РЕКЛАМА
ПОИСК И ЦЕНЫ
Поиск по сайту THG.ru


Поиск по ценам в Price.ru




ИНФОРМАЦИЯ
Rambler's Top100 Рейтинг@Mail.ru
bigmir)net TOP 100

ПРОЦЕССОРЫ

CPU Guide
Краткое содержание статьи: Whether you're crunching numbers or rendering dimly lit hallways in Quake, the capability of your system to get the job done relies first and foremost on its CPU.

CPU Guide


Редакция THG,  1 января 1997


Introduction

If you expect top performance from your system, you have to accept that it all starts and ends with the CPU. Whiz-bang graphics cards and oceans of RAM won't fix a system that's dragged down by a pokey processor. Wether you'ew crunching numbers or rendering dimly lit hallways in Quake, the capability of your system to get the job done relies first and foremost on its CPU.

AMD K5

The AMD K5 has been coming slowly, but now it's there and getting better and better. By now, you can get it from a PR 75 up to a PR 166. It's FPU is still slower than the FPU of the Pentium, but it's better than the FPU of the 6x86. It also will soon be released as a split voltage version, which will reduce heat problems of this CPU as well.

Here a table to show the weird CPU speed/bus speed/multiplier relations of the K5 CPUs:
Processor Performance Clock Speed
(MHz)
Bus Speed
(MHz)
PCI Bus Speed
(MHz)
Multiplier
K5 PR75 75 50 25 1.5
K5 PR 90 90 60 30 1.5
K5 PR 100 100 66 33 1.5
K5 PR 120 90 60 30 1.5
K5 PR133 100 66 33 1.5
K5 PR 166 116.66 66 33 1.75

As you can see, the PR120 runs at the same speed as the PR90, the PR100 runs at the same speed as the PR133. These CPUs obviously have got a different die. The PR120 and PR133 are more advanced than the PR90/100. This however only touches the integer performance. The FPU performance of the PR133 is the same as of the PR100.

Due to these strange multiplier settings, the K5 has got a fixed multiplier, which cannot be changed from out side via multiplier jumpers. The PR75 to PR133 will run at 1.5 multiplier regardless what the jumpers say, the PR166 will also always run at x1.75.

The Cyrix 6x86

The Cyrix 6x86 or M1, as it was called before, is a strong contender to the Intel Pentium and is able to outclass the Pentium in quite a few respects. This CPU might also be able to push technology forward more than the current Pentium CPUs, because since the 6x86 P200+ was released, a new bus speed of 75 MHz turned up at the horizon to replace the old maximum of 66 MHz of Intel CPUs. This will require new memory technology as well as new chipsets and therefore new motherboards.

This however is also the downside of the new 6x86 P200+, because you can't run this chip in a Triton FX or HX board for they don't support a bus speed of 75 MHz. Only to remind you - the 6x86 P200+ runs at a clock speed of 150 MHz, which is a multiplying of the 75 MHz bus speed with 2. Would you run this CPU with a bus speed of only 50 MHz and a multiplier of 3, you would loose all the speed advantages due to this pathetic slow bus speed.

Technical Specifications of the 6x86
Processor Performance Clock Speed
(MHz)
Bus Speed
(MHz)
PCI Bus Speed
(MHz)
Multiplier Special
6x86-P200+ 150 75 37.5 or 33 2 needs special

motherboard and chipset to support

75 MHz bus speed !

6x86-P166+ 133 66 33 2 no
6x86-P150+ 120 60 30 2 no
6x86-P133+ 110 55 27.5 2 needs motherboard that

supports 55MHz bus speed

6x86-P120+ 100 50 25 2 no

  • Clocking 2x, 3x bus-to-core clock multiplier, no 1.5 or 2.5 clock multiplier!
  • L1 Cache 16-KByte; write-back; 4-way associative; unified insTRuction and data; dual-port address
  • Bus 64-bit external data bus; 32-bit address bus
  • Pin/Socket P54C socket compatible (296-pin PGA)
  • Compatibility Fully compatible with x86 operating systems and software including Windows 95, Windows, Windows NT, OS/2, DOS, Solaris and UNIX
  • Floating Point Unit 80-bit with 64-bit interface; parallel execution; uses x87 insTRuction set; IEEE-754 compatible
  • Voltage 3.3V core with 5V I/O tolerance
  • Power Management System Management Mode (SMM); hardware suspend; FPU auto-idle
  • Multiprocessing Supports SLiC/MP(TM) and OpenPIC(TM) interrupt architecture
  • Burst Order 1-plus-4 or linear burst

Problems with the 6x86 and the solution
Problem Solution(s)
The 6x86 needs lots of power, more than a Intel Pentium. This leads to two different problems.
  1. The voltage regulator has to supply much more current, which some regulators are not up to. The regulators get very hot.
  2. The 6x86 CPU gets much hotter than a Pentium, which means that you have to take special precautions for good cooling of the CPU. I only can recommend the original Cyrix P200+ heat sink with fan, which is very good.

There are so far three different voltage specifications of the single voltage 6x86.

  • Type C028, which requires 3.52 V
  • Type C016, which requires 3.3 V
  • 'voltage switching' types, which can work with any of the above voltages

It's a matter of fact, that at a lower voltage the chip needs less current and produces less heat.

There are two solutions from Cyrix to this problem
  1. 6x86 of the revision 2.7 or higher need considerably less current or power than the previous versions. If you should want to buy a single voltage 6x86, you should at least get a revision 2.7 or higher.
  2. The 6x86L won't have this problem at all, since it runs at 2.8 V and needs under some conditions even less current than a Pentium of the same P-rating. This is the best 6x86 you can get. I wouldn't buy any other 6x86 model.
The 6x86 is very sensitive to reflections on the different buses. This was leading Microsoft to switch off the write back L1 cache of the 6x86 completely in Windows NT 4.0. This results in a serious performance decrease under this OS for 6x86 users. There are also several different solutions to this problem:
  1. Cyrix offers a replacement to all registered NT4 users who are affected by this 25% performance decrease. Read more about this on Brian Davis' excellent 6x86 site.
  2. You also can download a software patch to enable the L1 cache again. However this *can* lead to instability under NT4.
  3. The revisions 2.7 and higher are not affected by this NT4 problem. You'll best get one of these or even better a 6x86L in the first place.
The FPU (Floating Point Unit) of the 6x86 is considerably slower than the FPU of the Pentium. A 6x86 P166+ has a FPU performance of a Pentium 90 only. This is something most people noticed in the game Quake. Unfortunately there is no solution to this. Please consider however, that the FPU is only needed in very few applications like CAD or other calculating applications. It really depends on how important Quake is to you. It is expected, that more future games will use the FPU. Let's hope that the M2 will have a better FPU than the 6x86.

Performance Enhancement Software

  • 6xopt074.zip

    6x86 optimizer written by Mikael Johansson. Configures 6x86 CPU registers to increase performance. Additionally it enables Windows95 to 'see' the 6x86 CPU in the device manager.

  • directnt.zip

    Enables 6x86 cache under Windows NT 4. For all the Microsoft impaired NT users.

The Cyrix 6x86L CPU

I've been accused to be biased against the 6x86 by several people and to eventually end this stupid accusation I would like to explain myself.

The 6x86 CPU was not a child that came to the world and was making every person, that had to deal with it, happy straight away. The 6x86 had it's problems and Cyrix had to fight with a lot of trouble since the 6x86 release. However this doesn't say that Cyrix wasn't working extremely hard to survive by fixing one problem after the other. The latest improvement the 6x86 has received from its creator is the most pleasing one and eventually now I am happy with the 6x86 as well. The letter 'L' behind the CPU name is making all the difference to me and hopefully to all the possible 6x86 buyers as well.

The 'L' stands for 'low voltage' and doesn't say anything else as that the 6x86 now also has got the 'split voltage' feature known from the newly released Pentium MMX. Now for the Pentium this isn't making much of a difference, since the Pentium never had to fight any serious current or heat problems. For the 6x86 however, this could be the final liberation from his bad name as 'chip fryer'.

The 6x86L has just as the Pentium MMX a 2.8 V core and a 3.3 V I/O interface voltage. Cyrix expects a power reduction of more than 25% of the previous models, which will keep the CPU much cooler and won't ask for more current than a Pentium MMX.

This is probably the solution for all the people who have been scared by the recent problems with the 6x86. Unfortunately it comes a little bit late, since everyone is waiting for the M2 and the Pentium MMX 200 is much faster than a 6x86 P200+ (which is even on a lower level than the Pentium MMX 166 in most applications). However, who thinks that a P200+ is still by far fast enough and who doesn't want to spend as much money as for Intel CPUs, should get a 6x86L and nothing else. Getting an old 6x86 without the 'L' now is considered to be completely crazy, unless the old single voltage 6x86 shouldn't be considerably cheaper than the 6x86L.

The Intel Pentium Classic

The Intel Pentium Classic

Things You Should Know Before You Buy A Pentium

I don't think there's too much to say about the Pentium, because there's that much information already being released on the net and in magazines. However there's one important thing, which doesn't seem to be known too well. It's the fact that Pentiums of the same clock speed are not all the same, but can be VERY different, and you should know that before you get one ! There are now three reasons for that to be considered:

  • Second class Pentiums, which require a higher voltage or are not capable of multi processing

    Intel is actually releasing different kinds of Pentiums. Some are not capable of multi processing, others have to have a higher supply voltage to run correctly. You have to realize, that Intel is not having a different production line for each clock speed, but is in real now producing more or less only one dye. After the chips have been produced, they are tested, and regarding how they performed in the test, the clock rates are chosen. Some chips would work correctly on a special clock rate only with a higher voltage, which means also getting hotter. Others wouldn't work with multi processing. To find out which kind of CPU you have or are offered, you have to have a look on the bottom side of the chip, where's written something like e.g. SK 106 SSS. These last three letters can tell you what kind of CPU you have, and here's the list. It's obvious, that you should try hard getting a chip, that runs at 3.3 V(Standard) rather than 3.4 to 3.6 V (VRE), and maybe it makes you feel better to know that you've got a real Pentium, that works with multi processing as well, though you won't be able to use multi processing on a Triton board. If you should be into overclocking, it's almost inevitable to get a SSS-chip, because than you still can increase the voltage on the motherboard to get it running at a higher clock speed (as long as you cool it well!).

    So again, have a look at the Pentium Processor Reference Table!!!

  • Pentiums with faked clock rate markings

    I don't know how big this problem is in the States, but in Europe there are a lot of faked Pentiums around. At the beginning, when Pentiums didn't have a marking at the bottom side as well, the CPUs were just grinded off, a new marking was lasered in and the writing was printed on it. This changed a Pentium 75 quick into a Pentium 90 or 100, and you only could find it out by actually measuring the thickness of the ceramic body in at least tenths of a millimeter (2.8 mm is the correct thickness), which would reveal the faked CPUs being slightly thinner. Now they additionally put absolutely real looking black stickers on the bottom of the chip as well. It's very hard to avoid being betrayed that way, but if you should buy one, at least try if you can remove a black label on the bottom of the chip, which reveals the real ceramic bottom side and the real marking. Only buy in shops that you can trust!!!

Additional Links

The Intel Pentium MMX

The Intel Pentium MMX

The Technical Advantages of the Pentium MMX over the Pentium Classic

  • doubling of the L1 caches, 16kB data and 16 kB instruction cache
  • data cache now 4 way set associative - only 2 way set associative in Pentium classic
  • doubling of the Write Buffers, now 4 instead of 2
  • new branch prediction unit, taken from the Pentium Pro
  • implementation of a Return Stack, as known from the Cyrix/IBM 6x86
  • increase of the U and V Pipelines by one step
  • improvement of the Parallel Processing Ability of the two pipelines
  • the MMX instruction set with the ability to pair up two MMX instructions in one go, hence 2 SIMD instructions can be processed with 16 byte data in one clock cycle
  • new split voltage technology, 2.8 V for CPU core, 3.3 V for CPU I/O interface

Additional Links




Свежие статьи
RSS
Обзор игрового кресла ThunderX3 Eaze Mesh: надежность и комфорт Обзор планшета HUAWEI MatePad Pro 13,2: флагман с великолепным дисплеем Лучший процессор для игр: текущий анализ рынка Иерархия процессоров Intel и AMD: сравнительная таблица Лучшие мониторы для игр: текущий анализ рынка
Обзор игрового кресла ThunderX3 Eaze Mesh Обзор планшета HUAWEI MatePad Pro 13,2 Лучший процессор для игр Иерархия процессоров Intel и AMD: сравнительная таблица Лучший монитор
РЕКЛАМА
РЕКОМЕНДУЕМ ПРОЧЕСТЬ!

История мейнфреймов: от Harvard Mark I до System z10 EC
Верите вы или нет, но были времена, когда компьютеры занимали целые комнаты. Сегодня вы работаете за небольшим персональным компьютером, но когда-то о таком можно было только мечтать. Предлагаем окунуться в историю и познакомиться с самыми знаковыми мейнфреймами за последние десятилетия.

Пятнадцать процессоров Intel x86, вошедших в историю
Компания Intel выпустила за годы существования немало процессоров x86, начиная с эпохи расцвета ПК, но не все из них оставили незабываемый след в истории. В нашей первой статье цикла мы рассмотрим пятнадцать наиболее любопытных и памятных процессоров Intel, от 8086 до Core 2 Duo.

ССЫЛКИ
Реклама от YouDo
erid: LatgC7Kww