GLS88DQ512G3-I-BZ300 数据手册
GLS88DQ064G3 / 128G3 / 256G3 / 512G3
Industrial Temp NVMe M.2 ArmourDrive™ PX Series
Factsheet 01.000
December 2019
Features
• Industry Standard PCIe Host Interface
– PCIe Gen3x2
– PCI Express Base Revision 3.1 compliant
– NVMe 1.3 compliant
• Performance
– Sequential data read: Up to 1,550 MB/s
– Sequential data write: Up to 950 MB/s
• Reliability
– Mean Time Between Failures (MTBF):
More than 2 million hours
• Data Protection
– End-to-end data path protection
– Secure Erase (data sanitization)
– Thermal throttling
• 32-bit / 64-bit addressing mode
• 512 Byte / 4 KB Sector Size Support
• IO Queuing
– 128 IO queues supported
• SLC Caching
• Built-in ECC
– Uses advanced bit error detection and
correction optimized for 3D NAND
• NAND Configuration
– 3 bits per cell (3D TLC NAND)
• Endurance
– Program/Erase (P/E) cycles: 3K
• Operating Temperature Range
– Industrial: -40°C to 85°C
• M.2 2242 Form Factor
– 22mm x 42mm x 3.73mm (max)
– Double-sided (DS), B+M key
• All Devices are RoHS Compliant
(measured using 128KB transfer size)
• Power Management
– 3.3V single power supply
– Autonomous power state transition (APST)
feature to implement power savings
– Active state power management (ASPM) to
reduce PCIe link power consumption
– Supports L1.2
• Power Specifications
– Active mode:
512GB: 2,750 mW (typical)
256GB: 2,450 mW (typical)
128GB 2,400 mW (typical)
64GB: 1,780 mW (typical)
– Idle mode: < 30 mW
– L1.2 mode: < 2 mW
• Integrated Current Detector
– Protects from inrush current and generates
reset during power-up and power-down to
prevent inadvertent writes
• Supports SMART and TRIM Commands
Notes: 1. User capacity: 1GB = 1 billion bytes
2. PCIe = Peripheral Component Interconnect Express
3. NVMe = Non-Volatile Memory Express
Product Description
The GLS88DQ064G3 / 128G3 / 256G3 / 512G3
Industrial Temperature NVMe M.2 ArmourDrive™ PX
Series (referred to as “M.2 ArmourDrive” in this
factsheet) are high-performance, high-reliability solid
state drives. They combine 64, 128, 256 or 512
GBytes of NAND flash memory with an advanced
NVMe PCIe controller on a printed circuit board (PCB).
NVMe is a highly scalable protocol optimized for
efficient data transport over PCIe for storage on
NAND flash.
The NVMe PCIe SSD controller with built-in advanced
NAND management firmware communicates with the
host through the standard PCIe interface. It does not
require any additional or proprietary software such as
the Flash File System (FFS) and Memory Technology
Driver (MTD). The firmware effectively optimizes the
use of NAND flash memory’s program/erase (P/E)
cycles and minimizes write amplification.
M.2 ArmourDrive’s advanced NAND management
technology improves endurance, enhances data
security and helps prevent data corruption during
unexpected power failure events. This innovative
technology combines robust NAND controller
hardware error correction capabilities with advanced
wear-leveling algorithms and bad block management
to improve data reliability and significantly extend the
life of the product.
M.2 ArmourDrive is ideal for applications that require
removable form factor and more reliable data storage.
NVMe M.2 solid state storage technology is used in
industrial and cloud computing, datacenters, highperformance enterprise storage and networking
systems, endpoint and thin clients, gaming machines
and broadcasting equipment. These removable solid
state drives (SSDs) provide low latency and fast
sequential and random read/write speeds.
These specifications are subject to change without notice.
© 2019 Greenliant
GLS FS0019 Rev. 00
1
12/13/2019
S71471-01
GLS88DQ064G3 / 128G3 / 256G3 / 512G3
Industrial Temp NVMe M.2 ArmourDrive™ PX Series
Factsheet 01.000
December 2019
1.0
GENERAL DESCRIPTION
Each M.2 ArmourDrive module integrates an NVMe PCIe SSD controller with up to two NAND flash multi-chip
packages. Refer to Figure 2-1 for the M.2 ArmourDrive block diagram.
1.1
1.1.5 Power Interrupt Data Protection
Optimized M.2 ArmourDrive
The MCU translates PCIe / NVMe commands into
data and control signals required for flash media
operation.
Power Interrupt Data Protection is a mechanism to
prevent data corruption during unexpected power
failure events. Enhanced data integrity is supported by
the controller’s advanced firmware during abnormal
power loss. The controller proactively optimizes the
amount and stay time of the “in-flight” data residing in
the cache. To ensure there is no data loss risk caused
by power cycling, the controller sends an
acknowledgement to the host only when the incoming
data is fully committed to the NAND flash.
1.1.2 Internal Direct Memory Access (DMA)
1.1.6 Error Correction Code (ECC)
M.2 ArmourDrive uses internal DMA allowing instant
data transfer from/to buffer to/from flash media. This
implementation eliminates microcontroller overhead
associated with the traditional, firmware-based
approach, thereby increasing the data transfer rate.
The ECC technology uses advanced algorithms to
detect and correct errors, ensuring data integrity and
extending the SSD lifespan.
The heart of M.2 ArmourDrive is the NVMe PCIe SSD
controller, which translates standard PCIe signals into
flash media data and control signals. The following
components contribute to M.2 ArmourDrive’s
operation.
1.1.1 Microcontroller Unit (MCU)
1.1.7 Multi-tasking Interface
The multi-tasking interface enables concurrent Read,
Program and Erase operations to multiple NAND flash
media.
1.1.3 Power Management Unit (PMU)
The PMU controls the power consumption of M.2
ArmourDrive. The PMU dramatically reduces the
power consumption of M.2 ArmourDrive by putting the
part of the circuitry that is not in operation into sleep
mode.
1.2
M.2 ArmourDrive’s controller uses advanced wearleveling algorithms to substantially increase the
longevity of NAND flash media. Wear caused by data
writes is evenly distributed in all or select blocks in the
device that prevents “hot spots” in locations that are
programmed and erased extensively. This effective
wear-leveling technique results in optimized device
endurance, enhanced data retention and higher
reliability required by long-life applications.
The Flash File System handles inadvertent power
interrupts and has auto-recovery capability to ensure
M.2 ArmourDrive firmware integrity.
1.1.4 Embedded Flash File System
The embedded flash file system is an integral part of
M.2 ArmourDrive. It contains MCU firmware that
performs the following tasks:
1.3
1. Translates host side signals into flash media
writes and reads
2. Provides flash media wear leveling to spread
the flash writes across all memory address
space to increase the longevity of flash media
3. Keeps track of data file structures
These specifications are subject to change without notice.
© 2019 Greenliant
GLS FS0019 Rev. 00
Advanced NAND Management
Advanced Data Security
Advanced data security measures include end-to-end
data path protection and data sanitization (Secure
Erase) support. Secure Erase is an effective method
to quickly wipe all data from a PCIe-based SSD using
the NVMe protocol (Format NVM).
2
12/13/2019
S71471-01
GLS88DQ064G3 / 128G3 / 256G3 / 512G3
Industrial Temp NVMe M.2 ArmourDrive™ PX Series
Factsheet 01.000
December 2019
2.0
FUNCTIONAL BLOCKS
Figure 2-1: M.2 ArmourDrive Block Diagram
These specifications are subject to change without notice.
© 2019 Greenliant
GLS FS0019 Rev. 00
3
12/13/2019
S71471-01
GLS88DQ064G3 / 128G3 / 256G3 / 512G3
Industrial Temp NVMe M.2 ArmourDrive™ PX Series
Factsheet 01.000
December 2019
3.0
APPENDIX
3.1
Product Ordering Information
GLS 88 DQ
XX XX
xxx G3 - I - BZ3xx
XXX XX - X - XXXXX
Ordering Code
BZ3xx = NVMe M.2 AmourDrive Revision
Operating Temperature
I = Industrial: -40°C to +85°C
NAND Configuration
3 = 3 bits per cell
GByte Designator
G = GByte
Capacity
064 = 64 GByte
128 = 128 GByte
256 = 256 GByte
512 = 512 GByte
Product Generation
Q = Generation
Form Factor
D = M.2 2242 (DS)
Product Family
88 = NVMe M.2 ArmourDrive
Valid Combinations
Valid product combinations are those that are in the mass production or will be in the mass production. Consult
your Greenliant sales representative to confirm availability of the valid combinations and to determine availability
of new product combinations.
Table 3-1: M.2 ArmourDrive Product Valid Ordering Numbers
Capacity
Operating Temperature
Part Number
Form Factor
64GB
Industrial (-40°C to 85°C)
GLS88DQ064G3-I-BZ300
2242 (DS), B+M key
128GB
Industrial (-40°C to 85°C)
GLS88DQ128G3-I-BZ300
2242 (DS), B+M key
256GB
Industrial (-40°C to 85°C)
GLS88DQ256G3-I-BZ300
2242 (DS), B+M key
512GB
Industrial (-40°C to 85°C)
GLS88DQ512G3-I-BZ300
2242 (DS), B+M key
These specifications are subject to change without notice.
© 2019 Greenliant
GLS FS0019 Rev. 00
4
12/13/2019
S71471-01
GLS88DQ064G3 / 128G3 / 256G3 / 512G3
Industrial Temp NVMe M.2 ArmourDrive™ PX Series
Factsheet 01.000
December 2019
3.2
Board Diagrams
SIDE VIEW
TOP VIEW
BOTTOM VIEW
Note:
All dimensions are in millimeters, unless otherwise specified.
Figure 3-1: M.2 2242 ArmourDrive Dimensions
These specifications are subject to change without notice.
© 2019 Greenliant
GLS FS0019 Rev. 00
5
12/13/2019
S71471-01
GLS88DQ064G3 / 128G3 / 256G3 / 512G3
Industrial Temp NVMe M.2 ArmourDrive™ PX Series
Factsheet 01.000
December 2019
Revision History
Number
01.000
Description
Initial Release as Factsheet
Date
December 13, 2019
© 2019 Greenliant. All rights reserved.
Greenliant and the Greenliant logo are registered trademarks, and ArmourDrive is a trademark of Greenliant. All
other trademarks and registered trademarks are the property of their respective owners.
Specifications are subject to change without notice. Memory sizes denote raw storage capacity; actual usable
capacity may be less.
Greenliant makes no warranty for the use of its products other than those expressly contained in the Greenliant
Terms and Conditions of Sale.
www.greenliant.com
These specifications are subject to change without notice.
© 2019 Greenliant
GLS FS0019 Rev. 00
6
12/13/2019
S71471-01
GLS88DQ512G3-I-BZ300 价格&库存
很抱歉,暂时无法提供与“GLS88DQ512G3-I-BZ300”相匹配的价格&库存,您可以联系我们找货
免费人工找货