A BELGIUM Edifico Europa, oficina 505 Ciudad Empresarial Huechuraba Santiago CHILE «The European Union is constituted by 27 member states which have decided to progressively join their practical knowledge, their resources and their destinies. Over an expansion period of 50 years, together they have built a stability, democracy and sustainable development zone, and have also preserved cultural diversity, tolerance and individual liberties. The European Union is committed to sharing its achievements and values with countries and peoples which are beyond its borders». The European Commission is the executive body of the European Union. Contents 6 Open Call to present papers for TICAL 2012 Conference 7 Register and participate in the First Virtual Day of Culture Fernando Liello, ELLA Project Coordinator 8 “Latin America needs the new submarine connection to Europe because it cannot rely only on connectivity to -
With Fewer Than 50 Days to Go Before the Super
With fewer than 50 days to go before the Super Computing 2004 conference, high-energy physics researchers at the University of Sao Paulo recognized the opportunity to showcase their active involvement in the global computational Grid. They asked the CIARA (Center for Internet Augmented Research and Assessment) team at FIU, and the ANSP (Academic Network of Sao Paulo) team to leverage their expertise, along with AMPATH to create a 2.5 Gigabit per second (Gbps) connection for research from the conference center floor in Pittsburgh, to the computational clusters in Brazil. To do this, a team was formed of Telecom Italia Sparkle's Latin American Nautilus, providing the submarine cable capacity; Cisco Systems, providing critical components for the end-to-end connection; Terremark, providing space and support in their Network Access Points (NAPs) in both MIami and Sao Paulo; FPL Fibernet, providing crucial links in Miami; and Qwest Communications and Internet2's Abilene network, providing high-performance connectivity from Miami to Pittsburgh. The result of this collaboration was a contribution to the winning team of the 2004 bandwidth challenge, allowing them to exceed their goal of 100Gbps. The new link between Miami and Sao Paulo set a new speed record for U.S. to Brazilian research networking at a sustained 1.66Gbps, with bursts up to 2Gbps. This new link increases 45 times the bandwidth capacity between the US and Brazil. This is a first step in bringing research connectivity in the Gigabit range for U.S. to Latin American research efforts. -
Internet2: a Comparative Study and Technological Solution to Achieve High Speed Networks
Himanshu Agarwal / Indian Journal of Computer Science and Engineering Vol 1 No 3, 157-160 INTERNET2: A COMPARATIVE STUDY AND TECHNOLOGICAL SOLUTION TO ACHIEVE HIGH SPEED NETWORKS HIMANSHU AGARWAL Department of Computer Science & Information Technology, Moradabad Institute of Technology, Moradabad-244001 (Uttar Pradesh), India Email: [email protected] Abstract In current Indian scenario whenever it is required to access very large amount of data such as games or some commercial applications through commodity internet (internet1), speed becomes hurdle. It becomes tolerable for some applications but no one wants to bother in case of education and research. Now the world becomes commercialized and don’t want to bother with speed. Therefore the next generation of Internet infrastructure known as Internet2 or UCAID (University Corporation for Advance Internet Development) for 21st century comes in the focus of scientists, to improve quality of life through research and education. In this paper thorough analysis and comparative study of various educational networks, market scenario and Internet2 has been done, so all pros and cons become visualized to get the effect of internet2 in industries, research and development. Keywords: Internet2; Abilene network; gigapops; high speed networks. 1. Introduction Internet2 is a second generation network serving universities and research institutes by moving the data at a rate of 10 gigabits per second and more ,compared with 5.1 or so megabits old fashioned commodity internet. Internet2 moves data 100 to 1,000 times faster than internet1. Its GigaPoPs (points of presence) provide regional high-performance aggregation points; for member institutions, typically local campus networks provide no less than 100 Mbps to the desktop. -
Anatomy of an International Exchange Point: Distributed Network Monitoring Using Monalisa and Netflow1
Anatomy of an International Exchange Point: Distributed Network Monitoring Using MonALISA and NetFlow1 Ernesto Rubi, Xun Su, Iosif Legrand, Heidi Alvarez, Julio Ibarra2 Abstract: In this paper we present a distributed network monitoring system, which exploits MonALISA (Monitoring Agents in A Large Integrated Services Architecture), a distributed web service delivery infrastructure designed to collect and process the network monitoring information. We augment the capability of MonALISA with FlowTools, the popular NetFlow data analysis toolset. We demonstrate how to integrate MonALISA and Flowtools via an UDP-listening agent ApMon, and highlight a case study of AMPATH, an international exchanging point located in Miami and serving a number of South American National Reseach and Education Networks (NRENs). Our experience showcases the elegant design philosophy of a scalable distributed service deployment platform coupled with the open-source traffic analysis tools and its impact on the daily operation of the production networks. Keywords: NetFlow, MonALISA, Flowtools, Network monitoring. 1. Introduction As the Internet expands both in its scope, reach and capacity, it becomes evident that there is a strong need to develop a distributed network monitoring infrastructure that can be scaled to support various network topology, traffic granularity and user applications. NetFlow[1] is a widely deployed router-based traffic monitoring mechanism. FlowTools[2] is a open-source NetFlow analysis toolset underlying the data gathering and analysis infrastructure of our project. It is our main motivation to effectively use NetFlow to gain crucial understanding of the traffic characteristics of the networks we operate. In particular, we are interested in understanding how to exploit the key advantages and avoid drawbacks of NetFlow-based traffic analysis by augmenting it with a distributed service-deployment platform. -
Connecting to the GENI Network 18 August 2010
Connecting to the GENI Network 18 August 2010 Brandon Williams Indiana University 1 Contents Cover page………………………………………………………………………… 1 Contents……………………………………………………………………………. 2 Executive Summary………………………………………...................... 3 Introduction………………………………………………………………………. 4 Internet2…………………………………………………………………………… 5 About Internet2……………………………………………………...5 Internet2 initiatives……………………………………………… 5 Other Internet2 details………………………………………… 6 Characteristics of the Internet2 Network…………....... 6 How to connect to Internet2………………………............ 9 NLR………………………………………………………............................. 10 About NLR……………………………………………………………….10 Characteristics of the NLR network………………………… 11 How to connect to NLR………………………………………….. 14 The GENI Network…………………………………………………………….. 15 The GENI organization…………………………………………… 15 The GENI rationale………………………………………………… 16 GENI control frameworks………………………………………. 17 The GENI architecture…………………………………………… 18 Connecting to the GENI network……………............................ 19 References………………………………………………………………………… 21 2 Executive Summary The Global Environment for Network Innovations (GENI), a project sponsored by the National Science Foundation, is a virtual laboratory at the frontiers of network science and engineering for exploring future internets at scale. There is currently no public document that explains how international networks can connect to GENI. This document explains US R/E networks providing GENI connectivity and how to connect to them and ultimately to GENI. Important things to know when connecting to -
Amlight Express and Protect (Exp) • RXP: Atlanticwave-SDX
! IRNC Kickoff Meeting Internet2 Global Summit Washington DC April 26, 2015 Julio Ibarra Florida International University Principal Investigator [email protected] Outline ! • Backbone: AmLight Express and Protect (ExP) • RXP: AtlanticWave-SDX 2 AmLight Today • 4 x 10G links – Two topologies and – Two submarine cable systems to increase resilience and support for experimentation • SDN Ring: Miami-São Paulo, São Paulo-Santiago, Santiago- Miami – 20G total capacity – Full Openflow 1.0 and network virtualization support – Uses Brocade devices • MPLS Ring: Miami-Fortaleza, Fortaleza-Rio, Rio-São Paulo, São Paulo-Miami – 20G total capacity – Layer2 support via L2VPN – Uses Juniper devices • Mutual redundancy between SDN and MPLS rings 3 AmLight 2015-2017 • OpenWave 100G alien wave – U.S., Brazil, Latin America – Experimentation is initial focus – In the AmLight SDN domain – What we learn will enable our next 20 years • 100G to AL2S, Miami- Jacksonville is operational • 140G aggregate capacity using spectrum and leased circuits 4 AmLight Express and Protect (ExP) 2018-2031 • AmLight Express: – 300GHz of spectrum: Santiago-São Paulo, and São Paulo-Miami – Spectrum to be configurable by RENs to meet user/ application requirements • AmLight Protect: – 40G leased capacity ring – Miami, São Paulo, Santiago, Panama City, Miami – AMPATH, Southern Light, REUNA, and RedCLARA operated • Potential for unprecedented regional resilience for U.S.- Latin America, and U.S.- Europe connectivity, supporting global science 5 research AmLight ExP Challenges • Bandwidth -
Broadband for Education: the National Internet2 K20 Initiative’S and WICHE’S Recommendations to the FCC
Broadband for Education: The National Internet2 K20 Initiative’s and WICHE’s Recommendations to the FCC Who are we? Internet2: We bring together Internet2’s world-class network and research community members with innovators from colleges and universities, primary and secondary schools, libraries, museums and other educational institutions, the full spectrum of America’s education community, including both formal and informal education. The National K20 Initiative extends new technologies, applications, and rich educational content to all students, their families and communities – no matter where they’re located. We have had immense success connecting the institutions above – in fact, over 65,000 institutions are now connected to the National Internet2 network – but to realize fully the potential of Internet2 all institutions must have adequate bandwidth. What follows are principles we endorse and urge the FCC to adopt. We divide our recommendations into two interrelated categories: connectivity and e-rate support. Western Interstate Commission for Higher Education (WICHE): WICHE and its 15 member states work to improve access to higher education and ensure student success. Our student exchange programs, regional initiatives, and our research and policy work allow us to assist constituents in the West and beyond. Equitable access to broadband technology and, in particular, technology-enabled education, is among our strategies. At present much of the West, particularly the “frontier West,” has little or no access to adequate bandwidth. Many of our institutions are not among those connected by and participating in the Internet2 K20 Initiative. The principles and recommendations below would remedy this situation. Our recommendations: (1) Connectivity • Elementary schools, secondary schools, and branch libraries should be connected at 100 Mbps to 10 Gbps. -
Bulletin Year 13
Bulletin Year 13 Pure life and knowledge! Europe and Latin America RedCLARA partner TICAL's Costa Rican expand their collaboration networks have fast and edition will host two more for open science direct access to Microsoft events services n˚ 49 RedCLARA announces peering with Google April 2017 Contents Editorial - Mariano José Sánchez 5 Bontempo, Executive Director of RedCONARE Pure life and knowledge! TICAL's Costa 6 Rican edition will host two more events 11 BELLA-T opens tender for infrastructure "The mother of the Internet": Former 12 president of RedCLARA was honored by the Uruguayan television on Women's Day RedCLARA partner networks have fast and 13 direct access to Microsoft services RedCLARA announces peering with 14 Google RedCLARA: Europe and Latin America expand their Editing 15 María José López Pourailly collaboration for open science Contents A clear path for your data María José López Pourailly Using RedCUDI in the Pierre Auger Luiz Alberto Rasseli 16 Observatory Remote Control Room Translation into Portuguese located at UNAM Luiz Alberto Rasseli Translation into English We empower your research and María José López Pourailly Leonardo Rodríguez: "We hope to developments Luiz Alberto Rasseli 17 strengthen the articulation with the Graphic design scientific communities of the other María José López Pourailly national networks" 19 Agenda Press Contact: María José López Pourailly Communications and Public Relations Manager [email protected] (+56) 2 2584 86 18 # 504 Avenida del Parque 4680-A Edifico Europa, oficina 108 Ciudad Empresarial Huechuraba Santiago, CHILE Editorial TICAL will be held in Costa Rica this year! For Another event that will be held during these RedCLARA, the National Council of Rectors days is the meeting of Internet Society, called (CONARE) and RedCONARE (the Costa Rican “ION Costa Rica 2017”. -
May 2013 Report APPENDIX D
APPENDIX D 2013 ESINet Steering Committee Report to the 130th General Assembly Technical Standards Subcommittee INFRASTRUCTURE EVALUATION An examination of the readiness of the state’s current technology infrastructure to support a statewide emergency services internet protocol network for Next Generation 9-1-1 Services. 0 | P a g e Table of Contents PURPOSE ....................................................................................................................................................... 2 EXISTING TECHNOLOGY INFRASTRUCTURE .................................................................................................. 2 OHIO OFFICE OF INFORMATION TECHNOLOGY ............................................................................................ 3 OIT Telecommunications .............................................................................................................................. 3 Procurement ................................................................................................................................................. 3 DAS Network Contract Management Services ............................................................................................. 4 Contracts by Service ...................................................................................................................................... 4 Reach…. ......................................................................................................................................................... 5 Capacity -
Uen Provides Bandwidth on Demand for the Research Community
UEN PROVIDES BANDWIDTH ON DEMAND FOR THE RESEARCH COMMUNITY What Our Customers Working with the University of Utah, the Are Saying Utah Education Network has connected the “We were able to start deploying 100G wavelengths alongside our research community with a super-fast, 100G existing 10G wavelengths right transport infrastructure built on Ciena’s 6500 away, giving us a tenfold uplift in available bandwidth capacity for the Packet-Optical Platform. local research community.” The Utah Education Network (UEN) connects all universities, school districts, schools, “It costs the same to buy and turn libraries, and anchor institutions across the state. To meet the needs of super users at up a wavelength on the Ciena the University of Utah and other research institutions, the organization needed to infrastructure as it costs to lease an upgrade its existing 10G network infrastructure. equivalent service from a third-party provider for one year. After that, we Working with the University of Utah and Ciena, with local project support from Ciena only have maintenance costs to partner CenturyLink, UEN deployed new 100G wavelengths to connect the university’s think about, which means we high-performance computing center with its new data center in downtown Salt Lake achieve major ongoing savings.” City. A third 100G connection links the university to the U.S. national research and education network, Internet2. Kevin Quire Manager of Network Engineering The new metro optical network, which is built on Ciena’s 6500, provides virtually Utah Education Network unlimited, on-demand bandwidth for the research community. It will support the diverse research portfolio of researchers and students across Utah for many years to come, offering robust scientific computing and visualization capabilities in the areas of biomedicine, genomics, geophysics, combustion, molecular dynamics, fluid dynamics, and climate modeling. -
An Overview of Research and Education Networks And
An overview of research and education networks and interconnectivity around the world JET Roadmap Meeting Heather Boyles Director, International Relations, Internet2 [email protected] 14 April 2004 Purpose “…..start the session by painting a global picture of the state of international connectivity, who the players/sponsors are, where the connections are and what the pipe types/sizes are. “….give your view of where you think the growth will be, what you see as the major issues and how you think the JET can help” Caveats I’m absolutely sure I’ve missed pieces of information here There are many in the room who are intimately involved in many of these projects – so please add/correct/contribute! I’ve tried to take a global view, but we all wear our particular tint of glasses….. What’s the point? JETnets supporting user communities with needs for access to or interacting with collaborators, facilities, data sources outside the US JET charter is to coordinate networking activities, operations, and plans, between multiple Federal agency networks (represented by DOD, DOE, NASA, and NSF), the NGI, and Internet2 Despite precipitous drop in international (esp. trans-oceanic) bandwidth, still expensive • at minimum – sharing plans, information • at maximum – jointly leveraging international connectivity, aggregating, sharing bandwidth internationally • NGIX – international exchange points coordination activities Some generalizations The idea of national research (and education) networks (NRNs or NRENS) has really taken off • New NRENs in Latin -
Description of Omnipop for Proposals
Description of OmniPoP for Proposals Summary The OmniPoP is a collaborative effort between 12 of the member universities of the Big Ten Academic Alliance. Together, these institutions have pooled their efforts to create a high performance shared infrastructure based in the Chicago area. This infrastructure was designed to complement and augment the shared fiber infrastructure that the Big Ten Academic Alliance members had previously purchased. The OmniPoP operates a high capacity switching infrastructure that supports 10 gigabit and 100 gigabit connections to its member institutions and equivalent high capacity links to national research and education networks such as Internet2, ESnet, and Starlight. This allows OmniPoP connections to be leveraged to provide services to large data flows in support of multi-institutional cooperative research efforts. Efforts supported today include interconnections between the Large Hadron Collider (LHC) Tier 2 efforts at the member institutions and the Midwest Openflow Crossroads Initiative (MOXI) project which links several midwest regional networks to the GENI backbone. OmniPoP Infrastructure and Peerings The Omnipop infrastructure consists of a redundant pair of 100 gigabit capable switches. These switches operate from geographically diverse co-location facilities within the Chicago metropolitan areas. These facilities also serve as Points of Presence (PoPs) for other major networks such as Internet2, ESnet (Department of Energy’s Energy Sciences Network), and Starlight (the international peering exchange), enabling seamless cross connections to the major national and international research and education networks that support much of the academic research community. An additional benefit to these facilities is that they offer the opportunity for Big Ten Academic Alliance members to co-locate additional network related equipment in support of their own projects independent of the OmniPoP core infrastructure.