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Balance Technology Extended (BTX) Explained

Posted by timothy on from the clicky-clicky dept.

Anonymous Coward writes "The folks over at TweakTown have just posted an article which talks about Balance Technology Extended (BTX) - Intel's upcoming new form factor which will replace the aging ATX form factor standard we've grown used to. BTX is meant to offer better cooling and quiet computing through its smart design."

12 of 368 comments (clear)

  1. More/better info by Bushcat · · Score: 4, Informative

    More info, greater bandwidth, fewer ads, etc at Form Factors and, of course, Intel.

  2. Just another by tarquin_fim_bim · · Score: 3, Informative

    half cocked attempt to keep the intel/MS upgrade spiral happening.
    Some informed information is avaialable here.
    However this is also half cocked.

  3. PDF link by leapis · · Score: 5, Informative

    You can download a copy of the BTX spec in PDF from this site.

  4. Some Other Links by GoodNicsTken · · Score: 4, Informative
    Here are a few links:

    Try This

    Or This

    Or This

  5. Links to similar data on other sites by -ParadoX- · · Score: 3, Informative

    Here's a few other links to similar data:

    http://www.anandtech.com/showdoc.html?i=1876
    http://www.dvhardware.net/article.php?sid=1894 Has PDF's of the Spec.
    http://www.intel.com/update/contents/dt10031.htm

  6. Text from article by Anonymous Coward · · Score: 5, Informative

    Introduction

    The computer industry is constantly evolving and building upon technology with as much mind for the future as possible. However with such a constantly changing industry, standards which we rely on do not always anticipate the changes that occur in the future. That had been the case for the AT form factor and the issues with it were addressed by the creation of the ATX Form Factor all those years ago - the design specification which computer companies abide by when designing and manufacturing their products for the PC.

    Now, as ATX and its closest cousins begin to show its age from the advent of new technologies like Serial ATA and PCI Express, a new form factor is seen as a need by many companies and Intel has the answer - it's called Balanced Technology eXtended (BTX). BTX, in its basic principle design, is very similar to that of ATX, but there are a slew of changes that can and will be utilized to show that it has the potential to improve the system as a whole in terms of acoustics and heat dissipation.

    Intel has been kind enough to provide us with some technical information and pictures on BTX. Let's see what the future holds for us!

    The BTX specifications call for a new location for the system processor. The relative position, at a locale close to the top and front of the motherboard, allows for a new way of cooling not only the processor but the highest heat producing components of the system through the use of a "thermal module."

    The thermal module consists of a duct, seal, heatsink, fan, and clip. The duct encloses the heatsink area and forces the air inducted through the massive fan over the heatsink and processor directly to the upper back of the system in a tower case. After the airflow provides cooling for the processor, it continues through the system to the graphics subsystem, whether it is on a riser card or directly into a PCI Express slot, providing additional cooling to the video card. Supposedly, airflow then trickles throughout the rest of the system to the memory and the various other internal components.

    The thermal module of BTX represents how the LGA-775 Prescott will have to be cooled. BTX will more than likely be coming to the market at the same time as the LGA-775 Prescott processors with such a higher heat production. The first motherboards we will see with BTX will probably be high-end solutions that target the wealthiest enthusiasts and workstation systems then as usual we'll see more affordable systems come onto the scene shortly afterwards.

    BTX, unlike any prior standard form factor, was developed to support three different system sizes. With BTX, we have the standard BTX, microBTX, and picoBTX forms. At the IDF of Fall 2003, the reference systems Intel demonstrated were in the microBTX and standard BTX forms. With the microBTX form occupying only 12.9 Liters and regular BTX form system not much larger, Intel has been able to push acceptance of BTX with OEM manufacturers with some ease.

    PicoBTX, the smallest of the BTX forms, is the most interesting of the BTX form factors, in my opinion. Intel will be demonstrating 6.9 Liter systems based around picoBTX, smaller than any small form factor PCs on the market. The 6.9 Liter system will be approximately 3.1 Liters smaller than the smallest SFF PCs currently on the market today from such companies as Shuttle. This compact size will push the evolution of the compact PC and increase the acceptance of BTX, specifically by SFF PC builders and users interested in buying SFF PCs - You can already imagine the SFF leaders of the industry rubbing their hands together.

    An interesting thing about the different sizes of BTX is how Intel specifications reduce the need to shift system components significantly. With BTX locating most essential system components in the upper portion of the motherboard, there is a simple move of removing a few peripheral slots with each reduction in size, bringing the total peripheral slots to one with picoBTX.

    Since BTX reference desig

  7. Re:Cooling is needed on video cards by djohnsto · · Score: 5, Informative

    It was my understanding (from articles about last year's IDF where this was intro'd) that the BTX design basically mandates a wind tunnel from the front of the case, over the CPU / chipset, out the back - with one "wall" of the tunnel typically being implemented by a video card. There was talk that both the CPU *and* the video card could revert to passive heatsinks, with large (slow rpm) fans driving the air through the tunnel. Regardless of the specifics, I'm positive that the BTX form factor will help video card cooling.

    --
    Dan
  8. Related articles, justification by arrianus · · Score: 5, Informative

    The new form factor is probably not strictly necessary, but is useful, given the move to much smaller connectors (PCI Express, USB, SATA, etc.). Serial connections are primarily institute because they use fewer pins, and so save money. The costs of packaging on modern chips, with hundreds of pins and BBGAs, is enormous. You can save more money if you engineer the form factor to go with it.

    PCI Express also allows low-profile cards, so with BTX, you can make much smaller machines if you go legacy-free (no PCI, AGP, MCA, VESA, EISA, or ISA slots). Generally, boards are much more integrated now, use solely SMT components, small connectors, and are cheaper, but the overall system also requires less room. Observe the number of PCI cards that consist of a 1" sliver of PCB, right up to the back of the computer, and then extend to full PCI height. That's expensive, and wastes space. The height of PCI comes from the days of ISA, with through-hole parts and 25 pin connectors going to printers. The only big cards I've seen in the past many years are custom boards and graphics cards. Graphics cards have a funky horizontal option in BTX.

    To relieve the slashdotted server, a similar review:
    http://www.anandtech.com/showdoc.html?i=1 876
    The actual spec:
    http://web.newsguy.com/nstrom/BTX_Spec_1_0. pdf
    Intel's info about it:
    http://www.intel.com/update/contents/dt10031. htm

  9. Re:Yeah yeah yeah... by cmowire · · Score: 3, Informative

    You have memory riser cards. They are called DIMMs, SIMMs, and RIMMs, you young whipper-snapper. You do not know the pain of plugging in, chip-by-chip, DRAM chips, in a specific and defined order.

    It's most likely the case that, unless you are talking about a NUMA system (which is really, at this stage of the game, only for high-end server systems where a standard architecture is not yet a good idea) electrical interference, impedence, power concerns, speed of light, etc. all work together to make you really only want a few memory sockets, say 4 tops. Otherwise, it just won't work without hurting performance in a major way.

    --
    Gentoo Sucks
  10. Re:Still using PS/2 style keyboard and mouse ports by the+eric+conspiracy · · Score: 3, Informative

    Are there really people out there who are going to buy a brand new computer but still have a vital need for an old keyboard?

    Goddammit YES. The IBM Model M is the best keyboard ever made. I have 6 of them. Typing on one is an epiphany. The Stuff Of Legend.

    And they have a PS/2 connection.

    http://www.tavi.co.uk/ps2pages/ohland/keyboard.h tm l

  11. those links as HTML: it's fun and easy by key45 · · Score: 3, Informative

    To relieve the slashdotted server, a similar review:
    The actual spec (PDF!):
    Intel's info about it:

  12. Re:BTX factor and mounting holes by Sycraft-fu · · Score: 4, Informative

    Well AGP is theoritically obsleted by PCI Xpress. See we actually have kind of a shitty situation right now. WE have only one slot that will work with performance graphics cards. That means if you have 2 or more monitors and want them all to have a performance graphics card (maybe you do engineering work, or maybe you're just a power gamer) you're SOL. PCI Xpress should cure that, you ought to be able to get a board with enough high-speed slots to have plenty of graphics cards, or other high performance devices. Also AGP sucks at talking back to the CPU. No big deal in the past, you pushed stuff to the graphics card and didn't care. Now, however, graphics cards are becomming highly programmable. It is becomming desirable to have efficient 2-way communication with them, which PCI Xpress should allow.