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Threading,
or simultaneous multi-
threading (SMT), in a computer
environment, refers to multitasking
or multiprocessing of instructions
from a single program, that is, more
than one stream of information being
processed at the same time. This
can only happen with applications
that are designed to operate in this
type of environment.
Hyper-
threading, in the generic sense,
makes a single Central Processing
Unit (CPU ) function similarly to a
dual-processor system. Intel®
Hyper-Threading Technology (Intel®
HT Technology), provides parallel
operation at the thread level on each
processor so that multi-threaded
software can run more efficiently.
Intel® Hyper-Threading Technology
can run on laptops, desktops,
servers, and workstation networks,
as long as the computer system
requirements are met.
The computer
system requirements have four
parts. It requires Intel® Hyper-
Thread Technology-enables
chipsets and system BIOS , an
operating system that is either
enabled or optimized for HT
Technology, and a processor
supporting Hyper-Thread
Technology as well.
Hyper-
Threading Technology can be
combined with Intel® Turbo Boost
Technology for even faster
processor due to the ability to
respond and adapt to the workload in
different ways. This added
technology will allow the processor
to work harder under a greater
workload and conserve power when
demands are less, while staying
within its set operating parameters.
The processors that support Intel®
Hyper-Threading Technology
include 32-bit, 64-bit and Itanium®
64-bit processors. The cache size
ranges from 512 kb to 24 MB, while
threads range from two to 16. The
processors have between one and
eight cores, but this type of
microprocessor architecture is
claimed to be more efficient than
simply adding more cores.
The benefits of Intel® Hyper-
Threading Technology include an
expected boost in performance with
demanding software. Gamers who
use high-end games can expect to
benefit. Multimedia professionals
who are performing audio, photo or
video editing and creating or editing
images as well as running
background applications, like a mail
client or virus protection, can expect
to find high performance across the
board, as can those who are playing
music in the background while they
work. The change in architecture
has led to new courses and training
materials for programmers to help
them understand how to take
advantage of Hyper-Threading
Technology.
I hope you found this article helpful!
Thank you
Keep visiting TechnoTeen for similar tech articles
Do share this post and leave your comments and queries in the comment section below!
Threading,
or simultaneous multi-
threading (SMT), in a computer
environment, refers to multitasking
or multiprocessing of instructions
from a single program, that is, more
than one stream of information being
processed at the same time. This
can only happen with applications
that are designed to operate in this
type of environment.
Hyper-
threading, in the generic sense,
makes a single Central Processing
Unit (CPU ) function similarly to a
dual-processor system. Intel®
Hyper-Threading Technology (Intel®
HT Technology), provides parallel
operation at the thread level on each
processor so that multi-threaded
software can run more efficiently.
Intel® Hyper-Threading Technology
can run on laptops, desktops,
servers, and workstation networks,
as long as the computer system
requirements are met.
The computer
system requirements have four
parts. It requires Intel® Hyper-
Thread Technology-enables
chipsets and system BIOS , an
operating system that is either
enabled or optimized for HT
Technology, and a processor
supporting Hyper-Thread
Technology as well.
Hyper-
Threading Technology can be
combined with Intel® Turbo Boost
Technology for even faster
processor due to the ability to
respond and adapt to the workload in
different ways. This added
technology will allow the processor
to work harder under a greater
workload and conserve power when
demands are less, while staying
within its set operating parameters.
The processors that support Intel®
Hyper-Threading Technology
include 32-bit, 64-bit and Itanium®
64-bit processors. The cache size
ranges from 512 kb to 24 MB, while
threads range from two to 16. The
processors have between one and
eight cores, but this type of
microprocessor architecture is
claimed to be more efficient than
simply adding more cores.
The benefits of Intel® Hyper-
Threading Technology include an
expected boost in performance with
demanding software. Gamers who
use high-end games can expect to
benefit. Multimedia professionals
who are performing audio, photo or
video editing and creating or editing
images as well as running
background applications, like a mail
client or virus protection, can expect
to find high performance across the
board, as can those who are playing
music in the background while they
work. The change in architecture
has led to new courses and training
materials for programmers to help
them understand how to take
advantage of Hyper-Threading
Technology.
I hope you found this article helpful!
Thank you
Keep visiting TechnoTeen for similar tech articles
Do share this post and leave your comments and queries in the comment section below!
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