At CiscoLive this week, I am proud to announce the launch of the new Aggregation Services Router, the ASR 1001-X.
The ASR 1001-X is the latest addition to the ASR 1000 family of routers that packs 20Gbps forwarding capacity and 8G of Layer 3 Crypto throughput in a compact 1RU form factor!
In my earlier blog post I highlighted the need for connecting data centers to share and scale cloud services on demand and achieve flexibility and availability that is required by the cloud. As data centers continue to grow so does the need for more power and cooling, while rackspace continues to become a rare commodity. Talking to customers they wanted a platform with a smaller footprint but with higher performance and hence the ASR 1001-X was born.
Some of the key benefits of the ASR 1001-X we are highlighting at CiscoLive are:
Investment Protection: Pay-as-you-grow forwarding throughput upgradable from 2.5 to 5,10 and 20Gbps
Robust Security: Up to 8Gbps of Suite-B encryption combined with Layer 2 MAC Security.
Data Center Interconnect (DCI): For workload mobility, high-availability application clusters and layer 2 extension for legacy applications support.
Cisco IWAN: Application Visibility and Control, AppNav and Performance Routing enable inexpensive business-class Internet links as a WAN transport
Advanced Routing: Locator/ID Separation Protocol (LISP) to enable Host mobility, Ingress traffic load-balancing, high VPN scale, and IPv6 transition
Route Reflector: Up to 13M IPv4 routes (selective download)
Multimedia Edge: Cisco Unified Border Element (CUBE) Enterprise Edition to offer 16k calls
Ease of Management: Seamless integration and management with Cisco Prime Infrastructure.
I am often asked how each one of the benefits will help our customers so I wanted to talk about some of the common use cases where customers will see the largest benefit of the ASR 1001-X. For this blog I will cover in detail the Data Center Interconnect (DCI) use case and I will cover more use cases in future blog posts.
The Data Center Interconnect must provide secure access to satisfy a key requirement for the consumption of services from the cloud. Before the advent of the cloud, the network traffic that flowed in the interconnecting network fabric or the IP NGN was unidirectional -- it flowed from the client to the server in the network and back to the network client. Cloud and virtualization has made the network traffic multi-dimensional. The network traffic not only moves to and from client and network server it can also move across servers that are located in geographically dispersed data centers that are interconnected using DCI technologies. VMware virtual machine motion is an example of that. Based on this criteria, the ASR 1001-X supports the following DCI technologies:
Virtual Extensible LAN Services
Overlay Transport Virtualization
Virtual Private LAN Services
Ethernet over MPLS
Layer 2 Tunneling Protocol v3
Please stay tuned for more in my next blog. I will talk about how the consumers of the cloud require the same great application experience when services are moved to the cloud and how the ASR 1001-X can help to deliver a better user experience.
Written By Jim O’ Leary, Senior Mobile Solutions Marketing Manager
What a great week to be in London last week, the weather was great with blue skies and warm weather. The main reason this week to be in London was to attend the annual Global Telecoms Business Summit and Innovations Awards, and what a great industry event it was. During the event there were lots of customer interactions, industry discussions & best practices, and the Innovation Awards.
The Global Telecom Business Summit and Innovation Awards is an annual event that celebrates innovative solutions created by telecom vendors together with operators to make a difference to the world. Cisco and Thales won the award for Business Service Innovation for “LTE Enhancing the Safety and Security Industry Market” where we leveraged Cisco’s Industry Leading LTE Solution and Thales’ industry leadership in Security Systems Integration.
What is the problem that we identified? The Safety & Security Industry leverages the Professional Mobile Radio (PMR) which is currently in the process of transitioning towards Broadband over the next few years.
Written By Amrit Hanspal, Senior Manager, Service Provider Lead, Network OS Tech Group
Cisco Live in San Francisco (next week!) offers a host of learning opportunities if you are part of a Service Provider, or a large Enterprise that offers services to internal groups. Let my blog be your guide to help you chart out all the different sessions that Cisco has to offer during the week, with a specific focus on the software capabilities of the routing and switching platforms in 4 key areas – IPv6, SDN, MPLS Transport & Ethernet Services, and IP Routing.
First up, IPv6! The exhaustion of IPv4 is not the only driving force for IPv6 adoption. Service Provider IPv6 deployments are rapidly ramping up with a majority of SPs looking towards IPv6. Join us for a recap on ‘IPv6 – From Intro to Intermediate’ (Session ID: BRKRST-2116) or join us to hear about our experiences in ‘Service Provider IPv6 Deployment’ (Session ID: BRKSPG-3300) where our IPv6 gurus highlight deployment best practices and real-world challenges. Security is key in IPv6 – and that’s the focus of ‘IPv6 Security Threats & Mitigations’ (Session ID: BRKSEC-2003). And since we are dealing with the networking, don’t worry, we got you covered with a Troubleshooting IPv6 session (Session ID: BRKRST-2304). See the full list of learning opportunities at here.
Next up, is SDN – Software Defined Networking. The industry’s latest Read More »
One of the key functions of ESP’s orchestration engine is to automate, in real time, the operations of today’s complex multivendor physical and virtual infrastructure. This week we announced the WAN Automation Engine (WAE), which helps deliver this function for the wide area networks of our carrier operators, and enables them to deliver positive business outcomes for their end customers. Using WAE’s sophisticated predictive analytics and path computation, operators can now rapidly create new revenue generating services such as bandwidth calendaring for their end customers; this is not possible in many of their present modes of operation.
Those responsible for the “bottom line” in service providers will Read More »
There is no disputing that both enterprises and service providers are embracing cloud. What’s different today is that not only are telcos cloud providers, but enterprises and governments are also becoming cloud providers through a community cloud model.
A community cloud model is a collaborative effort where infrastructure is shared and jointly accessed by several organizations from a specific group that share specific computing concerns such as, security, compliance or jurisdiction considerations. The community cloud can be either on-premises or off-premises, and can be governed by the participating organizations or by a third-party managed service provider.
A community cloud model helps offset common challenges across universities, government agencies and enterprises,such as cost pressures, technology complexity, and spending requirements, security concerns and a lack of sector specific services from service providers.
I recently had the chance to participate in a new Cloud Insights Video Podcast to discuss how CIOs can transform their enterprise IT delivery models and how Cisco is supporting service providers in developing their cloud execution strategies.
User Organizations Are Becoming Cloud Vendors
CIOs have recognized that greater business outcomes can be delivered for their customers by working together to resolve common challenges and realize common opportunities. It’s also becoming clear to them that using a community cloud model for cloud services is an innovative way to help deliver on these outcomes.
As we’ve worked with CIOs in governments and universities across various geographies, , we have focused on building a shared understanding of what can be achieved by moving common services, which are not seen as differentiated to the business, into a community cloud model. For example, all universities offer human resources as a service, and student enrollment services and financial aid services are not considered differentiated. So why not have it as a shared community service that reduces cost outlay and redirects the savings to innovative learning experiences for students?