EMC VMAX ALL FLASH VMAX 450F/FX, 850F/FX

EMC VMAX ALL FLASH
VMAX 450F/FX, 850F/FX
The exciting new EMC VMAX® 450F/FX and 850F/FX family of all-flash arrays
deliver unparalleled performance and scale as a mission-critical multi-controller
platform bringing unmatched hyper consolidation and efficiency to the enterprise,
capable of handling the most demanding workloads. Designed around the very
latest high capacity Enterprise Flash drives, your data always resides in the fastest
possible tier (Diamond) to deliver the highest IOPS throughput and lowest possible
latency. VMAX All Flash extends the long tradition of VMAXTM Reliability, Availability
and Serviceability that customers have come to expect from VMAX.
In addition, a
wide range of trusted VMAX data services are available on the new VMAX 450F/FX
and 850F/FX. Ranging from 1 to 4 V-Bricks supported in the VMAX 450F/FX to 1 to
8 V-Bricks available in the VMAX 850F/FX, these new arrays offer even more
dramatic increases in floor tile density, by consolidating dual V-Bricks with their
DAE’s into one high capacity rack. The built-in hypervisor enables VMAX All Flash
to offer Unified block and file support through Embedded NAS (eNAS), as well as
Embedded Management. Embedded NAS eliminates the physical Data Movers and
Embedded Management eliminates the need for the customer to allocate and
manage an external server to run Unisphere for VMAX.
VMAX All Flash is available in two different software packages, the base “F” and the
application rich “FX”, which makes ordering easy. The FX includes SRDF S/A/STAR,
Data at Rest Encryption, eNAS, and SnapVX to name a few, along with our VASA
Provider Certified support of VVOLs.
Finally, the VMAX All Flash arrays come fully pre-configured out of the factory to
significantly shorten the time to first I/O during installation.
Specifications
NEW APPLIANCE BASED PACKAGING: THE V-BRICK
The Dynamic Virtual Matrix Architecture that allows aggregate scaling of system
resources has now been extended to VMAX All Flash Arrays, whose basic storage
building blocks are defined by appliance based entities called V-Bricks. Each VBrick includes an engine with two VMAX directors and 1 or 2 TB of cache, two 120
slot Drive Array Enclosures (DAEs), a base capacity of 53TBu of Enterprise Flash,
the redundant interfaces to the Dynamic Virtual Matrix dual InfiniBand® fabric
interconnect, and targeted bundled software. Additional Flash Capacity can be
added to each V-Brick in 13TBu increments up to a total usable capacity of up to
4.3 Petabytes. Each director consolidates front-end, global memory, and back-end
functions, enabling direct memory access to data for optimized I/O operations.
Depending on the array chosen, up to eight (8) VMAX All Flash V-Bricks can be
interconnected via a set of active fabrics that provide highly scalable performance
and high availability.
The new VMAX All Flash arrays are packaged in up to four dual V-Brick racks, each
housing up to 2 engines with high density Drive Array Enclosures as described
above. As a result, each system bay can support up to 480 2.5" Flash drives.
Detailed specifications and a comparison of the 450F/X and 850F/FX arrays follow:
SPECIFICATION SHEET
VMAX ALL FLASH ARRAY SPECIFICATIONS
ARRAY FAMILY
VMAX 450F/VMAX 450FX
VMAX 850F/VMAX 850FX
Number of V-Bricks supported
1 to 4
1 to 8
Engine Enclosure
4u
4u
CPU
Intel Xeon E5-2650-v2 2.6 GHz 8 core
Intel Xeon E5-2697-v2 2.7 GHz 12 core
Dynamic Virtual Matrix BW
700GB/s
1400GB/s
# Cores per CPU/per
8/32/128
12/48/384
InfiniBand Dual Redundant Fabric:
InfiniBand Dual Redundant Fabric:
56Gbps per port
56Gbps per port
Cache-System Min (raw)
1024GB
1024GB
Cache-System Max (raw)
8TBr (with 2048GB engine)
16TBr (with 2048GB engine)
Cache-per Engine Options
1024GB, 2048GB
1024GB, 2048GB
Vault Strategy
Vault to Flash
Vault to Flash
Vault Implementation
2 to 8 Flash SLICs / Engine
2 to 8 Flash SLICs / Engine
V-BRICKS
Engine/per System
Dynamic Virtual Matrix
Interconnect
CACHE
VAULT
FRONT END I/O MODULES
Maximum Front-End I/O
6
6
Modules/V-Brick
Front-End I/O Modules and
FC: 4 x 8Gbs (FC, SRDF)
FC: 4 x 8Gbs (FC, SRDF)
Protocols Supported
FC: 4 x 16Gbs (FC, SRDF)
FC: 4 x 16Gbs (FC, SRDF)
(Optical Ports)
iSCSI: 4 x10GbE (iSCSI)
iSCSI: 4 x10GbE (iSCSI)
10GbE: 2 x 10GbE (SRDF)
10GbE: 2 x 10GbE (SRDF)
GbE: 2 x GbE (SRDF)
GbE: 2 x GbE (SRDF)
eNAS I/O MODULES
Max number eNAS I/O Modules/ 1
1
Software Data Mover
eNAS I/O Modules Supported
10GbE: 2 x 10GbE Optical
10GbE: 2 x 10GbE Optical
4 (3 Active + 1 Standby)
4 (3 Active and 1 Standby)
(4 Data Movers requires minimum 2 V-Bricks)
(4 Data Movers requires minimum 2 V-Bricks)
768
768
eNAS SOFTWARE DATA MOVERS
Max Software Data Movers
Max NAS Capacity/Array
(Terabytes Usable)
ARRAY FAMILY
VMAX 450F/VMAX 450FX
VMAX 850F/VMAX 850FX
Max Capacity per Array
2.3PBu
4.3PBu
Capacity per V-Brick
52.6TBu
52.6TBu
Incremental Capacity Blocks
13.2TBu
13.2TBu
Max Drives per V-Brick
240
240
Max Drives per Array
960
1920
Max Drives per System Bay
480
480
Min Drive Count per V-Brick
16 + 1 spare
16 + 1 spare
Flash Drives Supported (2.5”)
960GB, 1.92TB, 3.84TB
960GB, 1.92TB, 3.84TB
BE Interface
6Gbps SAS
6Gbps SAS
RAID Options Supported
RAID 5(7 +1)
RAID 5(7 +1)
RAID 6(14+2)
RAID 6(14+2)
Support for Mixed RAID Groups
No
No
Support for Mixed Drive
Yes
Yes
120 x 2.5” Drive DAE
Yes
Yes
60 x 3.5” Drive DAE
No
No
Standard 19" bays
Yes
Yes
Single V-Brick System Bay
No (Packaging based on Dual V-Bricks, but can
No (Packaging based on Dual V-Bricks, but can
Configuration
start with a single V-Brick in each System Bay)
start with a single V-Brick in each System Bay)
Configuration
Yes (Default packaging)
Yes (Default packaging)
Third Party Rack Mount Option
Yes (Initially via RPQ)
Yes (Initially via RPQ)
Yes (Initially via RPQ)
Yes (Initially via RPQ)
Yes
Yes
Yes
Yes
Single or Three Phase
Single or Three Phase
Single or Three Phase
Delta or Wye
Delta or Wye
Delta or Wye
CAPACITY, DRIVES
FLASH DRIVES
Capacities
FLASH ARRAY ENCLOSURES
CABINET CONFIGURATIONS
Dual V-Brick System Bay
DISPERSION
System Bay Dispersion
PRE-CONFIGURATION
100% Virtually Provisioned
HOST SUPPORT
Open Systems
POWER OPTIONS
VMAX ALL FLASH ARRAY CONNECTIVITY
ARRAY FAMILY
I/O PROTOCOLS SUPPORTED
VMAX 450F/VMAX 450FX
VMAX 850F/VMAX 850FX
Maximum/V-Brick
24
24
Maximum/array
96
192
Maximum/V-Brick
24
24
Maximum/array
96
192
Maximum/V-Brick
24
24
Maximum/array
96
192
Maximum/V-Brick
12
12
Maximum/array
48
96
Maximum/V-Brick
12
12
Maximum/array
48
96
Max ports/NAS Data Mover
2
2
Maximum ports/array
8
8
8 Gb/s FC Host/SRDF Ports
16 Gb/s FC Host Ports
10 GbE iSCSI Ports
10 GbE SRDF Ports (Optical)
GbE SRDF Ports (Optical)
EMBEDDED NAS PORTS
10GbE Optical Ports
SYSTEM BAY DISPERSION
System Bay Dispersion allows customers to separate any individual or contiguous group of system bays by up to a distance of 82
feet (25 meters) from System Bay 1. This provides unsurpassed datacenter flexibility in solving floor loading constraints or working
around obstacles that mighty preclude fully contiguous configurations.
FLASH DRIVE SUPPORT
The VMAX 450F/FX and 850F/FX support the latest 6Gb/s dual ported native SAS Flash drives. All Flash drives support two
independent I/O channels with automatic failover and fault isolation. Check with your EMC sales representative for the latest list of
supported drives and types.
All capacities are based on 1 GB = 1,000,000,000 bytes. Actual usable capacity may vary depending
upon configuration.
2.5” FLASH DRIVES USED IN V-BRICKS AND CAPACITY BLOCKS
PLATFORM SUPPORT
VMAX 450F/FX AND VMAX 850F/FX
NOMINAL CAPACITY (GB)
1
1
1
Flash
Flash
Flash
N/A
N/A
N/A
960
1920
3840
939.38
1880.08
3761.47
960
SPEED (RPM)
AVERAGE SEEK TIME
(READ/WRITE MS)
RAW CAPACITY (GB)
OPEN SYSTEMS FORMATTED
CAPACITY (GB)
1920
3840
1
Additional Drive Capacity Blocks and V-Bricks in any given configuration could contain different underlying drive sizes in order to
achieve the desired Usable Capacity. This is automatically optimized by the VMAX Sizer Configuration Tool.
POWER CONSUMPTION AND HEAT DISSIPATION AT 35 DEGREES C
COMPONENTS
Power dissipation at
o
VMAX 450F/FX
VMAX 850F/FX
Maximum Total
Maximum Total
temperatures > 35 C
power
Maximum Heat
power
Maximum Heat
will be higher based
consumption
dissipation
consumption
dissipation
on adaptive cooling2
(kVA)
(Btu/Hr)
(kVA)
(Btu/Hr)
SYSTEM BAY 1,
DUAL ENGINE
SYSTEM BAY 2,
DUAL ENGINE1
8.66
28,223
8.91
29,223
7.99
26,123
8.20
26,923
1
Power Values for System Bay 2 and all subsequent System Bays where applicable
2
Power Values and Heat Dissipations shown reflect the higher power levels associated with the battery recharge cycle, and measured at
35 degrees C. Steady State ambient temperature values during normal operation will be lower.
PHYSICAL SPECIFICATIONS
COMPONENTS
HEIGHT (IN/CM)
WIDTH (IN/CM)
DEPTH (IN/CM)
WEIGHT (MAXIMUM
LBS/KG)
SYSTEM BAY,
DUAL ENGINE
75/190
24/61
47/119
1860/844
INPUT POWER REQUIREMENTS
SINGLE-PHASE NORTH AMERICAN, INTERNATIONAL, AUSTRALIAN
North American
Specification
International and Australian
1
3 wire connection (1 L & 1 N & 1 G)1
3 wire connection (2 L & 1 G)
Input nominal voltage
200 – 240 VAC +/- 10% L- L nom
220 – 240 VAC +/- 10% L - N nom
Frequency
50 – 60 Hz
50 – 60 Hz
Circuit breakers
30 A
32 A
Power zones
Two
Two
Power requirements at customer site (min)
• Three 30A, single phase drops per zone.
• Two power zones require 6 drops, each drop rated for 30A
1
L = line or phase, N = neutral, G = ground
THREE-PHASE NORTH AMERICAN, INTERNATIONAL, AUSTRALIAN
Specification
Input voltage2
North American (Delta)
International (WYE)
4 Wire Connection (3 L & 1 G)1
5 Wire Connection (3 L & 1 N & 1 G)1
200 – 240 VAC +/- 10% L- L nom
220 – 240 VAC +/- 10% L - N nom
50 – 60 Hz
50 – 60 Hz
Circuit breakers
50 A
32 A
Power zones
Two
Two
Two 50 A, three-phase drops per bay
Two 32 A, three-phase drops per bay
Frequency
Power requirements at customer
site (min)
1
2
L = line or phase, N = neutral, G = ground
An imbalance of AC input currents may exist on the three-phase power source feeding the array, depending on the configuration. The customer's
electrician must be alerted to this possible condition to balance the phase-by-phase loading conditions within the customer's data center
RADIO FREQUENCY INTERFERENCE
Electro-magnetic fields which include radio frequencies can interfere with the operation of electronic equipment.
products have been certified to withstand radio frequency interference in accordance with standard EN61000-4-3.
EMC Corporation
In Data Centers
that employ intentional radiators, such as cell phone repeaters, the maximum ambient RF field strength should not exceed 3 Volts
/meter.
REPEATER POWER
RECOMMENDED MINIMUM
LEVEL
DISTANCE
(WATTS)
(FEET/METERS)
1
9.84 FT (3M)
2
13.12 FT (4 M)
5
19.69 FT (6M)
7
22.97 FT (7M)
10
26.25 FT (8M)
12
29.53 FT (9M)
15
32.81 FT (10M)
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Xeon, and Xeon Inside are trademarks or registered trademarks of Intel Corporation in the U. S. and other countries. All other trademarks used herein are the property of their
respective owners. © Copyright 2016 EMC Corporation. All rights reserved. Published in the USA. 09/16 Specification Sheet H14892.1a.
SPECIFICATION SHEET