Choosing the Best H55/H57 Motherboard, Part 2
by Rajinder Gill on February 22, 2010 2:00 AM EST- Posted in
- Motherboards
Overclocking
If all you're after is a stable stock HTPC build, then you're probably better off ignoring this section of the article and skipping over to the performance results or conclusion. Differences between boards are generally small and only manifest under conditions that are either unnecessary or unlikely in an everyday PC build.
Out of the eight boards we've tested in this two-part series, three boards stand out as the most consistent performers for overclocking given a range of peripherals and operating parameters. Spearheading the charge is Gigabyte's H55M-USB3; memory clocking is its main strength, delivering class leading memory speeds on the H55 chipset with 8GB of RAM in place (with or without the IGP active).
Gigabyte's H55M-USB3 is a "Jack of all trades" when it comes to overclocking.
The other two contenders are ASUS' P7H55D-M EVO and ASRock's H55M Pro. Both come a close second with 8GB, while ASRock's H55M-Pro pips the ASUS and Gigabyte boards to the post by a few MHz with 4GB of memory and a high QPI multiplier ratio. At higher BCLKs the Gigabyte board seems to be the best overall bet, handling all of our memory kits in a resolute manner.
IGP clocking—Oops!
One area we goofed up on in part one was our report of IGP related overclocking. Our mistake was believing that IGP frequency remained static while we increased BCLK; this was fueled by the frequency we'd set in the BIOS and also by the fact that there are no operating system tools that report the true IGP clock frequency correctly. Anyway, cutting to the chase, Massman from MADSHRIMPS released an article shortly after our first piece highlighting our error.
As soon as that article was posted, I slapped myself on the forehead for missing the glaring obvious. The tell-tale signs were all there: IGP voltage needed to be increased in tandem with BCLK, reflecting a hike in operating frequency. Further, Intel have never been known to embrace completely free-ranging asynchronous bus architectures, which is exactly what would be needed to maintain a static IGP frequency vs. adjustable clock frequencies of related domains. Such topologies overcomplicate chipsets and usually carry a latency penalty, thus degrading system performance.
Unfortunately, board vendors have not included any kind of corrective algorithm in current BIOS releases to show true IGP operating frequency as the BCLK changes. Despite the Chinese New year break we managed to ask ASUS about this, and they've confirmed a BCLK to IGP clock multiplier relationship and told us that the formula shown in the MADHRIMPS article is "very close" to determining true IGP operating frequency.
What this all adds up to is that processor and memory overclocking is not really hindered much by an active IGP at all—provided you can offset the IGP clock multiplier to keep its bus frequency within bounds. While we wait for vendors to get BIOS releases up to scratch, we've put together a simple Excel-based calculator based upon Massman's findings that allows you to work things out with minimal fuss—download it here.
Out of all the boards we've tested, Gigabyte's H55M-USB3 comes out on top with 8GB of memory in place while the IGP is active. The CPU-Z screenshot posted above at 200BCLK and DDR3-1600MHz holds true with an active IGP. Boards from ASUS and ASRock come a close second, hampered only by an inability to overclock memory as well as the Gigabyte board. The only lemon when it comes to IGP overclocking is the ECS H55H-V1, because you can't change IGP frequency at all on the current BIOS release.
Interestingly enough, ASUS seems to have hit on a performance register or two behind the scenes and deliver slightly better clock for clock IGP performance in the older Futuremark 3D benchmarks. In the real world though, the Clarkdale IGP is best suited for video playback (HTPC) use; you're not going to get a blistering "high-definition" gaming experience, even with elevated IGP clock frequencies and clock for clock performance enhancements.
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7Enigma - Monday, February 22, 2010 - link
Taft,Why does the MSRP really matter? Unless you are looking to buy in bulk, I don't really see what the benefit would be. For instance the Intel 80gig SSD has been inflated for months now. It's still a great product, and I don't know why someone wouldn't buy something if the price was higher than MSRP. Many electronic products sell below MSRP, and IMO that does't make them any better or worse.
More importantly than MSRP in my opinion is shopping around to get the best price at any given point. 15-30min of googling around to various E-tailers will give you a good ballpark of the price.
Rajinder Gill - Monday, February 22, 2010 - link
Hi,Unfortunately, I haven't seen or heard of any such resource from any of the sub-vendors - I usually have to fire off emails to ask. I agree with you though, it would be nice to see the figures posted on vendor websites.
regards
Raja
willsonjone - Tuesday, March 22, 2011 - link
Samsung, a respected brand keeps introducing mobile phones that match today’s speed and technology. Samsung has gone great lengths this time as it has received impressive reviews for its new Galaxy S 4G which happens to be the first 4G Phone with 21+ Mbps speeds.Samsung Galaxy S 4G
Kid98 - Monday, February 22, 2010 - link
(ASUS is using a 188 amp capable VRM vs a guessed 110~120amp VRM on the Gigabyte H55/H57 boards, so we'd pick the ASUS boards for Lynnfield CPU overclocking)Looks like the units used to express the capabilities of the VRM's is incorrect, otherwise I am going to need a really large PSU to run them....
Kid
Swivelguy2 - Monday, February 22, 2010 - link
That's 100+ amps delivered at a Vcore of ~1 volt, not 100+ amps drawn from the 12v rail.Earballs - Monday, February 22, 2010 - link
I don't understand these Farcry 2 benchmark results.How is this score against the i5 750 being calculated? Did you test all these boards with that processor then average it? :S
If the first result is the 661@stock and the second the 661@4Ghz, why is the comparison to the i5 750 number not the same in both charts? What changed for the 750? The graphics settings appear to be the same.
Rajinder Gill - Monday, February 22, 2010 - link
The 750 was benched on the EVGA P55 FTW board. Same drives, same drivers, same GPU, same patch version of FC2. Not sure why Lynn (4core) does worse in this bench.later
Raja
Earballs - Monday, February 22, 2010 - link
Okay thanks, but that doesn't explain this:If the first result is the 661@stock and the second the 661@4Ghz, why is the comparison to the i5 750 number not the same in both charts? What changed for the 750? The graphics settings appear to be the same.
Rajinder Gill - Monday, February 22, 2010 - link
Hi,The 750 was OC'd to 4GHz in the second chart, which is why the figure is 5FPS higher than the stock number of 68fps.
I can update the graph in about a day with the 750 running in one of the H55 boards if you like - got the Intel JG on the test rig at present and it won't do 4G's with the 750 I suspect..lol
regards
Raja
Earballs - Monday, February 22, 2010 - link
Ok. It might clear things up to have the 750 labeled as OC'd in the second chart. Thanks for the replies.