don’t let legacy infrastructure to be the€¦ · easier path to hybrid cloud with hci support...
TRANSCRIPT
Don’t let Legacy Infrastructure to be the Barrier to Digital Transformation
Benefits of Modernization3
Decrease “Technical Debt”
Improve Data Security and Compliance
Easier Path to Hybrid Cloud with HCI
Support expanding workloads and DevOps
Decrease “Technical Debt” from Legacy Infrastructure
https://www.emc.com/collateral/analyst-reports/idc-the-technology-impact-of-it-transformation-report.pdf
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Benefits of modernizing
Increased IT staff efficiency
35% Re-platform apps for faster time to market and increased speed of service.
Lower maintenance costs of legacy systems
Reduced business impact from unplanned downtime
Improve IT staff efficiencies
IT budget savings32%
Less revenue loss from unplanned
downtime
69%
Benefits of modernizing
Improve Data Security and Compliance
1. PWC (PricewaterhouseCoopers); 2. 2017 Thales Data Threat Report, Advanced Technology Addition; 3. CSO Article 2015, Application Security Research, US Department of Homeland Security
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Deploy latest hardware based security for root of trust protection and full data encryption
Enhanced SDN features for better network security from data center to cloud to edge
Support of compliance requirements: GDPR, HIPAA, PCI, SOX, US FISMA, NIST’s SP 800-53 Rev 4 Guidelines, FedRAMP
Faster data recovery
Reduced data backup windows for less risk
of US multinationals say GDPR is their top
data-protection priority¹
50%of organizations are deploying advanced technologies without the right data security
in place²
63%
of incidents result from exploits in software³
90%
Benefits of modernizing
Hyperconverged Infrastructure (HCI) as a Path to Multicloud
1. "2016 State of Hyperconverged Infrastructure,” ActualTech Media, June 2016; 2. Gartner, https://www.gartner.com/newsroom/id/3666917
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will adopt a hybrid strategy by 2020, using both public and private
cloud resources2
90%cite operational efficiency
and cost reduction as primary drivers for HCI1
73% Highly scalable performance and capacity to support mission-critical applications
Improve infrastructure efficiencies, reduce data center footprint
Centralized management and orchestration using familiar virtualization tools and resources
Speed deployment of IT services
Gain agility without giving up control
Benefits of modernizing
Support Expanding Workloads and DevOps
1. AI Study 2018, Constellation Research https://www.constellationr.com/research/constellation-research-2018-artificial-intelligence-study-0; 2. The Technology Impact of IT Transformation, IDC 2017 https://www.emc.com/collateral/analyst-reports/idc-the-technology-impact-of-it-transformation-report.pdf
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More frequent release windows for new
features2
10Xof CIOs plan to
increase investment in AI by more than 50%1
60%Improvement in ability to develop new apps
per year2
64%
Faster time-to-insight from data using advanced analytics and AI technologies
Boost performance for demanding workloads
Faster delivery time for apps and releases
Deliver self-service capabilities and developer-friendly tools
What does end of support mean for Windows Server* 2008/R2 and SQL Server* 2008/R2?
No security updates Compliance concerns Higher
maintenance costs
There will be no access to critical security updates, opening the potential for
business interruptions
As support ends, your organization may fail to meet
compliance standards and industry regulations
Maintaining legacy servers, firewalls, intrusion systems, etc. gets expensive quickly
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Upgrade for Best Performance and Security8 year Old Server + Windows Server 2008 R2 vs.2nd Gen Intel® Xeon® Scalable Platform + Windows Server 2019
https://blogs.windows.com/windowsexperience/2018/04/10/announcing-windows-server-2019-insider-preview-build-17639/#8MquW2poq9ZDc6xS.97, https://ark.intel.com/#@Processors ; 1 - See slide 97 - SQL Server/Hyper V-Multi-Tenant Virtualization config slide. No product or component can be absolutely secure.
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Compute Storage NetworkingMemory4.6X number of cores
2 sockets/28 cores (56 cores total)
Accelerate Compute-Intensive Workloads with Intel® AVX-512, AES-NI
Hyper-Converged Infrastructure supporting up to 4PB (Petabytes)
High performance, advanced flash support NVMe, NVDIMM, Intel®
Optane™ SSD, Intel® Optane™ DC persistent memory
Up to 10x faster networking with Integrated Intel® Ethernet
with iWARP RDMA
Numerous network offloads 10/25/40/50/100 Gb NICs
ACCELERATED DATA ENCRYPTIONBitlocker, AES-NI
SHIELDED VMsWindows & Linux
PLATFORM SECURITYUEFI, TPM 2.0, Secure Boot
Security
Security
18X more Memory256 GB – 4.5 TB (per socket)
with Intel® Optane™ DC persistent memory
More VM’s per node1
Old Servers cost more to operate
New servers cost 59% less to operate over 3 years, compared to running older servers.
Source: https://www.emc.com/collateral/analyst-reports/accelerate-business-agility-with-faster-server-refresh-cycles.pdf
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Organizations achieved savings by retiring servers that had become increasingly inefficient and costly to operate as they moved into years 5 and 6 of their life cycles.
A Modern OS for the Digital Age11
Windows* Server 2019 –New Investments
HCI enhancements for better management scale and performance and storage class memory support
Linux container support, optimized server images, service fabric & Kubernetes orchestration
Shielded VMs for Linux, integrated Windows Defender ATP/Exploit Guard, encrypted subnets
Unique hybrid platform with easier connection to Azure services
In-place OS Upgrade from Windows Server 2012 R2, Windows Server 2016
Intel / Microsoft* C0-Engineering
Intel ® Optane™ DC persistent memory delivers breakthrough performance & capabilities To deliver a seamless user experience, Intel & Microsoft have
invested in a multi-year co-engineering partnership.
Resulting hardware & software work together harmoniously with maximum performance & compatibility without needing special drivers and/or software.
Windows* Server 2019 natively supports Intel® Optane™ DC persistent memory Full support for App-Direct, and Memory Mode
Hyper-V and Storage Spaces Direct in Windows Server 2019 are the foundational hypervisor and software-defined storage solutions. Co-engineering optimizations spanned investments within the Kernel,
Storage Stack, Memory Manager, Hyper-V, S2D & Networking components of the OS.
Delivering Value to BusinessesWindows Server 2019 Optimized for Xeon Scalable
All information provided here is subject to change without notice. Performance results are based on testing/projections as of Nov 2018 to Apr 2019 and may not reflect all publicly available security updates. No product or component can be absolutely secure. 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 complete information visit www.intel.com/benchmarks. Performance data is mix of measured and projected performance. 1. Per node 3.9X higher integer throughput performance: estimate based on SPECrate*2017_int_base on Intel internal platforms as of November 2018 and April 2019 respectively: 1-node, 2x Intel® Xeon® processor E5 v2 product family, ucode=0x42d, total memory/node=128 - 8 x 16GB DDR3-1866 (some SKUs may run at lower memory speed), OS: Red Hat 7.6, 3.10.0-957.el7.x86_64. SPECrate2017*_int_base – HT on, Turbo on, SPECrate2017*_fp_base – HT on, Turbo on, LINPACK – HT off Turbo on, Stream – HT off, Turbo on, 1GB/s = (MB/s ÷ 1024), Score: 82, vs 1-node, 2x 2nd Gen Intel® Xeon® Scalable processor family, ucode=0x400000a/0x4000013/0x5000017, 12 X 32GB 2933 MT/s (some SKUs may run at lower memory speed), Red Hat 7.6, 3.10.0-957.el7.x86_65, SPECrate2017*_int_base (using IC19u1)– HT on, Turbo on, SPECrate2017*_fp_base – HT on, Turbo on, LINPACK – HT off Turbo on, Stream – HT off, Turbo on, 3GB/s = (MB/s ÷ 1024), Score: 321. Testing by Intel. . 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.
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Hardware Innovation
Up to 3.9X Performance1 over 4-5 year old serversMany-Core Server (8-28 cores per socket)
2nd Gen Intel Xeon Scalable processor, NVMe, NVDIMM, Intel® Optane™ DC Persistent Memory, Intel® Optane™
Technology, Secure Platform, TPM 2.0, UEFI, Intel® Deep Learning Boost, RDMA enabled
Software Innovation
Hybrid Data Center PlatformNative Support for Intel® Optane™ DC persistent memory
Software Defined Compute, Storage, NetworkingCloud consistent/integrated
Enhanced Security
Modernize Your Datacenter, Lower Operational Expenses2nd Gen Intel® Xeon® Scalable Processor
Performance results are based on testing as of dates shown in configuration and may not reflect all publicly available security updates. See configuration disclosure for details. No product or component can be absolutely secure. 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 complete information visit www.intel.com/benchmarks. Configurations: 1. Up to 3.5x VM density performance: 1-node, 2x E5-2697 v2 on Canon Pass with 256 GB (16 slots / 16GB / 1600) total memory, ucode 0x42c on RHEL7.6, 3.10.0-957.el7.x86_65, 1x Intel 400GB SSD OS Drive, 2x P4500 4TB PCIe, 2*82599 dual port Ethernet, Virtualization Benchmark, VM kernel 4.19, HT on, Turbo on, score: VM density=74, test by Intel on 1/15/2019. vs. 1-node, 2x 8280 on Wolf Pass with 768 GB (24 slots / 32GB / 2666) total memory, ucode 0x2000056 on RHEL7.6, 3.10.0-957.el7.x86_65, 1x Intel 400GB SSD OS Drive, 2x P4500 4TB PCIe, 2*82599 dual port Ethernet, Virtualization Benchmark, VM kernel 4.19, HT on, Turbo on, score: VM density=21, test by Intel on 1/15/2019. 2. Configuration details: Up to 59% TCO savings with Intel® Xeon® Scalable processor compared to 5-year old system. 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. Example based on estimates as of March 2019 of equivalent rack performance over 4-year operation on virtualization workload running VMware vSphere Enterprise Plus on Red Hat Enterprise Linux Server and comparing 20 installed 2-socket servers with Intel® Xeon® processor E5-2697 v2 (formerly “IvyBridge”) at a total cost of $796,563 [Per server cost $39.8K: acquisition=13.7K, infrastructure and utility=4.2K, os & software=12.2K, maintenance=9.7K ] vs. 6 new Intel® Xeon® Platinum 8280 (costs based on Platinum 8180 assumptions) at a total cost of $325,805 [Per server cost $54.3K: acquisition=28.9K, infrastructure and utility=3.5K, os & software=12.2K, maintenance=9.7K]. Assumptions based on https://xeonprocessoradvisor.intel.com, assumptions as of Feb 13, 2019.
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Save with Fewer Servers while Achieving Similar Performance1
20 servers based on Intel® Xeon® processor E5-2697 v2
[Ivy Bridge: Launch Q3’13]
6 servers based on2S Intel® Xeon® Platinum 8280
processor
up to 59% Savings1,2 with less servers but
similar performance levels
Legacy Windows Server vs. Modern
http://www.prowesscorp.com/what-is-iwarp-and-why-does-it-matter/https://www.microsoft.com/en-us/cloud-platform/windows-server-comparison
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Windows Server2008 R2
Windows Server2012 R2
Windows Server2016
Windows Server2019
Hardware Scale 1 TB RAM/64 LPs 4 TB RAM/320 LPs 24 TB RAM/512 LPs 24 TB RAM/512 LPs
Virtualization Scale Up to 4 VPs per VMUp to 1 TB RAM per VM
Up to 64 VPs per VMUp to 1 TB RAM per VM
Up to 240 VPs per VMUp to 12 TB RAM per VM
Up to 240 VPs per VMUp to 12 TB RAM per VM
Hyper-Converged Infrastructure - - Yes Yes
Software Defined Storage - Shared SAS Storage Spaces Direct (HCI) Storage Spaces Direct (HCI)
Software Defined Networking - SDN v1 SDN v2 SDN + Container Networking
Containers - - Windows Server Containers Windows & Linux Containers
Shielded VMs - - Windows Only Windows & Linux
iWARP*/RDMA - Storage Only YesStorage & Hyper-V
YesStorage and Hyper-V
Virtualization Based Security - - Yes Yes
Advanced Flash Support - - NVMe NVMe, NVDIMM, Intel® Optane™ SSD
Memory DDR3-800 to 1333MHz DDR3-800 to 1600MHz Up to DDR4-2666 Up to DDR4-2933 +Intel® Optane™ DC persistent memory
Server Core 3.0GB 5.2GB 3.8GB 1.6GB
Nano Server - - 410MB < 100MB
System Insights - - - Yes
A Modern database for the Digital Age15
SQL Server 2019 – New Investments
SQL Server on Edge Finish features for big data clusters and data virtualization Making SQL Server more available, faster Further enhance SQL Server security Enhance the engine to align with hardware innovation Continue to make the container experience great Engine improvements based on customer feedback
Intel / Microsoft C0-Engineering
Intel® Optane™ DC persistent memory delivers breakthrough performance and capabilities. To deliver a seamless user experience, Intel & Microsoft have invested in a
multi-year co-engineering partnership.
Resulting hardware & software work together harmoniously with maximum performance & compatibility without needing special drivers and/or software.
SQL* Server 2019 Support for Intel® Optane™ DC persistent memory.• Full “enlightenment” support on Linux allows database files to be directly
accessed through memcpy operations
• Hybrid Buffer Pool available for both Windows Server and Linux- direct access to database files data pages without first copying into memory.
SQL Server 2019 Feature Preview
No product or component can be absolutely secure.
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TOP 10 REASONS TO CHOOSE SQL SERVER 2019Bring the industry-leading performance and security of SQL Server to your choice of language, platform, and data structured and unstructured1. Harness the power of big data
Big data clusters with scalable compute and storage composed of SQL Server, Spark, and HDFS. Cache data in scale out data marts.
2. Bring AI to your workloads
A complete AI platform to train and operationalize models in SQL Server ML Services or Spark ML using Azure Data Studio notebooks.
3. Eliminate the need for data movement
Data virtualization allows queries across relational and non relational data without movement or replication.
4. Explore and interact with visual data
Visual data exploration and interactive analysis using SQL Server BI tools and Power BI Report Server.
5. Run real time analytics on operational data
In-memory technologies for analytics on operational data using HTAP. Higher concurrency and scale through persistent memory.
6. Automatically tune SQL Server
Intelligent Query Processing improves scaling of queries and Automatic Plan Correction resolves performance problems.
7. Reduce database maintenance and increase business uptime
Greater uptime with more online indexing operations. Now run Always On availability groups on containers using Kubernetes.
8. Boost security and protect data in use
SQL Server enables layers of security including protection of computations in Always Encrypted secure enclaves.
9. Track compliance with sophisticated resources
Data Discovery & Classification labeling for GDPR and Vulnerability Assessment tool to track compliance.
10. Optimize with choice and flexibility
Support for your choice of Windows, Linux, and containers. Run Java code on SQL Server and store and analyze graph data.Apply to join the SQL Server Early Adoption
Program - https://aka.ms/eapsignup
Modernize with MSSQL 2019 Now with big data clusters
All TPC Claims as of 1/19/2018. 1 http://www.tpc.org/4081; 2 http://www.tpc.org/3331; 3 http://www.tpc.org/3326; 4 http://www.tpc.org/3321; 5 National Institute of Standards and Technology Comprehensive Vulnerability Database https://nvd.nist.gov/
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Intelligence over any data
Choice of platform and language
Industry-leading performance
Most secure over the last 8 years5
Insights in minutes and rich reports
Most consistent data platform
PrivateCloud
PublicCloud
#1 OLTP performance1
#1 DW performance on 1TB2, 10TB3, and 30TB4
Analytics over structured and unstructured data with the power
of SQL and Apache Spark
The best of Power BI andSQL Server Reporting Services
in Power BI Report Server
In-memory across all workloads
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Technology Driven: Intel® Optane™ TechnologyUnleashing breakthrough performance for a new generation of computing
Intel® 3D XPoint™
Memory Media
Intel building blocks
Intel System Memory Controller,
Interface HW, and SW IPBreakthrough material
advances for scalability & high performance
Intel® Optane™ Technology
1
2
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SQL Server and Intel® Optane™ DC Persistent Memory
Re-architecting the Memory / Storage
DRAMHOT TIER
STORAGE
MEMORY
PERSISTENT MEMORY Improvingmemory capacity
DRAMHOT TIER
HDD / TAPECOLD TIER
SSDWARM TIER
Delivering efficient storage Intel® 3D NAND SSD
ImprovingSSD performance
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