This document discusses software defined networking (SDN) and provides four use cases for SDN: 1) an application delivery network (ADN) that virtualizes firewall, load balancing, and routing functions, 2) simulated central policy control that allows network changes to be tested without disrupting live traffic, 3) tapping network traffic for monitoring using OpenFlow switches instead of additional hardware, and 4) using SDN in wide area networks to inject layer 3-7 services and gain traffic engineering benefits like auto-routing. The document positions a company's SDN product which will launch on an HP SDN app store and be demonstrated at the INTEROP conference in Las Vegas.
This document discusses networking requirements for a customer and compares traditional and software defined network options. It proposes a software defined application delivery network using virtualized firewalling, load balancing and routing. This is estimated to provide 50-70% lower capital expenses and 60-80% lower operating expenses compared to the traditional network option. Major players in software defined networking are also listed.
This document discusses software-defined networking (SDN) and network orchestration. It asks common questions about SDN and describes how network engineering tasks are simplified in a SDN world using an orchestration approach. Screenshots of an SDN orchestration product from ECODE Networks are provided, showing features like monitoring, design, policy configuration, analytics, and quality of service controls.
Evolve is a software solution powered by HP's VAN SDN Controller that allows enterprises to orchestrate their network services dynamically on demand. It eliminates the need for traditional network routing and switching and provides benefits like lower costs, real-time network monitoring and analysis, and the ability to safely test and simulate network changes before production deployment. Evolve includes applications like Canvas to design networks, Control to simulate existing networks, and Netlyzer to monitor traffic and automatically implement firewall policies upon detecting threats.
Ecode Networks' Evolve product provides software-defined networking orchestration through an easy-to-use solution that controls all aspects of SDN. It delivers a centralized control plane with a simplified, protocol-independent network structure. Evolve eliminates the need for traditional networking devices and features, reducing complexity. It also offers enhanced programmability, security, and operational performance monitoring while lowering costs.
This document discusses the challenges of traditional network configuration management approaches and proposes software-defined networking (SDN) as a solution. Specifically, it notes that traditional approaches are time-consuming, error-prone, lack centralized control, and make ensuring compliance and strategic management difficult. SDN is presented as simplifying network management by using a centralized controller to abstractly manage the entire network, allowing for automation, programmability, flexibility, and easier management of changes, security, and compliance. The controller gives administrators a holistic view and control over network traffic routing and configuration.
This document discusses the evolution from traditional proprietary and vertically integrated network architectures to software-defined networks (SDN). It outlines some of the key benefits of SDN such as increased network utilization, faster failure handling, and more rapid innovation. Several companies that are involved in SDN including Google, Juniper, Arista, and Radware are profiled. The document provides examples of how SDN enables network programmability through software applications and controllers to optimize network resources and functionality.
This document discusses software defined networking (SDN) and provides four use cases for SDN: 1) an application delivery network (ADN) that virtualizes firewall, load balancing, and routing functions, 2) simulated central policy control that allows network changes to be tested without disrupting live traffic, 3) tapping network traffic for monitoring using OpenFlow switches instead of additional hardware, and 4) using SDN in wide area networks to inject layer 3-7 services and gain traffic engineering benefits like auto-routing. The document positions a company's SDN product which will launch on an HP SDN app store and be demonstrated at the INTEROP conference in Las Vegas.
This document discusses networking requirements for a customer and compares traditional and software defined network options. It proposes a software defined application delivery network using virtualized firewalling, load balancing and routing. This is estimated to provide 50-70% lower capital expenses and 60-80% lower operating expenses compared to the traditional network option. Major players in software defined networking are also listed.
This document discusses software-defined networking (SDN) and network orchestration. It asks common questions about SDN and describes how network engineering tasks are simplified in a SDN world using an orchestration approach. Screenshots of an SDN orchestration product from ECODE Networks are provided, showing features like monitoring, design, policy configuration, analytics, and quality of service controls.
Evolve is a software solution powered by HP's VAN SDN Controller that allows enterprises to orchestrate their network services dynamically on demand. It eliminates the need for traditional network routing and switching and provides benefits like lower costs, real-time network monitoring and analysis, and the ability to safely test and simulate network changes before production deployment. Evolve includes applications like Canvas to design networks, Control to simulate existing networks, and Netlyzer to monitor traffic and automatically implement firewall policies upon detecting threats.
Ecode Networks' Evolve product provides software-defined networking orchestration through an easy-to-use solution that controls all aspects of SDN. It delivers a centralized control plane with a simplified, protocol-independent network structure. Evolve eliminates the need for traditional networking devices and features, reducing complexity. It also offers enhanced programmability, security, and operational performance monitoring while lowering costs.
This document discusses the challenges of traditional network configuration management approaches and proposes software-defined networking (SDN) as a solution. Specifically, it notes that traditional approaches are time-consuming, error-prone, lack centralized control, and make ensuring compliance and strategic management difficult. SDN is presented as simplifying network management by using a centralized controller to abstractly manage the entire network, allowing for automation, programmability, flexibility, and easier management of changes, security, and compliance. The controller gives administrators a holistic view and control over network traffic routing and configuration.
This document discusses the evolution from traditional proprietary and vertically integrated network architectures to software-defined networks (SDN). It outlines some of the key benefits of SDN such as increased network utilization, faster failure handling, and more rapid innovation. Several companies that are involved in SDN including Google, Juniper, Arista, and Radware are profiled. The document provides examples of how SDN enables network programmability through software applications and controllers to optimize network resources and functionality.
The document outlines a company's mission to deliver innovative network solutions maximizing customer profit through their product Evolve, which provides layer 4-7 service provisioning, centralized firewalling, load balancing, and management capabilities. Formed in 2009, the company has offices in the UK and India and collaborates with major vendors to offer their Networking as a Service through the Evolve product and SDN use case solutions.
This document discusses SDN orchestration and ECODE Networks' SDN orchestration product. It provides an overview of how SDN orchestration addresses common challenges with traditional network engineering approaches. Screenshots of ECODE's orchestration product are shown, including the dashboard, canvas, control, netlyzer, and flowrector features. Contact information is provided at the end.
The document discusses networking requirements for a customer including secure internet access, load balancing, data security, scalability, and cost reduction. It presents two options - a traditional hardware-based network with firewalls, load balancers and switches, and a software-defined network (SDN) using virtualized components and centralized control. The SDN option is estimated to provide 50-70% lower capital costs and 60-80% lower operating costs while offering benefits like simplified management, performance, and innovation. Major players in the emerging SDN market are also listed.
The document discusses the limitations of a distributed control plane including complex design, difficult management, and lack of innovation. It then presents the benefits of a centralized control plane such as simple structure, easy deployment and maintenance, rapid innovation, and open architecture.
This document outlines a network architecture with three layers: an application layer for orchestration and centralized control, a centralized control layer for coordinating packet forwarding, and a packet forwarding layer for routing packets. It aims to provide automation, centralized control, and end-to-end visibility across the network. The architecture is designed by Ecode Networks, a London-based networking company founded by Nimit Shishodia.
This document discusses the emerging technology of software defined networks (SDN). It begins by comparing the traditional vertically integrated network model to the new horizontal SDN model. SDN allows for network control to be separated from the forwarding function through open interfaces. This enables rapid innovation, standardization, and new applications. Examples are given of early adopting companies like Google and startups creating SDN controllers and applications. The benefits of SDN include increased network programmability, virtualization, visibility, and flexibility.
The document outlines a company's mission to deliver innovative network solutions maximizing customer profit through their product Evolve, which provides layer 4-7 service provisioning, centralized firewalling, load balancing, and management capabilities. Formed in 2009, the company has offices in the UK and India and collaborates with major vendors to offer their Networking as a Service through the Evolve product and SDN use case solutions.
This document discusses SDN orchestration and ECODE Networks' SDN orchestration product. It provides an overview of how SDN orchestration addresses common challenges with traditional network engineering approaches. Screenshots of ECODE's orchestration product are shown, including the dashboard, canvas, control, netlyzer, and flowrector features. Contact information is provided at the end.
The document discusses networking requirements for a customer including secure internet access, load balancing, data security, scalability, and cost reduction. It presents two options - a traditional hardware-based network with firewalls, load balancers and switches, and a software-defined network (SDN) using virtualized components and centralized control. The SDN option is estimated to provide 50-70% lower capital costs and 60-80% lower operating costs while offering benefits like simplified management, performance, and innovation. Major players in the emerging SDN market are also listed.
The document discusses the limitations of a distributed control plane including complex design, difficult management, and lack of innovation. It then presents the benefits of a centralized control plane such as simple structure, easy deployment and maintenance, rapid innovation, and open architecture.
This document outlines a network architecture with three layers: an application layer for orchestration and centralized control, a centralized control layer for coordinating packet forwarding, and a packet forwarding layer for routing packets. It aims to provide automation, centralized control, and end-to-end visibility across the network. The architecture is designed by Ecode Networks, a London-based networking company founded by Nimit Shishodia.
This document discusses the emerging technology of software defined networks (SDN). It begins by comparing the traditional vertically integrated network model to the new horizontal SDN model. SDN allows for network control to be separated from the forwarding function through open interfaces. This enables rapid innovation, standardization, and new applications. Examples are given of early adopting companies like Google and startups creating SDN controllers and applications. The benefits of SDN include increased network programmability, virtualization, visibility, and flexibility.