07:45
ATEEK
Intel® Celeron®
Processor
Submitted by:
Group # 08
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Muhammad Ateek Roll # 03-bscs-2011
·
Ammar Tahir Roll # 82-bscs-11
·
Ali Abbas Roll # 118-bscs-11
Semester: 1st
Section: C
BS (computer science)
Submitted to:
sir Ali Raza
Government College University, Lahore
Definition of Celeron processor:
Intel
Corporation’s trade name for its family of Pentium
The Celeron is constructed on the 0.25 micron Deschutes base.Clock
rates of 266, 300 and 333 MHz are supported. It is built onthe same daughterboard as
Celeron is
a brand
name given
by Intel
Corp. to a number of different x86 computer microprocessor models
targeted at budget personal
computers.
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Celeron
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Produced
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From April 1998 to
present
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Common manufacturer(s)
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Intel
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266 MHz to 3.6 GHz
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FSB speeds
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66 MHz to 1066 MT/s
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Min. feature size
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250 nm to 32 nm
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Intel® Celeron® Dual-Core Processor
Overview and introduction
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Dual-core
processor. Because many software applications for
Everyday
tasks are now designed for dual-core processors,
Users
can be more creative and productive in the home, office,
or
classroom.
In
addition, security and virus protection often means running
More
than one application at a time, and the Celeron dual core
Processor
has the power to run them simultaneously.
Based
on energy-efficient microarchitecture, the Celeron Dual-core processor delivers
superior energy-efficient Dual-core performance
Intel® Celeron® Dual-Core Processor:
Celeron
Dual-Core desktop family replaced single-core Celeron 400 series
microprocessors, that were released in the middle of 2007. First dual-core
Celerons were based on Allendale core, which, besides the second core, had
practically the same features as single-core Celeron 400 series CPUs. In August
2009 Intel introduced Wolfdale-based Celerons. These processors are
manufactured using more advanced 0.045 micron technology, have twice larger
level 2 cache than Allendale CPUs, support Virtualization technology, and
incorporate additional power-saving modes such as Deep Sleep and Deeper Sleep.
All Desktop Celeron microprocessors are packaged in 775-land FC-PGA package -
the same package that was used by all desktop Pentium Dual-Core and Core 2
Duo/Quad processors, and work in socket 775 motherboards.
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Features Benefits
Dual- Core Processor
Two
independent processor cores in one physical package
run at the same frequency; 512 KB of shared L2
cache and
800
MHz Front Side Bus.
Intel® Wide Dynamic Improves execution
Speed and efficiency, delivering more
instructions per clock cycle. Each core cans Execution complete up to four full
instructions simultaneously.
Intel® Smart Memory Access
Optimizes
the use of the data bandwidth from the memory subsystem to accelerate
out-of-order execution. A newly designed prediction mechanism reduces the time
in-flight instructions have to wait for data. New pre-fetch algorithms move
data from system memory into fast L2 cache in advance of execution. These
functions keep the pipeline full, improving instruction throughput and
performance.
Intel® Advanced Smart Cache
The
shared L2 cache is dynamically allocated to each processor core based on
workload. This efficient, dual-core-optimized implementation increases
the probability that each core can access data from fast
L2 cache, significantly reducing latency to
frequently used data and improving performance
.
Intel® Advanced Digital Media Boost
Accelerates
the execution of Streaming SIMD Extension (SSE) instructions to significantly
improve the Performance on a broad range of applications, including video, audio,
image and photo processing, Multimedia, encryption, and financial, engineering,
and scientific applications.
The
128-bit SSE instructions are now issued at a throughput rate of one per clock
cycle effectively doubling their speed of execution on a per-clock basis over
previous generation processors.
Intel® 641 Architecture
This
enhancement to Intel’s 32-bit architecture allows the processor to access
larger amounts of memory.
With
appropriate 64-bit supporting hardware and software, platforms based on an
Intel® processor supporting
Intel 64 architecture can allow the use of
extended virtual and physical memory.
Execute Disable Bit2
The
Execute Provides enhanced virus protection when deployed with a supported
operating system.
Disable
Bit allows memory to be marked as executable or non-executable, allowing the
processor to raise an error to the operating system if malicious code attempts
to run in non-executable memory. This prevents the code from infecting the
system.
Intel® Designed Thermal Intel boxed
processors
Ship with a thermal solution
specifically for this processor, designed for maximum
Solution
for Boxed thermal and acoustic performance
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