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Converged Networking for Next Generation Enterprise Data Centers

Enterprise Computing Community – ECC 2009. Converged Networking for Next Generation Enterprise Data Centers. Dr. Casimer DeCusatis Distinguished Engineer IBM Poughkeepsie, NY decusat@us.ibm.com. Enterprise Computing Community – ECC 2009. Trademarks.

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Converged Networking for Next Generation Enterprise Data Centers

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  1. Enterprise Computing Community – ECC 2009 Converged Networking for Next Generation Enterprise Data Centers Dr. Casimer DeCusatis Distinguished Engineer IBM Poughkeepsie, NY decusat@us.ibm.com

  2. Enterprise Computing Community – ECC 2009 Trademarks The following are trademarks of the International Business Machines Corporation in the United States and/or other countries. DB2* HyperSwap System z9* Cool Blue IBM* Tivoli* DRDA* IBM logo* WebSphere* DS8000 OMEGAMON* z9 ESCON* Parallel Sysplex* zArchitecture* eServer ResourceLink z/OS* FICON* System p ` z/VM* FlashCopy* System Storage z/VSE GDPS* System x zSeries* HiperSockets System z * Registered trademarks of IBM Corporation The following are trademarks or registered trademarks of other companies. Intel is a trademark of Intel Corporation in the United States, other countries, or both. Java and all Java-related trademarks and logos are trademarks of Sun Microsystems, Inc., in the United States and other countries Linux is a registered trademark of Linus Torvalds in the United States, other countries, or both. UNIX is a registered trademark of The Open Group in the United States and other countries. Microsoft, Windows and Windows NT are registered trademarks of Microsoft Corporation. Red Hat, the Red Hat "Shadow Man" logo, and all Red Hat-based trademarks and logos are trademarks or registered trademarks of Red Hat, Inc., in the United States and other countries. * All other products may be trademarks or registered trademarks of their respective companies. Notes: Performance is in Internal Throughput Rate (ITR) ratio based on measurements and projections using standard IBM benchmarks in a controlled environment. The actual throughput that any user will experience will vary depending upon considerations such as the amount of multiprogramming in the user's job stream, the I/O configuration, the storage configuration, and the workload processed. Therefore, no assurance can be given that an individual user will achieve throughput improvements equivalent to the performance ratios stated here. IBM hardware products are manufactured from new parts, or new and serviceable used parts. Regardless, our warranty terms apply. All customer examples cited or described in this presentation are presented as illustrations of the manner in which some customers have used IBM products and the results they may have achieved. Actual environmental costs and performance characteristics will vary depending on individual customer configurations and conditions. This publication was produced in the United States. IBM may not offer the products, services or features discussed in this document in other countries, and the information may be subject to change without notice. Consult your local IBM business contact for information on the product or services available in your area. All statements regarding IBM's future direction and intent are subject to change or withdrawal without notice, and represent goals and objectives only. Information about non-IBM products is obtained from the manufacturers of those products or their published announcements. IBM has not tested those products and cannot confirm the performance, compatibility, or any other claims related to non-IBM products. Questions on the capabilities of non-IBM products should be addressed to the suppliers of those products. Prices subject to change without notice. Contact your IBM representative or Business Partner for the most current pricing in your geography.

  3. Traditional Enterprise Environment WAN / WDM Clustering (GDPS) Storage Ethernet LAN • High Performance in a small package • Relatively High Utilization of Processor Capacity, virtualization • High network bandwidth (8-10 Gbit/s) C. DeCusatis 0509

  4. IBM Dynamic Infrastructure Leads the Way to a Smarter Datacenter Network The Problem with Today’s Data Center… Integrated Clustering /Appliances WAN / WDM WAN / WDM . . . IBM Clustering Switches (IB, other) Converged Fabric TOR/Core 10/40G FCoCEE Unified Management 1/10G Ethernet Switches LAN/NAS/appliances access, core, aggregation LAN&Storage Re-use 16G Storage Virtual Storage 1-8G SAN Switches FICON/Fibre Channel/iSCSI . . . . . . . . . 1 Network - Simplified and Converged Virtualized, Integrated, and Easier to Manage Lower Cost and Energy Efficient Standards Based with Reuse of Existing Storage Investment & Room to Grow Enterprise class reliability Enables More Efficient Cloud Computing & New Functionality A Sprawl of Low Utilization Servers ! 3 physical and logical networks (Storage, Ethernet,Clustering) + WAN/WDM Wastes Energy, High CapEx, High OpEx Hard to manage, impossible to optimize Too many moving parts – poor reliability - Does Not Scale C. DeCusatis 0509

  5. WAN / WDM Simplification through convergence • Convergence without Rip & Replace • Incremental migration • Co-exist with legacy networks & I/O devices • Ultimate goal is to simplify management • Shared Adapters for LAN/SAN/Cluster • Increased adapter utilization through virtualization • Fewer adapters & switches • Reduced costs • Reduction in infrastructure costs • Reduced CapEx & OpEX • Power Savings • Cooling Savings • Space Savings Integrated Clustering /Appliances Converged Fabric TOR/Core 10/40G FCoCEE Unified Management LAN&Storage Re-use 16G Storage Virtual Storage C. DeCusatis 0509

  6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Evolution of Data Center Switching:reduced layers saves power, cost, latency (higher performance) 3 layer 2 layer 1 layer core aggregation access More powerful microprocessors drive virtualization Server Virtualization and the resulting consolidation drive need for higher bandwidth Higher bandwidth connections to network get attached to aggregation/core layer Hypervisor switching, rack/row level integration consolidates access layer into server

  7. IBM Converged Network Roadmap Existing 8-10 Gbps Gen. >10 Gbps Gen. Ethernet 1Gb 10Gb CEE 40Gb CEE NAS, iSCSI Convergence opportunity ConvergedTop-of-Rack Fibre Channel FCoCEE 1,2,4 Gb 8Gb 16Gb Infrastructure transitions • A family of IBM-Branded Converged Networking Platforms • Converged network adapters (CNAs) on IBM server platforms • Converged Fibre Channel over Ethernet switchesin partnership with other companies • Top of Rack (TOR) and Core Network Building Blocks

  8. Evolution of Storage Switching WAN / WDM FICON and FCP FCoCEE Converged FCoCEE Switch ISL Integrated Clustering/Appliances Ethernet Clustering Switches (IB, other) Standards Based with Reuse of Existing Storage Investment & Room to Grow FC-aware switches C. DeCusatis 0509

  9. IBM Ethernet Switch Roadmap • A family of IBM-branded Ethernet switches • Simplifies access to advanced network functions • Advanced features in base products enable forward migration (MPLS) • Offers customers a choice of networking platforms • Standards based for low cost, reuse of existing network, and future investment protection • IBM tested & qualified to enterprise standards • Installed & supported by IBM dynamic infrastructure services • Forms the basis for IBM internal cloud computing centers • Positions IBM as an industry leader for integrated networking solutions • Integrated with IBM building block solutions

  10. Systems Management Views Separate Tools and Networks Single Tool and Network Virtualization Management • VSM • Hypervisor Management Tool 1 1 Converged Management VSWITCH VNIC VLAN VSWITCH VNIC VLAN VM VM VM VM VM VM LUN LUN VM VM VM VM Hypervisor Hypervisor Network Virtualization SVC Hypervisor CEE/FCoCEE CEE/FCoCEE Server Server Server 2 3 Storage Management • Storage Manager • Vendor Tool • SVC • BOFM Network Management • Configuration Manager • Vendor Tool • BOFM • Network Performance Metrics • Network Fault Information FCoCEE SAN Ethernet Storage Subsystems VLAN VLAN Single Management view Multiple Management tools/views

  11. Value added Integration of IBM Systems Director and Tivoli Service Management Tivoli = Service Management Integrated visibility, control & automation across heterogeneous business and technology assets • See the business • Govern and control the business • Optimize the business IBM Systems Director = Platform Management Detailed “care and feeding” of IBM hardware • Tell me what I have • Let me install & configure it • Tell me if it’s working • Let me update it Systems Director Network Manager 2.1 IBM Tivoli OMNIbus & Network Manager 8.1 • Server, Storage, Network Management • Virtualization support • Launch-in-context integration of Brocade Manager andTivoli (see below) • Enterprise Event & Network Management

  12. Enterprise Computing Community – ECC 2009 What is FCoE ? • Fibre Channel over Ethernet (FCoE) • T11.3 FC-BB-5 standard under development • August adoption looks promising • Encapsulate Fibre Channel frames in Ethernet • Desire to converge on a single wire for storage & networking • Leverage years of effort on Fibre Channel Standards • Compatibility with today’s installed FC infrastructure

  13. EthernetFrame FCoEEncapsulation FCPacket FC-4 (FCP for SCSI) FC-4 (e.g. FCP or FICON) FC-3 (Common Services) FC-3 (Common Services) FC-2 (Framing, Flow-Control) FC-2 (Framing, Flow-Control) FC-1 (Encode/Decode) Enet MAC FC-0 (Phy) Enet Phy Fibre Channel over Ethernet Overview • FC over Ethernet • Layers FC frames directly over Ethernet. • Replacing lowest level of FC with Ethernet • Requires FC equivalent no-drop behavior • …But… Ethernet needs enhancements, to: • Provide no-drop behavior in face of congestion • Manage traffic interferences

  14. Enterprise Computing Community – ECC 2009 CEE Components • Priority-based Flow Control (PFC) • Improves on current 802.3x PAUSE mechanism by allowing link level flow control to be applied separately on 8 traffic classes. This is necessary (esp. on FC traffic) to eliminate packet drops due to congestion. • Enhanced Transmission Selection (ETS) • Supports bandwidth allocation to Priority Groups. Enables bandwidth sharing between Priority Groups carrying bursty high offered loads. It allows other traffic classes to use the available bandwidth when the offered load in a traffic class doesn’t use its allocated bandwidth. Additionally, it allows strict priority for time-sensitive and management traffic requiring minimum latency • Data Center Bridging Exchange (DCBX) Protocol • discovery/management framework for CEE-specific features and used to exchange CEE capabilities between peers. It leverages IEEE 802.1AB Link Level Discovery Protocol for these exchanges.

  15. Traffic Examples DCB and CEE • LAN • Storage • Clustering • Streaming • Management Ethernet Convergence • DCETM - Cisco marketing term (does not refer to industry standard) • Data Center Bridging (DCB) refers to a set of Ethernet enhancements currently being pursued in IEEE 802.1 • Per-priority Flow Control • Enhanced Transmission Selection • Discovery and Capability Exchange • Congestion Notification • Converged Enhanced Ethernet (CEE) is the name folks (EMC, HP, IBM and trade press) have given to the output DCB specifications for the following 3 functionswhich are viewed as required for FC convergence with Ethernet: • Per-priority Flow Control • Enhanced Transmission Selection • Discovery and Capability Exchange • These are currently being developed by the CEE Authors Group as a “version 0” of the standards to be used as input to IEEE 802.1 (http://tech.groups.yahoo.com/group/cee-authors/)

  16. Enterprise Computing Community – ECC 2009 What is Cloud Computing? A delivery method, a user experience, and a business model • Cloud computing is an emerging style of IT delivery in which applications, data, and IT resources are rapidly provisioned and provided as standardized offerings to users over the web in a flexible pricing model. An infrastructure management and services delivery methodology • Cloud computing is a way of managing large numbers of highly virtualized resources such that, from a management perspective, they resemble a single large resource. This can then be used to deliver services with elastic scaling. Service Consumers DatacenterInfrastructure AccessServices Monitor & ManageServices & Resources IT Cloud Component Vendors/Software Publishers Service Catalog, ComponentLibrary CloudAdministrator Publish & UpdateComponents, Service Templates

  17. Unified “Cloud” Management Extended Distance Connectivity 100 km or more Ensemble Ensemble Ensemble SOA containers SOA containers SOA containers Unified Fabric Infrastructure Ensemble Ensemble Ensemble Ensemble Ensemble Ensemble Virtualized Servers, Storage,& Appliances Dynamically Optimized For Business Needs • Virtualized and shared • Energy efficient and green • Optimized service management • Secure and resilient

  18. Enterprise Computing Community – ECC 2009 WDM Overview • Dense Wavelength Division Multiplexers (DWDMs): 32-64 channels or more • Coarse Wavelength Division Multiplexers (CWDM): 8-16 channels or less

  19. Enterprise Computing Community – ECC 2009 Conclusions • Data center design is undergoing an inflection point • Highly virtualized, scalable • Improved cost/performance • Energy efficiency • Cloud computing principles • Networking has become a major part of this redesign effort • Convergence of SAN, LAN, and clustering fabrics • Introduction of FCoCEE • Virtualization over distance via WDM • Changing role of the enterprise mainframe and FICON

  20. Thank You! QUESTIONS?

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