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Transforming Business with Intel and SAP HANA 2

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Presentasi Bapak Kenny Sng di seminar SAP HANA on Cloud pada tanggal 18 September 2018 bertempat di Grha Datacomm

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Transforming Business with Intel and SAP HANA 2

  1. 1. Transforming Business with Intel and SAP HANA 2* Kenny Sng Solution Architect, Intel Corporation
  2. 2. Intel and SAP Collaboration 2 Marketing and Sales Platform Engineering ArchitecturePlanningPath Finding Intel® Xeon® processors are tuned for SAP* workloads. Intel and SAP have worked together on the SAP HANA* platform since 2009. Intel Xeon processors are the reference architecture of the SAP HANA platform. The Intel Xeon processor E7 family is certified by SAP for use with the SAP HANA 2 platform. 1 HP, Intel, SAP, SUSE, and VMware. “Virtualizing Enterprise SAP® Software Deployments.” June 2011. suse.com/docrep/documents/o4r7to9d2y/virtualizing_enterprise_SAP_software_deployments.pdf. 2
  3. 3. Biggest Data Center Platform Advancement in This Decade 3 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. 2 Intel estimate, as compared to a representative four-year-old system. For details, see Legal Notices and Disclaimers slides. Great Performance, Fast Memory, More Interconnect/Accelerator Engines, Advanced Reliability Efficient Performance at Low Power Best Performance, Hardware-Enhanced Security, Best Business Agility Entry Performance 3 Intel® Xeon® Processor Scalable Family
  4. 4. SAP HANA* Application Memory Support: 8-Socket Intel® Xeon® Processor–Based Systems 4 3 For OLAP, SAP HANA* optimized hardware configurations for SAP HANA SPS 12*. 6 TB compared to 4 TB when running SAP HANA SPS 12 on an Intel® Xeon® Platinum processor compared to an Intel Xeon processor E7 v4. For OLTP, SAP HANA optimized hardware configurations for SAP HANA SPS 12. 12 TB compared to 8 TB when running SAP HANA SPS 12 on an Intel Xeon Platinum processor compared to an Intel Xeon processor E7 v4. 4 SAP. “Find Certified Appliances.” October 2017. https://global.sap.com/community/ebook/2014-09-02-hana-hardware/enEN/appliances.html. For configuration details, see Legal Notices and Disclaimers slides. Memory support for online analytical processing (OLAP) 6x more Memory support for online transaction processing (OLTP) 3x more 1 TBIntel Xeon processor E7 Intel Xeon processor E7 v2 Intel Xeon processor E7 v3 Intel Xeon processor E7 v43 Intel Xeon processor Scalable family4 2 TB 4 TB 4 TB 6 TB Intel Xeon processor E7 Intel Xeon processor E7 v2 Intel Xeon processor E7 v3 Intel Xeon processor E7 v43 Intel Xeon processor Scalable family4 4 TB 6 TB 6 TB 8 TB 12 TB
  5. 5. The Intel Vision for the SAP HANA* Platform Support for any deployment: from sandbox to data center or cloud 128 GB up to 30 TB64 GB up to 1.5 TB16 GB up to 32 GB Intel® Xeon® Gold processor family Intel Xeon Platinum processor family Intel® Core™ i7 processor family
  6. 6. Future Innovations from Intel and SAP
  7. 7. Intel Persistent Memory A true game changer for in-memory computing – Key business drivers for bringing Intel persistent memory to in-memory computing: • As data volumes keep growing, in-memory databases like the SAP HANA* platform require larger capacities • DRAM scaling has slowed significantly and will offer lower capacities Opportunities: • Increased scalability • Significant cost savings • Improved recovery times Challenges: • Higher (than DRAM) latency can impact performance • As a new technology, standards are still evolving
  8. 8. Intel Persistent Memory A better option: affordable, large, non-volatile storage Density Selectors allow dense packing and individual access to bits Scalable Memory layers can be stacked in a 3D manner Persistent Data/Memory Instant recovery for main-memory databases Total Cost of Ownership (TCO) Lower cost per GB compared to DDR45 5 Technology claims are based on comparisons of latency, density, and write cycling metrics amongst memory technologies recorded on published specifications of in-market memory products against internal Intel® specifications. Results have been estimated or simulated using internal analysis or architecture simulation or modeling, and provided to you for informational purposes. Any differences in your system hardware, software, or configuration may affect your actual performance.
  9. 9. Intel Persistent Memory The future of in-memory database computing – New, innovative type of memory: • Persistent, with near-DDR4 DRAM performance • High capacity: 6 TB per two-socket system • More affordable than standard DRAM Coming at the end of 2018: • Accommodates a standard DDR4 slot • Requires a next-generation Intel® Xeon® Gold processor or Intel Xeon Platinum processor (codename “Cascade Lake”) • SAP HANA 2.0 SPS 03* release is designed to support Intel persistent memory
  10. 10. If Storage Devices Were Sprinters In the time it takes a hard drive to sprint the length of a basketball court … … NAND could finish a marathon … ... and Intel persistent memory could circle the globe!6 94 feet 26.2 miles 24,902 miles 6 Intel. “The Wait Is Over! 3D XPoint™ Technology.” 2015. intelsalestraining.com/infographics/memory/3DXPointc.pdf.
  11. 11. Intel Persistent Memory Overview 3D XPoint™ technology–based memory module for the data center • 128 GB, 256 GB, 512 GB DIMM Capacity • 2,400 megatransfers per second (MT/sec)8 Speed • 3 TB per CPU Platform Capacity 11 Non-Volatile Memory PoolDDR4 DRAM Flexible, Usage-Specific Partitions Memory mode Larger memory at lower cost App direct mode Low-latency persistent memory, persistent data for rapid recovery Storage over app direct Fast direct-attached storage (DAS) App Direct Storage Intel persistent memory 8 Dell. “Knowledge Base: Memory information for the 13G PowerEdge Servers - R630, T630 and R730/XD.” November 2016. dell.com/support/article/us/en/19/sln294489/memory- information-for-the-13g-poweredge-servers-r630-t630- and-r730-xd?lang=en.
  12. 12. Increase Your SAP HANA* Data Capacity at a Lower Cost with Intel Persistent Memory Persistence with Performance Fast Restart Times Affordable Capacity Intel Persistent Memory for SAP HANA® GREATER CAPACITY OPTIMIZED TCO
  13. 13. DRAM Memory Alternative: Accommodate More SAP HANA* “Hot” Data In-Memory Opportunities for higher capacity Move more data from your storage-area Network (SAN) to SAP HANA in- memory 3 TB 13.5 TB 15 TB 3 TB DDR4 RAM (64 GB DIMMs) DDR4 RAM 1.5 TB (64 GB DIMMs) Intel persistent memory 12 TB (512 GB DIMMs) DDR4 RAM 3 TB (128 GB DIMMs) Intel persistent memory 12 TB (512 GB DIMMs) or small bi g
  14. 14. DRAM Memory Alternative: Accommodate More SAP HANA* “Hot” Data In-Memory Opportunities for higher capacity Move more data from your storage-area Network (SAN) to SAP HANA in- memory 3 TB 13.5 TB 15 TB 3 TB DDR4 RAM (64 GB DIMMs) DDR4 RAM 1.5 TB (64 GB DIMMs) Intel persistent memory 12 TB (512 GB DIMMs) DDR4 RAM 3 TB (128 GB DIMMs) Intel persistent memory 12 TB (512 GB DIMMs) or small bi g
  15. 15. Intel Persistent Memory Accelerates Recovery Times for the SAP HANA* Platform9 While a backup of the master data is maintained on the SAN 9 When operating with persistency enabled. Main Delta Temp SAP HAN A DRAM Main 1 Delta 1 Temp Backup If SAP Hana Fails DRAM Intel Persistent Memory Intel Persistent Memory Data Volume Log Volume SAN (STORE S BACKUP OF MASTER DATA) • On restart: MAIN is already in Intel persistent memory, so there is no need to load data from a SAN • On hardware failure: a backup server loads data from the data volume
  16. 16. Performance Analysis Using Intel persistent memory technology for the SAP HANA* database’s main store 10 Placeholder until test results come in. Source: SAP HANA Adoption of Non-Volatile Memory. VLDB 2017. – Promising initial results from a prototype (using hardware emulation):10 • Significant improvements in the restart time • More than 100x improvement measured • Acceptable performance impact of higher (than DRAM) latencies, resulting in slightly lower performance • Measured (simulated) performance degradation was within the expected range for most workloads
  17. 17. SAP HANA and Intel Persistent Memory – “We are very excited about the benefits Intel DIMMs based on 3D XPoint non-volatile memory technology will provide for SAP‘s customers, and plan to make full use of its unique capabilities using App Direct mode. – With very large capacity and high-performance, servers equipped with Intel DIMMs will provide a great memory platform for landscape consolidation, data temperature management, and fast data growth at a significantly reduced memory cost. – Additionally, memory persistence on the Intel DIMM will help to enable near-instant restart times after a power event. SAP and Intel will work jointly with our open ecosystem to provide these benefits for our SAP HANA customers at the introduction of Intel DIMMs.” Daniel Schneiss Global Head of Products & Innovation SAP HANA Platform & Database Products & Innovation, SAP
  18. 18. Process More Data Faster to Drive Innovation With the SAP HANA* platform and Intel persistent memory Persistence with Performance Fast Restart Times Affordable Capacity
  19. 19. Legal Notices and Disclaimers – 1 HP, Intel, SAP, SUSE, and VMware. “Virtualizing Enterprise SAP® Software Deployments.” June 2011. suse.com/docrep/documents/o4r7to9d2y/virtualizing_enterprise_SAP_software_deployments.pdf. – 2 Intel estimate, as compared to a representative four-year-old system. Configurations: – Up to 1.3x higher virtualized throughput and more VMs/server compared to Intel® Xeon® processor E5 v4 performance estimate based on virtualization-infrastructure consolidation workload. Baseline: one-node, 2 x Intel Xeon processor E5-2699 v4 with 512 GB total memory on VMware ESXi 6.0 Update 1* using guest OS Red Hat* Enterprise Linux* (RHEL*) 6, 64-bit operating system, score: 1,034 at 58 VMs compared to estimates based on Intel internal testing on one-node, 2 x Intel Xeon processor Scalable family–based system. – Up to 2.7x higher virtualized throughput and more virtual machines (VMs)/server compared to Intel Xeon processor E5 v2 performance estimate based on virtualization-infrastructure consolidation workload. Baseline: one-node, 2 x Intel Xeon processor E5-2697 v2 (12 cores, 2.7 GHz) with 512 GB total memory on VMware ESXi 6.0 GA using guest OS RHEL 6.4, glassfish3.1.2.2*, postgresql9.2*, and Intel® Solid State Drive (SSD) Data Center (DC) S3710 Series and Intel SSD DC S3700 Series drives, score: 520.5 at 32 VMs compared to estimates based on Intel internal testing on one-node, 2 x Intel Xeon processor Scalable family–based system. – Up to 3.9x higher virtualized throughput and more VMs/server compared to Intel Xeon processor E5 performance estimate based on virtualization-infrastructure consolidation workload. Baseline: one-node, 2 x Intel Xeon processor E5-2690 with 256 GB total memory on VMware ESXi 6.0 GA using guest OS RHEL 6.4, glassfish3.1.2.2, postgresql9.2, score: 377.6 at 21 VMs compared to estimates based on Intel internal testing on one-node, 2 x Intel Xeon processor Scalable family–based system. – 3 For OLAP, SAP HANA* optimized hardware configurations for SAP HANA SPS 12*. 6 TB compared to 4 TB when running SAP HANA SPS 12 on an Intel® Xeon® Platinum processor compared to an Intel Xeon processor E7 v4. For OLTP, SAP HANA optimized hardware configurations for SAP HANA SPS 12. 12 TB compared to 8 TB when running SAP HANA SPS 12 on an Intel Xeon Platinum processor compared to an Intel Xeon processor E7 v4. 19
  20. 20. Legal Notices and Disclaimers – 4 SAP. “Find Certified Appliances.” October 2017. https://global.sap.com/community/ebook/2014-09-02-hana- hardware/enEN/appliances.html. – Up to 6x greater system memory supported compared to available solutions from four years ago (representing the currently installed data center base). SAP has certified its SAP HANA 2 platform for OLAP workloads to support up to 3 TB of memory per system for the upcoming Intel® Xeon® processor Scalable family for a 4-socket configuration (or 6 TB for an 8-socket configuration). Systems available four years ago (representing the typical data center installed base infrastructure) could only support 0.5 TB (or 1 TB in an 8-socket configuration). For comparative purposes, SAP certifies support for up to 2 TB of memory for the current Intel Xeon processor E7 v4 family in a 4-socket configuration, so upcoming Intel Xeon processor Scalable family–based systems are certified to support up to 50 percent greater system memory that the generation they replace. – Up to 3x greater system memory supported compared to available solutions from four years ago (representing the currently installed data center base). For OLTP workloads, SAP has certified its SAP HANA 2 platform to support up to 6 TB of memory per system for the Intel Xeon processor Scalable family for a 4-socket configuration (or 12 TB for an 8-socket configuration). Systems available four years ago (representing the typical data center installed base infrastructure) could only support 2 TB (or 4 TB in an 8-socket configuration). – 5 Technology claims are based on comparisons of latency, density, and write cycling metrics amongst memory technologies recorded on published specifications of in-market memory products against internal Intel® specifications. Results have been estimated or simulated using internal analysis or architecture simulation or modeling, and provided to you for informational purposes. Any differences in your system hardware, software, or configuration may affect your actual performance. – 6 Intel. “The Wait Is Over! 3D XPoint™ Technology.” 2015. intelsalestraining.com/infographics/memory/3DXPointc.pdf. – 7 Low latencies: Because data will be transferred across the memory bus, latencies will be orders of magnitude lower when compared to transferring data across Peripheral Component Interconnect Express* (PCIe*) or an input/output (I/O) bus to NAND/HDDs. Benchmarks and proof points are forthcoming. – 8 Dell. “Knowledge Base: Memory information for the 13G PowerEdge Servers - R630, T630 and R730/XD.” November 2016. dell.com/support/article/us/en/19/sln294489/memory-information-for-the-13g-poweredge-servers-r630-t630-and-r730-xd?lang=en. – 9 When operating with persistency enabled. 20
  21. 21. Legal Notices and Disclaimers – 10 Placeholder until test results come in. Source: SAP HANA Adoption of Non-Volatile Memory. VLDB 2017. – Benchmark and estimated results were obtained prior to implementation of recent software patches and firmware updates intended to address exploits referred to as "Spectre" and "Meltdown." Implementation of these updates may make these results inapplicable to your device or system. – The benchmark results reported above may need to be revised as additional testing is conducted. The results depend on the specific platform configurations and workloads utilized in the testing, and may not be applicable to any particular user’s components, computer system, or workloads. The results are not necessarily representative of other benchmarks and other benchmark results may show greater or lesser impact from mitigations. – 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 intel.com/benchmarks. – Intel® Advanced Vector Extensions (Intel® AVX) provides higher throughput to certain processor operations. Due to varying processor power characteristics, utilizing AVX instructions may cause a) some parts to operate at less than the rated frequency and b) some parts with Intel® Turbo Boost Technology 2.0 to not achieve any or maximum turbo frequencies. Performance varies depending on hardware, software, and system configuration, and you can learn more at intel.com/go/turbo. – Results have been estimated or simulated using internal Intel analysis or architecture simulation or modeling, and provided to you for informational purposes. Any differences in your system hardware, software or configuration may affect your actual performance. – Cost reduction scenarios described are intended as examples of how a given Intel- based product, in the specified circumstances and configurations, may affect future costs and provide cost savings. Circumstances will vary. Intel does not guarantee any costs or cost reduction. – Intel does not control or audit third-party benchmark data or the web sites referenced in this document. You should visit the referenced web site and confirm whether referenced data are accurate. 21
  22. 22. Legal Notices and Disclaimers – Intel's compilers may or may not optimize to the same degree for non-Intel microprocessors for optimizations that are not unique to Intel microprocessors. These optimizations include SSE2, SSE3, and SSSE3 instruction sets and other optimizations. Intel does not guarantee the availability, functionality, or effectiveness of any optimization on microprocessors not manufactured by Intel. Microprocessor-dependent optimizations in this product are intended for use with Intel microprocessors. Certain optimizations not specific to Intel microarchitecture are reserved for Intel microprocessors. Please refer to the applicable product User and Reference Guides for more information regarding the specific instruction sets covered by this notice. – Intel technologies’ features and benefits depend on system configuration and may require enabled hardware, software or service activation. Performance varies depending on system configuration. No computer system can be absolutely secure. Check with your system manufacturer or retailer or learn more at intel.com. – Intel disclaims all express and implied warranties, including without limitation, the implied warranties of merchantability, fitness for a particular purpose, and non-infringement, as well as any warranty arising from course of performance, course of dealing, or usage in trade. – Intel, the Intel logo, 3D XPoint, Intel Core, and Xeon are trademarks of Intel Corporation in the U.S. and/or other countries. – *Other names and brands may be claimed as the property of others. – © 2018 Intel Corporation. 22
  23. 23. Legal Notices and Disclaimers – No part of this publication may be reproduced or transmitted in any form or for any purpose without the express permission of SAP SE or an SAP affiliate company. – SAP and other SAP products and services mentioned herein as well as their respective logos are trademarks or registered trademarks of SAP SE (or an SAP affiliate company) in Germany and other countries. Please see http://global12.sap.com/corporate-en/legal/copyright/index.epx for additional trademark information and notices. – Some software products marketed by SAP SE and its distributors contain proprietary software components of other software vendors. – National product specifications may vary. – These materials are provided by SAP SE or an SAP affiliate company for informational purposes only, without representation or warranty of any kind, and SAP SE or its affiliated companies shall not be liable for errors or omissions with respect to the materials. The only warranties for SAP SE or SAP affiliate company products and services are those that are set forth in express warranty statements accompanying such products and services, if any. Nothing herein should be construed as constituting and additional warranty. – In particular, SAP SE or its affiliated companies have no obligation to pursue any course of business outlined in this document or any related presentation, or to develop or release any functionality mentioned therein. This document, or any related presentation, and SAP SE’s or its affiliated companies’ strategy and possible future developments, products, and/or platform directions and functionality are all subject to change and may be changed by SAP SE or its affiliated companies at any time for any reason without notice. The information in this document is not a commitment, promise, or legal obligation to deliver any material, code, or functionality. All forward-looking statements are subject to various risks and uncertainties that could cause actual results to differ materially from expectations. Readers are cautioned not to place undue reliance on these forward-looking statements, which speak only as of their dates, and they should not be relied upon when making purchasing decisions. – © 2018 SAP SE or an SAP affiliate company. All rights reserved. 23
  24. 24. 24 Thank You

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