Sandisk Lightning Mixed-Use 200GB 2.5" SAS SDLB6HM-200G-00 产品宣传页
产品代码
SDLB6HM-200G-00
The challenges for predictable performance and increased storage capacity are ever present in
today’s data centers. Managers are tasked to satisfy demand without new IT capital investment
or the cost of increasing floor space. Enterprise SSDs provide substantial performance and
footprint benefits over traditional HDDs. This enables IT service providers to replace hundreds
of HDDs with a single SSD creating a more efficient and reliable network while reducing capital
expenditures, space and energy consumption. Lightning SSDs rank among the most competi-
tive solutions in the industry, offering unmatched speed with a history of successful implemen-
tations into existing IT infrastructures.
today’s data centers. Managers are tasked to satisfy demand without new IT capital investment
or the cost of increasing floor space. Enterprise SSDs provide substantial performance and
footprint benefits over traditional HDDs. This enables IT service providers to replace hundreds
of HDDs with a single SSD creating a more efficient and reliable network while reducing capital
expenditures, space and energy consumption. Lightning SSDs rank among the most competi-
tive solutions in the industry, offering unmatched speed with a history of successful implemen-
tations into existing IT infrastructures.
Since not all data centers are created equal, the key to achieving increased data and system
performance is in understanding the specific application workload. Lightning Mixed-Use 6Gb/s
(SAS) SSDs offer solid I/O cost-to-performance benefits where quick access to data is vital.
Available in 200GB, 400GB and 800GB capacities, Lightning Mixed-Use SSDs provide an
I/O pattern designed predominately for application workloads such as
performance is in understanding the specific application workload. Lightning Mixed-Use 6Gb/s
(SAS) SSDs offer solid I/O cost-to-performance benefits where quick access to data is vital.
Available in 200GB, 400GB and 800GB capacities, Lightning Mixed-Use SSDs provide an
I/O pattern designed predominately for application workloads such as
On-line Transaction
Processing (OLTP) Databases, Infrastructure, E-mail/Messaging, Virtual Desktop, and
Collaboration, with a typical workload comprised of a 70/30 read/write mix.
Collaboration, with a typical workload comprised of a 70/30 read/write mix.
Lightning SSDs deliver the industry’s leading I/O sustained performance with the most predict-
able performance profile across a wide range of workloads. Lightning Mixed-Use SSDs are
designed with an advanced innovative controller that uses a parallel processing architecture
to deliver proven and tested superior reliability for storage and server environments. Lightning
SSDs have been specifically designed for demanding, mission-critical, 24/7 applications.
able performance profile across a wide range of workloads. Lightning Mixed-Use SSDs are
designed with an advanced innovative controller that uses a parallel processing architecture
to deliver proven and tested superior reliability for storage and server environments. Lightning
SSDs have been specifically designed for demanding, mission-critical, 24/7 applications.
Lightning Mixed-Use 6Gb/s SAS Solid State Drives (SSDs)
Performance/IOPS
LB 206M
LB 406M
LB 806M
Data Throughput (Read)
1
385 MB/s
385 MB/s
450 MB/s
Total IOPS (Read)
100,000 IOPS
100,000 IOPS
100,000 IOPS
Random Read/Write 4KB – 70/30 (single port)
22,000 IOPS
22,000 IOPS
28,000 IOPS
Random Read/Write 8KB – 70/30 (single port)
17,000 IOPS
17,000 IOPS
21,000 IOPS
Lightning
®
Mixed-Use
6Gb/s SAS Enterprise Solid State Drives
LIGHTNING
MIXED-USE
6Gb/s SAS ENTERPRISE
SOLID STATE DRIVES
2.5-inch Models
4
LB 806M (800GB)
4
LB 406M (400GB)
4
LB 206M (200GB)
Lightning SSD Benefits
4
High Performance
4
Superior Reliability
4
Predictable Performance
APPLICATION
WORKLOADS
4
On-Line Transaction
Processing (OLTP) Databases
4
Financial Transactions
4
E-Commerce
4
Data Warehousing
4
Infrastructure
4
E-Mail/Messaging
4
Virtual Desktop
4
Collaboration
Vital data transfer
within milliseconds