The introduction Core 2 Duo chips by Intel started a price war between AMD and Intel. One sage speculated that this was a strategic move by AMD to make it difficult for Intel to dump a huge inventory of older technology chips without taking a loss on them and lower the profit margin on the new chips. What ever the case, the end users win. The latest and greatest chips from both vendors are a lot less expensive than they were just a short while ago and the older chips are available at bargain basement prices.
The technology that is in the new chips from both AMD and Intel has been significantly improved in the last two years. Intel has upgraded it’s NetBurst architecture with the Core and Core 2 Duo technology. AMD has introduced the new AM2 processor socket which, compared to the older 939/940 socket, effectively doubles the processor-to-memory bandwidth with it’s support of DDR2 RAM.
There are a lot of individual engineering pieces or basic building blocks that make up all X86 processors. For years Intel rode the marketing bandwagon that basically touted the “My processor clock is faster than yours, so I am better than you are” concept and that was, more often than not, true. AMD tried to compensate for the fact that their high speed chip technology lagged behind Intel by building more efficient CPUs. There are lots of ways to do that, and doing more things in parallel (at the same time) is one of the ways to build a more efficient CPU. So if the CPU is doing twice as many things at the same time, the processor clock can be half the speed. To pick a number, lets say the AMD chip actually has a clock of 500MHz but it is marketed as a 1000+ and the fine print explains that it “Performs as well as other CPUs that really do have a 1000MHz clock.” A number of people feel that back a few years, AMD was overly optimistic with their “Performs as well as” ratings. The concept however remains true. Over the years, AMD improved the efficiency of their CPUs as well as the clock speeds and the “Performs as well as” ratings more closely matched reality. Once Intel started making chips in the over 3000MHz clock range, they started tripping over the difficulty of making chips run that fast at all, complicated by the huge amount of heat it created. Acknowledging the writing on the wall, Intel decided they had to start making more efficient chips as well.
The irony of Intel running into the wall that those irrefutable facts of Physics represent is that Intel had to borrow a page from the AMD marketing manual. They had to convince their followers that these new Intel CPUs with the slow clock speeds were getting just as much or more work done as the older chips with the impressive clock speeds. Both companies had to deal with the problems created by CPUs that generated as much heat as a 100 watt light bulb. Along with other problems, the size of the heatsink/fan assembly was getting obscene. The demand for ever increasing compute horsepower, however, was relentless. In addition to improving the efficiencies of their processor cores, both companies decided the next logical step was to build two complete CPUs inside one chip and really approach doing twice as many things in the same amount of time. Because Intel still leads AMD in the ability to build chips with tinier features (65nano meter vs. 90nano meter), they can afford to put twice as much cache in their chips and run a higher clock speed and still have a good power consumption rating. By moving the memory controller inside the CPU, AMD has a better multi-core memory scheme. And the technical details, and the debates about them, go on and on.
I am going to try and give you enough of an over-all picture of who is offering what in today’s processor world that you can at least determine if you want to try and play in the major leagues or the minor leagues. That is really a daunting task and I hope I come somewhere close to success. One master list of currently offered X86 chips (all of those chips that trace their ancestry back to the original Intel 8086) had nearly 400 different models listed. Most of those are no longer made and ranged in price from $7.00 for a 600MHz Celeron to $954 for a Pentium Core 2 Etreme 3.2GHz and from $17.00 for a 700MHz Athlon Slot-A to $769.00 for a dual core Athlon FX-62 socket AM2, 2.8GHz processor.
There are a lot of very fast single core CPUs available at very good prices. If you are not an enthusiast user (mostly that means gamer) or heavy into video editing, you may not need one of the dual core units. Some of the single core units are the best values (read cheapest) available and any of them that are rated as being in the 3.0GHz or more category should even run the Vista operating system when it is released. Visit the MS Vista hardware requirement site here and get the official, albeit optimistic, definition of the minimum hardware you will need to run Vista. Based on my experience with the September RC1 release of Vista running on an AMD 2800+ with 1Gig of RAM, I would not be happy with a slower machine.
If you are an enthusiastic gamer or hard core videophile, and live next door to Bob Jones, plan on spending close to a thousand dollars for your CPU. Not to mention the dual $500 video cards and 4Gig of RAM. The first of the three categories of processors that we are going to list is the one that you enthusiasts are interested in.
Those categories are; the Enthusiast Dual Core Processors, Main Stream Dual Cores, and Single Core Processors. There is some overlap in both the performance and price of the high end single core and the low end of the dual core processors. One thing to keep in mind, all of the Dual Core chips are 64 Bit processors and most of the single core processors are not 64 Bit.
Strangely, at the price top of the Intel Main Stream Dual Core line category are
the older technology Dual Core models:
D 965 DC Extreme Edition (3.73GHz/775pin PLGA /1066FSB /2X2MB L2 Cache Dual
Core) $1075
D 955 DC Extreme Edition (3.46GHz/775pin PLGA /1066FSB /2X2MB L2 Cache Dual
Core) $995
D 960 DC Standard Edition (3.6GHz/775pin PLGA /800FSB /2X2MB L2 Cache Dual Core)
$349.
The E6400 Core 2 Duo Processor (2.13GHz/775pin LGA 1066FSB 2X1MB L2 Cache) at
$245 is the better buy. This is a good example of the seemingly weird pricing
that occurs with bleeding edge CPUs. The D955 is $646 more than the D960 which
has a faster clock but a slower FSB (Front Side Bus). Even stranger is that the
price for the older technology D 955 is more than the fastest Core 2 Duo chip.
The oldest technology dual core chips from Intel are the D800 series.
There is no restriction against any non-profit group using this article as long as it is kept in context with proper credit given the author. The Editorial Committee of the Association of Personal Computer User Groups (APCUG), an international organization of which this group is a member, brings this article to you.
For more information on the Tulsa Computer Society click here