Sunday, 5 January 2020

Next Generation Data Center Design With MDS 9700 – Part III

This week is exciting, had opportunity to sit on round table with Cisco’s largest customers on an open ended architecture discussion and their take on past, present and future. More on that some other time let’s pick up last critical aspect of High Performance Data Center design namely flexibility. Customers need flexibility to adapt to changing requirements over time as well as to support diverse requirements of their users. Flexibility is not just about protocol, although protocol is very important aspect, but it is also about making sure customers have choice to design, grow and adapt their DC according to their needs. As an example if customers want to utilize the time to market advantage and ubiquity of Ethernet they can by adopt FCoE.

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Moreover flexibility has to be complemented by seamless integration where customers can not only mix and match the architectures/protocols/speeds but also evolve from one to other over time with minimal disruption and without forklift upgrades. Investment protection of more than a decade on Cisco director switches allows customer to move to higher speeds, or adopt new protocols using the existing chassis and fabric cards. Finally any solution should allow scalability over time with minimal disruptions and common management model. As an example on MDS 9710 or MDS 9706 customers can choose to use 2/4/8 G FC, 4/8/16G FC, 10G FC or 10G FCoE at each hop.

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Let’s review each aspect of flexibility at a time.

Architecture:

Cisco SAN product family is designed to support Architecture flexibility. From smallest to  the largest customers and everything in-between.  Customers can grow from 12 16G ports to 48 ports on a single 9148S. They can grow from 48 16G Line Rate Ports to 192 16G Line Rate with MDS 9710 and upto 384 ports on MDS 9710. Finally having seamless FC and FCoE capability allows customers to use these directors as edge or core switches . With the industry leading scalability numbers, customers can scale up or scale out as per their needs. Two examples show how customers can use Director class switches (9513, 9506, 9710 or 9706) based Architecture for End of Row designs. Similarly customers can orchestrate Top of Rack designs using Nexus fixed family or MDS 9148S.

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If they want to continue with FC for foreseeable future or have sizable FC infrastructure that they want to leverage (and have option to go to FCOE) then MDS serves their needs. Similarly they can support edge core designs, and edge core edge designs or even collapsed  cores if so desired.

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If customers need converged switch then Nexus 2K, 5K and 6K provides the flexibility, ability to collapse two networks, simplify management as shown in the picture below.

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Speeds

Customers can mix and match the FC speeds 2G/4G/8G, 4G/8G/16G on the latest MDS 9148S, and MDS 9700 product family. With all the major optics supported, customers can pick and choose optics for the smallest distance to long distance CWDM and DWDM solutions in addition to SW, LW and ER optics choices. In addition MDS 9700 supports 10GE optics running 10G FC traffic for ease of implementing 10G DWDM solutions based on ubiquitous 10GE circuits.

Protocol

FC is a dominant protocol with DC but at the same time a lot of customers are adopting FCoE to improve ROI, simplify the network or simply to have higher speeds and agility. Irrespective of the needs and timeline MDS solution allows customer to adopt FCoE today or down the road without forklift upgrades on the existing MDS 9700 platforms while leveraging the existing FC install base.

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The diagram above shows how customers can collapse LAN and SAN networks on the edge into one network. The advantage of FEX include reduced TCO, simplified operations (Parent switch provides a single point of management and policy enforcement and Plug-and-play management includes auto-configuration).

Another example to allow non transition less disruptive for customers Cisco has supported the BiDi optics on the Nexus product family. This allows customers to use the the same same OM2, OM3 and OM4 fabrics for 40G FCoE connectivity and still don;t have to rip and replace cabling plant.

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For customer who are not ready to converge networks but want to achieve faster time to market, higher performance, Ethernet scale economies can use separate LAN and SAN network and use FCoE for that dedicated SAN .

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Coupled with broad Cisco product portfolio means that customers have the maximum flexibility to tune the architecture precisely to their needs. Cisco product portfolio is tightly integrated, all the SAN switches use same NxOS and DCNM provides seamless manageability across LAN, SAN, Converged infrastructure to Fabric Interconnects on UCS.

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From the last 3 blogs lets quickly capture what are the unique characteristics of MDS 9700 that allows for High Performance Scalable Data Center Design.

◉ Performance

24 Tbps Switching capacity, line rate 16g FC ports, No Oversubscription, local switching or bandwidth allocation.

◉ Reliability

Redundancy for every critical component in the chassis including Fabric Card. Data Resiliency with CRC check and Forward Error Correction. Multiple level of CRC checks, smaller failure domains.

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Friday, 3 January 2020

Next Generation Data Center Design With MDS 9710 – Part II

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EMC World was wonderful. It was gratifying to meet industry professionals,  listen in on great presentations and watch the demos for key business enabling technologies that Cisco, EMC and others have brought to fruition.  Its fascinating to see the transition of DC from cost center to a strategic business driver . The same repeated all over again at Cisco Live. More than 25000 attendees, hundreds of demos and sessions. Lot of  interesting customer meetings and MDS continues to resonate. We are excited about the MDS hardware that was on the display on show floor and interesting Multiprotocol demo and a lot of interesting SAN sessions.

Outside these we recently did a webinar on how Cisco MDS 9710 is enabling High Performance DC design with customer case studies.

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So let’s continue our discussion. There is no doubt when it comes to High Performance SAN switches there is no comparable to Cisco MDS 9710. Another component that is paramount to a good data center design is high availability. Massive virtualization, DC consolidation and ability to deploy more and more applications on powerful multi core CPUs has increased the risk profile within DC. These DC trends requires renewed focus on availability. MDS 9710 is leading the innovation there again. Hardware design and architecture has to guarantee high availability. At the same time, it’s not just about hardware but it’s a holistic approach with hardware, software, management and right architecture. Let me give you some just few examples of the first three pillars for high reliability and availability.

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MDS 9710 is the only director in the industry that provides Hardware Redundancy on all critical components of the switch, including fabric cards. Cisco Director Switches provide not only CRC checks but ability to drop corrupted frames. Without that ability network infrastructure exposes the end devices to the corrupted frames. Having ability to drop the CRC frames and quickly isolate the failing links outside as well as inside of the director provides Data Integrity and fault resiliency. VSAN allows fault isolation, Port Channel provides smaller failure domains, DCNM provides rich feature set for higher availability and redundancy. All of these are but a subset of examples which provides high resiliency and reliability.

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We are proud of the 9500 family and strong foundation for reliability and availability that we stand on. We have taken that to a completely new level with 9710. For any design within Data center high availability  has to go hand in hand with consistent performance. One without the other doesn’t make sense. Right design and architecture with DC as is important as components that power the connectivity. As an example Cisco recommend customers to distribute the ISL ports of an Port Channel across multiple line cards and multiple ASICs. This spreads the failure domain such that any ASIC  or even line card failures will not impact the port channel connectivity between switches and no need to reinitiate all the hosts logins. At part of writing this white paper ESG tested the Fabric Card redundancy in addition to other features of the platform. Remember that a chain is only as strong as its weakest link.

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The most important aspect for all of this is for customer is to be educated.

Ask the right questions. Have in depth discussions to achieve higher availability and consistent performance. Most importantly selecting the right equipment, right architecture and best practices means no surprises.

We will continue our discussion for the Flexibility aspect of MDS 9710.

Thursday, 2 January 2020

Next Generation Data Center Design With MDS 9710 – Part I

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Data centers are undergoing a major transition to meet higher performance, scalability, and resiliency requirements with fewer resources, smaller footprint, and simplified designs. These rigorous requirements coupled with major data center trends, such as virtualization, data center consolidation and data growth, are putting a tremendous amount of strain on the existing infrastructure and adding complexity. MDS 9710 is designed to surpass these requirements without a forklift upgrade for the decade ahead.

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MDS 9700 provides unprecedented

◉ Performance – 24 Tbps Switching capacity

◉ Reliability – Redundancy for every critical component in the chassis including Fabric Card

◉ Flexibility – Speed, Protocol, DC Architecture

In addition to these unique capabilities MDS 9710 provides the rich feature set and investment protection to customers.

In this series of blogs I plan to focus on design requirements of the next generation DC with MDS 9710. We will review one aspect of the DC design requirements in each. Let us look at performance today. A lot of customers how MDS 9710 delivers highest performance today. The performance that application delivers depend

◉ Throughput

◉ Latency

◉ Consistency

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Switching infrastructure should provide line rate, non-blocking, high speed throughput to effectively power applications like VDI, High Performance Computing, High Frequency Trading, Big Data among others. Crutches like local switching, per port bandwidth allocation and oversubscription result in inflexible and complex design that breaks down every few years resulting in fork lift upgrades or running the DC design at sub-par performance levels.

Applications need both high through put and consistent latency. The switching latency is usually orders of magnitude less than that of the rest of the components in the data path. Thus the performance that applications can deliver is based on the end to end latency of the data path.

For both throughput and latency the most important factor that is often overlooked is consistency. Throughput and low latency should be consistent and independent of switching traffic profiles, network connectivity and traffic load .

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MDS 9700 allows for high performance DC design with

◉ 3X the performance of any director class switch

◉ Line Rate, Non Blocking Performance without limitations

◉ Consistent throughput and latency

Key Cisco innovations like Central Arbiter, Crossbar, Virtual Output Queues enable the consistent low latency and high throughput independent of the traffic profile or load on the chassis. Performance without high availability or data reliability is not good throughput.

Wednesday, 1 January 2020

MDS 9700 Scale Out and Scale Up

This is the final part on the High Performance Data Center Design. We will look at how high performance, high availability and flexibility allows customers to scale up or scale out over time without any disruption to the existing infrastructure. MDS 9710 capabilities are field proved with the wide adoption and steep ramp within first year of the introduction. Furthermore Cisco has not only established itself as a strong player in the SAN space with so many industry’s first innovations like VSAN, IVR, FCoE, Unified Ports that we introduced in last 12 years, but also has the leading market share in SAN.

Before we look at some architecture examples lets start with basic tenants any director class switch should support when it coms to scalability and supporting future customer needs

◉ Design should be flexible to Scale Up (increase performance) or Scale Out (add more port)

◉ The process should not be disruptive to the current installation for cabling, performance impact or downtime

◉ The design principals like oversubscription ratio, latency, throughput predictability (as an example from host edge to core) shouldn’t be compromised at port level and fabric level

Lets take a scale out example, where customer wants to increase 16G ports down the road. For this example I have used a core edge design with 4 Edge MDS 9710 and 2 Core MDS 9710. There are 768 hosts at 8Gbps and 640 hosts running at 16Gbps connected to 4 edge MDS 9710 with total of 16 Tbps connectivity. With 8:1 oversubscription ratio from edge to core design requires 2 Tbps edge to core connectivity. The 2 core systems are connected to edge and targets using 128 target ports running at 16Gbps in each direction. The picture below shows the connectivity.

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Down the road data center requires 188 more ports running at 16G. These 188 ports are added to the new edge director (or open slots in the existing directors) which is then connected to the core switches with 24 additional edge to core connections. This is repeated with 24 additional 16G targets ports. The fact that this scale up is not disruptive to existing infrastructure is extremely important. In any of the scale out or scale up cases there is minimal impact, if any, on existing chassis layout, data path, cabling, throughput, latency. As an example if customer doesn’t want to string additional cables between the core and edge directors then they can upgrade to higher speed cards (32G FC or 40G FCoE with BiDi ) and get double the bandwidth on the on the existing cable plant.

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Lets look at another example where customer wants to scale up (i.e. increase the performance of the connections). Lets use a edge core edge design for this example. There are 6144 hosts running at 8Gbps distributed over 10 edge MDS 9710s resulting in a total of 49 Tbps edge bandwidth. Lets assume that this data center is using a oversubscription ratio of 16:1 from edge into the core. To satisfy that requirement administrator designed DC with 2 core switches 192 ports each running at 3Tbps. Lets assume at initial design customer connected 768 Storage Ports running at 8G.

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Few years down the road customer may wants to add additional 6,144 8G ports and keep the same oversubscription ratios. This has to be implemented in non disruptive manner, without any performance degradation on the existing infrastructure (either in throughput or in latency) and without any constraints regarding protocol, optics and connectivity. In this scenario the host edge connectivity doubles and the edge to core bandwidth increases to 98G. Data Center admin have multiple options for addressing the increase core bandwidth to 6 Tbps. Data Center admin can choose to add more 16G ports (192 more ports to be precise) or preserve the cabling and use 32G connectivity for host edge to core and core to target edge connectivity on the same chassis. Data Center admin can as easily use the 40G FCoE at that time to meet the bandwidth needs in the core of the network without any forklift. 

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Or on the other hand customer may wants to upgrade to 16G connectivity on hosts and follow the same oversubscription ratios. . For 16G connectivity the host edge bandwidth increases to 98G and data center administrator has the same flexibility regarding protocol, cabling and speeds.

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For either option the disruption is minimal. In real life there will be mix of requirements on the same fabric some scale out and some scale up. In those circumstances data center admins have the same flexibility and options. With chassis life of more than a decade it allows customers to upgrade to higher speeds when they need to without disruption and with maximum flexibility. The figure below shows how easily customers can Scale UP or Scale Out.

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As these examples show Cisco MDS solution provides ability for customers to Scale Up or Scale out in flexible, non disruptive way.

Tuesday, 31 December 2019

Westfield Malls Use Digital Transformation to Disrupt Industry in Need of Change

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Today’s retailers understand that if they want to stand out from the pack, they must engage every shopper with a personalized, enjoyable experience. Westfield Corporation has been delivering superior retail experiences for more than 50 years. With 35 properties in the United States and the United Kingdom and more than $16 billion in annual retail sales, the firm is constantly employing new ways to learn more about its customers – and keep them coming back.

Westfield upgraded its Century City property in Southern California – easily the company’s busiest location at 20 million visitors a year – with innovative technology to transform the visitor experience. The goal was to set the brand apart for shoppers, while providing growth opportunities for its retail, entertainment, and hospitality partners, by getting to know their customers better.

A Springboard for innovation


Westfield’s strategy included collecting data and building user profiles to enable real-time engagement and applying these business insights to attract flagship-level tenants. In support of these efforts, Westfield also sought to digitize its advertising platforms, with location-based digital content delivery across fixed and mobile screens.

To bring its vision to life, Westfield partnered with Cisco to create a digital-ready foundation for its SmartCenter initiative. The blueprint employed Cisco UCS, Cisco networking, mobility, collaboration, analytics, and software solutions to help make the retailer’s IT more agile, and its innovation more accessible. The entire solution was based on a Cisco Digital Network Architecture (Cisco DNA™) for retail, which uses automation to simplify network management, analytics to provide customer insights, and embedded security everywhere.

In addition, Cisco wireless solutions support a public high-density Wi-Fi network that delivers a premium customer experience where visitors can enjoy wireless connectivity everywhere, taking advantage of applications such as self-service ordering and checkout, as well as easier customer returns. Using Wayfinding navigation tools, visitors can quickly find the retailer, dining, or entertainment for which they are looking, while the mall engages visitors with event-driven personalized messaging.

The Cisco Advantage


To gain better insight into its shoppers and operations, Westfield utilized Cisco Connected Mobile Experience (CMX)Advanced analytics. With a better understanding of customer behavior, the mall can now enhance the delivery and relevance of ads and promotions, as well as optimize the layout of its tenant locations and its lease rates.

Westfield also applied its end-to-end SmartCenter environment to non-retail operations, such as parking and energy management.

Future-Proofing


Knowing it needed to deploy the SmartCenter solution to its other flagship properties, Westfield also utilized the Cisco enterprise agreement to help simplify complex licensing, while including an allowance for growth and scalability.

“We couldn’t succeed without the right partners, and Cisco has been just amazing,” said Denise Taylor, Westfield CIO. “The enterprise agreement allowed us to be very agile. It became the building block of how we future-proofed our centers, enabling us to be nimble and flexible to make adjustments as necessary as our industry continues to evolve.”

From Shopping Center to Destination


Westfield defined new levels of retail innovation through digitization and Cisco’s support, replicating its SmartCenter model and employing it as a blueprint that it can apply to other properties around the globe in the future.

With Cisco’s help, the company is expecting a dramatic return on its investment (ROI) for the multiphase deployment, projecting a 100 percent increase in customer data capture and a 50 percent increase in digital advertising revenues. As it adds more digital value across its properties, the firm also anticipates a 10 percent increase in tenant revenue.

With a solid SmartCenter vision and an end-to-end data strategy across the entire shopper journey, Westfield continues to build a new business model that redefines the mall experience. Through digital transformation and a strong partnership with Cisco, Westfield is disrupting an industry in the midst of change.

Sunday, 29 December 2019

Chipping Away at S/4 HANA Migration challenges

Gaining competitive advantage with digital transformation is a balancing act of value and cost.  Delivering incremental value at a high cost is not advantageous, and S/4 HANA business process migration can be expensive.

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Cisco, Intel and SAP have partnered to deliver a solution that increases the value of the S/4 HANA migration while decreasing the cost, and potentially reducing the migration challenges.  We achieved by incorporating the Intel Optane Datacenter Persistent Memory into Cisco UCS solutions for SAP HANA.

Intel Optane Datacenter Persistent Memory and the SAP Value


The Intel Optane DC PMEM is a persistent memory device that sits directly on the memory bus of the server system board sharing the memory space with the existing dynamic memory.  This new device retains the data stored when the server power is turned off and is immediately available for usage when the server power is restored, and the SAP HANA database restarted.  The new persistent memory is available in three memory sizes; 128G DIMMs, 256G DIMMs and 512G DIMMs.

This new combination of dynamic memory and persistent memory provides three interrelated benefits which result in reduced total cost of ownership without impacting the in-memory performance.

Value #1: Realizing Real Cost Savings

First, the Intel Optane DC PMEM has a lower price per TB than industry standard dynamic memory.  A direct comparison of the 128G DRAM DIMM and the 128G PMEM DIMM results in an estimated 50% cost reduction when replacing DRAM with PMEM.  The value- a direct 25% reduction in the SAP HANA server acquisition cost.  This is a very real savings when you consider almost all S/4 HANA migrations have at least 3 SAP HANA servers.  This price comparison will vary as the volatile price of memory changes.

Value #2: Increased memory capacity without excessive costs

The Optane DC PMEM are available in larger capacity sizes ranging from 128G to 512G resulting in larger capacity without significantly increasing cost.  It is now possible to build a 4-socket UCS B480 server with 6T of Optane PMEM SAP HANA data tables space.  Before Optane PMEM this size of data table space required an expensive 8-socket server fully loaded with 96 128G DRAM DIMMs.  And the interesting fact is this increased capacity 4-socket server is almost the same price as a traditional 4-socket DRAM-only server with only 3T of SAP HANA data table capacity.  12T of SAP HANA data tables can also be supported on a 4S system for customers with deep pockets.

Value #3: Reduce planned downtime

A traditional 6T SAP HANA database can take over 65 minutes or more to reload into memory significantly increasing the time needed for planned downtimes.  The Optane PMEM saves the data in the memory devices and presents the data immediately when SAP HANA is restarted.  This decreases the restart time to well below the 65 minutes, many times decreasing the restart time by a factor of 12 or more.  System recovery for planned downtime can be significantly reduced resulting in less time needed for productive system maintenance.

Special S/4 HANA and BW/4 HANA Server Opportunity


Deciding when to migrate your workload to SAP HANA or to refresh your existing landscape is a difficult decision.  Cisco and Intel are announcing a short-term program to make that decision a little easier.  Cisco has created four unique SAP HANA server products that provide even more price value than just the Optane pricing.  These 4 servers enjoy not only the 25% cost savings associated with Optane PMEM pricing, but a nearly additional 20% special saving to help reduce the cost of SAP HANA migration and refresh programs.  Combine this SAP HANA server with the newly enabled S/4 HANA and BW/HANA Landscape bundles to create an end to end landscape solution for your S/4 HANA or BW/4 HANA migration program.

Migrating to SAP S/4 HANA presents challenges and risks.  Confidently accelerate SAP modernization and migration efforts with these new Cisco® SAP solution packages. Fast-track your SAP HANA andS/4 HANA projects by applying your realized CapEx infrastructure savings toward SAP migration services.

Now you can easily test drive Intel Optane DC persistent memory and discover Optane’s SAP HANA value.