The Mother of All CPU Charts 2005/2006

The Mother of All CPU Charts 2005/2006

The Mother of All CPU Charts 2005/2006

It's time for a new CPU comparison using our newly developed benchmark suite. The most noteworthy additions are certainly the dual-core processors, but we have also added some new sections focusing especially on the platforms for AMD's Socket 939 and Intel's Socket 775.

An overview as comprehensive as this one also brings up th

e question of what has changed over that period of time, and how much performance has improved. Naysayer are often quick to point out that your typical word processor doesn't run any faster today than it did in 1993, without qualifying this claim further. Are they completely off the mark?

Well, no, but let's not forget that the way we use our computers has also changed dramatically over the past decade. Today, CPUs handle many tasks simultaneously by running several applications in parallel. In the early 1990s, specialized chips would have been necessary to perform this feat which we take for granted today. Fluid video or audio streaming and playback were unthinkable back then, but are common now. A good current example of such an application is Internet telephony or video conferencing. Here, data is encrypted in real-time, while normal office applications or even games continue to ru

n in parallel. Simply put, much of what we take for granted with computers today was not even on the radar screen just a few years ago.

Behold the first step in an incredibly fast evolutionary process: Intel's first processor, the 4004, circa 1971. It consisted of 2,300 transistors, required a core voltage of 12 V and could address up to 640 Bytes of memory. It didn't even require any heatsink.

This is a graph of the clock speed development of AMD and Intel processors from 1993 until the end of 2005. Between 1993 and 1999, the average clock speed increased tenfold. Then stagnation set in; over the past four years, frequencies haven't even doubled.

We must realize that the personal com

puter is edging its way into practically every aspect of our lives. The biggest part of this development was driven by two large processor companies, namely AMD and Intel, the latter of which has had decisi

ve influence on the development of most of today's standards.

How about a few concise

examples to illustrate the rapid developments of the past few years? Intel's first processor, the 4004, debuted in 1971 and consisted of 2,300 transistors. Compare that to the 230 million

transistors found in today's Pentium Extreme Edition 840. That's an increase by a factor of 100,000!

Let's try that again using a different measure. The space that used to be occupied by a single transistor now houses 5,845 of them. This development went hand in hand with a reduction in core voltage from 12 V (1971) to currently 1.2 V. And that's not even the lower lim

it; a conventional silicon-based transistor requires a minimum voltage of 0.7 V to perform one transition.

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Choosing a Mother Board

Choosing a Mother Board -

There are many things to consider when selecting a Mother-Board. The CPU, type of RAM (and the amount) you intend on installing

in the system, number and type of slots (ISA, EISA, VLB, PCI) and their location in relation to the case you will be putting the Mother board in. Upgradability, Integration, Expandability, and Proprietary are some buzz words you should get a little familiar with.

Photo of Freetech's P5F79 - socket 7 motherboard... my personal favorite for the standard Pentium chips by Intel and AMD.

	Intel Triton VX chip set, 66MHz bus paths
	512K external cache memory,
	4 SIMMs, 3 DIMM,
	5 PCI (one shared), 3 ISA sockets, and
	Awards new Pentium BIOS.
	Drive Controllers are EIDE (supporting 4 EIDE devices),
	1 parallel SPP or ECP/EPP bi-directional printer port,
	2 16550 UART Serial (Com) ports (one can be defined as the new USB port), and
	a PS/2 adapter port.

I have about 6 of these working in my shop (including my email server), and another few dozen in customers systems... these are a bit more expensive than most, but have been problem free and very solid. Only down side, they won't run the AMD K6-233 or the newest 266 MHz chips.

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Parity

Parity -

Until the 100 MHz 486's and Pentiums, all IBM's required a parity chip, which raised the cost of the RAM chip, but assisted in the Power On BIOS (Basic In Out System) tests. Most of the Bios manufacturers required the parity chip to compare the other chips in that bank to it. If a chip didn't match, the system stopped, beeped, and flashed an error message... stating the RAM failed the parity check. Many new systems no longer use the parity test, and therefore don't use parity chips. If you are getting RAM from a place different than where you are getting the motherboard, this section is very important!

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CPU

CPU

What type of CPU to use? Will it be a Pentium, Pentium Pro, Intel, AMD, Cyrix, etc.?

I recommend using a Pentium 166 MHz or greater processor as a minimum starting point (the 200 MHz) has proven very solid. It is easily available and cost effective. Is the motherboard upgradeable?

	Intel is very solid in must cases, but being the "market leader" it generally has the highest price tag. Compatible with everything, and 99% of the software in the world is written either with, for, or on an Intel Chip.
	AMD is a very solid processor, and is usually faster than the same rated Intel chip… in everything but CAD programs, which Intel is still the leader. For Graphics without major number crunching, AMD is the current market leader.
	Cyrix, you roll the dice… I don't sell or support them. In DOS mode I had one that was twice as fast as the comparable Intel and AMD, but could not get it to stably function under Windows 95.

The 386 and 486 class processors are divided into two classes, the SX and DX. The SX class CPU lacks a built-in numeric co-processor (for large mathematical calculations), and usually operates at lower speeds. The DX class CPU has a numeric co-processor and at least 8 KB of internal cache memory built into the chip (the amount of cache is dependent upon the CPU manufacturer & is type specific, not upgradeable). The DX class 486 CPU is available in the type DX, DX2, and DX4. The DX chip can perform at speeds of 33, 40, 50, or 66 MHz. The DX2 chip uses a clock speed equal to half the speed of the processor, and performs at 50, 66, and 80 MHz. The DX4 triples the clock speeds and works at 120, 133, and even 166 MHz has been seen by a few people.

Intel's Pentium and AMD's K-5 Processors are currently considered "the biggest bang for the buck" processors on the market. They have been out for a few months, the price has dropped enough to make it more affordable for the average person, and the performance potential is incredible. I would give the Pentium Pro's, Pentium II's, and K-6 processors until early to mid-98 to come down in price, and get any quirks worked out. If you choose to move forward sooner, make sure that the company you purchase the motherboard and CPU from have used that specific combination before, and are able to solve any problems you might have. This is especially true with the K-6, which draws more current than any of the "normal" chips... but absolutely screams.

There are many different types of processors available today, 386's, 486's, Pentiums (otherwise thought of as the 586), Pentium Pro (the 686), and Pentium II's.
386's and 486's have all but disappeared from distribution so we will not give it any more mention. Pentium Pro II's are the newest technological advancements available to the public (a little over a year old). The standard Pentium and K-5 class processor is the most common CPU on the market still today, because of price, performance, and proven stability.

MMX - the latest buzz word in the CPU world. What is it? To the best of my knowledge, it interfaces with the video card, and video output. If you have a high-end video card then the processor doesn't seem to add much to the performance. If you have a low-end card, then the MMX technology brings certain video features home to the CPU for processing. Things like MPEG, and full screen AVI. There aren't many software programs out today that can take advantage of this technology. It will either be refined and turn into the best thing since sliced bread or just another marketing ploy with little performance increase to justify more money and to keep the upgrade cycle moving. Also, as of today, MMX technology is NOT available for the Pentium Pro or the Pentium II CPUs, although I have heard some retailers try to say that it is, and play off the new buzz words.

How is the CPU installed on the Mother-Board?
There are only four ways:

	soldered in - very bad, making the combination nearly impossible to repair or upgrade
	pushed in - common on the older mother boards, requires care for the insertion and removal process
	ZIF socket - most common today, and generally thought of as the best. Allows quick and easy insertion & removal without tools and CPU can't be put in backwards by accident.
	back plain architecture - not real common, but still happens. The CPU is fit onto a card that is then plugged into the motherboard. There is nothing technically wrong with this, except that the farther the components are from each other the slower some processes take. It also means that the board and components on it are likely to be proprietary and expensive.

In the event of upgrades - I have found that it is usually smarter, faster (time and actual processing speed), and less expensive in the long run, to just pull out the old motherboard/CPU combination, and put in a whole new motherboard/CPU combination rather than spend time messing with jumper settings (which require a manual) and wonder if everything will work (even if the manual says it will). Besides, I have almost always been able to find someone that wants to buy the old motherboard/CPU combo (as along as I see that they work).

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What are the minimum and maximum amounts of RAM supported? How? What are the minimum and maximum amounts of RAM supported? How? Make sure that the max

What are the minimum and maximum amounts of RAM supported? How?

Make sure that the maximum is equal to or greater than 32 Megabytes. Some boards only allow 4 RAM sockets... which means that you may have to throw away you existing chips if you upgrade. Keep in mind that 4 - 32 MB RAM chips is 128 MB of RAM... it is more important to know the possible (intelligent) upgrade levels... not replacement levels. Number and type of sockets, and number of sockets to a bank are imperative! Most motherboards require SIMMs RAM to be installed in even numbers - 2 "chips" at a time, DIMMs only require 1 chip and have larger chips (i.e., above 32MB on one chip). Some manufacturers are able to get liquidation prices on smaller chips, therefore filling most or all of the available RAM sockets with smaller chips making the "upgrade" of RAM more expensive.

RAM has a few differences. The most obvious is the pin count and parity (yes or no). The most common modules have either 30 pins, 72 pins, or 168pins. The sockets on your mother board MUST match the pin count on the RAM. The other differences is type of RAM (standard DRAM, EDO, SDRAM, and PCI 100).

You must also beware of speed ratings. Memory speed is rated in nanoseconds (billionths of a second) the smaller the number the faster. It is generally acceptable to use memory that is rated at a higher speed (fewer nanoseconds) than your Mother-Board, but not vice-versa. It is also NOT recommended to mix different speeds of RAM that are farther than 10 ns apart. It is further not wise to mix manufacturers, as some manufacturers test, rate, and stamp the RAM at a certain speed based on BEST case scenario, others give the same claims but on WORST case scenario. You, obviously, want worse case scenario 60ns or 70ns RAM ("worst case" means that they will be faster "best case"). Consult the technical manual associated with the Mother-Board to verify the speed requirement, 60 nanosecond is usually sufficient.

EDO or not… most of the Pentium class machines take advantage of EDO RAM. Enhanced Dynamic Overlay Ram is faster than standard Ram of the same speed by 20 to 100%, depending on the motherboard, lay-out of the Ram sockets, bios, and busing patterns. PCI 100 RAM is 1000% (10 times) faster than the fastest EDO RAM!

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Ram

support?

Make sure it uses STANDARD types of RAM modules. 72 pin 60ns EDO non-parity RAM is the current standard and will have some longevity in this industry. Don't purchase a motherboard that requires something proprietary. SIPPs are old, and hard to find, DRAM is slow, and anything weird should be completely avoided (if not ran away from). DIMMs are the newest type of RAM, they are faster - with a true 32bit bus path. The newest and fastest RAM on the market is SDRAM. It is supposedly a great deal faster than EDO. Make sure your motherboard CAN handle this new RAM before you spend the money.

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