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5G promete revolucionar la forma en que operan las redes móviles. Capacidades como 1 Gbit / s para el dispositivo, latencia de 1 ms y disponibilidad de cinco 9’s proporcionan una oportunidad sin igual para la innovación de servicios. En 5G la fibra es la respuesta para llevar las comunicaciones al siguiente nivel, sin embargo, muchos problemas de servicio que impactarán estas redes se remontan a problemas de calidad en un cable de fibra. Tener el equipo de prueba adecuado para detectar y diagnosticar rápidamente problemas es esencial para una resolución rápida. 5G no ser á la excepción; de hecho, dada la tendencia hacia un mayor ancho de banda y mejor calidad de señal, muchos parámetros que no afectan las redes existentes se harán notar a medida que se exigen mejoren rendimientos operativos en las nuevas tecnologías a ser implementadas Acompáñenos a esta serie de cuatro seminarios web para EXFO será un honor que nos permita mostrarle las opciones de equipos de medición y metodologías que ofrecemos; queremos ser su mejor aliado al momento de ejecutar o resolver sus problemas, donde sea que una red de alta velocidad sea desplegada. Sesión 1 - 16 junio | La importancia de medir la capa física en 5G: La fibra óptica, medio que respaldará a 5G, para lograr los niveles de latencia y ancho de banda necesarios. ¿Qué pruebas deben ejecutarse para garantizar el buen estado del enlace de esta capa física? Sesión 2 - 30 junio | SLAs al más alto nivel, cómo saber que sí cumples con ellos: ¿Qué parámetros y qué pruebas debes ejecutar? Se trata de los SLAs más exigentes que hemos conocido en enlaces masivos hacia el usuario final. Sesión 3 - 14 julio | Sincronía: Conceptos básicos y parámetros que deben ser vigilados y medidos en redes de telecomunicaciones Sesión 4 - 28 julio | Monitoreo de enlaces Ópticos (L1) de redes de alta velocidad: El crecimiento masivo de enlaces de fibra óptica obliga a contar con un monitoreo 24/7 para la detección y ubicación inmediata de daños en la infraestructura.

5G promete revolucionar la forma en que operan las redes móviles. Capacidades como 1 Gbit / s para el dispositivo, latencia de 1 ms y disponibilidad de cinco 9’s proporcionan una oportunidad sin igual para la innovación de servicios. En 5G la fibra es la respuesta para llevar las comunicaciones al siguiente nivel, sin embargo, muchos problemas de servicio que impactarán estas redes se remontan a problemas de calidad en un cable de fibra. Tener el equipo de prueba adecuado para detectar y diagnosticar rápidamente problemas es esencial para una resolución rápida. 5G no ser á la excepción; de hecho, dada la tendencia hacia un mayor ancho de banda y mejor calidad de señal, muchos parámetros que no afectan las redes existentes se harán notar a medida que se exigen mejoren rendimientos operativos en las nuevas tecnologías a ser implementadas Acompáñenos a esta serie de cuatro seminarios web para EXFO será un honor que nos permita mostrarle las opciones de equipos de medición y metodologías que ofrecemos; queremos ser su mejor aliado al momento de ejecutar o resolver sus problemas, donde sea que una red de alta velocidad sea desplegada. Sesión 2 - 30 junio | SLAs al más alto nivel, cómo saber que sí cumples con ellos: ¿Qué parámetros y qué pruebas debes ejecutar? Se trata de los SLAs más exigentes que hemos conocido en enlaces masivos hacia el usuario final. Sesión 3 - 14 julio | Sincronía: Conceptos básicos y parámetros que deben ser vigilados y medidos en redes de telecomunicaciones Sesión 4 - 28 julio | Monitoreo de enlaces Ópticos (L1) de redes de alta velocidad: El crecimiento masivo de enlaces de fibra óptica obliga a contar con un monitoreo 24/7 para la detección y ubicación inmediata de daños en la infraestructura.

The only way for operators to generate more revenue is to take more risk. The promise of 5G networks is in selling augmented connectivity solutions to enterprises, and not to consumers. But the operator community must guarantee 5G services, offered on network slices or in private instances, if they are to win business from the digital transformation of the enterprise sector. But how far will operators go to guarantee critical operations against security threats and 5G blackouts? Speakers: James Blackman, Editor, Enterprise IoT Insights Shubh Agarwal, SVP of 5G, Metaswitch Dheeraj Remella, Chief Product Officer, VoltDB Guillaume Briand, Product Line Manager, EXFO Leo Gergs, Research Analyst, ABI Research Vassilis Seferidis, CEO, Zeetta Networks Limited

Market demand has begun for 400G as a service. The trial record for 400G has been building across a number of applications including data center interconnect, intra-data center, over subsea links, in the terrestrial network core and for enterprise. Leading CSPs have begun to offer 400G and now are looking to scale. Demand for 400G will ramp in 2022 across all geographies. What are the early uses cases for 400G for the CSP, ICP, IX and enterprise communities? What does network as a service mean and how does that align with automation, scale, and flexibility? Why will network validation/troubleshooting be critical as operators look ahead to higher rates? Prospective clients of 400G as a service will be technically demanding, and asking for FEC performance, Optics validation, RFC2544 and Y.1564. Who Should Attend High capacity, wholesale service product managers, CTO, CIO, strategy leads of optical networks, heads of emerging technologies, network architects, network operations, installation and test contractors, sales, and business development leads. Financial analysts and media are encouraged to attend. Key Topics for Discussion Key use cases for 400G as a service 400G coherent port shipments to date What are the key performance metrics for 400G as a service? What do CSPs need to consider for breakout cables and AOCs? How can CSPs assure link stability and provide latency measurements? Answers to audience questions during live Q&A

Join EXFO and Electro Rent for our 5G Fronthaul Validation webinar. This seminar will cover the steps for Fronthaul link validation using an EXFO test module. In this course, we will discuss Connector Performance, Fiber Characterization, Backhaul Link Validation, CPRI/eCPRI Link Validation, and Transceiver Health Check. Identify, understand, and test the 5-step process for Fronthaul link validation: Connector performance Fiber Characterization VLAN validation CPRI/eCPRI Link validation Transceiver health check

Fiber has become a critical element in delivering high-quality broadband and 5G networks. Driven by new bandwidth-intensive applications and more demanding customer expectations, fiber is being pushed beyond the core and aggregation networks – all the way to the end customer or cell tower. And the mission-critical nature of many of these services is driving the need for greater visibility to support stringent SLA requirements. Today, it is estimated that less than 5% of fiber is actively monitored – and as data rates and wavelength counts increase, the impact of fiber quality issues is magnified. This is especially true not only for new fiber builds where it is estimated that at least 30% of the fibers will have service-impacting issues, but equally for older fiber infrastructure that was never expected to support the increased data rates. Today’s networks, which rely heavily on automation to reduce opex, need complete visibility into customer quality of experience (QoE) and network quality of service (QoS). And while much of this can be provided through active assurance monitoring at layers 2 through 7, the full benefits of this automation requires visibility down to the optical layer. This complete visibility can significantly reduce opex by minimizing the need for truck-rolls by pinpointing the exact location of service-impacting issues and correlating fiber monitoring KPIs with active assurance KPIs to quickly identify root cause events, shorten MTTR and, when combined with machine learning, predict service-impacting events before they happen. Join this webinar to learn how Hyperoptic and Mox Networks are using fiber monitoring to: Speed up deployment of new fiber networks by fully testing and characterizing all fibers and splitters while the construction teams are still on site Speed up the time-to-first revenue and improve overall customer experience through improved network quality Reduce operations costs and speed up time-to-revenue by automating the turnup and testing of dark and lit fiber services

Overview “5G will be the game changer” was the buzz phrase we heard during the past several years. Communications Service Providers (CSPs), who were first out of the gate to deploy 5G, however, experienced only bitter lessons in sharing RAN, Transport, and 4G Core. Even today, CSPs are still seeking ways to monetize 5G infrastructure in an effort to pave the way for return on their million-dollar investments in the 5G infrastructure while overcoming challenges that risk delaying revenue. Watch this webinar to learn how 5G standalone (SA)—in contrast to 5G non-standalone architecture (NSA)—will blaze new grounds and enable addressing new target markets and, eventually, create new revenue streams. This webinar will focus on designing and deploying an end-to-end 5G network, including RAN, Transport, Core network, network analytics, and orchestration, to win the actual 5G race. We will also discuss how 5G SA shared cloud infrastructure helps mitigate risks, improves network performance for innovative use cases, and increases monetization for service providers. Key Topics for Discussion 5G standalone architecture (SA) network design transformation discussion on E2E network, including RAN-Transport and Core How 5G SA can meet the requirements of future innovative use cases Role of 5G core and multi-layer slicing and orchestration for latency-sensitive applications Support of core function to the network edges to enable URLLC services How service assurance supports the complex deployment journey, and enables closed-loop control Answers to audience questions during live Q&A Speakers Sameer Malik, Senior Principal Analyst, Service Provider Routing and Switching, Omdia Dudy Cohen, Senior Director, Product Marketing, DriveNets Scott Sumner, Director, Commercial Insight, EXFO Allen Tatara, Associate Director, Omdia Webinars (Moderator)

Network equipment manufacturers (NEMs) and optical R&D labs are facing growing challenges related to global network transformations including 5G mobility, high-speed broadband, data centers and edge networking. In this fast-paced and complex environment, NEMs and labs need scalable, agile testing solutions that meet evolving R&D and production requirements. To ensure high quality and cost-effectiveness, test & measurement solutions must leverage automation and advanced technology while ensuring that testing is done from end to end. In this webinar, Stephen Hardy from Lightwave will join EXFO expert Leo Lin to discuss industry trends and best practices around testing next-gen high speeds, optical components and photonic integrated circuits. The speakers will also share actionable insights that were gathered earlier this year during EXFO’s TEST Talks, an online series of panels with experts from across the industry. Key takeaways: Key trends and challenges in rolling out 400G/800G End-to-end testing solutions for R&D, manufacturing to field as well as component, module and system requirements Best practices and use cases with major industry players

Deploying 5G networks may not seem more complicated than 4G/LTE, but unlike its predecessors, 5G is actually way more complex. 5G networks will bring forth stricter speed, latency and bandwidth requirements—and mandate the deployment of a lot more fiber and small cells. In fact, 5G will require: 100x more fiber links 2500% improvement in link latency 1000x more network devices (i.e. transceivers, switches and radio equipment) To deliver on the promise of 5G, operators will need to implement new testing processes in order to guarantee first-time right network installation and turn-up. This interactive webinar will cover testing methods and procedures required to successfully turn-up and troubleshoot new 5G cell sites. Key takeaways: Testing best practices for accelerating 5G fiber rollouts Achieve first- time- right cell site installation and turn-up Featuring a live virtual test demonstration

Cloud computing, AI, IoT and 5G are the impetus behind the world’s latest network transformation. The next few months will bring about a significant increase in the deployment of new 400G links across DCI, metro-regional and long-haul networks—fueled by high-capacity connectivity and the massive bandwidth demands placed on the network by these transformative new technologies. Coherent optics will be a viable solution for deploying many of these 400G connections given the enhanced capacity, flexibility and reach they provide. In this webinar, we will cover the up-and-coming trends regarding coherent technology, as well as look at 400G deployment use cases and validation best practices. Key topics include: coherent optics market overview 400G deployment challenges the role of 400G coherent pluggables in high-speed networks and its advantages key deployment use cases and test scenarios