Celeron Intel Celeron or a full appeal is the official name of a type produced / family of processors from Intel Corporation, is the heart of a single processor.

These processors are sold to consumers as the economy class processor (low range) or processor at low prices. Celeron D Intel Celeron and became a good marketing to consumers as a processor of economic value in economy class. As we know, the companies Intel, and more desktop-processor product portfolio for low-end processors also produce desktop-class high-end Intel Pentium (Classic Pentium, Pentium MMX, Pentium Pro, Pentium 2, Pentium 3, Pentium 4, Pentium D, Pentium Extreme Edition, Pentium Dual Core, Core 2 Duo and Core 2 Extreme Core 2 Quad). In Indonesia, especially among computer users who are still common, often confused in the understanding that the Celeron processor. Some of them think that the Celeron is a Pentium, or even take a little run Pentium Celeron (?). As mentioned above, which is a desktop Pentium high-end, while the Celeron processor is an economy class (low range), both from the production company Intel. Pentium Celeron different. Instead of Pentium Celeron. The processor of the second characteristic is very different. If you look carefully, this feature most of the difference lies in the large size of L2 cache and FSB him. With the term “gross”, we can say that the processor is a Pentium desktop computer high-grade (more expensive), while the Celeron processor is a desktop-class low (probably less). Here are details on the Celeron processor. Compared with the office of the family of desktop Pentium processors or high-end processor options in the previous chapter. The desktop Intel Celeron for many types or classes, among others, Covington (250 nm), Mendocino (250 nm), Coppermine-128 (180 nm), Tualatin-256 (130 nm), Willamette-128 ( 180 nm), Northwood – 128 (130 nm). Even if Intel Celeron D Prescott-256 included (90 nm), Cedar Mill-512 (65 nm) and Conroe-L (65 nm). 1. Celeron processor with a code called Celeron Covington Covington password generated with 250 nm manufacturing technology, based on the Intel P6 microarchitecture (Pentium 2-based). In silikonnya chip contains 7.5 million transistors, a 32 KB L1 cache, L2 cache does not. Big 66 MHz FSB clock speed (frequency) 266 MHz and 300 MHz Covington feature compatible with the MMX technology. All models use variations of the slot in the processor core 1, which has 242 pins (242-pin Slot 1 SEC (Single Edge Contact) processor package). This processor was released April 15, 1998. Complete data are presented in the Intel Celeron box called Covington 2. Celeron Mendocino, codenamed Covington as processors, code-named Mendocino Celeron processor at 250 nm produced manufacturing technique, based on the Intel P6 microarchitecture (Pentium 2-based). The chip contains a number of transistors silikonnya, or 19 million transistors, has 32 KB of L1 cache and L2 cache integrated (on chip) 128 KB. Big 66 MHz FSB clock speed (frequency) range from 300 MHz to 533 MHz processors feature Mendocino supports MMX technology. Some models use variants of slot based processor 1, which has 242 pins (242-pin Slot 1 Sepp: Single Edge Processor Package), others use socket 370 PPGA holder. Mendocino Celeron features look better than the Celeron Covington. This processor was released August 24, 1998. Complete data are presented in the Intel Celeron Mendocino box codenamed 3. Code Name Coppermine-128 Celeron codenamed CPU Celeron Coppermine-128 produced by 180 nm manufacturing technology, based on the Intel P6 microarchitecture (Pentium 3 – Coppermine-based). In the chip silikonnya contains 28.1 million transistors, has 32 KB of L1 cache and L2 Cache 128 KB on-chip (integrated). Some processors to 66 MHz FSB and 100 MHz FSB. Clock speed (frequency) 533 MHz processors up to 1300 MHz Coppermine-128 processor functionality that supports the MMX technology and SSE is Streaming SIMD Extensions (Streaming “Single Instruction, Multiple Data Extensions). All models use variants of its socket 370 PPGA holder. The processor was first released in March 2000. The full data are presented in the Intel Celeron Code Name Coppermine-128 4. Celeron, Celeron Tualatin codenamed 256 processor codenamed Tualatin-256 is manufactured with 130 nm manufacturing technology, based on the Intel P6 microarchitecture (Pentium 3 Tualatin-based). silikonnya in chip contains 44 million transistors, a 32 KB L1 cache, 256 KB L2 cache. Big 100 MHz FSB clock frequency (frequency) processor 1000 MHz to 1400 MHz-256 Tualatin processor functionality that supports the MMX technology and SSE. All models use variants of its socket 370 PPGA holder cradle . This processor was released October 2, 2001. The full data are presented in the Intel Celeron Tualatin codename-256 5. Celeron with the code name Willamette-128 Celeron processor code named Willamette-128 produced by 180 nm manufacturing technology, based on the NetBurst micro-architecture. In silikonnya chip contains 42 million transistors, has L1 Cache 12 8 KB, 128 KB of L2 cache. Big FSB clock speed of 400MHz (frequency) processor 1700 MHz and 1800 MHz Willamette-128 CPU functionality which supports MMX, SSE and SSE2. All models use variants of the owner processor Socket 478. This processor was released May 15, 2002. The full data are presented in Intel Celeron processor codenamed Willamette-128 6. Codename Northwood Celeron Celeron-128 processor code-named Northwood-128 produced by 130 nm manufacturing technology, based on the NetBurst micro-architecture. In silikonnya chip contains 55 million transistors has L1 Cache 12 8 KB, 128 KB of L2 cache. Big FSB 400 MHz clock speed (frequency) processor 1800 MHz to 2800 MHz Northwood-128 CPU functionality which supports MMX, SSE and SSE2. All models using variants of the owner processor Socket 478. The processor was first released in September 2002. The full data are presented in the Intel Celeron Code Name Northwood-128 Pentium 4 is a seventh-generation microprocessor manufactured by Intel Corporation and was released in November 2000 entered into a Pentium III, Intel. The generation of Christian name was the introduction of the Willamette, then expanded again with the introduction of Northwood, Prescott and Cedar Mill . Name Intel Pentium 4 Northwood introductions Name Willamette Prescott, Cedar Mill Willamette Section: 217 mm2 Northwood: 131 mm2 Prescott: The production process of 112 mm2 Willamette: Northwood 180 nm: 130 nm Prescott: 90-nm Cedar Mill beach speed of 65 nm at 1, 3 GHz to 3.8 GHz Willamette transistor: 42.000.000 Northwood: 55,000,000 Prescott: 125,000,000 Additional Instructions x86, MMX, SSE, SSE2, SSE3 (Prescott and Cedar Mill “), EM64T (Prescott and Cedar Mill -), Intel XD (Execute Disable Bit for protection against the threat of buffer overflow), Intel Hyper-Threading (some processors Northwood, Prescott and Cedar Mill) and Intel virtualization technology (Vanderpool) FSB (FSB) 400 MHz, 533 MHz, 800 MHz or 1066 MHz (four times or four times) of the Willamette and Northwood pipes: 20 Prescott and Cedar Mill: 31 Cache L1 Data Cache: 8 KB (Wilamette, Northwood) 16 KB (Prescott, Cedar Mill -) instruction cache: 12 KB 256 KB of L2 cache, 512 KB or 1024 KB in the body at full speed (equivalent to the speed of the processor), with a 256 bit channels wide-type associative L2 cache eight lanes, media processor cache ECC 4GB stand 423 FC-PGA (Flip-Chip Pin Grid Array) Micro FC-PGA 478 (micro Flip-Chip Pin Grid Array) 775 LGA (Land Grid Array) more support is not (only supported by Intel Xeon) support for SDRAM: PC-133 DDR-SDRAM: PC-2100 PC-2700 PC-3200 (one or two channel) DDR SDRAM -2: PC-4200 PC-5300 PC-6400, PC-8000 RDRAM: PC-600 PC-700 PC-800 PC-1066.