TITLE REDEFINING ALL CAPS VMAX INTERNAL, DENIS VILFORT, DARK CHIEF BACKGROUND EVANGELIST EMC 1
Data Business Value THE HYBRID CLOUD DATA STRATEGY 100% 90% 80% 70% 60% 50% 40% 30% PRIVATE CLOUD PUBLIC CLOUD 20% 10% 0% HOT COLD 0 30 60 90 120 150 180 210 240 270 300 330 360 Data Age 2
TWO CLOUDS DIFFERENT ATTRIBUTES PRIVATE CLOUD PUBLIC CLOUD Availability: 99.999% to 99.9999% 99.9% Response Time <1mS to <20mS >200mS Cost: $.50/GB to $9/GB $.80/GB to $1/GB 3
THE TWO LAYERS OF A PRIVATE CLOUD HORIZONTAL SCALING OF VIRTUAL COMPUTE AND SHARED STORAGE 1000 s of Virtual Machines 100 s of Physical Machines 4
5-YEAR SERVICE LIFE CLOUDS MUST SCALE WITH DEMANDS 60% CPU GROWTH Y/Y 60% DATA GROWTH Y/Y 5
IOPS 10X IOPS THE 10X PLANNING MODEL ISTORAGE FOUNDATION MUST GROW ACROSS CAPACITY AND IOPS 1 000 000 100 000 10X CAPACITY 10 000 10 000 100 000 1 000 000 CAPACITY 6
VM TRANSACTION BUDGET THE VIRTUAL MACHINE FOOTPRINT SIZING UP THE RIGHT STORAGE BUDGET Footprint Per VM $ Cost per VM VM CAPACITY BUDGET 7
VM TRANSACTION BUDGET SYSTEM TRANSACTION REQUIREMENT DETERMINING SYSTEM REQUIREMENTS SYSTEM FOOTPRINT = VM FOOTPRINT X NUMBER OF VMs Footprint Per VM System Footprint X Number of VMs $ Cost per VM $ System Cost VM CAPACITY BUDGETSYSTEM CAPACITY REQUIREMENT 8
PICKING THE RIGHT PLATFORM 99.9999% AVAILABILITY YES NO < 1 ms RESPONSE TIME NO YES REDUNDANT DATA NO YES ALL FLASH 9
NON STOP OPERATIONS FULLY REDUNDANT FAULT ISOLATION PARALLEL NDU 6x9 s BASE WITH 7x9 s VPLEX 10
POWERFUL VMAX 3 CLOUD ARCHITECTURE N O D E 16 Controllers Dual Controllers for High Availability 384 CPU Cores 48 CPU Cores for High Performance 16 TB DRAM 2 TB DRAM Cache for Low Latency 5,760 SSDs 720 SSDs or HDDs any Combination or HDDs 11
Data Center 1 Data Center 2 64 HA Controllers 1,526 CPU Cores 64 TB DRAM Cache 23,040 Drives Up to 4 Sites 16 Controllers 384 CPU Cores 16 TB DRAM 5,760 SSDs or HDDs Data Center 3 SRDF Data Center 4 12
VMAX 3 ARCHITECTURE AT A GLANCE 720 SSD or HDD 720 SSD or HDD 720 SSD or HDD 720 SSD or HDD IB A LESS THAN 2 IB SEC B 720 SSD or HDD 720 SSD or HDD 720 SSD or HDD 720 SSD or HDD 13
CAPACITY TO THE MAX MIIX AND MATCH FLASH SSDs AND MECHANICAL HDDs UP TO 4 PB CAPACITY VMAX 100K VMAX 200K VMAX 400K 14
VMs TO THE MAX VMAX 400K 40,000 VMAX 200K 20,000 VMAX 100K 5,000 Note: Based on an Average VM Footprint of 100 IOPS by 100GB 15
MISSION CRITICAL WORKLOADS Mission Critical Resiliency 80% Enterprise Business Continuity Of VMAX workloads not significantly dedupable Advanced Disaster Recovery File Services VDI Oracle OLTP Oracle DW Exchange 2007 Exchange 2010 Software Dev Geoseismic 28% 69% 2% 13% 3% 14% 29% 4% 16
IOPS/$ STORAGE MEDIA ROI WHILE CLOSER IN CAPACITY, SSDS AND HDDS ARE STILL FAR APART 0,7 800GB SSD 0,6 0,5 0,4 10X BETTER TRANSACTION ROI 0,3 0,2 0,1 0 10X BETTER CAPACITY ROI 1.2TB 10K HDD 0 0,1 0,2 0,3 0,4 0,5 0,6 0,7 0,8 GB/$ 17
VMAX Provides the Balance Cost Optimizing Performance And Capacity PERFORMANCE CAPACITY ACTIVE DATA INACTIVE DATA 10% FLASH 90% DISK FAST Dynamically manages $/GB balanced with $/IOP 18
DATA DECAY REVISITED HOT COLD 19
REAL CUSTOMER SKEW EXAMPLES DATA ACTIVITY DISTRIBUTION DRIVES HYBRID FLASH 1 ST STRATEGY LONG TAIL SKEW MIXED SKEW SHALLOW SKEW Most of the Data is long tail with small head Large portion of data is hot. Some data is warm with smaller tail All data is hot. No pronounced long tail. 20
DATA DECAY INSIGHT 10X 2X 21
Performance Compared to 100% FLASH WHAT IS THE BEST HYBRID BLEND? BASED ON 90 DAYS TO 10% DECAY @ 50% Y/Y GROWTH 100% AFA Comparison as a Function of FLASH% 90% 80% 70% 60% 50% 40% 30% 20% 10% 0% 0% 5% 10% 15% 20% 25% 30% 35% FLASH % in Hybrid 22
40 160 280 400 520 640 760 880 1 000 1 120 1 240 1 360 1 480 1 600 1 720 1 840 1 960 2 080 2 200 2 320 2 440 2 560 2 680 2 800 40 200 360 520 680 840 1 000 1 160 1 320 1 480 1 640 1 800 1 960 2 120 2 280 2 440 2 600 2 760 $/GB Street $/GB Street THE MORE FLASH THE HIGHER THE $/GB 10% FLASH VMAX 400K 200K 100K 20% FLASH VMAX 400K 200K 100K $16,00 $16,00 $14,00 $14,00 $12,00 $12,00 $10,00 $10,00 $8,00 $8,00 $6,00 $6,00 $4,00 $4,00 $2,00 $2,00 $- $- System Capacity in TBs System Capacity in TBs 23
40 160 280 400 520 640 760 880 1 000 1 120 1 240 1 360 1 480 1 600 1 720 1 840 1 960 2 080 2 200 2 320 2 440 2 560 2 680 2 800 40 200 360 520 680 840 1 000 1 160 1 320 1 480 1 640 1 800 1 960 2 120 2 280 2 440 2 600 2 760 $/GB Street $/GB Street FLASH PERFORMANCE AT HALF THE COST 100% FLASH VMAX 400K 200K 100K 30% FLASH VMAX 400K 200K 100K $16,00 $16,00 $14,00 $14,00 $12,00 $12,00 $10,00 $10,00 $8,00 $8,00 $6,00 $6,00 $4,00 $4,00 $2,00 $2,00 $- $- System Capacity in TBs System Capacity in TBs 24
HIGHLY EFFICIENT DATA CENTER COMPACT HDDs -1.2TB 10K 2.5 DENSE DAE - 120 Drive Slots - 3U Rack-Deep HIGH CAP SSDs -800GB emlc 2.5-1.6TB emlc 2.5 * *NOTE: Q1 2015 25
DENSITY SAVINGS UP TO UP TO 75% Reduced Physical Footprint 4X Improved TB/ft UP TO 45% 9X Reduced Power and UP Cooling Costs TO Improved IOPS/tile UP TO 60% Reduced Overall Environmental Footprint 26
FLEXIBLE DYNAMIC VIRTUAL MATRIX APPLICATION ACCESS MULTI PROCESSOR SCALE-OUT DATA INTEGRITY DATA SERVICES QoS VIRTUAL PROVISIONING D@RE TIME FINDER SRDF DYNAMIC RESOURCE/CORE ALLOCATION STORAGE ACCESS 27
LESS COMPLEXITY WITH HYPERMAX OS MANAGEMENT MOBILITY BLOCK PROTECTION FILE BACKUP CLOUD ACCESS ANALYTICS 28
APPLICATION BACKUP WITH PROTECTPOINT TRADITIONAL BACKUP VMAX with PROTECTPOINT DATABASE SERVER BACKUP SERVER DATABASE SERVER Backup Admin DBA DIRECT PRIMARY STORAGE SECONDARY STORAGE VMAX 3 DATA DOMAIN 29
DIAMOND Latency <1mS GOLD Latency >1mS, <10mS SILVER Latency >10mS, <20mS BACKUP CLONES WEB MAIL FILE DSS TRADING APPS HPC VM S ARCHIVE TEST DEV DATABASE TRANSACTION PROCESSING SSD FAST STORAGE POOL HDD 30
TRANSACTION REQUIREMNMET DIFFERENT WORKLOAD REQUIREMENTS EACH WORKLOAD HAS A UNIQUE FOOTPRINT AND COST 10 IOPS/GB DATABASE VM S 1 IOPS/GB FILE 0.1 IOPS/GB CAPACITY REQUIREMENT 31
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TITLE REDEFINING ALL CAPS VMAX INTERNAL, DENIS VILFORT, DARK CHIEF BACKGROUND EVANGELIST EMC 33