Petr Ulvr, Business Development Manager Intel Corp

Petr Ulvr, Business Development Manager Intel Corp petr.ulvr@intel.com

2 Digitální služby transformují trhy

Ekonomika digitálních služeb přichází s novými požadavky na datová centra Škálovatelnost Efektivní, levný provoz Konzistentní, spolehlivý provoz 3

Průzkum ukázal, že v 51 % v dotazovaných firmách průměrné stáří serverů překračuje 4 roky, z toho více než v pětině firem spravují jejich data servery starší než pět let. Intel doporučuje zachovat tříletý cyklus obměny firemního hardwaru. Pevně nastavený cyklus v intervalu tři roky a méně má jen 8 % firem. Ve srovnání s výsledky před dvěma roky, kdy to byla pouhá 2 %, je to jen mírný posun k lepšímu. 4

Aktuální výzvy pro IT Implementace privátního cloudu Analýza dat Zvýšení výpočetního výkonu Energetická efektivita Zvýšení využití serverů Provozní náklady 5 5

Cloud ANO vs. NE Impact of Cloud on IT Consumption Models A study, Cisco Consulting Services, in partnership with Intel 6

Vize otevřeného cloudu Požadavky IT & Otevřené standardy Optimalizované platformy Intel Cloud Builders & Cloud Finder Definování a prioritizace požadavků IT & Urychlení přijetí otevřených industry standardů Optimalizované stavební prvky pro bezpečnou, efektivní, automatizovanou platformu postavenou na jednotném základě Prověřená řešení usnaňující adopci cloudu & výběr cloud service providera 7

What s Inside Matters Top Reasons: 70% Of Enterprises Specifying 1 HW In Service Selection PERFORMANCE SECURITY End User Benefits: Revenue Acceleration: Easy to create new apps and services WORKLOAD OPTIMIZATION OpEx Reduction: Automation of the data center CapEx Reduction: Maximize use of system resources Source: 1) IMR Research: Base: Total using Public Cloud US n=207; PRC n=241, Germany n=90, Brazil n=81 Q. What percent of these applications have you specified the hardware and/or other components to be used by the Cloud service provider as opposed to only specifying the level of service you expect? 2) Intellitrends Survey 2013 - (Comuware Report Measuring the Business Impact of Technology Performance) 3) HotCloud 2012 White Paper 8 8

Široké portfolio řešení na Intel technologiích Optimální efektivita na standardních průmyslných stavebních základech Compute Intel Xeon processor E5v2 product family Network Intel Ethernet CNA X520/X540 family Storage Intel architecture based storage and solid state drives DC P3500 / DC P3700 Intel Xeon processors Hyper-Threading Turbo boost Intel AVX Intel VT-x Security Intel TXT Intel AES-NI Intel Secure Key Intel architecture Intel VT-c Intel VT-d Network acceleration Communications chipset 10Gb ethernet Ethernet switch silicon Next gen NVM Storage accelerators & SoCs Ecosystem enabling Open Data Center Alliance Intel Cloud Builders Software Open Attestation SDK Intel DCM: KVM gateway Intel DCM: Node Manager Intel DCM: Service Assurance Administrator Ecosystem enabling Intel Open Network Intel Network Builders Software QuickAssist APIs Ecosystem enabling HP Red Hat Nexenta Plus others Storage software Storage acceleration libraries (ISA-L) Cache acceleration software *Other names and brands may be claimed as the property of others. 9

Tick-Tock Model Sustained Microprocessor Leadership Current Platform Span Tick Tock Tick Tock 45nm 32nm Tick 22nm Tock Tick Tock 14nm Penryn Nehalem Westmere Sandybridge Ivybridge Haswell Broadwell TBD Tick: Shrink Introduction of new Semiconductor Process Tock: Innovation in Microarchitecture Intel Confidential

SPECpower*_ssj2008 (Overall ssj_ops/watt) Intel Xeon Processor E5-2600 v2 Product Family Historical 2S Energy Efficient Performance 12 000 10 000 Higher is better Up to 27x PUBLIC 8 000 6 000 4 000 2 000 0 2006 Xeon 5160 (2C, 3GHz, 80W) 2007 X5272 (2C, 3.4GHz, 80W) 2007 L5335 (4C, 2GHz, 50W) 2008 L5430 (4C, 2.66GHz, 50W) 2009 X5570 (4C, 2.93GHz, 95W) 2010 X5675 (6C, 3.06GHz, 95W) 2012 E5-2660 (8C, 2.2GHz, 95W) 2013 E5-2660 v2 (10C, 2.2GHz, 95W) 2014 E5-2699 v3 (18C, 2.3GHz, 145W) Up to 27x increase in energy efficiency on Intel Xeon since 2006 Source as of Sept 8 2014: results published or submitted to www.spec.org. Software and workloads used in performance tests may have been optimized for performance only on Intel microprocessors. Performance tests, such as SYSmark and MobileMark, are measured using specific computer systems, components, software, operations and functions. Any change to any of those factors may cause the results to vary. You should consult other information and performance tests to assist you in fully evaluating your contemplated purchases, including the performance of that product when combined with other products. For more information go to http://www.intel.com/performance Intel does not control or audit the design or implementation of third party benchmark data or Web sites referenced in this document. Intel encourages all of its customers to visit the referenced Web sites or others where similar performance benchmark data are reported and confirm whether the referenced benchmark data are accurate and reflect performance of systems available for purchase. *Other names and brands may be claimed as the property of others 11

Intel Trusted Execution Technologie Trusted Compute Pools Any Non-Sensitive Workloads Intel TXT for Sensitive Workloads Geo Fencing + Intel TXT for Sensitive Workloads Hypervisor/VMM Hypervisor/VMM Hypervisor/VMM Při každém startu serveru se provede kontrolní součet zaváděného kódu před jeho spuštěním a hodnoty se uloží bezpečně do TPM modulu. Atestační služba následně porovná tyto hodnoty s hodnotami, které byly označeny za důvěryhodné (trusted) při první čisté instalaci serveru a hypervisoru Provozujte důvěrná data na důvěryhodných záklladech

Example: HyTrust policy enforcement with Intel TXT Virtual administrator Virtual infrastructure Trusted Intel TXT Hosts automatically labeled based on Intel TXT measurement compared to Known Good Host Rules enforce VMs are only allowed on trusted hosts Eliminates possibility of using VMs on untrusted hosts through policy enforcement Achievements: Visa s private cloud deployment with HyTrust Consolidation of distributed applications with highly sensitive data Meet compliance efforts and able to satisfy audits more effectively. Enhanced reporting of virtualization security controls *Other names and brands may be claimed as the property of others. 13

Standards PCIe* SSD in the Data Center Non-Volatile Memory Solutions Group *Other names and brands may be claimed as the property of others Intel Confidential - Do Not Forward

Intel SSDs for the Data Center Feed your Starving Apps Consistent performance providing high minimum IOP performance Stress Free Protection Enterprise class End-to-end data and power loss protection to help ensure data integrity Non-Volatile Memory Express (NVMe) Lowers memory latency PCI Express Interface Designed to deliver amazing speeds New Intel SSD Data Center Family Maximize your $/IOPs with consistent performance, data protection, and reliability DC P3500 Series PCIe New Good High Performance Standard Endurance for read intensive applications DC S3500 Series SATA New DC P3600 Series PCIe DC P3700 Series PCIe Great Higher Performance Mid Endurance for high performance, mixed workloads DC S3610 Series SATA Fantastic Highest Performance High Endurance for high performance, write intensive applications DC S3700 Series SATA Computex Launch Quotes "The speed advantages of the NVMe interface are now indelibly clear, especially as demonstrated by Intel's new fire breathing Data Center product lines. This new interface removes many of the bottlenecks associated with SATA and AHCI The Register "Intel's SSD DC P3700 gives us our first look at an NVMe drive, and the results are impressive AnandTech Intel Confidential Do Not Forward 16

Fortville 10GbE / 40GbE Designed for E5 v3 Fortville Differentiation Next Gen 10 / 40GbE Architected for next generation virtualized cloud environments SW Defined Infrastructure - Network Virtualization Offload, Intel Ethernet Flow director for traffic steering Network Functions Virtualization Excellent small packet performance, Intel DPDK Proven Performance Flexible Platform validation Intel Drivers 30 years Just Works Virtualization: VMDq, SR- IOV, Flow Director DPDK Optimized Converged: LAN / SAN Broad Interfaces: 2x40, 1x40, 4x10, 2x10 1GbE 10GbE 25GbE 40GbE 100GbE Intel Ethernet CNA X540 Intel Ethernet CNA X520 Intel Ethernet CNA X710 17 Intel Ethernet CNA XL710 100GbE NIC RSA / Appliance Red Rock Canyon Red Rock Canyon

Jednodušší cesta k výběru nové cloud infrastruktury HP CloudSystem CloudSystem Foundation IBM PureFlex System SmartCloud Entry VCE vblock vcloud Director Suite Advanced NetApp FlexPod UCS Director Dell PowerEdge VRTX CloudSystem Enterprise SmartCloud Orchestration vcloud Director Suite Enterprise Cisco Intelligent Automation in Cloud (CIAC) OpenManage w/ Chassis Management Controller Up to 3.5X performance boost vs typical 4 year old server based on spec int 1 Up to 2x higher throughput in virtualized environment 3 Up to 4x more VMs/server vs. typical 4 year old server 2 Up to 3x more I/O bandwidth vs. prior gen. 4 1 Source: Typical 4-yr-old baseline configuration and score on SPECint*rate_base2006 Benchmark: BL265 using two Intel Xeon Processor X5570 (2.93 GHz, 4-core, 8MB L3 cache, 6.4 GT/s, 95W), 48GB memory (12x 4GB 2Rx4 PC3-10600R-9, ECC), 73 GB SAS 10 K RPM, SUSE Linux Enterprise Server 11 (x86_64) SP1, Kernel 2.6.32.12-0.7-default. Compiler version: Intel C++ Compiler XE for applications running on IA-32 Version 12.0.1.116 Build 20101116. Source: http://www.spec.org/cpu2006/results/res2011q1/cpu2006-20110215-14599.html as of Feb 2011. Score: 264. New Generation new configuration and score on SPECint*rate_base2006 Benchmark: Intel Server Board S2600CP platform with two Intel Xeon Processor E5-2697 v2 (2.7GHz, 12-core, 30MB L3 cache, 8.0GT/s, 130W, C0-stepping), EIST Enabled, Turbo Boost enabled, Hyper-Threading Enabled, 128GB memory (8x16GB DDR3-1866), Red Hat* Enterprise Linux Server 6.3. CPU2006-1.2 with Intel compiler IC13.1 Source Intel TR#1270 as of 11 June 2013. Estimated Score: 906. 2 Source: Intel estimation as of September 2013. See next page for configuration data and assumptions. 3 Source: Intel Internal Estimates. IOPS comparison between Intel SSD and HDD. 4 Source: Intel internal measurements of average time for an I/O device read to local system memory under idle conditions comparing Intel Xeon processor E5-2600 product family (230 ns) vs. 5500 series (340 ns). Software and workloads used in performance tests may have been optimized for performance only on Intel microprocessors. Performance tests, such as SYSmark and MobileMark, are measured using specific computer systems, components, software, operations and functions. Any change to any of those factors may cause the results to vary. You should consult other information and performance tests to assist you in fully evaluating your contemplated purchases, including the performance of that product when combined with other products. For more information go to http://www.intel.com/performance 18

www.intelcloudfinder.com 19

petr.ulvr@intel.com