History of Mikroprocessor

Starting from here:
1971: 4004 microprocessor
In 1971 came the first Intel microprocessor, 4004 microprocessor is used in machine Busicom calculator. With this discovery it opened the way to incorporate artificial intelligence in inanimate objects.
1972: 8008 microprocessor

In 1972 came the 8008 microprocessor That powered two-fold from its predecessor the 4004.


1974: 8080 microprocessor
Into the brain of a computer called the Altair, when it sold about ten thousand in one month
1978: 8086-8088 microprocessor
An important sales in computer division occurs in products for personal computers made by IBM which uses a 8088 processor Intel managed to push up the name.
1982: 286 microprocessor
Intel 286 or better known by the name of 80 286 is a first processor that can recognize and use the software that is used for the previous processor.
1985: Intel386 ™ microprocessor
Intel 386 is a processor that has an embedded dispossessor 275,000 transistors, which when compared with 4004 has a 100-fold higher than in 4004
1989: Intel486 ™ DX CPU microprocessor
Processor is the first time allows a variety of applications that had been typed in a command-command should be only a click only, and has a complex mathematical functions so that decrease the workload on the processor.

1993: Intel ® Pentium ® Processor
New generation of processors that can handle various types of data such as voice, sound, handwriting, and photographs.
1995: Intel ® Pentium ® Pro Processor
Processor designed for use on server and workstation applications, are made to process data quickly, this processor has an embedded 5.5 jt transistors.
1997: Intel ® Pentium ® II Processor
Pentium II processor that combines an Intel MMX processor designed specifically for processing video data, audio, and graphics efficiently. There are 7.5 million transistors integrated in it so the users of the PC processor can process data and use the Internet better.

1998: Intel ® Pentium II Xeon ® Processor
Processor made for the needs of the application server. Intel when it wants to fulfill its strategy to provide a unique processor for a particular market.
1999: Intel ® Celeron ® Processor
Processor Intel Celeron processor which is issued as a processor that is intended for users who do not really need a faster processor performance for users who want to build a computer system with a budget (the price) that is not too large. Intel Celeron processor has the same shape and formfactor with an Intel Pentium type, but only with the instructions a little more, its L2 cache is smaller, the speed (clock speed) is slower, and cheaper prices than Intel processors Pentium types. With this release of the Intel Celeron processor provides a processor back to a particular market.
1999: Intel ® Pentium ® III Processor
Pentium III processor is a processor that was given an additional 70 new instructions that dramatically enhance the ability of high-level imaging, three-dimensional, audio streaming, and video applications as well as voice recognition.
1999: Intel ® Pentium ® III Xeon ® Processor
Re Intel server and workstation market penetrated by issuing a series of Pentium III Xeon, but having 70 SIMD instructions. The advantages of this processor is that it can speed up the processing of information from the system bus to the processor, significantly boosting performance. The processor is also designed to integrate with other similar processor.

2000: Intel ® Pentium ® 4 Processor
Processor Intel Pentium IV is a product of the speed of the process is able to penetrate the speed up to 3.06 GHz. First time out with a 1.5GHz processor speed formafactor pin 423, after it changed Intel Pentium 4 processor formfactor a pin 478 which starts from an Intel Pentium 4 1.3 GHz speed until the latest which is currently capable of penetrating up to 3.4 GHz speed.
2001: Intel ® Xeon ® Processor
Intel Pentium 4 Xeon processor is an Intel Pentium 4 processor specifically intended to act as a server computer. This processor has a pin count more than the Intel Pentium 4 processor with memory and a larger L2 cache as well.

2001: Intel ® Itanium ® Processor
Is the first Itanium-based 64-bit processor intended for usage on servers and workstations as well as specific users. This processor is built with a structure completely different from the previous design and technology based on Intel's Explicitly Parallel Instruction Computing (EPIC).

2002: Intel ® Itanium ® 2 Processor
Itanium 2 is the second generation of the Itanium family

2003: Intel ® Pentium ® M Processor
855 chipset, and Intel ® PRO / WIRELESS 2100 are components of Intel ® Centrino ™. Intel Centrino created to meet the market demand for the existence of a computer that is easy to carry everywhere.
2004: Intel Pentium M processors 735/745/755
Equipped with a 855 chipset with new features 2MB of L2 cache and 400MHz system bus processor socket compatibility with the Pentium M series before.
2004: Intel E7520/E7320 chipsets

7320/7520 can be used for dual processor configurations with 800MHz FSB, DDR2 400 memory, PCI Express peripherals and interfaces.
2005: Intel Pentium 4 Extreme Edition 3.73GHz
A processor in the market aimed at computer users who want something more from his computer, this processor using a configuration frequency 3.73GHz, 1.066GHz FSB, EM64T, 2MB L2 cache and Hyper Threading.
2005: Intel Pentium D 820/830/840
Based 64-bit processor and are called dual core because it uses two core units, with 1MB of L2 cache configuration for each core, 800MHz FSB, and can operate at a frequency of 2.8GHz, 3.0GHz, and 3.2GHz. In this type of processor is also included support Hyper Threading.
2006: Intel Core 2 Quad Q6600
Processors for desktop and type used in people who want more power from the computer that he had had two fruit core with 2.4GHz configuration with 8MB of L2 cache (up to 4MB of which can be accessed for each core) 1.06GHz front-side bus, and thermal design power (TDP)
2006: Intel Quad-core Xeon X3210/X3220
Processor used to type the server and has two core units with each having 2:13 and 2.4GHz configurations, respectively, with 8MB of L2 cache (4MB can achieve that is accessed for each core) 1.06GHz front-side bus, and thermal design power (TDP)

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