Shuttle Barebone SX58J3 PC-SX58J3 Benutzerhandbuch
Produktcode
PC-SX58J3
Product Specification
w w w . s h u t t l e . c o m
Shuttle Computer Handels GmbH
Fritz-Strassmann-Str. 5
25337 Elmshorn | Germany
25337 Elmshorn | Germany
Tel. +49 (0) 4121-47 68 60
Fax +49 (0) 4121-47 69 00
sales@shuttle.eu
Fax +49 (0) 4121-47 69 00
sales@shuttle.eu
Page 2 | 29 April 2010
©
2009
by
S
h
ut
tl
e Com
put
er
Handel
s
G
m
bH (
G
er
m
any
).
A
ll I
n
fo
rm
at
ion s
u
b
jec
t t
o
c
h
a
nge wi
th
o
u
t pr
io
r not
ic
e.
P
ic
tur
es
f
o
r i
llu
s
tr
at
ion pur
pos
es
onl
y.
Shuttle XPC Barebone SX58J3 – Special Product Features
The new J chassis series: a clean and modern look
Shuttle has always placed great emphasis on the interior and exterior
aesthetics of the XPC, with the belief that a good blend of style and
form factor allows the Shuttle to be attractive, versatile, and work well
in almost any environment - whether the living room, bedroom, or
office. With the new J Series, Shuttle retains its trademark appearance
and adds a clean, modern look to the front of the XPC. The new J3
Series will also be the first to bear the new XPC logo, featuring a striking
"X" mark to signify the evolution of the XPC product line.
aesthetics of the XPC, with the belief that a good blend of style and
form factor allows the Shuttle to be attractive, versatile, and work well
in almost any environment - whether the living room, bedroom, or
office. With the new J Series, Shuttle retains its trademark appearance
and adds a clean, modern look to the front of the XPC. The new J3
Series will also be the first to bear the new XPC logo, featuring a striking
"X" mark to signify the evolution of the XPC product line.
Intel® Core™ i7
Processor
Intel® X58
North Bridge
Intel® ICH10R
South Bridge
PCIe X16
PCIe X16
PCIe X16
4x DDR3
(max. 16 GB)
Triple Channel +1
USB
SATA
BIOS
SATA
BIOS
QPI
Based on new Intel Nahalem architecture
The Shuttle XPC Barebone SX58J3 is based on the new core
microarchitecture, codenamed Nehalem, which brings some major
changes not only to the the processor architecture but also the system
architecture. These are most significant changes:
microarchitecture, codenamed Nehalem, which brings some major
changes not only to the the processor architecture but also the system
architecture. These are most significant changes:
• The memory controller has moved from the chipset to the processor
and features a triple channel DDR3 interface.
• The Intel® QuickPath Interconnect (QPI) replaces the legacy front
side bus between processor and chipset.
Supports Intel Core i7 processors with Socket 1366
SX58J3 features Socket 1366 and supports the Intel® Core™ i7
processors which come with a native quad-core or six-core design,
where all CPU cores sit on the same piece of silicon which share a
massive level 3 cache. In addition, each core supports Hyper-
threading which enables this processors process eight or twelve
threads simultaneously, making it even more massively parallel and
powerful than the current Core 2 Quad CPUs.
processors which come with a native quad-core or six-core design,
where all CPU cores sit on the same piece of silicon which share a
massive level 3 cache. In addition, each core supports Hyper-
threading which enables this processors process eight or twelve
threads simultaneously, making it even more massively parallel and
powerful than the current Core 2 Quad CPUs.
Fr
eque
nc
y
Co
re
1
Co
re
2
Co
re
3
Co
re
4
Co
re
1
Co
re
2
Co
re
3
Co
re
4
Turbo off
Turbo on
Built-in overclocking "Turbo" mode
Originally introduced on mobile Penryn, Turbo mode simply increases
the operating frequency of the processor if conditions are cool enough
for the CPU to run at the higher frequency. Each Nehalem can run its
four cores at up to 133MHz higher than the stock frequency (e.g.
3.33GHz in the case of the 3.2GHz 965 model), or if only one core is
active then it can run at up to 266MHz higher than stock (3.46GHz up
from 3.2GHz). Benchmarks show an increase of the overall
performance by 2% to 7% if Turbo mode is enabled in the BIOS setup.
the operating frequency of the processor if conditions are cool enough
for the CPU to run at the higher frequency. Each Nehalem can run its
four cores at up to 133MHz higher than the stock frequency (e.g.
3.33GHz in the case of the 3.2GHz 965 model), or if only one core is
active then it can run at up to 266MHz higher than stock (3.46GHz up
from 3.2GHz). Benchmarks show an increase of the overall
performance by 2% to 7% if Turbo mode is enabled in the BIOS setup.