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Basics of Modern Intel CPUs

Posted by CmdrTaco on from the stuff-to-read dept.

Doggie Fizzle writes "For those who think you can drop a Xeon into your Celeron system for an upgrade... 'Although there are currently only two main players in the CPU market, AMD and Intel, the number of choices is still enough to make the typical consumer's head spin. Each manufacturer has a few different models to promote, and many of these models can be found in a few different form factors (namely, the "sockets" to which they connect) that exclude interchangeability. This two-part series of Tech Tips will look at a few details of each of the currently-supported CPU (Central Processing Unit) sockets and how they are all similar and different from one to another' "

8 of 236 comments (clear)

  1. This is about sockets, not CPUs. by Animats · · Score: 2, Informative
    This isn't about architecture. It's just a one-page note about CPU chip sockets. Big deal.

    Who picked the article title?

  2. Re:Finally. by Anonymous Coward · · Score: 1, Informative

    Just to be pedantic:

    CPU: Central Processing Unit
    FPU: Floating Point Unit
    GPU: Graphics Processing Unit
    FPGA: Field Programmable Gate Array
    ASIC: Application Specific Integrated Circuit
    PIC: Programmable Interrupt Controller

  3. Re:Finally. by Shadow+Wrought · · Score: 2, Informative
    Pedantry once finished must be completed. Ahem.

    APU: Auxiliary Power Unit Apu: Kwik-E-Mart proprietor and Squishy peddler.

    That is all.

    --
    If brevity is the soul of wit, then how does one explain Twitter?
  4. Authorship by Stankatz · · Score: 3, Informative

    "Doggie Fizzle writes[...]" No, Jason Kohrs wrote it. "Doggie Fizzle" copied and pasted it. I think the /. editors need to change their format a bit so as not to mislead readers about who writes these "summaries".

    (And thanks in advance for moderating me "Troll" or "Offtopic" for pointing this out.)

  5. Re:Confusion by eht · · Score: 3, Informative

    Move to PCI-X? I've been using PCI-X cards and slots for about 2 years, just recently have I been using PCI-E, PCI-X is also compatible with standard PCI slots, it's just faster versions of the 64 bit type.

    PCI-E (PCI-Express) is a brand new slot of varying lengths which enable different speed cards, x1 slots are capable of of 313 megabytes/sec, x16 which is common for graphics cards is 5000megabytes/sec, twice as fast as AGP 8x.

    Current PCI-X speeds for the 133 mhz version is 1067 megabytes/sec(there is also a slower 100 mhz version of PCI-X), there is a PCI-X version2 coming out with bus speeds of up to 533 mhz, enabling 4267 megabytes/sec.

  6. Re:Finally. by indian_rediff · · Score: 2, Informative

    While we're at it,
    ALU = Arithmetic and Logic Unit, Alu = potato (in Hindi - land from where Apu of Kwik-E-Mart fame comes) :-)

    --
    All views my own. Anyone else with the same views needs to have his/her head examined.
  7. Interesting analogy by Zapraki · · Score: 4, Informative
    Ok, this is somewhat OT, but I think it's the best "layman" description of processor improvement that I've ever read. This is from Clock Speed: Tell Me When it Hertz by H. Gilbert, Dec. 22, 2004. Available at http://pclt.cis.yale.edu/pclt/PCHW/clockidea.htm/
    There are five ways to increase the processing power of a CPU or the teaching power of a High School.

    Raise the clock speed - In the analogy, this corresponds to reducing the time available for each class period. If the teacher can talk faster, and if the students behave and listen more closely, this can work up to a point. Each student gets done with the school day earlier.

    Build a Pipeline - A more complicated solution shortens the class period, but then breaks each subject into a sequence of steps. If it takes 45 minutes to cover Algebra, and that time cannot be reduced, then the subject could be covered in three consecutive 15 minute periods. A simpler subject might be covered in just one period. After all, there is no reason other than the convenience of scheduling why every every class for every subject lasts the same period of time. Students get done quicker, but only if some of the subjects are light weight.

    Parallelism - Add more classrooms and more students. No one student learns anything faster, but at the end of the day the school has taught more people in the same amount of time. Of course, this only works if you have more students in the school district to teach.

    Class Size - double the number of students in each classroom. High Schools don't like to do this. Computers, however, can easily switch from 32 to 64 bit operations. This will not effect most programs, but the particular applications that need processing power (games, multimedia) can be distributed in a 64 bit form to get more work done per operation.

    Build a Second School - Sometime in '05 or '06 both Intel and AMD will begin to ship "multi-core" processor chips. This creates a system with two separate CPUs. An individual program won't run any faster, and if these chips have a slower clock may even run more slowly. However, two programs will be able to run at once, and programs that require the most performance (games, multimedia) can be written to use both CPUs at once.

  8. Re:Confusion by eht · · Score: 2, Informative

    PCI-Express was formerly known as 3GIO, which was the main competitor to PCI-X, though PCI-X was never intended to really be much more than transitory.

    All busses come and go, at least PCI-Express is not a retarded one like AGP, which has no real limitation to be only used to graphics, you could make a RAID card or anything else that requires lots of bandwidth and place it there too, gamers and their graphics just seemed to most people to be the only ones who "needed" that kind of bandwidth.