Optimized Systems: Matching technologies for business success.
-
date post
21-Oct-2014 -
Category
Technology
-
view
1.927 -
download
3
description
Transcript of Optimized Systems: Matching technologies for business success.
© 2011 IBM Corporation
Tom RosamiliaGeneral Manager, Power and z SystemsIBM Corporation
Optimized Systems.Matching technologies for business success.
Optimized Systems.Matching technologies for business success.
© 2011 IBM Corporation
Designed for dataHarness all available information including Big Data to unlock insights for better decision making.
Managed in the CloudDeliver new services with Cloud and reinvent business processes to drive innovation.
Optimized systems play a critical role in Smarter Computing
Tuned to the taskDrive greater performance and efficiency using Optimized Systems for each workload for superior economics.
© 2011 IBM Corporation
On a smarter planet, different workloads have different characteristics
Consider Smarter Traffic Smart MonitoringMonitoring workload to integrate multimodal information in real time
Smart AnalyticsAnalytic workload looking for patterns in traffic
• Multiple data sources• Real-time collection of data• 24x7 operation
• Real-time analysis of traffic problems• Queries of varying complexity • Forecasting traffic patterns
© 2011 IBM Corporation
Virtualization & Operating Systems
Microprocessor Design
Semiconductor Technology
Software
•Stack integration
•Middleware tuned for hardware
• Integrated management across
architectures
Hardware
•Multi-core architectures
•Advanced threading
•Low latency
Domain Knowledge Workload characteristics Interdependencies Architecture options
Optimized Middleware
Compilers & Java Virtual Machine
Systems Design
Optimized systems are tuned to help address the unique needs of any workload
© 2011 IBM Corporation
Economics
Optimize total cost of ownership
Performance
Align performance requirements with business needs
Architecture
Create a strongarchitectural foundation to address business needs
Key considerations for leveraging optimized systems
© 2011 IBM Corporation
Need flexibility to deploymultiple workloads of differenttypes—e.g. data management,messaging, web facing etc.
Requires moderate flexibilityto tune small number ofworkloads—for example, data management and analytics
Flexibility not required—needhigh performance at low costfor a specific workload
AppliancesAppliancesIntegrated, optimized systems
Integrated, optimized systems
Client-builtwith optimized
components
Client-builtwith optimized
components
IBM Netezza TwinFin
IBM Smart Analytics
System 7600
IBM DB2 & WebSphere on
IBM POWER System
IBM offers a spectrum of workload optimized systems
© 2011 IBM Corporation7
System z
Source: Based on IBM internal studies; *Pricing comparison based on US list prices of IBM DB2 Advanced Enterprise Edition and the Oracle software with analogous capabilities: Oracle Database Enterprise Edition, Advanced Compression, Active Data Guard, Label Security, Partitioning, Oracle Enterprise Manager, Internet Developer Suite, Diagnostics Pack, Oracle-to-Oracle Federation, Golden Gate. All list prices based on US and valid as of 01/26/2011.
Power Systems System x IBM Storage
Freedom by Design Performance Redefined Defining the Next Generation of x86 Servers
Storage Reinvented
Achieve up to 55% lower TCO per workload
Power Systems running DB2 as low as 1/3 the cost of Oracle Database*
Industry-leading Intel performance and lowermanagement cost by 50%
Reduce power, operating and cooling costs by up to 60%
IBM’s optimized systems offer architecture choices, help drive down cost per workload and improve performance
© 2011 IBM Corporation
Anatomy of an optimized system: POWER7
45 nm SOI Semiconductor
Technology
eDRAM cache integrated on processor chip
© 2011 IBM Corporation
Anatomy of an optimized system: POWER7
45 nm SOI Semiconductor
Technology
Turbo-core mode for thread performance & max core for throughput performance
POWER7 Microprocessor
Design
© 2011 IBM Corporation
Anatomy of an optimized system: POWER7
45 nm SOI Semiconductor
Technology
Power Systems Design
Intelligent failure detection and recovery
Large memory with high bandwidth
POWER7 Microprocessor
Design
© 2011 IBM Corporation
Anatomy of an optimized system: POWER7
45 nm SOI Semiconductor
Technology
Power Systems Design
Virtualization & Operating
Systems
Granular, scalable virtualization of servers and I/O with low overhead
POWER7 Microprocessor
Design
© 2011 IBM Corporation
Anatomy of an optimized system: POWER7
45 nm SOI Semiconductor
Technology
Power Systems Design
Virtualization & Operating
Systems
Compilers & Java Virtual
Machine
Joint optimization of compiler and microprocessor for optimum performance
POWER7 Microprocessor
Design
© 2011 IBM Corporation
Anatomy of an optimized system: POWER7
45 nm SOI Semiconductor
Technology
POWER7 Microprocessor
Design
Power Systems Design
Virtualization & Operating
Systems
Compilers & Java Virtual
Machine
IBMOptimized
Middleware
Middleware optimized to exploit hardware architecture (workload management, storage keys, page sizes etc.)
© 2011 IBM Corporation
Web and Collaborative
Messaging
• 54% lower cost per workload than SPARC3
• 2.5X more performance than Sun Fire4
• 5X more transactions at 1/4 the cost of SPARC5
• 12.8X improvement over Microsoft BizTalk Server6
• 3.9X more SAP users per core than Oracle1
• 4X more throughput at 1/4 the cost per report of competitor’s database machine2
Database
1 SAP SD Standard Application Benchmark Results, Two-Tier Internet Configuration. http://www.sap.com/solutions/benchmark/sd2tier.epx2 IBM SWG Internal Study of Cognos analytics workload – concurrent execution of mixed (complex, intermediate, simple) reports3 IBM SWG Internal Study consolidating very heavy Web Facing workload 4 IBM SWG Internal Study IBM WAS on Power vs Leading App Server on Oracle Sunfire for Web Facing Applications5 IBM SWG Internal Study IBM WAS on Power Provides Greater Throughput at a lower cost than than leading competitor 6 IBM SWG Internal Study IBM WebSphere Message Broker on Power gives 12.8X Times More Throughput than Microsoft BizTalk Server on Dell
Power Systems and IBM Software integration and optimization
© 2011 IBM Corporation15
Heavy UNIX online banking workloads1,075 trans/sec
Heavy UNIX online banking workloads1,075 trans/sec
Delivering services with superior economics
© 2011 IBM Corporation
*Statement of Direction*Statement of Direction
Achieves overall lowest cost per workload
Achieves overall lowest cost per workload
zEnterprise offers the industry’s broadest architecture
© 2011 IBM Corporation
zEnterprise reduces network cost and complexity
© 2011 IBM Corporation
Consolidate Workloads
• How would I reduce the Total Cost of Ownership?
• How would I better manage my data center complexity?
Consolidate Workloads
• How would I reduce the Total Cost of Ownership?
• How would I better manage my data center complexity?
Re-deploy Existing Workloads
• How would I improve the performance?
• How can I improve my service levels?
Re-deploy Existing Workloads
• How would I improve the performance?
• How can I improve my service levels?
Deploy New Workloads
• How can I rapidly deploy a workload leveraging existing skills?
• How would I scale my infrastructure with mybusiness?
Deploy New Workloads
• How can I rapidly deploy a workload leveraging existing skills?
• How would I scale my infrastructure with mybusiness?
Entry points to optimize workloads
© 2011 IBM Corporation
Consolidate workloads to reduce costs
ExampleConsolidate x86 server landscape to Linux on System z
Benefits• Consolidate hundreds of servers to one• Decrease costs 30-50 percent
Performance, reliability, disaster recovery, server provisioning and cost efficiency have all seen dramatic improvements—helping BCBSM deliver better service and better value to its members across the state.— BCBSM
Performance, reliability, disaster recovery, server provisioning and cost efficiency have all seen dramatic improvements—helping BCBSM deliver better service and better value to its members across the state.— BCBSM
© 2011 IBM Corporation
Redeployed workload from Intel Xeon processor-based servers to IBM BladeCenter PS701 blades running Linux to reduce complex calculation times fromone month to one week.— UMASS DARTMOUTH
ExampleRedeploy x86 workloads to POWER7 with Linux via IBM Migration Factory
Benefits• Improve performance 10x or more• Improve service quality
Re-deploy workloads to improve performance
© 2011 IBM Corporation
Deployed Netezza achieving ~100x improvements for query response times, while also improving ability to comply with regulatory obligations.— NYSE
ExampleDeploy analytics workloads on Netezzaleveraging IBM Information on DemandInfrastructure Services
Benefits• Realize up to 100x performance
improvements at a third of the cost• Significantly reduce in deployment times• Scale with demand growth, without
requiring application changes
Deploy new workloads on optimized systems
© 2011 IBM Corporation
Deploying new workloads on POWER7 and re-deploying existing Cognos workloads from x86 to z196 for scaling
Projects and capabilities• Deploy workloads on zEnterprise for
security and simplified management • Redeploy workloads for scale and
increased productivity
Primerica is on the smarter computing journey
Information Technology Overview
PrimericaDavid WadeChief Information OfficerExecutive Vice PresidentPrimerica Financial Services
© 2011 IBM Corporation
Primerica
Headquartered in Duluth, GA Leading distributor of financial products to middle income households in
North America Underwrites term life insurance, mutual funds, variable annuities, loans and
other financial products ~ 95,000 licensed sales representatives who assist clients Insures 4.3 million lives and more than two million clients maintain investment
accounts with the company
© 2011 IBM Corporation25
Leading IT organizations are partnering with IBM to benefit from Optimized Systems.Why?
• Experts and expertise to help any client craft a strategy to consolidate and optimize their workloads.
• IBM offers systems that enable clients to optimize any workload
• Ability to transform current environment—no “rip and replace” required.
© 2011 IBM Corporation
© 2011 IBM Corporation
Semiconductor Technology
Microprocessor Design
Systems Design
Virtualization & Operating Systems
Compilers & Java Virtual
Machine
Optimized Middleware
Anatomy of an Optimized System: System z
• World’s fastest chip at 5.2 GHz
• More cache for superior data serving
• On-chip crypto and data compression
• Instruction co-optimized with compilers
• Optimized I/O pathways & subsystems with massive scale
• Best-of-breed reliability, availability & serviceability
• RAIM memory for high availability
• Integrated cryptographic coprocessor
• Highest security certification in industry (EAL5 & FIPS)
• Multi-platform design of mainframe and distributed technologies
• Designed for highest utilization with heterogeneous workloads
• SLA management of heterogeneous workloads based on business policies
• Granular, scalable Virtualization of servers, memory and I/O with low overhead
• PR/SM and z/VM offer two-tier approach for superior virtualization supporting native Linux
• Dispatching on z/OS keeps software close to cache for optimized performance
• Intelligent management of mainframe & distributed technologies
• Java Compiler optimized to exploit hardware architecture
• WebSphere, MQSeries, DB2 exploit multi-system workload management ,scale and availability
• Middleware optimized and tuned to scale up
• Tivoli optimized for operations management and security
• eDRAM cache integrated on processor chip
• Efficient packaging• 2x transistor
density*• 28% increased
transistor speed*• 4x array density*
© 2011 IBM Corporation
Anatomy of an Optimized System: POWER7
45 nm SOI Semiconductor
Technology
POWER7 Microprocessor
Design
Power Systems Design
Virtualization & Operating
Systems
Compilers & Java Virtual Machine
IBMOptimized
Middleware
• eDRAM cache integrated on processor chip
• Efficient packaging
• 2x transistor density*
• 28% increased transistor speed*
• 4x array density*
• Multi-core chips (8 cores)
• Simultaneous multi-threading
• Turbo-core mode for thread performance & max core for throughput performance
• Enterprise reliability, availability & serviceability
• Intelligent failure detection and recovery
• Large memory with high bandwidth
• Designed for 90%+ utilization
• Secure isolation of virtual machines
• Balanced I/O & compute
• Granular, scalable virtualization of servers and I/O with low overhead
• Energy scale technology
• Dynamic thread and memory optimization
• Integrated, intelligent management
• Joint optimization of compiler and microprocessor for optimum performance
• Intelligent operating system task dispatching to minimize impact of non-uniform memory access
• Middleware optimized to exploit hardware architecture (workload management, storage keys, page sizes etc.)
• Scale out with no loss of performance
• Clustered memory and lock management
• Optimized threading and memory management
* relative to Power6* relative to Power6