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Hp amd-rh-roadshow

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  • 1. Juntos cimentando el camino hacia la eficiencia Ester de Nicolás Product Manager HP Alejandro Ruiz Business Development Manager AMD Octubre 2010
  • 2. Power & cooling Management software Network ServersStorage Los negocios de mañana se apoyarán sobre una infraestructura convergente
  • 3. “Pools” de recursos virtuales Recursos de cálculo, memoria, almacenamiento y red adaptables FlexFabric Cableado único, ensamblado dinámico, Siempre predecible Entorno operativo de HP Gestión mediante servicios compartidos Data center smart grid Gestión de energía inteligente entre sistemas y “facilities” La arquitectura necesaria para ir hacia una infraestructura convergente 3
  • 4. “Pools” de recursos virtuales Recursos de cálculo, memoria, almacenamiento y red adaptables FlexFabric Cableado único, ensamblado dinámico, Siempre predecible Entorno operativo de HP Gestión mediante servicios compartidos Data center smart grid Gestión de energía inteligente entre sistemas y “facilities” La arquitectura necesaria para ir hacia una infraestructura convergente 4
  • 5. ¿Qué es HP Data Center Smart Grid? Environmental Edge Thermal Logic Technologies Servicios Intelligent Power Discovery Modular cooling system Hardware + Insight Control Tecnologías Data Center Tecnologías de producto Performance Optimized Data Center
  • 6. Tecnología HP Thermal Logic Control inteligente del consumo eléctrico Fuentes de alimentación inteligentes Tecnología HP ProLiant ‘sea of sensors’ 6 Medidas del consumo y la refrigeración en sala y sistemas Utilice sólo las fuentes que necesite y apaque las demás de forma automática Triplique la capacidad de su centro de datos
  • 7. Insight Control Power Management 25 October 2010 7
  • 8. 10 10/25/2010 Novedad Insight Control Data Center Power Control Priorización de los recursos energéticos basada en tipo de carga de trabajo y criticidad para el negocio Menor Coste Gestión más inteligente de los picos de consumo Incluso si la infraestructura falla podemos asegurar las cargas de trabajo más críticas Menor Riesgo
  • 9. “Pools” de recursos virtuales Recursos de cálculo, memoria, almacenamiento y red adaptables FlexFabric Cableado único, ensamblado dinámico, Siempre predecible Entorno operativo de HP Gestión mediante servicios compartidos Data center smart grid Gestión de energía inteligente entre sistemas y “facilities” La arquitectura necesaria para ir hacia una infraestructura convergente 11
  • 10. AMD Virtualization Technology (AMD-V™) – 03/25/201012 Servers AMD 2010-2011: AMD Opteron™ 6000 Series Platform (codenamed ”Maranello”) Platform Consistency and Commonality • 2/4 socket; 4 memory channels • Highly scalable without compromising value AMD Opteron™ 4000 Series Platform (codenamed “San Marino” and “Adelaide”) 4P/8P Platforms ~5% of Market* 1P Platforms ~20% of Market* 2P Platforms ~75% of Market* Highly Energy Efficient and Cost Optimized • 1/2 socket; 2 memory channels • New levels of value and power efficiency Performance-per- watt and Expandability “Magny-Cours” 8 and 12 cores “Interlagos” 12 and 16 cores “Lisbon” 4 and 6 cores “Valencia” 6 and 8 cores 2010 2011 “Bulldozer” Core *AMD internal estimates of total server market as of Q309
  • 11. AMD Virtualization Technology (AMD-V™) – 03/25/201013 Direct Connect Architecture 1.0 Balanced and Scalable Design to Support up to 6 Cores 2MEMORY CONTROLLERS 2MEMORY CONTROLLERS 2MEMORY CONTROLLERS 2MEMORY CONTROLLERS 8 DIMMs per CPU 8 DIMMs per CPU 8 DIMMs per CPU 8 DIMMs per CPU  No front side bus  Integrated memory controller  HyperTransport™ technology  NUMA memory architecture
  • 12. AMD Virtualization Technology (AMD-V™) – 03/25/201014 12 DIMMs per CPU Direct Connect Architecture 2.0 Balanced and Scalable Design to Support up to 16 Cores* per CPU  1-hop between processors  Up to 50% more DIMMs  Four memory controllers  Up to 33% increase in CPU to CPU communication speed* 4MEMORY CONTROLLERS 4MEMORY CONTROLLERS 4MEMORY CONTROLLERS 4MEMORY CONTROLLERS 12 DIMMs per CPU 12 DIMMs per CPU 12 DIMMs per CPU Based on HyperTransport™ technology links @ up to 4.8 GT/s for Six-Core AMD Opteron™ processor vs. 6.4 GT/s for AMD Opteron™ 6100 Series processor. *16-core configuration planned for upcoming AMD processor core codenamed “Bulldozer.”
  • 13. AMD Virtualization Technology (AMD-V™) – 03/25/201015 Virtualization Innovations Helps Reduce Overhead and Complexity of Virtualization AMD-V™ Technology – CPU and memory virtualization Extended Migration – enabling live migration of VMs Single Core 8 – 12 Cores Dual Core Quad Core 6- Core Rapid Virtualization Indexing – VM memory management Virtual Memory 1 Virtual Memory 2 Physical Memory VM1 VM2 AMD-Vi - I/O virtualization Hypervisor Device Driver VM Device Driver AMD I/O Virtualization Storage Controller 10Gbe Controller VM Design goal of driving satisfying user experience and near Native Application Performance HT Assist – helps reduce latency from inter-processor communication CPU 1 L3 CPU 3 L3 CPU 2 L3 CPU 4 L3
  • 14. AMD Virtualization Technology (AMD-V™) – 03/25/201016 AMD Opteron™ Processors in a Virtualized World More resources to pool in your virtualized converged infrastructure 8 or12 cores Four memory channels No 4P Tax Greater Resources Per ProcessorAMD-V™ Technology Easier To Deploy Larger pool of resources enables greater VM consolidation Easier To Manage Common architecture makes managing virtual pools easier Easier To Move Extended Migration delivers great flexibility for load balancing and disaster recovery Tagged TLB - Efficient switching between virtual machines for better application responsiveness. Rapid Virtualization Indexing (RVI) - Hardware- based virtual machine memory management. AMD-V™ Extended Migration – Helps enable live migration of VMs between all available AMD Opteron™ processor generations. I/O Virtualization - Enables direct device access by a virtual machine for increased integrity and security.
  • 15. AMD Virtualization Technology (AMD-V™) – 03/25/201017 Seamless Live Migration from 2004 to 2010 Single-Core 2004 Quad-Core Dual-Core Only AMD Opteron™ processor based platforms enable live migration from 2004 to 2010 Compatible with all primary virtualization software offerings Six-Core “Magny- Cours” 2010 Includes AMD Opteron processor versions “Rev E” to “Magny-Cours”
  • 16. AMD Virtualization Technology (AMD-V™) – 03/25/201018 I/O Virtualization Overview • Direct Device Assignment  Bypasses hypervisor to enable improved performance • Device Isolation  Protects system memory from errant device writes • Requirements  AMD chipset with IOMMU support  Support by Virtualization software  NIC, Graphics or Storage I/O device drivers enabled for IOMMU • Limitations  Advanced virtualization enables features such as Live Migration, Disaster Recovery, High Availability and Fault Tolerance not supported Hypervisor Device Driver Virtual Machine Device Driver Helps reduce overhead in path between Guest and Device AMD-Vi (IOMMU) Storage Controller 10Gbe Controller Virtual Machine
  • 17. AMD Virtualization Technology (AMD-V™) – 03/25/201019 Hardware Assisted Virtualization Processor Technology Chipset Technology NIC Technology Intel VT-x Flex Migration Virtual Processor ID (VPID) Extended Page Tables (EPT) AMD-V™ Extended Migration Tagged TLB Rapid Virtualization Indexing (RVI) Intel VT-d AMD-Vi (IOMMU) implemented in RHEL (Linux, KVM and Xen Drivers) VMDq* I/O Acceleration Technology (IOAT) Enables efficient virtualization by off loading certain functions from the software to hardware AMD Intel AMD Processor based platforms utilize this technology with Intel NICs and other I/O Virtualization enabled NICs, e.g. Broadcom NetXtreme II *Technology embedded in Intel based NICs
  • 18. 20 Red Hat Enterprise Linux 5.5 support  Support Magny-Cours topology  AMD IOMMU driver support in KVM  IOMMU interrupt remapping in Xen  Memory placement and NUMA fixes in Xen  RAS features  Support Family10h EDAC (amd64_edac) driver  L3 cache index disable *Source: SearchDataCenter survey report, 2008 “The data center purchasing intentions”
  • 19. AMD Virtualization Technology (AMD-V™) – 03/25/201021 Take The Winner Ramp… With the Same POWER!!! 0 5 10 15 20 25 30 35 40 45 50 2003 2004 2005 2006 2007 2008 2009 2010 2011 Floating Point Integer 16 core “Interlagos”* “12 core Magny-Cours”* 6 core “Istanbul” Single Core Quad CoreDual Core Future Performancerelativetooriginal AMDOpteron™Processor “Interlagos” data is based on AMD projections
  • 20. AMD Virtualization Technology (AMD-V™) – 03/25/201022 Price/Performance Comparison “Magny-Cours” vs. “Westmere”/”Gainestown” Low Power 25% of market – lots of competition but we win Standard Power 70%+ of the market , Intel is quad core only; AMD’s clear advantage High Power 5% of the market, Intel’s heavy focus; we still win Estimated1KUprice EstimatedPerformance(IntegerThroughput) “Performance projections are based on Integer Throughput (SPECint®_rate2006) SPEC and SPECint are registered trademarks of the Standard Performance Evaluation Corporation. The results for AMD Opteron™ 6000 processors and Intel Xeon 5600 processors are estimated. The results for Intel Xeon 5500 processors are based upon results published on http://www.spec.org/cpu2006/results as of January 7, 2010. The comparisons above are based on the best performing two-socket servers using the specified processor model number. For the latest SPECint_rate2006 results, visit http://www.spec.org/cput2006/results. ” $0 $200 $400 $600 $800 $1.000 $1.200 $1.400 $1.600 0% 50% 100% 150% 200% 250% 300%
  • 21. AMD Virtualization Technology (AMD-V™) – 03/25/201023 Superior Four-Socket Server Price and Performance (Integer Throughput) SPEC and SPECint are registered trademarks of the Standard Performance Evaluation Corporation. The results for AMD Opteron™ processors are estimates. The other results stated above reflect results published on http://www.spec.org/cpu2006/results/ as of April 1, 2010. The comparison presented above is based on the best performing four-socket servers using the specified processor model number. For the latest SPECint®_rate2006 results, visit http://www.spec.org/cpu2006/results/. Pricing reflects 1KU tray pricing for total system processor price on www.amd.com and www.intel.com as of April 1, 2010. Est. Est. Est. Est. Est. Est. Est. Est. Est. Est. $0 $3,000 $6,000 $9,000 $12,000 $15,000 0% 50% 100% 150% 200% 250% 6124 HE 8-core 1.8GHz 6128 HE 8-core 2.0GHz 6164 HE 12-core 1.7GHz L7545 6-core 1.86GHz L7555 8-core 1.86GHz 6128 8-core 2.0GHz 6134 8-core 2.3GHz 6136 8-core 2.4GHz 6168 12-core 1.9GHz E7520 4-core 1.86GHz 6172 12-core 2.1GHz 6174 12-core 2.2GHz 6176 SE 12-core 2.3GHz E7530 6-core 1.86GHz E7540 6-core 2.0GHz X7542 6-core 2.66GHz X7550 8-core 2.0GHz X7560 8-core 2.26GHz TotalProcessorPrice (redline) IntegerThroughputPerformance (barchart)
  • 22. 24
  • 23. “Pools” de recursos virtuales Recursos de cálculo, memoria, almacenamiento y red adaptables FlexFabric Cableado único, ensamblado dinámico, Siempre predecible Entorno operativo de HP Gestión mediante servicios compartidos Data center smart grid Gestión de energía inteligente entre sistemas y “facilities” La arquitectura necesaria para ir hacia una infraestructura convergente 25
  • 24. La posibilidad de ofrecer los recusos de red como un servicio Nuestra visión: HP FlexFabric  Convergencia de servidores almacenamiento y red  Virtualización y orquestación del fabric  Basado en módulos estándares escalables
  • 25. Entorno tradicional de servidores en rack SAN Switch de acceso red Switch de distribución Switch FC SAN Switch de acceso red Switch FC SAN Switch FC SAN Core de red
  • 26. Entorno tradicional de servidores blade Switch de acceso red Switch de distribución Core de red Switch FC SAN Switch de acceso red Switch FC SAN Switch FC SAN SAN Midplane chasis de blades … 4 a 13 … … 4 a 13 … Midplane chasis de blades
  • 27. Entorno con HP Virtual Connect Virtual Connect Ethernet Switch de distribución Core de red Virtual Connect Fibre Channel Virtual Connect Ethernet Virtual Connect Fibre Channel Switch FC SAN SAN Midplane chasis de blades … 4 a 13 … … 4 a 13 … Midplane chasis de blades Separación clara entre redes y servidores REDNODOS
  • 28. Entorno con HP Virtual Connect Flex-10 Virtual Connect Flex-10 Ethernet Switch de distribución Core de red Virtual Connect Fibre Channel Virtual Connect Flex-10 Ethernet Virtual Connect Fibre Channel Switch FC SAN SAN Midplane chasis de blades … 4 a 13 … … 4 a 13 … Midplane chasis de blades
  • 29. Entorno con HP Virtual Connect FlexFabric Virtual Connect FlexFabric Switch de distribución Core de red Switch FC SAN SAN Midplane chasis de blades … 4 a 13 … … 4 a 13 … Midplane chasis de blades Virtual Connect FlexFabric
  • 30. Perspectiva a futuro Virtual Connect FlexFabric Core de red Switch CEE SAN FCoE Midplane chasis de blades … 4 a 13 … … 4 a 13 … Midplane chasis de blades Virtual Connect FlexFabric
  • 31. “Pools” de recursos virtuales Recursos de cálculo, memoria, almacenamiento y red adaptables FlexFabric Cableado único, ensamblado dinámico, Siempre predecible Entorno operativo de HP Gestión mediante servicios compartidos Data center smart grid Gestión de energía inteligente entre sistemas y “facilities” La arquitectura necesaria para ir hacia una infraestructura convergente 33
  • 32. Problemas de poner en marcha un servicio Aprovisionamiento manual y procesos muy específicos para cada sistema Negocio pide la aplicación Definición de la arquitectura Evaluación Aprobaciones de compra Pedido Más reuniones Entorno de pruebas Desembalaje Entrega del material Reuniones Coordinación para la puesta en marcha Aprovaciones para pasar a producción Movimiento de máquinas Recableados para el entorno de producción Aceptación final
  • 33. HP Operating Environment Gestión de los servicios compartidos más sencilla, abierta y eficiente  Orquestación y automatización de nuevas peticiones de servicio  Optimización del uso de los recursos y la continuidad del servicio  Definiciones de servicio para mayor predictibilidad Unos pocos pasos automatizados, menos tiempo Select Portal Template Resources Initiate Provision
  • 34. 36 Beneficios de una solución convergente El tiempo de parada no planificada se puede reducir en un 50%(*) con un proyecto de virtualización avanzada, y en un 77%(**) gracias a HP Insight Software Fuentes: (*) IDC Whitepaper: Business Value of Virtualization: Realizing the Benefits of Integrated Solutions, July 2008 (**) Gaining Business Value and ROI with HP Insight Control, IDC, May 2009
  • 35. HP Enterprise Business. Outcomes that matter.