If you have been keeping up to date with any of the AnandTech motherboard reviews lately, there has been one topic that has been hot on my lips, and it is called ‘MultiCore Enhancement’.  As an exercise in explanation and opinion, we would like to know your thoughts on this, and how it would affect you as a user.

To start, let me describe what we are talking about.  On the latest line of Intel CPUs, we have multiple cores all willing to provide computational throughput.  The CPU itself has a listed stock speed, and a thermal window to ensure stable operation.  At the stock speed, the CPU does not hit the thermal window, so Intel assign higher speeds depending on how much computational power is needed, and this is adjusted to fit inside the power requirements.  Thus when a user requires only one CPU core, the CPU can be allocated the maximum turbo speed – when more cores are requested, the speed of the CPU drops until all cores are in use.  This is what Intel designates the ‘Turbo Boost’ for the CPU.

In the case of the latest Ivy Bridge CPU, the i7-3770K, this CPU has a nominal speed of 3.5 GHz.  However, the turbo boost is set such that in single threaded mode, the CPU can run at 3.9 GHz by adjusting the multiplier to 39x.  As more cores are loaded, the CPU reduces the multiplier down, until all four cores are in use and the processor is running at 3.7 GHz, still 200 MHz above the rated speed on the box.  This also applies to other processors:

CPU Turbo Bins
  i7-3770K
(4C / 8T)
i7-3570K
(4C / 4T)
i7-2600K
(4C / 8T)
i7-3960X
(6C / 12T)
i7-3820
(4C / 8T)
Rated Speed 3.5 GHz 3.4 GHz 3.4 GHz 3.3 GHz 3.6 GHz
1 Core 3.9 GHz 3.8 GHz 3.8 GHz 3.9 GHz 3.9 GHz
2 Core 3.9 GHz 3.8 GHz 3.7 GHz 3.9 GHz 3.8 GHz
3 Core 3.8 GHz 3.7 GHz 3.6 GHz 3.8 GHz 3.7 GHz
4 Core 3.7 GHz 3.6 GHz 3.5 GHz 3.8 GHz 3.7 GHz
5 Core - - - 3.7 GHz -
6 Core - - - 3.6 GHz -

However this technology is not defined by the processor itself.  The act of telling the processor to run at a certain speed is set by the motherboard, not the processor.  So as part of the deal with Intel, motherboard manufacturers’ code in the BIOS the algorithm to make the CPU switch speeds as required.  This algorithm can be aggressive, such that turbo boosts are held for a short time when CPU loading goes from low to high, or instant when CPU power is needed or not needed.  This algorithm and switching speed can determine how well a motherboard performs in CPU benchmarks.

This is all well and good when every manufacturer adheres to this specification.  But a new ‘feature’ has made its way onto our motherboards.  Since X79, ASUS has been implementing a feature they call ‘MultiCore Enhancement’ whenever XMP has been set.  Gigabyte has implemented this since their Z77 suite but as of yet leave it un-named, and ASRock are going to start using ‘MultiCore Acceleration’ with their Z77 OC Formula.  EVGA also has something in the pipeline for their Z77 boards.  This feature, put simply, gives the CPU some extra speed.

With these motherboards, usually when XMP is enabled, the CPU is told to use the top turbo boost setting under all loads.  That means a CPU like the i7-3770K has only two speeds – 3.9 GHz while under CPU load, and 1.2 GHz at idle.  For motherboards that implement this feature, they get a significant boost in their CPU benchmark scores.  As a result, the user who runs their processor at stock also gets up to 300 MHz more speed during multithreaded loading.

Technically, this is an overclock.  Typically we are told that overclocking a system is liable to void the warranty on both the processor and the motherboard.  With the case of the processor, typically what Intel put on the shelves is a safe speed – they are not pushing any competition to the limits, so these processors have breathing room and this ‘overclock’ should not harm longevity.  Nevertheless, Intel is usually very willing to replace processors (if I extrapolate the stories of returns I have heard).  With motherboards, they are designed to hold the top turbo bin at single core loads, so full threaded load should not be much of an issue.  Given that it is the motherboard manufacturers themselves that apply this, it would be reasonable that RMAs would be honored.

There has been a precedent with this in the past – when Turbo Boost was not part of the processor paradigm, motherboard manufacturers used to play around with the CPU FSB speed before it was passed through the multiplier.  So instead of 100.0 MHz on the FSB, we used to get 100.3 MHz, 100.8 MHz, 101.3 MHz, and even a case of 102.1 MHz I believe.  So essentially, a free 2.1% overclock if you ran the processor at stock speeds.

Given all this, I recently tested one motherboard that pushed the boundaries beyond the ‘normal’ MultiCore Enhancement.  The Gigabyte G1.Sniper 3, by default, gave the i7-3770K a 4.0 GHz turbo mode at any speed.  As a result, it took top spot in all our benchmark settings.  The G1.Sniper 3 is a high end product, so producing the jump was not much extra work for the product itself.  However, it does open up a variety of questions.

- How many users run processors (K or non-K) at stock?
- How many will notice the difference in speed?
- Will they worry that technically it is an overclock?
- Will a manufacturer go that one step further, to 4.1 GHz, or 4.2 GHz?  What is a safe limit?

Here are the results from one of my benchmark tests.  Here is 3DPM, a memory agnostic benchmark, using the multi-threaded version:

3D Particle Movement - MultiThreaded

Here we see that the boards with MCE all come top.  More cores means more points, and more MHz is king.  Boards without MCE have to have an aggressive turbo switching algorithm to stay close, or fall behind up to 10% away from those without MCE.

I would like to cite some scenarios involving individuals and their computers in order to draw some conclusions.

  • Person 1 uses his machine for gaming.  While an active gamer, his budget is low and does not know how to adjust the BIOS, but his system plays his games well enough not to overclock.
  • Person 2 is an enthusiast with a high budget.  His system uses the best components, and he is always striving for top speed through overclocking.
  • Person 3 uses their pre-built machine for work and email, sometimes watching movies or video websites.  They have no need for overclocking.
  • Person 4 has a low power HTPC, and is focused on keeping his footprint green.  They buy a low powered CPU, and use it to watch videos.  The system is not underclocked, but when under load, the CPU will implement the full turbo mode.

Deductive reasoning tells us that Persons 1 + 3 will benefit slightly from MultiCore Enhancement, however the gamer moreso than the worker.  Person 2 overclocks, and thus MCE does not affect them.  Person 4 is more like a victim of MCE – without going into the BIOS they are unnecessarily using more energy than needs be.

Several companies have approached me and ask why I test motherboards with MCE enabled.  My response is that I test the ‘out of the box’ performance for the majority of users, such as Person 1, or system builders making machines for Person 3.  If I pre-overclocked the normal ATX boards, while that would help Person 2 in their decision, I would have to do it as well for Person 4 in order to keep the comparisons between ATX and mITX relevant.  Keeping everything at default on the latest BIOS is a steady baseline between these scenarios – if a motherboard manufacturer wants to be aggressive and enable MCE (or MCE-plus), then that is up to them.  But as a result of MCE, some companies who have not enabled it are being left behind in terms of stock CPU performance.

The point of this pipeline post is to ask our readers what they think of MultiCore Enhancement.  Do you like it?  Does it matter to you?  Should it become the standard, or should companies offer different SKUs with and without MCE?  If two motherboards from different companies are all equal on price and features but differ by MCE, would you go for MCE?  Would you worry about longevity?  Please let us know in the comments.

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  • Comdrpopnfresh - Saturday, January 26, 2013 - link

    The feature should be disabled by default on all motherboards, but be open for configuration by the user in BIOS.

    I see no difference between this and BIOS settings for previous generations that boosted CPU speed by single-digit percentages. Those settings were typically separate from "AUTO."

    Even if this is unreasonable for consumer sales- this is how you should be running benchmarks. This is what baseline is. Go ahead and enable it and re-run as a point of interest; but how is leaving BIOS at stock settings, which the manufacturers can tool for benchmark results, instead of equivalent settings make for good comparisons? If a memory kit is sold with a reported stock timing and the motherboard does not default to those timings for one reason or another, would you benchmark a group of memory kits without manually keying in the timings they are sold under? Same for AMD boards and core unlocking- a board that does it will test better on multithreaded tests than another that does not. Apples and oranges. Plus- what happens when newer BIOS revisions are released with tighter algorithms? Will you re-run and redraft the results every time into the future? The only way to achieve results independent of a factor is to remove it from the equation.
    Reply
  • jleach1 - Friday, April 19, 2013 - link

    We don't run our ,motherboards with stock settings, and we certainly don't care what the stock settings are. You know as well as I know, manufacturer based settings for storage, memory, voltage, etc. Are a joke...

    We come here to put Product A, against product B. If you don't cross check settings for each product, reviews and charts for items-- especially motherboards-- are a joke.

    The only answer, is the one you already knew. We come to AT because you guys are scientifically mindful, and always strive to compare an contrast with numerically significant variables.

    Set that @#$t to the same voltage, MHz, features, etc. On every device and module possible, so we can see who makes a faster, better, more reliable, and all around superb board.

    Platform comparisons are different. Comparing board lineups from manufacturer A, to manufacturer B, is different. Only in the case of a platform war, or feature lineup/comparison, should things like MCE be listed--but never used.

    Again, we want to know who makes the faster board; not who chooses the faster settings for a default profile.
    Reply
  • lagittaja - Monday, April 29, 2013 - link

    In my opinion motherboard makers shouldn't implement this kind of feature unless there are STRICT guidelines made by Intel.
    Unless it turns then in to a speed race. Like said, first one raises it to 4.0Ghz, then 4.1Ghz the next 4.2Ghz.. Where does it end? THAT is overclocking.
    In my honest opinion. If one would have a 3770K which would be at turboing to 39x/39x/38x/37x bins at 1core/2core/3core/4core then yeah with MCE MB makers can make it run 39x/39x/39x/39x but not go above the rated maximum turbo bin.. Also the MCE feature would need to be DISABLED by default. If an user thinks they need to have more perf with more cores loaded (as in 39x/39x/39x/39x instead of 39x/39x/38x/37x) then they can go and enable that option.
    But for me this doesn't matter. I have 3770K which I overclock manually, and will have a G2120 in my HTPC which doesn't overclock nor have turbo.
    Reply
  • Gastec - Tuesday, November 05, 2013 - link

    This is an year old article but I read it now and Ian asked for opinions ans her is mine.
    I think MCE should be present on all newly constructed motherboards and DISABLED BY DEFAULT! All UEFIs should have the option to enable/disable MCE along with a detailed enough description of what it does. Under no circumstances should MCE automatically be enabled when using XMP memory - that's seems like some engineer's idea that people who use XMP must be some kind of overclockers and they clearly would want their CPU's to run at full speed under even the lightest load. Well I'm a gamer and enthusiast and I want my CPU to consume as little power as possible and only raise to it's highest frequency when the application requires it, not all the time for some random light loads.
    Reply
  • Gastec - Tuesday, November 05, 2013 - link

    Pardon my spelling errors in the previous post, please correct them if possible, because of course I can't edit it...( when will you let us to? ) Reply

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