Pentium iii xeon 550: Hewlett-Packard (HP) D8531-69001 — 550Mhz 2MB Intel Pentium III Xeon CPU Processor

A Quick Overview

The Pentium(r) III 550 carries on the same tradition as the original Pentium(r) III processors. Based on the same 0.25 micron core as the Pentium(r) III 500, the only differences the Pentium(r) III 550 holds over previous releases is the fact that it runs at a fixed 5.5x clock multiplier and makes use of 512KB of L2 cache that is capable of running at 275MHz. Coincidentally, most Pentium(r) III 500 owners will vouch for their processor’s L2 cache being able to run at above their 250MHz rating, as many 500 owners are running at 560MHz with the L2 cache operating at a hefty 280MHz (the L2 cache operates at 1/2 the clock speed).

The Pentium(r) III is also a complete implementation of Intel’s new Organic Land Grid Array packaging process, a deviation from the standard Plastic Land Grid Array packaging which is much larger in comparison.	Click to Enlarge
The OLGA package of the Pentium(r) III can also be seen, in limited quantities, on newer Pentium(r) II processors, such as some Pentium(r) II 450 units.

The 550, like all other Pentium(r) III processors, is a Slot-1 solution and is equipped with 32kb of L1 cache integrated into the processor’s die. The card itself is home to both the 550 chip itself as well as two 256KB L2 cache chips making up the processors 512KB L2 cache that operates, as briefly mentioned before, at half of the clock frequency.

The retail heatsink/fan the processor ships with make contact with only the chip itself, and leave the L2 cache chips essentially «uncooled» during normal operation, possibly to deter overclocking and remarking by making sure that the L2 cache works fine at its rated frequency/temperature with as little room for tolerance as possible. It is possible to purchase an OEM Pentium(r) III 550 chip that doesn’t ship with the retail heatsink/fan and use a third party cooling solution that does take care of cooling the L2 cache chips if you’re that worried.

Like all Intel processors now, the 550 is clock-locked meaning that the only clock multiplier the processor can accept is the pre-set 5. 5x value (100MHz x 5.5 = 550MHz). The Pentium(r) III 550 still operates at the same 2.0v core voltage setting that all processors since the Pentium(r) II 333 have been running at, and generally requires the use of an active cooler (heatsink/fan combo) for proper operation. The only requirements for compatibility are that the motherboard supports the Pentium(r) III processor, and the 100MHz FSB. With the exception of Intel’s own motherboards, the Pentium(r) III 550 worked fine on all BX motherboards AnandTech tested it on. Most older motherboards without a BIOS update detected the processor as a Pentium(r) II running at 550MHz, and after flashing the BIOS with the latest updates the BIOS reported the correctly identified Pentium III running at 550MHz.

If you happen to own an Intel SE440BX you’ll be out of luck as the 550 isn’t supported by the motherboard at all. The only Intel boards that do support the 550 as of now are the SR440BX and the newer SE440BX2 which is basically the older SE440BX with a BIOS update to support the 550. It would make very little sense for Intel not to release a BIOS update for SE440BX users in order to enable Pentium(r) III 550 support, however on their web site they seem to only support the 450 and 500 parts on the original SE440BX.

Web Performance

There have been numerous claims made by Intel that the Pentium(r) III will «improve» your web browsing experience. While that may not be true for most of the sites you visit on a daily basis, here’s a small albeit working example of the CPU dependency a single web page can bring with it.

Pentium(r)III systems will perform the rotation of this Java cube faster than older processors.

Intel does make these cute little JavaScript programs available for download if you do happen to want to use them on your own page, however it’ll probably be a while before you see stuff like this become «mainstream» in the web arena. The day when we all have to stop joking about how you don’t need a Pentium(r) III 550 to surf the web. ..scary, no?

Processor ID Number: Danger or Paranoia?
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  Summary of Contents for Intel SL3QA — Pentium III 550 MHz Processor

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End of the Golden Age.

History of Intel Pentium III processors. Part 2 / Habr

This is the second part of the article — the history of the Pentium III turned out to be too full of events and it is impossible to fit them into one article without making it overly heavy. Let’s remember what happened in the first part:

• We compared the late Pentium II (Deschutes) and the early Pentium III (Katmai) and found almost no differences.
• We were surprised by the performance of the built-in video i810.
• Wiped away a mean tear, remembering the bitter fate of i820.
• They searched for copper in copper mines and did not find it.
• Considered the whole range of chipsets from other manufacturers.
• Not for the last time i440BX was commended.
• We found a compromise in i815.

And now we are waiting for new adventures! Reade set Go!

The Great Race: Goal is GHz

Until 1999, none of the remaining competitors could offer a processor that could match the performance of Intel solutions. The closest rivals were K6-2 and K6-III from AMD, showing good results in office applications and partly in games (thanks to 3DNow! instructions). However, they lagged noticeably behind in applications that actively use the FPU — primarily programs for working with graphics and CAD / CAM systems.

It wasn’t until 1999 that AMD managed to come up with an answer, and the answer was as serious as ever. His name was K7 Athlon. Clouds eclipsed the sun and a storm began — Athlon was really fast both in integer operations and in floating point operations, and AMD managed to increase the frequencies quite quickly (including due to a rather tricky trick — with an increase in the core frequency, the cache frequency, and it was external, like Katmai, did not grow, freezing at 350 MHz, as well as due to a slightly longer pipeline). The frequency race began, its goal was a psychologically important mark — 1 GHz.

For AMD, the victory was vital — it would finally allow to get rid of the status of an eternally catching up company. Losing it would not have killed her immediately, but it would have greatly reduced the ambitions of the company for a long time. Intel put much less at stake, but victory was important for its reputation — Intel would have remained invincible. The result is a little predictable — both companies joyfully got involved in the race. AMD favored luck, Intel’s position was complicated by the on-chip cache, which was initially faster than the external cache in K7, but tightly tied to the core frequency.

The fierce race ended on March 6, 2000 with the release of the 1 GHz AMD K7 Athlon. Intel introduced the gigahertz Pentium III two days later, on March 8, 2000. In June and July, the last Coppermine models came out — 1100 (100 MHz bus) and 1133 (133 MHz bus). Both were sold in limited quantities and were discontinued following the recall of the first 1133 MHz model due to reported instability. AMD, meanwhile, continued to increase frequencies.

On November 20, 2000, Intel introduced the processor formerly known as P7 — Pentium 4 (Willamette core) with a frequency of 1400 and 1500 MHz. On this day, the «Golden Age» of Intel ended. The race of frequencies continued and lasted for several more years.

Stillborn Timna and other Pentium adventures

In 1999, Intel announced the development of an integrated solution for low-cost computers and set-top boxes (now called SoC — system on a chip) codenamed Timna. A memory controller (of course, RDRAM) had to be integrated on the same chip with the processor core. In many ways, the fate of the project was decided by the high cost of RDRAM memory and a mistake in the implementation of the MTH-S memory translator, designed to make it possible to work with conventional SDRAM. And it would be difficult to make an inexpensive solution with an additional chip. One way or another, the project was quietly curtailed in the fall of 2000.

Another interesting version of the Pentium III was a custom model for use in the first generation Microsoft Xbox consoles. It was exactly a Pentium III with a 133 MHz bus, but with a cache cut down to 128 KBytes. Unlike the Celeron based on the Coppermine-128 core, it almost retained the cache speed parameters (in the previous Celerons the cache associativity was halved) — only the latency was 1 more clock cycle. The set-top box, released in 2001, was created on a special chipset from nVidia, built around the NV20A video core (a variation of the GeForce 3 Ti with the addition of some features that appeared later in the GeForce FX series) with support for DDR memory. At the same time, the processor and the video chip used a common memory (the UMA architecture was probably implemented).

An interesting fact is that microcircuits were used in a package more typical of video memory. The memory worked at a frequency of 200 MHz (400 MHz effective frequency), the bandwidth with a 128-bit memory bus was 6.4 GB / s — twice as fast as the top solution for Pentium 4 at that time.

The Celeron brand was not forgotten either. Since March 2000, they have been produced on the Coppermine-128 core, which features a halved (to 128 KB) L2 cache with more modest performance capabilities (associativity has been halved from 8 to 4). Starting from the 533-600 MHz range, by the end of the year Celeron had exhausted the possibilities of the 66 MHz bus, stopping at 766 MHz.

Already in January, cheaper processors switched to a 100 MHz bus, starting with the 800 model. is not rare.

Life after death

In 2001, when the Pentium 4 was already selling with might and main (remaining obscenely expensive with RDRAM and obscenely slow and expensive with SDRAM), Intel released the third iteration of Pentium III — «Tualatin». Intel at that time needed a mid-range solution, and Coppermine was already quite far behind in performance from mid-range Athlon models (and sometimes Duron!), and the 130 nm process technology needed to be tested on something simpler than the upcoming Northwood (first update Pentium 4). In addition to «die shrink», many subtle but very important changes were made — the transition prediction mechanism was improved, prefetch appeared in the cache. The result is interesting.

First of all, three episodes came out at once. The regular one with 256 KB cache and 133 MHz bus and frequencies from 1.13 to 1.4 GHz simply scaled the performance level of its predecessor to new height frequencies, but lost the ability to work in dual-processor systems. The Pentium III-S version was positioned as an option for inexpensive and energy-efficient (a pair of Xeon «Foster» with Netburst architecture and RDRAM memory was too hot for 1U cases of that time) two-processor servers and already had 512 KB of cache at 133 MHz bus.

Some sources mention that such processors were also sold under the Xeon brand, but the author could not find any mention of this either in the Intel catalogs, or at least a photo of the processor in the Socket 370 package with the Xeon inscription. The third option was Celeron (again received the prefix «A» to the designation in the «duplicate» versions) — with a frequency of 1000 to 1400 MHz with a 256 KB cache and a 100 MHz bus.

Celerons of this generation were very fond of overclockers — without much effort, the Celeron 1200A wound up on a 133 MHz bus and worked stably at 1600 MHz. Processors with 512 KB of cache overclocked somewhat worse, but this was no longer so important — even a Celeron at 1.6 GHz easily outperformed a higher-frequency full-fledged Pentium 4 1.8 GHz with the same cache size. The cheap Celeron 1200A became the bestseller of 2001-2002, and only the release of the Pentium 4 on the Northwood core with 512 KB of cache restored the status quo, leading to the end of the Celeron Tualatin and Pentium 4 Willamette careers.

Not differing from the Coppermine in its connector, it still required new boards — it was “almost” not suitable for upgrading old systems. The purpose of some of the pins has changed, mainly related to determining the supply voltage (VID), and the signal levels of the processor bus have also decreased from 1.5 (AGTL +) to 1.25 V (AGTL, yes, the early version had a plus). A little earlier than Tualatin, an intermediate version of Coppermine-T appeared, capable of working with both variants of the system bus, but supporting dual-processor mode only with AGTL mode.

Tualatin, Coppermine-T and a small part of the later Coppermine (at 1000 MHz) were equipped with an FCPGA package with a heat sink plate on top of the crystal — this practice has been preserved to this day, only mobile and some Intel embedded processors are not equipped with a hitspreader.

The Intel 830 «Almador» chipset with support for 1 GB SDRAM was planned to work with Tualatin, but it was released only in mobile versions. As a result, it was supported by updated versions of previous chipsets — Intel 810E2 and 815EPT/ET, VIA 694T and Apollo Pro 266T (as well as integrated PLE133T), SiS630T. The Socket 370 platform and P6 architecture processors were already starting to leave the market.

Something else was surprising. Although the Socket 370 boards designed for Coppermine could not work with Tualatin, the classic Intel 440BX slot boards worked perfectly with it — at first, the adapter modification technique was developed by enthusiasts, and then some companies started producing specially adapted adapters. The owner of the board had only to modify the BIOS firmware with a special utility that adds support for microcodes of new processors. For socket boards, PowerLeap also created an adapter to work with Tualatin, but it was released in a small edition and cost much more than an adapter for slot boards.

In general, platform hybridization for P6 processors is widespread. At the time of the relevance of the platform, adapters were mainly created to install the most powerful processor possible in an old board. Reverse modernization is now in vogue — the first processor of the family, the Pentium Pro, has become a cult among the participants in the retrocomputer movement, but it is very difficult to find the original board with Socket 8, and the memory speed on the most common boards with 440FX is very much inferior to newer chipsets, supporting SDRAM. One of the enthusiasts carried out reverse engineering and started small-scale production of adapters for installing Pentium Pro in slot boards. He also developed BIOS upgrade technology to support these processors.

The Pentium article mentioned that Socket 7 was the last platform that united all the major x86 processor manufacturers. But it was not the last one for which there was an alternative to Intel. Since 2002, VIA has been producing the VIA C3 (VIA Cyrix III) processor, designed for installation in Socket 370. It was positioned as an alternative to Celeron for even less money and with less heat dissipation. The performance of the alternative processor, however, turned out to be so depressing that it could not stand comparison even with the Celeron Mendocino and found its niche in ultra-cheap laptops and embedded solutions.

Tualatin is represented by the ServerGhost Rotoscope P6/4 workstation equipped with a 1266 MHz Pentium III-S processor (512 KB cache). Used motherboard Intel D815EEA2 with built-in video, sound and network card. The equipment includes 512 MB of RAM and a 20 GB hard drive (IDE). An nVidia GeForce 2MX video card with 32 MB of video memory is additionally installed. The computer runs under the operating system eComStation 1.0 (further development of OS/2).

Parallel worlds: moving babies

The world of laptops at that time was remarkably calm. The first Pentium III machines used the same design and the same motherboards as the previous Pentium II generation. These were the IBM ThinkPad 600X, Compaq Armada M700/E500, Dell Latitude CPi/CPx and many others. The world of laptops passed Intel 810 and even more so Intel 820. 440BX lasted almost longer than on desktops — up to the latest Coppermine — Mobile Pentium III 1000, laptops used a 100 MHz bus.

Intel 815 went almost unnoticed and was quite rare, from first-tier brands it was used by Dell in the Latitude C800 model and its home counterpart from the Inspiron and Sony series in large VAIO models — mainly to save on a separate video card, both financially and energy.

The search for forms was coming to an end. At this time, the division of full-sized laptops (subnotes separated much earlier) into «thin and light» and «mobile workstations/desktop replacements») was born. IBM has released a unique hybrid laptop, tablet and paper (!) Notepad — IBM ThinkPad Transnote. Sony — continued its ultra-thin 505 series.

Growth of matrix sizes for some time stopped at 15.1 inches (larger sizes were the lot of single models for a long time), screen quality and resolutions began to grow. Top models could display up to 1600×1200 pixels at 15 inches and up to 1400×1050 at 14 inches. The first IPS screens with wide viewing angles and accurate color reproduction appeared.

Starting with the 600 MHz model, the Mobile Pentium III introduced a technology that radically influenced the further development of energy-efficient processors, which eventually spread to the server and desktop markets. We are talking about Intel SpeedStep, a technology that allows you to dynamically change the frequency of the processor depending on the load and the requirements for balancing performance and battery life by changing the internal frequency multiplier. The minimum value was 5.0 (although the mobile version of the Pentium III started at 400 MHz), and the higher the nominal frequency, the greater the gain in efficiency when switching to power saving mode.

At first, the operating modes were regulated by a special utility, the default mode of which was adaptive, but it was possible to fix the maximum or minimum performance by force or depending on whether the network adapter was connected. For the most mobile, even at the crossroads of generations, a single-chip “chipset” Intel 440MX, unique in its family, appeared, combining the north and south bridges in one chip, but losing AGP support. It existed in two versions — for 66 and 100 MHz bus.

If in the desktop segment Tualatin occupied a relatively budget position, then in laptops it, now called the Mobile Pentium III-M, was the flagship — Willamette was too hot for laptops, and the time for the mobile Northwood had not yet come. The mobile version of Tualatin was similar to the server version — 512 KB cache and 133 MHz bus (super-efficient versions could also be produced for 100 MHz bus). The frequencies started from 700/733 MHz (ULV — ultra-economical version) to 1333 MHz (just a mobile processor). There were also mobile Celerons, which were distinguished by 256 KB of cache and the lack of SpeedStep support.

With the release of Tualatin, only laptops received the new chipset from Intel — 830MP/MG (regular and integrated versions). At the same time, many manufacturers at that time preferred to use discrete video solutions. The new chipset has become more economical, including at the cost of losing support for the «old» 1.5 V AGTL + bus and a little faster — due to improved integrated video (for those few who used it) and support for more memory, which was already relevant in mobile workstations like the IBM ThinkPad A30p.

^Source

The notebook direction is most developed in the Digital Vintage collection. Examples of Pentium III systems include the classic IBM ThinkPad 600X and the fully charged IBM ThinkPad A22p, both based on the 440BX. Tualatin is played by the compact IBM ThinkPad X22 based on the Intel 830MP chipset.

IBM ThinkPad 600X

• 13″ 1024×768 TFT screen
• Pentium III 500 MHz
• 320 MB RAM
• 40 GB HDD
• 4 MB NeoMagic MagicGraph 256AV
• DVD-ROM
• Windows 2000 Professional

IBM ThinkPad A22p

• 15″ 1600×1200 TFT screen
• Pentium III 1000 MHz
• 512 MB RAM
• 32 GB HDD (5400 rpm)
• 16 MB ATi Mobility M3 Analog I/O
• DVD-ROM, FDD, Ethernet
• Windows 98 SE

IBM ThinkPad X22

• 12″ 1024×768 TFT screen
• Pentium III-M 800 MHz
• 640 MB RAM
• 20 GB HDD
• 8 MB ATi Mobility Radeon
• UltraBase Docking Station with DVD-ROM, FDD and Advanced Speakers
• OS/2 Warp 4. 5 / Windows 2000 Professional

Parallel Worlds: Rise of the Dinosaurs

Perhaps the most interesting thing happened in the world of servers. Here, to this day, one can observe the widest variety of systems of all levels and sizes. And this diversity was laid precisely in the Pentium III era. From Velociraptors (let’s continue the theme of dinosaurs) — miniature «appliances» on ultra-low-voltage Celerons and 440MX (only 300 MHz and 128 KBytes of cache, and already a server!) drool no less than pictures of naked girls!).

Of course, the middle niche has developed the most — dual-processor Pentium III and Pentium III Xeon, let’s call them «Triceratops». There were also specialized file servers with a separate I / O processor — the spitting image of «Diplodocus». Let’s take a closer look at this entire « Jurassic Park Server Period» thing.

Let’s start with the little ones. Just at that time, Intel released a series of concepts — reference designs of compact servers for use as mail machines, firewalls, web servers (remember, it was still Web 1. 0, most of the content was static). One processor, one disk, some memory. Often even without a video card — why is it? Sun is a good role model!

Budget systems for small businesses were single-processor and did not fundamentally differ from desktops (IPMI will not come into use soon). It was during the days of the Pentium III that Intel released the first MicroATX server motherboard, the Intel S815EBM1.

But the ball at the bottom of the market is ruled not by the i815, but by the ubiquitous 440BX! Most of the single and dual processor entry-level servers were built on its basis, although it was also found in more serious technology. The 440GX did not give up its positions for a long time either — and since the older Xeon models remained faithful to the 100 MHz bus for a long time, there was no need to rush to replace it.

Pentium III Xeon in its first iteration «Tanner» differed from its ancestor no more than Katmai from Deschutes. The frequencies were 500 or 550 MHz, traditionally three versions were released with different cache sizes — 512 KB, 1 or 2 MB. The second iteration, Cascades, received a lot more changes. These processors are in two main lines. With a 133 MHz bus and 256 KB cache, Cascades Jr. did not fundamentally differ from Coppermine and could only work in dual-processor configurations (hello, future Xeon DP!).

But there were only two «real» Cascades, like the Sith — 700 or 900 MHz with a 100 MHz bus. Moreover, the older one was available only with 2 MB of cache, and the 700 MHz processor lost only the version with 512 KB of cache. Like Coppermine, the cache has now moved to a common die with the processor core, significantly increasing its area. Such processors could officially work in multiprocessor systems (4 processors per processor bus).

VRM has moved into the processor case. The processors were produced in two versions, differing in supply voltage — 2.8 V and 5/12 V — in the first case, it was necessary to implement part of the voltage converter on the board or as a separate module, in the second — the entire converter was located in the cartridge on the processor board.

While many 440GX and 450NX based boards could run 100 MHz Cascades, the 133 MHz version required a new chipset. This was the Intel 840, a workstation chipset that works with both Pentium III and Pentium III Xeon. It received support for AGP 4x and a dual-channel RDRAM controller — despite the fact that even a single-channel one more than covered the needs of the processor bus. The answer is still the same — hopes for the direct operation of video accelerators with system memory via AGP, which did not come true in the end.

450NX was already seriously outdated. Lack of SDRAM support affected both performance and memory expansion options. He never received a direct replacement. Instead, Champion chipsets have become even more widespread. By then, RCC had changed its name to ServerWorks, and Champion 3.0 was marketed as ServerSet III. On it, Intel released a whole line of boards of different levels. In fact, it replaced the 450NX in most off-the-shelf systems, and later took the place of the 440BX/GX/840 in two-processor servers, including the lion’s share of dual-processor boards and servers with Tualatin processors.

In late 1997, Intel announced the acquisition of Corollary, a company famous for its «very multiprocessor» servers. Shortly thereafter, Intel announced the development of a new Profusion chipset with support for up to 8 Intel Pentium III Xeon processors and 32 GB of SDRAM. It was the first Intel chipset that could handle two processor buses with four processors each (the GTL+ bus could handle a maximum of 4 processors). Little is known about this chipset, and not as many systems were released on it as expected. The most popular was, as expected, the platform from Intel itself — SRPL8, on the basis of which many integrators and local manufacturers built servers.

^Source
An interesting solution that has not gained wide acceptance outside of a small number of heavy file server models is the I2O Intelligent Input/Output initiative. While RAID controllers with a dedicated checksum processor are already in widespread use, I2O took the idea even further by using a dedicated processor to handle all I/O and offloading server CPUs from redundant operations. For example, HP Lh4 managed with a pair of Pentium IIIs, and Intel 9 was in charge of servicing I / O operations.60 by 66 MHz, equipped with its own memory up to 16 MB.

As already mentioned, in 2001 there were workstations and case (pedestal) servers with new generation Intel Xeon «Foster» processors based on the NetBurst microarchitecture. However, they were too hot for use in the increasingly popular thin 1U servers. As a result, the Pentium III-S was released for thin servers and low-cost high-performance systems — a Tualatin server version with 512 KB of cache, which was quite popular.

Foster could not replace the Pentium III Xeon in multiprocessor systems either — twice the frequency did not compensate for the small (only 256 KB) cache and the lack of support for more than two processor modes. It was more of a workstation replacement for the younger Cascades. Cascades with 2 MB cache and Profusion/ServerSet III remained in the lead until the appearance of the Intel Xeon MP on the same Foster core, but with added L3 cache (1 or 2 MB) and full support for multiprocessor modes.

Perhaps the most exclusive exhibit on today’s topic is Intel 440MX Network Appliance (Reference Design) «Salt River» . The all-in-one compact network server features a 300MHz Celeron ULV processor, 128MB of RAM and a 10GB hard drive (IDE). The board has two network interfaces, a connector for mezzanine expansion cards. The case has a two-line screen and a line of LEDs controlled via the I ² C interface. A detailed review of this server is in our previous article.

Heavy artillery is represented by the IBM Netfinity 7100 application server supporting up to 4 Intel Xeon 700/900 MHz processors (one 700/1M installed). The server is based on the full version of the ServerWorks ServerSet III-HE chipset and supports up to 16 GB of RAM. All key components are duplicated in the server or support quick replacement. More details about it will be written in a separate article-review.

The radiolok handed over by Khabrovchanin is in the process of restoration (Many thanks to him!) HP NetServer Lh4 is a real «diplodocus» with a dedicated I / O processor Intel 960. The system is technically sound and awaits completion and correction of cosmetic defects. At home, the server is affectionately nicknamed «Packard Bedside Table»

In the hands of a collector

Pentium III generation systems are among the most popular among collectors and enthusiasts of retrocomputing and retrogaming today. More than once or twice I have heard «Pentium III is an icon and the most respected processor in our field.» On the one hand, everyone can afford to assemble a system with a Pentium III — standard processor models are relatively inexpensive, as are boards based on common chipsets — VIA 694, Intel 815.

440BX stands a little apart — good boards on it are now in price. On the other hand, top-end or simply rare motherboards and ready-made systems can cost a lot of money and are not easy to find. First of all, it concerns boards based on Intel 820 and very rare Intel 840, which were not accepted in their time.

Yes, Pentium Pro is revered even more, but only a few saw it at the time of its relevance, and now it is the lot of the most stubborn and persistent. And the Pentium III is a processor that has been used by many in one form or another. The second factor — Pentium III allows you to get really good performance like in Windows 9x and Windows NT/2000.

You can play retro games, try old serious software, or experiment with Linux/Unix systems. It was for the Pentium III that the first «designer» boards began to appear — Asus Black Pearl, Abit Casper. On the one hand, computers have become almost similar to modern ones, on the other hand, many manufacturers have not yet been afraid to experiment.

Everything that has been said about the Pentium III refers to the P6 architecture processors in general. These were wonderful products from a wonderful era and deserve to be forever remembered by users and enthusiasts.

Instead of a conclusion: will the golden age come again?

You cannot enter the same river twice and the blessed time will not return. There will be many more years of prosperity, competition, and sometimes outright resting on our laurels. This will be repeated many times — history develops in a spiral. For many years now, as the development of computer technology has been reduced to a simple improvement in the characteristics of products, and the «golden age» is not so much an era of prosperity as a calm before a great storm of change.

A time when we can see both great diversity and relative maturity in technology. And that it was he, we usually find out already in retrospect. But enough philosophy, we are waiting for the continuation of the «series». The era of NetBurst is next. See you soon!

Intel Pentium III processors with Coppermine core

Intel has significantly expanded its line of Pentium III processors. So far, there have been six different P-III processors with the Katmai core: four with 100 MHz system bus (450, 500, 550 and 600Mhz) and two with 133Mhz system bus (533 and 600MHz). The latter are called 533B and 600B (the index «B» just means the bus frequency 133MHz). All of these processors are S. E.C.C.2 packaged and designed to be installed in the Slot1 motherboard slot. They are made using 0.25 micron technology, the core supply voltage is 2V.

The main differences between the new processors

The processors with the Coppermine core are made using 0.18-micron technology and have a core voltage of 1.6V. Thanks to this, now the L2 cache is located on the processor chip (similar to the way it is done in Celeron processors) and operates at the core frequency, unlike the P-III Katmai processors, in which the cache is located on the cartridge board and operates at half the core frequency . However, Coppermine has halved its cache memory to 256Kb versus 512Kb for Katmai.

New processors have increased address space. If processors with Katmai core can address up to 4Gb of memory, then Coppermine — up to 64Gb.

With cache now on-chip, the new processors come in two flavors: S.E.C.C.2 and FC-PGA. The FC-PGA package is similar to the PPGA package of the Celeron processor and is also designed for installation in the Socket 370 socket, but it has slight pinout differences, so not all motherboards with Socket 370 support new processors. In addition, Slot1/Socket 370 adapters for Coppermine also need special ones that take into account the features of FC-PGA.

Intel uses the «E» suffix for Coppermine processors, such as Pentium III 600E (Coppermine with 100MHz FSB) or Pentium III 600EB (Coppermine with 133MHz FSB). The index applies only to processors with a frequency of up to 600MHz inclusive, since processors with a higher frequency Katmai core are not released.

The following table lists the Coppermine processors currently available:

Processor core frequency	500E 550E	600E	650 700	533EB 600EB 667 733
Processor package type	FC-PGA	S.E.C.C.2	S. E.C.C.2	S.E.C.C.2
System bus frequency	100MHz	100MHz	100MHz	133MHz

Coppermine Core Performance

We have tested the performance of Coppermine and Katmai processors at 500Mhz.

Test computer configuration:

Processor: P-III 500 Katmai vs P-III 500E Coppermine
ASUS P3C2000 motherboard with Intel 820 Camino 9 chipset0021
128Mb PC100 SDRAM
6.4Gb Fujitsu HDD
Video card ASUS V6800 GeForce DDR SGRAM 32Mb
Windows 98 4.10.1998

Test results:

Conclusions

The results of the first test show that the speed of the processor with memory has increased significantly (by 11%). The faster L2 cache makes itself felt. Therefore, the use of the new processor for tasks such as working with databases, compiling programs, server applications, is very reasonable and will lead to a significant reduction in time costs.

The second test reflects the speed of arithmetic operations. Here the growth is not so significant, but still very noticeable, so we can safely recommend new processors for tasks that require intensive calculations.

The rest of the tests are dedicated to gaming applications. The revolution did not happen, but it became faster, which is already pleasant, especially considering that new processors in the FC-PGA package are cheaper than their opponents. By the way, pay attention to a curious fact. At 1280 x 9 resolution60, both processors show the same performance, since the video card is the speed limiter. But at a resolution of 640 by 480, the processor becomes the bottleneck, and here Coppermine, although not by much, is ahead.

What motherboards are suitable for the new processors

based on the new Intel 820 Camino chipset (recommended), for example, ASUS P3C2000. The same board will be an ideal choice for Coppermine processors with a 133MHz FSB.

For processors in FC-PGA package, the same motherboards can be used, however, this requires a special adapter Slot1 / Socket 370, which is available from us.

You can view ASUSTek motherboard compatibility chart with Coppermine processors
here.

TIM Computers Laboratory

01/28/2000

Characteristics of the Intel Pentium III 550 processor / Overclockers.ua

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970 BEPhenom II X4 965 BEPhenom II X4 960T BEPhenom II X4 955 BEPhenom II X4 945Phenom II X4 940Phenom II X4 925Phenom II X4 920Phenom II X4 IIphenom 910 905ePhenom II X4 900ePhenom II X4 850Phenom II X4 840Phenom II X4 840TPhenom II X4 830Phenom II X4 820Phenom II X4 810Phenom II X4 805Phenom II X3 740 BEPhenom II X3 720Phenom II X3 715 BEPhenom II X3 710Phenom II X3 705ePhenom II X3 700ePhenom II X2 570 BEPhenom II X2 565 BEPhenom II X2 560 BEPhenom II X2 555 BEPhenom II X2 550 BEPhenom II X2 550Phenom II X2 545Phenom II X2 521Phenom II X2 511Phenom X4 9950 BEPhenom X4 9850 BEPhenom X4 9850Phenom X4 9750BPhenom X4 9750Phenom X4 9650Phenom X4 9600 Black EditionPhenom X4 9600BPhenom X4 9600Phenom X4 9550Phenom X4 9500Phenom X4 9450ePhenom X4 9350ePhenom X4 9150ePhenom X4 9100ePhenom X3 8850Phenom X3 8750 BEPhenom X3 8750BPhenom X3 8750Phenom X3 8650Phenom X3 8600BPhenom X3 8600Phenom X3 8550Phenom X3 8450ePhenom X3 8450Phenom X3 8400Phenom X3 8250eAthlon X2 BE-2400Athlon X2 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1300athlon 1200 (FSB266) Athlon 1200 (FSB200) Ath26 (FSB200) ATHLON (FSB200) ATHLON (FSB200) ATHLON (FSB200) Athlon (FSB200) Athlon (FSB200) Athlon (FSB200) Athlon) Athlon 950Athlon 900Athlon 850Athlon 800Athlon 750Athlon 700Duron 1800Duron 1600Duron 1400Duron 1300Duron 1200Duron 1100Duron 1000Duron 950 (Morgan)Duron 950 (Spitfire)Duron 900 (Morgan)Duron 900 (Spitfire)Duron 850Duron 800Duron 750Duron 700Duron 650Duron 600Athlon 1000 (Orion)Athlon 1000 (Thunderbird) Athlon 950 (Pluto) Athlon 900 (Thunderbird) Athlon 850 (Pluto) Athlon 850 (Thundebird) Athlon 800 (Pluto) Athlon 800 (Thunderbird) Athlon 750 (Pluto) Athlon 750 (Thunderbird) Athlon 700 (Pluto) Athlon 650 (Pluto) Athlon 650 (Argon) Athlon 650 (Thunderbird) Athlon 600 (Pluto) Athlon 600 (Argon) Athlon 550 (Pluto) -2 533 (CXT)K6-2 500 (CXT)K6-2 475 (CXT)K6-2 450 (CXT)K6-2 400 (CXT)K6-2 380 (CXT)K6-2 366 (CXT)K6- 2 350 (CXT)K6-2 350K6-2 333 (CXT)K6-2 333 (CXT)K6-2 333K6-2 300 (CXT)K6-2 300 (CXT)K6-2 300K6-2 266K6 300K6 266K6 233K6 200K6 166K5 PR166K5 PR150K5 PR133K5 PR120K5 PR100K5 PR90K5 PR75IntelPentium Gold G7400Celeron G6900Core i9-11900KCore i9-11900KFCore i9-11900Core i9-11900FCore i9-11900TCore i7-11700KCore i7-11700KFCore i7-11700Core i7-11700FCore i7-11700TCore i5-11600KCore i5-11600KFCore i5-11600Core i5-11600TCore i5-11500Core i5-11500TCore i5-11400Core i5-11400FCore i5-11400TCore i3-10325Core i3-10305Core i3-10305TCore i3-10105Core i3-10105FCore i3-10105TPentium Gold G6605Pentium Gold G6505Pentium Gold G6505TPentium Gold G6405Pentium Gold G6405TCore i9-10900KCore i9-10900KFCore i9-10900Core i9-10900FCore i7-10700KCore i7-10700KFCore i7-10700Core i7-10700FCore i5-10600KCore i5-10600KFCore i5-10600Core i5-10500Core i5-10400Core i5-10400FCore i3-10320Core i3-10300Core i3-10100Pentium Gold G6600Pentium Gold G6500Pentium Gold G6400Celeron G5925Celeron G5920Celeron G5905Celeron G5900Core i9-9900KCore i7-9700KCore i5-9600KCore i7-8700KCore i7-8700Core i5-8600KCore i5-8400Core i3-8350KCore i3-8100Pentium Gold G5400Core i7-7700KCore i7-7700Core i7-7700TCore i5-7600KCore i5- 7600Core i5-7600TCore i5-7500Core i5-7500TCore i5-7400Core i5-7400TCore i3-7350KCore i3-7320Core i3-7300Core i3-7300TCore i3-7100Core i3-7100TCore i7-6950XCore i7-6700KCore i7-6700Core i7-6700TCore i5-6600KCore i5-6600Core i5-6600TCore i5-6500Core i5-6500TCore i5-6400Core i5-6400TCore i3-6300Core i3-6300TCore i3-6100Core i3-6100TCore i7-5960XCore i7-5775CCore i5 -5675CCore i7-4960XCore i7-4930KCore i7-4820KCore i7-4790KCore i5-4690KCore i7-4770KCore i7-4770Core i5-4670KCore i5-4670Core i5-4570Core i7-3970XCore i7-3960XCore i7-3930KCore i7-3820Core i7-2700KCore i7-2600KCore i7-2600Core i7-2600SCore i5-3330Core i5-2500KCore i5-2500Core i5-2500SCore i5-2500TCore i5-2405SCore i5-2400Core i5-2400SCore i5-2390TCore i5-2320Core i5-2310Core i5-2300Core i3-2130Core i3-2125Core i3-2120Core i3-2105Core i3-2100Core i3-2100TPentium G860Pentium G850Pentium G840Pentium G632Pentium G630Pentium G622Pentium G620Celeron G540Celeron G530Celeron G440Core i7-990XCore i7-980Core i7 980XCore i7-975 ExtremeCore i7 970Core i7 965 ExtremeCore i7 960Core i7 950Core i7 940Core i7 930Core i7 920Core i7-880Core i7-875KCore i7-870Core i7-860SCore i7-860Core i5-760Core i5-750SCore i5-750Core i5-680Core i5-670Core i5-661Core i5- 660Core i5-655KCore i5-650Core i3-560Core i3-550Core i3-540Core i3-530Pentium G6960Pentium G6951Pentium G6950Atom D525Atom D510Atom D425Atom D410Atom 330Atom 230Core 2 Extreme QX9775Core 2 Extreme QX9770Core 2 Extreme QX9650Core 2 Quad Q9650Core 2 Quad Q9550sCore 2 Quad Q9550Core 2 Quad Q9505Core 2 Quad Q9450Core 2 Quad Q9400sCore 2 Quad Q9400Core 2 Quad Q9300Core 2 Quad Q8400sCore 2 Quad Q8400Core 2 Quad Q8300Core 2 Quad Q8200sCore 2 Quad Q8200Core 2 Duo E8600Core 2 Duo E8500Core 2 Duo E8400Core 2 Duo E8300Core 2 Duo E8200Core 2 Duo E8190Core 2 Duo E7600Core 2 Duo E7500Core 2 Duo E7400Core 2 Duo E7300Core 2 Duo E7200Core 2 Extreme QX6850Core 2 Extreme OX6800Core 2 Extreme QX6700Core 2 Quad Q6700Core 2 Quad Q6600Core 2 Extreme X6900Core 2 Extreme X6800Core 2 Duo E6850Core 2 Duo E6800Core 2 Duo E6750Core 2 Duo E6700Core 2 Duo E6600Core 2 Duo E6550Core 2 Duo E6540Core 2 Duo E6420Core 2 Duo E6400 (Allendale)Core 2 Duo E6400 (Conroe 2M)Core 2 Duo E6320Core 2 Duo E6300 ( Allendale)Core 2 Duo E6300 (Conroe 2M)Core 2 Duo E4700Core 2 Duo E4600Core 2 Duo E4500Core 2 Duo E4400Core 2 Duo E4300Pentium Dual-Core E6800Pentium Dual-Core E6700Pentium Dual-Core E6600Pentium Dual-Core E6500Pentium Dual-Core E6300Pentium Dual-Core E5800Pentium Dual-Core E5700Pentium Dual-Core E5500Pentium Dual-Core E5400Pentium Dual-Core E5300Pentium Dual-Core E5200Pentium Dual-Core E2220Pentium Dual-Core E2210Pentium Dual-Core E2200Pentium Dual-Core E2180Pentium Dual-Core E2160Pentium Dual-Core E21 4065 XEPentium D 960Pentium D 955 XEPentium D 950Pentium D 945Pentium D 940Pentium D 935Pentium D 930Pentium D 925Pentium D 920Pentium D 915Pentium D 840 XEPentium D 840Pentium D 830Pentium D 820Pentium D 805Pentium 4 EE 3. 73Pentium 4 EE 3.46Pentium 4 EE 3.4Pentium 4 EE 3.2Pentium 4 672Pentium 4 671Pentium 4 670Pentium 4 662Pentium 4 661Pentium 4 660Pentium 4 651Pentium 4 650Pentium 4 641Pentium 4 640Pentium 4 631Pentium 4 630Pentium 4 620Pentium 4 571Pentium 4 570JPentium 4 561Pentium 4 560JPentium 4 560Pentium 4 551Pentium 4 550JPentium 4 550Pentium 4 541Pentium 4 540JPentium 4 540Pentium 4 531Pentium 4 530JPentium 4 530Pentium 4 521Pentium 4 520JPentium 4 520Pentium 4 519KPentium 4 519JPentium 4 517Pentium 4 516Pentium 4 515JPentium 4 515Pentium 4 511Pentium 4 506Pentium 4 505JPentium 4 505Pentium 4 3.8FPentium 4 3.6FPentium 4 3.4FPentium 4 3.2FPentium 4 3.4EPentium 4 EE 3.4Pentium 4 3.4Pentium 4 3.2EPentium 4 EE 3.2Pentium 4 3.2 Pentium 4 3.06Pentium 4 3.0EPentium 4 3.0Pentium 4 2.8EPentium 4 2.8APentium 4 2.8CPentium 4 2.8Pentium 4 2.8Pentium 4 2.67Pentium 4 2.66Pentium 4 2.6CPentium 4 2.6Pentium 4 2.53Pentium 4 2.5Pentium 4 2.4EPentium 4 2.4APentium 4 2.4CPentium 4 2.4BPentium 4 2.4Pentium 4 2.26APentium 4 2. 26Pentium 4 2.2Pentium 4 2.0APentium 4 2.0Pentium 4 1.9Pentium 4 1.8 APentium 4 1.8 Pentium 4 1.7Pentium 4 1.6 APentium 4 1.6Pentium 4 1.5Pentium 4 1.4Pentium 4 2.0Pentium 4 1.9Pentium 4 1.8Pentium 4 1.7Pentium 4 1.6Pentium 4 1.5Pentium 4 1.4Pentium 4 1.3Pentium III-S 1400Pentium III 1400Pentium III 1333Pentium III-S 1266Pentium III 1200Pentium III-S 1133Pentium III 1133APentium III 1000BPentium III 1133Pentium III 1100Pentium III 1000EBPentium III 1000Pentium III 933Pentium III 900Pentium III 866Pentium III 850Pentium III 800EBPentium III 800Pentium III 750Pentium III 733Pentium III 700Pentium III 667Pentium III 650Pentium III 600EBPentium III 600EPentium III 550EPentium III 533EBPentium III 500EPentium III 1000BPentium III 1000Pentium III 933Pentium III 866Pentium III 850Pentium III 800EBPentium III 800Pentium III 750Pentium III 733Pentium III 700Pentium III 667Pentium III 650Pentium III 600BPentium III 600Pentium III 600EBPentium III 600EPentium III 550Pentium III 550EPentium III 533BPentium III 533EBPentium III 500Pentium III 450Pentium II Overdrive 333Pentium II Overdrive 300Pentium II 450Pentium II 400Pentium II 350Pentium II 333Pentium II 300APentium II 300Pentium II 266APentium II 266Pentium II 233Pentium Overdrive MMX 200Pentium Overdrive MMX 180Pentium Overdrive MMX 166Pentium Overdrive MMX 150Pentium Overdrive 166Pentium Overdrive 150Pentium Overdrive 125Pentium Overdrive 133Pentium Overdrive 120Pentium Pro 200MHz (1024 KB)Pentium Pro 200MHz (512 KB)Pentium Pro 200MHz (256 KB)Pentium Pro 180MHzPentium Pro 166MHzPentium Pro 150MHzPentium 233 MMXPentium 200 MMXPentium 166 MMXPentium 200Pentium 166Pentium 150Pentium 133Pentium 120Pentium 100Pentium 90Pentium 75Pentium 66Pentium 60Celeron G1101Celeron E3500Celeron E3400Celeron E3300Celeron E3200Celeron E1600Celeron E1500Celeron E1400Celeron E1200Celeron 450Celeron 445Celeron 440Celeron 430Celeron 420Celeron 220Celeron D 365Celeron D 360Celeron D 356Celeron D 352Celeron D 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  AMDryzen 9 7900xryzen 7 7700xryZen 5 75950XRyzen 9 5900XRyzen 7 5800X3DRyzen 7 5800XRyzen 7 5700XRyzen 7 5700GRyzen 5 5600XRyzen 5 5600Ryzen 5 5600GRyzen 5 5500Ryzen 7 PRO 4750GRyzen 7 PRO 4750GERyzen 5 PRO 4650GRyzen 5 PRO 4650GERyzen 3 PRO 4350GRyzen 3 PRO 4350GERyzen Threadripper 3960XRyzen 9 3950XRyzen 9 3900XTRyzen 9 3900XRyzen 7 3800XTRyzen 7 3800XRyzen 7 3700XRyzen 5 3600XTRyzen 5 3600XRyzen 5 3600Ryzen 5 3400GRyzen 3 3300XRyzen 3 3200GRyzen 3 3100Athlon 3000GRyzen 7 2700XRyzen 7 2700Ryzen 5 2600XRyzen 5 2600Ryzen 5 2500XRyzen 5 2400GRyzen 5 2400GERyzen 3 2300XRyzen 3 2200GRyzen 3 2200GEAthlon 240GEAthlon 220GEAthlon 200GERyzen 7 1800XRyzen 7 1700XRyzen 7 1700Ryzen 5 1600XRyzen 5 1600 AFRyzen 5 1600Ryzen 5 1500XRyzen 5 1400Ryzen 3 1300XRyzen 3 1200 AFRyzen 3 1200FX-8350FX-8320FX-8150FX-8120FX-8100FX-6350FX-6100FX-4170FX-4100A10-7870KAthlon 5350A10-7850KAthlon X4 860KAthlon X4 760KAthlon X4 750KAthlon X4 740Athlon X2 340A10-5800KA10-5700A8 -5600KA8-5500A6-5400KA4-5300A8-3850A8-3800Athlon II X4 631A6-3650A6-3600A6-3500 A4-3400A4-3300Phenom II X6 1100TPhenom II X6 1090T BEPhenom II X6 1075TPhenom II X6 1065TPhenom II X6 1055TPhenom II X6 1045TPhenom II X6 1035TAthlon II X4 650Athlon II X4 645Athlon II X4 640Athlon II X4 635Athlon II X4 630Athlon II X4 620eAthlon II X4 620Athlon II X4 615eAthlon II X4 615Athlon II X4 610eAthlon II X4 605eAthlon II X4 605Athlon II X4 600eAthlon II X3 460Athlon II X3 455Athlon II X3 450Athlon II X3 445Athlon II X3 440Athlon II X3 435Athlon II X3 425eAthlon II X3 425Athlon II X3 420Athlon II X3 420eAthlon II X3 415eAthlon II X3 410Athlon II X3 405eAthlon II X3 400Athlon II X2 265Athlon II X2 270uAthlon II X2 260Athlon II X2 255Athlon II X2 250eAthlon II X2 250Athlon II X2 245eAthlon II X2 245Athlon II X2 240eAthlon II X2 240Athlon II X2 235eAthlon II X2 220Athlon II X2 215Athlon II X2 210eAthlon II 160uSempron 180Sempron 150Sempron 145Sempron 140Sempron 130Athlon X2 7850Athlon X2 7750Athlon X2 7550Athlon X2 7450Athlon X2 6500 BEPhenom II X4 980 BEPhenom II X4 975 BEPhenom II X4 970 BE (Zosma)Phenom II X4 970 BEPhenom II X4 965 BEPhenom II X4 960T BEPhenom II X4 955 BEPhenom II X4 945Phenom II X4 940Phenom II X4 925Phenom II X4 920Phenom II X4 IIphenom 910 905ePhenom II X4 900ePhenom II X4 850Phenom II X4 840Phenom II X4 840TPhenom II X4 830Phenom II X4 820Phenom II X4 810Phenom II X4 805Phenom II X3 740 BEPhenom II X3 720Phenom II X3 715 BEPhenom II X3 710Phenom II X3 705ePhenom II X3 700ePhenom II X2 570 BEPhenom II X2 565 BEPhenom II X2 560 BEPhenom II X2 555 BEPhenom II X2 550 BEPhenom II X2 550Phenom II X2 545Phenom II X2 521Phenom II X2 511Phenom X4 9950 BEPhenom X4 9850 BEPhenom X4 9850Phenom X4 9750BPhenom X4 9750Phenom X4 9650Phenom X4 9600 Black EditionPhenom X4 9600BPhenom X4 9600Phenom X4 9550Phenom X4 9500Phenom X4 9450ePhenom X4 9350ePhenom X4 9150ePhenom X4 9100ePhenom X3 8850Phenom X3 8750 BEPhenom X3 8750BPhenom X3 8750Phenom X3 8650Phenom X3 8600BPhenom X3 8600Phenom X3 8550Phenom X3 8450ePhenom X3 8450Phenom X3 8400Phenom X3 8250eAthlon X2 BE-2400Athlon X2 BE-2350Athlon X2 BE-2300Athlon 64 FX-74Athlon 64 FX-72Athlon 64 FX-70Athlon 64 FX-62Athlon 64 FX-60Athlon 64 X2 6400+ Black EditionAthlon 64 X2 6400+ Athlon 64 X2 6000+ (Brisbane) Athlon 64 X2 6000+ (Windsor) Athlon 64 X2 5800+ (Brisbane) Athlon 64 X2 5600+ (Brisbane) X2 5400+ (Windsor)Athlon 64 X2 5200+ (Brisbane)Athlon 64 X2 5200+ (Windsor)Athlon 64 X2 5000+ Black EditionAthlon 64 X2 5000+ (Brisbane)Athlon 64 X2 5000+ (Windsor 2MB)Athlon 64 X2 5000+ (Windsor 1MB)Athlon 64 X2 4850eAthlon 64 X2 4800+ (Bris bane)Athlon 64 X2 4800+ (Windsor 2MB)Athlon 64 X2 4600+Athlon 64 X2 4450eAthlon 64 X2 4400+ (Brisbane) Windsor 1MB)Athlon 64 X2 4050eAthlon 64 X2 4000+ (Brisbane) Athlon 64 X2 4000+ (Windsor 2MB) Athlon 64 X2 3800+Athlon 64 X2 3600+ (Brisbane) Athlon 64 X2 4600+ (Toledo)Athlon 64 X2 4600+ (Manchester)Athlon 64 X2 4400+Athlon 64 X2 4200+ (Toledo)Athlon 64 X2 4200+ (Manchester) (Manchester)Athlon 64 LE-1660Athlon 64 LE-1640Athlon 64 LE-1620Athlon 64 LE-1600Athlon 64 4000+Athlon 64 3800+Athlon 64 3500+Athlon 64 3200+Athlon 64 3Athlon 64 FX-557 -55Athlon 64 FX-53Athlon 64 FX-51Athlon 64 4200+Athlon 64 4000+ (San Diego)Athlon 64 4000+ (Clawhammer)Athlon 64 3800+ (Venice)Athlon 64 3800+ (Newcastle)Athlon 64 3700 +Athlon 64 (Manchester)Athlon 64 3500+ (Venice)Athlon 64 3500+ (San Diego)At hlon 64 3500+ (Winchester)Athlon 64 3500+ (Newcastle)Athlon 64 3500+ (Clawhammer)Athlon 64 3200+ (Manchester)Athlon 64 3200+ (Venice)Athlon 64 3200+ (Winchester)Athlon 64 3000+ (Venice)Athlon 64 3000+ (Winchester)Athlon 64 3700+Athlon 64 3400+ (Newcastle)Athlon 64 3400+ (Clawhammer)Athlon 64 3200+ (Venice)Athlon 64 3200+ (Newcastle)Athlon 64 3200+ (Clawhammer)Athlon 64 3000+ ( Venice) Athlon 64 3000+ (Newcastle) Athlon 64 3000+ (Clawhammer) Athlon 64 2800+ (Newcastle) Athlon 64 2800+ (Clawhammer) +Sempron 3000+ (Palermo)Sempron 3400+Sempron 3300+Sempron 3100+ (Palermo)Sempron 3100+ (Paris)Sempron 3000+ (Palermo)Sempron 3000+ (Paris)Sempron 2800+Sempron 2600+ (Winchester)Sernpron 2600+ ( Palermo) Sempron 2500+Sempron 3000+Sempron 2800+ (Thorton) )Athlon XP 3200+ (FSB333)Athlon XP 3100+Athlon XP 3000+ (FSB400)Athlon XP 3000+ (FSB333)Athlon XP 2900+Athlon XP 2800+ (FSB333)Athlon XP 2800+ (FSB266)Athlon XP 2800+ (FSB333)Athlon XP 2700+Athlon XP 2600+ (FSB333)Athlon XP 2600+ (FSB333)Athlon XP 2600+ (FSB333)Athlon XP 2600+ (FSB266)Athlon XP 2600+ (FSB266)Athlon XP 2600+ (FSB266)Athlon XP 2500+ (FSB333)Athlon XP 2500+ (FSB266)Athlon XP 2400+ (Thorton)Athlon XP 2400+ (Thoroughbred)Athlon XP 2200 + (Thorton)Athlon XP 2200+ (Thorubbred)Athlon XP 2100+ (Thoroughbred)Athlon XP 2100+ (Palomino)Athlon XP 2000+ (Thorton)Athlon XP 2000+ (Thorubbred)Athlon XP 2000+ (Palomino)Athlon XP 1900+ (Thoroughbred)Athlon XP 1900+ (Palomino)Athlon XP 1800+ (Thoroughbred)Athlon XP 1800+ (Palomino)Athlon XP 1700+ (Thoroughbred)Athlon XP 1700+ (Palomino)Athlon XP 1600+ (Thoroughbred)Athlon XP 1600 + (Palomino) Athlon XP 1500+ Athlon 1400 (FSB266) ATHLON 1400 (FSB200) Athlon 1333athlon 1300athlon 1200 (FSB266) Athlon 1200 (FSB200) Ath26 (FSB200) ATHLON (FSB200) ATHLON (FSB200) ATHLON (FSB200) Athlon (FSB200) Athlon (FSB200) Athlon (FSB200) Athlon) Athlon 950Athlon 900Athlon 850Athlon 800Athlon 750Athlon 700Duron 1800Duron 1600Duron 1400Duron 1300Duron 1200Duron 1100Duron 1000Duron 950 (Morgan)Duron 950 (Spitfire)Duron 900 (Morgan)Duron 900 (Spitfire)Duron 850Duron 800Duron 750Duron 700Duron 650Duron 600Athlon 1000 (Orion)Athlon 1000 (Thunderbird) Athlon 950 (Pluto) Athlon 900 (Thunderbird) Athlon 850 (Pluto) Athlon 850 (Thundebird) Athlon 800 (Pluto) Athlon 800 (Thunderbird) Athlon 750 (Pluto) Athlon 750 (Thunderbird) Athlon 700 (Pluto) Athlon 650 (Pluto) Athlon 650 (Argon) Athlon 650 (Thunderbird) Athlon 600 (Pluto) Athlon 600 (Argon) Athlon 550 (Pluto) -2 533 (CXT)K6-2 500 (CXT)K6-2 475 (CXT)K6-2 450 (CXT)K6-2 400 (CXT)K6-2 380 (CXT)K6-2 366 (CXT)K6- 2 350 (CXT)K6-2 350K6-2 333 (CXT)K6-2 333 (CXT)K6-2 333K6-2 300 (CXT)K6-2 300 (CXT)K6-2 300K6-2 266K6 300K6 266K6 233K6 200K6 166K5 PR166K5 PR150K5 PR133K5 PR120K5 PR100K5 PR90K5 PR75IntelPentium Gold G7400Celeron G6900Core i9-11900KCore i9-11900KFCore i9-11900Core i9-11900FCore i9-11900TCore i7-11700KCore i7-11700KFCore i7-11700Core i7-11700FCore i7-11700TCore i5-11600KCore i5-11600KFCore i5-11600Core i5-11600TCore i5-11500Core i5-11500TCore i5-11400Core i5-11400FCore i5-11400TCore i3-10325Core i3-10305Core i3-10305TCore i3-10105Core i3-10105FCore i3-10105TPentium Gold G6605Pentium Gold G6505Pentium Gold G6505TPentium Gold G6405Pentium Gold G6405TCore i9-10900KCore i9-10900KFCore i9-10900Core i9-10900FCore i7-10700KCore i7-10700KFCore i7-10700Core i7-10700FCore i5-10600KCore i5-10600KFCore i5-10600Core i5-10500Core i5-10400Core i5-10400FCore i3-10320Core i3-10300Core i3-10100Pentium Gold G6600Pentium Gold G6500Pentium Gold G6400Celeron G5925Celeron G5920Celeron G5905Celeron G5900Core i9-9900KCore i7-9700KCore i5-9600KCore i7-8700KCore i7-8700Core i5-8600KCore i5-8400Core i3-8350KCore i3-8100Pentium Gold G5400Core i7-7700KCore i7-7700Core i7-7700TCore i5-7600KCore i5- 7600Core i5-7600TCore i5-7500Core i5-7500TCore i5-7400Core i5-7400TCore i3-7350KCore i3-7320Core i3-7300Core i3-7300TCore i3-7100Core i3-7100TCore i7-6950XCore i7-6700KCore i7-6700Core i7-6700TCore i5-6600KCore i5-6600Core i5-6600TCore i5-6500Core i5-6500TCore i5-6400Core i5-6400TCore i3-6300Core i3-6300TCore i3-6100Core i3-6100TCore i7-5960XCore i7-5775CCore i5 -5675CCore i7-4960XCore i7-4930KCore i7-4820KCore i7-4790KCore i5-4690KCore i7-4770KCore i7-4770Core i5-4670KCore i5-4670Core i5-4570Core i7-3970XCore i7-3960XCore i7-3930KCore i7-3820Core i7-2700KCore i7-2600KCore i7-2600Core i7-2600SCore i5-3330Core i5-2500KCore i5-2500Core i5-2500SCore i5-2500TCore i5-2405SCore i5-2400Core i5-2400SCore i5-2390TCore i5-2320Core i5-2310Core i5-2300Core i3-2130Core i3-2125Core i3-2120Core i3-2105Core i3-2100Core i3-2100TPentium G860Pentium G850Pentium G840Pentium G632Pentium G630Pentium G622Pentium G620Celeron G540Celeron G530Celeron G440Core i7-990XCore i7-980Core i7 980XCore i7-975 ExtremeCore i7 970Core i7 965 ExtremeCore i7 960Core i7 950Core i7 940Core i7 930Core i7 920Core i7-880Core i7-875KCore i7-870Core i7-860SCore i7-860Core i5-760Core i5-750SCore i5-750Core i5-680Core i5-670Core i5-661Core i5- 660Core i5-655KCore i5-650Core i3-560Core i3-550Core i3-540Core i3-530Pentium G6960Pentium G6951Pentium G6950Atom D525Atom D510Atom D425Atom D410Atom 330Atom 230Core 2 Extreme QX9775Core 2 Extreme QX9770Core 2 Extreme QX9650Core 2 Quad Q9650Core 2 Quad Q9550sCore 2 Quad Q9550Core 2 Quad Q9505Core 2 Quad Q9450Core 2 Quad Q9400sCore 2 Quad Q9400Core 2 Quad Q9300Core 2 Quad Q8400sCore 2 Quad Q8400Core 2 Quad Q8300Core 2 Quad Q8200sCore 2 Quad Q8200Core 2 Duo E8600Core 2 Duo E8500Core 2 Duo E8400Core 2 Duo E8300Core 2 Duo E8200Core 2 Duo E8190Core 2 Duo E7600Core 2 Duo E7500Core 2 Duo E7400Core 2 Duo E7300Core 2 Duo E7200Core 2 Extreme QX6850Core 2 Extreme OX6800Core 2 Extreme QX6700Core 2 Quad Q6700Core 2 Quad Q6600Core 2 Extreme X6900Core 2 Extreme X6800Core 2 Duo E6850Core 2 Duo E6800Core 2 Duo E6750Core 2 Duo E6700Core 2 Duo E6600Core 2 Duo E6550Core 2 Duo E6540Core 2 Duo E6420Core 2 Duo E6400 (Allendale)Core 2 Duo E6400 (Conroe 2M)Core 2 Duo E6320Core 2 Duo E6300 ( Allendale)Core 2 Duo E6300 (Conroe 2M)Core 2 Duo E4700Core 2 Duo E4600Core 2 Duo E4500Core 2 Duo E4400Core 2 Duo E4300Pentium Dual-Core E6800Pentium Dual-Core E6700Pentium Dual-Core E6600Pentium Dual-Core E6500Pentium Dual-Core E6300Pentium Dual-Core E5800Pentium Dual-Core E5700Pentium Dual-Core E5500Pentium Dual-Core E5400Pentium Dual-Core E5300Pentium Dual-Core E5200Pentium Dual-Core E2220Pentium Dual-Core E2210Pentium Dual-Core E2200Pentium Dual-Core E2180Pentium Dual-Core E2160Pentium Dual-Core E21 4065 XEPentium D 960Pentium D 955 XEPentium D 950Pentium D 945Pentium D 940Pentium D 935Pentium D 930Pentium D 925Pentium D 920Pentium D 915Pentium D 840 XEPentium D 840Pentium D 830Pentium D 820Pentium D 805Pentium 4 EE 3. 73Pentium 4 EE 3.46Pentium 4 EE 3.4Pentium 4 EE 3.2Pentium 4 672Pentium 4 671Pentium 4 670Pentium 4 662Pentium 4 661Pentium 4 660Pentium 4 651Pentium 4 650Pentium 4 641Pentium 4 640Pentium 4 631Pentium 4 630Pentium 4 620Pentium 4 571Pentium 4 570JPentium 4 561Pentium 4 560JPentium 4 560Pentium 4 551Pentium 4 550JPentium 4 550Pentium 4 541Pentium 4 540JPentium 4 540Pentium 4 531Pentium 4 530JPentium 4 530Pentium 4 521Pentium 4 520JPentium 4 520Pentium 4 519KPentium 4 519JPentium 4 517Pentium 4 516Pentium 4 515JPentium 4 515Pentium 4 511Pentium 4 506Pentium 4 505JPentium 4 505Pentium 4 3.8FPentium 4 3.6FPentium 4 3.4FPentium 4 3.2FPentium 4 3.4EPentium 4 EE 3.4Pentium 4 3.4Pentium 4 3.2EPentium 4 EE 3.2Pentium 4 3.2 Pentium 4 3.06Pentium 4 3.0EPentium 4 3.0Pentium 4 2.8EPentium 4 2.8APentium 4 2.8CPentium 4 2.8Pentium 4 2.8Pentium 4 2.67Pentium 4 2.66Pentium 4 2.6CPentium 4 2.6Pentium 4 2.53Pentium 4 2.5Pentium 4 2.4EPentium 4 2.4APentium 4 2.4CPentium 4 2.4BPentium 4 2.4Pentium 4 2.26APentium 4 2. 26Pentium 4 2.2Pentium 4 2.0APentium 4 2.0Pentium 4 1.9Pentium 4 1.8 APentium 4 1.8 Pentium 4 1.7Pentium 4 1.6 APentium 4 1.6Pentium 4 1.5Pentium 4 1.4Pentium 4 2.0Pentium 4 1.9Pentium 4 1.8Pentium 4 1.7Pentium 4 1.6Pentium 4 1.5Pentium 4 1.4Pentium 4 1.3Pentium III-S 1400Pentium III 1400Pentium III 1333Pentium III-S 1266Pentium III 1200Pentium III-S 1133Pentium III 1133APentium III 1000BPentium III 1133Pentium III 1100Pentium III 1000EBPentium III 1000Pentium III 933Pentium III 900Pentium III 866Pentium III 850Pentium III 800EBPentium III 800Pentium III 750Pentium III 733Pentium III 700Pentium III 667Pentium III 650Pentium III 600EBPentium III 600EPentium III 550EPentium III 533EBPentium III 500EPentium III 1000BPentium III 1000Pentium III 933Pentium III 866Pentium III 850Pentium III 800EBPentium III 800Pentium III 750Pentium III 733Pentium III 700Pentium III 667Pentium III 650Pentium III 600BPentium III 600Pentium III 600EBPentium III 600EPentium III 550Pentium III 550EPentium III 533BPentium III 533EBPentium III 500Pentium III 450Pentium II Overdrive 333Pentium II Overdrive 300Pentium II 450Pentium II 400Pentium II 350Pentium II 333Pentium II 300APentium II 300Pentium II 266APentium II 266Pentium II 233Pentium Overdrive MMX 200Pentium Overdrive MMX 180Pentium Overdrive MMX 166Pentium Overdrive MMX 150Pentium Overdrive 166Pentium Overdrive 150Pentium Overdrive 125Pentium Overdrive 133Pentium Overdrive 120Pentium Pro 200MHz (1024 KB)Pentium Pro 200MHz (512 KB)Pentium Pro 200MHz (256 KB)Pentium Pro 180MHzPentium Pro 166MHzPentium Pro 150MHzPentium 233 MMXPentium 200 MMXPentium 166 MMXPentium 200Pentium 166Pentium 150Pentium 133Pentium 120Pentium 100Pentium 90Pentium 75Pentium 66Pentium 60Celeron G1101Celeron E3500Celeron E3400Celeron E3300Celeron E3200Celeron E1600Celeron E1500Celeron E1400Celeron E1200Celeron 450Celeron 445Celeron 440Celeron 430Celeron 420Celeron 220Celeron D 365Celeron D 360Celeron D 356Celeron D 352Celeron D 355Celeron D 351Celeron D 350Celeron D 346Celeron D 345JCeleron D 345Celeron D 341Celeron D 340JCeleron D 340Celeron D 336Celeron D 335JCeleron D 335Celeron D 331Celeron D 330JCeleron D 330Celeron D 326Celeron D 325JCeleron D 325Celeron D 320Celeron D 315Celeron D 310Celeron 2.