HP ProLiant DL388p ISS Technology Focus, Number 14
HP ProLiant DL388p Manual
 |
View all HP ProLiant DL388p manuals
Add to My Manuals
Save this manual to your list of manuals |
HP ProLiant DL388p manual content summary:
- HP ProLiant DL388p | ISS Technology Focus, Number 14 - Page 1
for ProLiant servers" at http://h20000.www2.hp.com/bc/docs/support/SupportManual/c01580706/c01580706.pdf. NAND flash memory Solid-state technology used in consumer products where cost is a primary factor. SLC-based SSDs provide the highest performance and endurance for enterprise server storage. - HP ProLiant DL388p | ISS Technology Focus, Number 14 - Page 2
support All HP memory technology. Like other storage devices, I/O accelerators present themselves as standard block level storage, allowing applications to access them like other storage volumes. However, an I/O Accelerator is both a controller and storage device, with its own specialized driver - HP ProLiant DL388p | ISS Technology Focus, Number 14 - Page 3
DC Common Slot Power Supplies with 90% efficiency for our ProLiant DL360 G7, DL380 G6 and G7, and DL385 G6 and G7 servers. We also offer selfcooled 2250 W -48 V DC power supplies with 90% efficiency specifically designed for the HP BladeSystem c7000 Enclosure. Each c7000 enclosure can contain up to - HP ProLiant DL388p | ISS Technology Focus, Number 14 - Page 4
using Microsoft® Windows® PowerShell Intel® Xeon® four-core processors based on the Intel Microarchitecture Nehalem reintroduced support for Hyper-Threading (HT) Technology, also known as simultaneous multi-threading. HT, which is enabled by default, allows the OS to schedule two instruction - HP ProLiant DL388p | ISS Technology Focus, Number 14 - Page 5
on data center networks » Optimizing GPU-based application performance for the HP for the HP ProLiant SL390s G7 server » ISS Technology Communications » Past Article Index » Subscribe/Unsubscribe » Follow us on Twitter HP respects your privacy. If you would like to discontinue receiving these
-
1 -
2 -
3 -
4 -
5
 |
 |
ISS Technology Focus
Number 14
In this issue:
»
Choose the right solid-
state storage solution
»
Efficiency of DC vs. AC
power supplies
»
Tip: Check Hyper-
Threading status
remotely using
Microsoft® Windows®
PowerShell
»
Recent publications
ISS TechComm iTunes
New posts are now
available on Apple
iTunes, either check your
iTunes page or go to
ours:
iTunes page
.
Follow us:
Like us:
Choose the right solid-state storage solution
This article describes the features and applications of HP enterprise class solid-state
drives (SSDs) and IO accelerators. A subsequent article will detail the differences in these
solid-state storage devices based on performance, latency, lifetime writes, and expected
life at 100% writes. HP solid-state storage devices are based on NAND flash memory,
which is the predominant solid-state storage technology. Before describing the features
and applications of these devices, we must explain a few important characteristics of
NAND flash memory. If you are unfamiliar with NAND architecture, read the technology
brief “Solid state storage technology for ProLiant servers”
at
.
NAND flash memory
Solid-state devices based on NAND technology have a finite amount of writes and can be
„worn out‟ ove
r time. The life expectancy (endurance) of a SSD or IO accelerator is
dependent on the NAND technology, write workloads, and the capacity of the device.
There are two primary types of NAND flash technology, each with different endurance,
performance, densities, and costs.
•
Single-level cell (SLC) technology works by storing one of two different charge states in
each cell, representing a single bit of information.
•
Multi-level cell (MLC) technology stores two or more bits in one cell. This allows each cell
increase storage density by 100% or more. Two-bit MLC stores one of four different charg
states in a cell. Three-bit MLC stores one of eight different charge states in a cell.
As shown in Figure 1-1, SLC NAND has higher endurance, retention, and write
performance than MLC NAND. MLC technology is the dominant NAND technology used in
consumer products where cost is a primary factor. SLC-based SSDs provide the highest
performance and endurance for enterprise server storage. MLC-based SSDs provide a
lower cost per GB solution but have lower write performance and write endurance. MLC-
based SSDs are a good option for read-intensive application environments with limited
write requirements.