Gigabyte GA-MA74GM-S2: AMD 690G, Take 2
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Thanks for the review. There's been very little about the 740G and I think it came out around the same time at the 780G. I contemplated the HDMI version (GA-MA74GM-S2H) for my HTPC build. But decided on the 780G for the UVD stuff. That is once I finally found some info about what the 740G was and what was different from the 780G. But I always thought the 740G would make a great work PC. I have a 690G for my own work PC. Haven't gotten the chance to build any new ones since that though. We've got too many old P4s laying around still. =(
Has anyone actually taken the heatsinks off a 740G and 690G and verified they are different chips (i.e., the 740G being smaller)?
From AMDs own specifications the 690G idles slightly higher than 1W and the 780G just below 1W. The 9W idle power difference highlighted in the article can't be due to the different chipsets.
I think the idle difference is mostly due to VRM design--especially in light of how poor this 740G motherboard becomes at higher loads. This is just a motherboard designed for low wattage CPUs.
From AMDs own specifications the 690G idles slightly higher than 1W and the 780G just below 1W. The 9W idle power difference highlighted in the article can't be due to the different chipsets.
I think the idle difference is mostly due to VRM design--especially in light of how poor this 740G motherboard becomes at higher loads. This is just a motherboard designed for low wattage CPUs.
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This is possible. We've only had the one 740G board to examine, and our generalization about the chipset may be premature. Regardless, we'd still highly recommend this Gigabyte for a low power home server or desktop.QuietOC wrote:Has anyone actually taken the heatsinks off a 740G and 690G and verified they are different chips (i.e., the 740G being smaller)?
From AMDs own specifications the 690G idles slightly higher than 1W and the 780G just below 1W. The 9W idle power difference highlighted in the article can't be due to the different chipsets.
I think the idle difference is mostly due to VRM design--especially in light of how poor this 740G motherboard becomes at higher loads. This is just a motherboard designed for low wattage CPUs.
Some questions:
1) Some Gigabyte boards have had DPC latency spikes. That means sometimes the system becomes unresponsive for a couple milliseconds, which might for example make music playback skip a beat. Easily tested with the tool here:
http://www.thesycon.de/deu/latency_check.shtml
Maybe you could add this into your benchmarks, as it is very easy to run it and just add a screenshot of it in action, nothing else is needed. No other site seems to test it, and it's important for real time tasks.
2) What is the maximum resolution that the IGPU supports? Can't go smaller after I got used to 2560x1600.
3) Can the integrated audio give bit-perfect digital output, or does it force resampling?
1) Some Gigabyte boards have had DPC latency spikes. That means sometimes the system becomes unresponsive for a couple milliseconds, which might for example make music playback skip a beat. Easily tested with the tool here:
http://www.thesycon.de/deu/latency_check.shtml
Maybe you could add this into your benchmarks, as it is very easy to run it and just add a screenshot of it in action, nothing else is needed. No other site seems to test it, and it's important for real time tasks.
2) What is the maximum resolution that the IGPU supports? Can't go smaller after I got used to 2560x1600.
3) Can the integrated audio give bit-perfect digital output, or does it force resampling?
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1) interesting. We'll try it.lm wrote:Some questions:
1) Some Gigabyte boards have had DPC latency spikes. That means sometimes the system becomes unresponsive for a couple milliseconds, which might for example make music playback skip a beat. Easily tested with the tool here:
http://www.thesycon.de/deu/latency_check.shtml
Maybe you could add this into your benchmarks, as it is very easy to run it and just add a screenshot of it in action, nothing else is needed. No other site seems to test it, and it's important for real time tasks.
2) What is the maximum resolution that the IGPU supports? Can't go smaller after I got used to 2560x1600.
3) Can the integrated audio give bit-perfect digital output, or does it force resampling?
2) 2560x1600 seems feasible. Directly tied to video ram -- 2560x1600x 3 BYTES is what is needed -- 12mb is no problem.
3) that's more an OS issue than the audio card, afaik.
The Biostar version of this board boasts a FSB twice that of the Gigs. 2000 versus 1000. In practical terms what would that mean for Blueray and HTPC?
If you have an OS hard drive that was used in a Gigabyte 690G could you plug it into a 740G and then just update some drivers and be good to go?
http://www.newegg.com/Product/ProductLi ... rchInDesc=
If you have an OS hard drive that was used in a Gigabyte 690G could you plug it into a 740G and then just update some drivers and be good to go?
http://www.newegg.com/Product/ProductLi ... rchInDesc=
MikeC wrote: 2) 2560x1600 seems feasible. Directly tied to video ram -- 2560x1600x 3 BYTES is what is needed -- 12mb is no problem.
I wish it was so easy. DVI is bandwidth-limited, and it's up to the connector what is supported. There's single link and dual link DVI connectors. They are the same size, single link just does not connect all pins.
Single Link DVI connection is limited to 1920×1200 @ 60 Hz and Dual Link DVI is limited to 2560 × 1600 @ 60 Hz.
More info in http://en.wikipedia.org/wiki/Digital_Visual_Interface
Sadly, not all GPUs have Dual Link DVI connectors, even though ANY card nowadays would have enough onboard RAM. With discrete GPUs, it's usually mentioned which kind of connector they have.
I tried reading Gigabyte's webpages and the product manual, but there is no mention anywhere about the Dual Link capability. So I just have to assume they only have single link, unless sending them email.
I'm under the impression that some chips are only capable of f.ex. 48kHz output, which means forced resampling for 44.1kHz data. It would be better if not, but maybe it's cheaper to make that kind of audio chips. This is yet another minor annoyance of the computer world, since if there were no forced resampling anywhere, any mobo could be used for bit-perfect audio source for an amp that takes digital input.MikeC wrote: 3) that's more an OS issue than the audio card, afaik.
All the HD series Radeons support dual dual-link ports, and all the X1xxx series supported at least one dual-link port. The 690G/740G is an X700 based, though. I will see if I can find out anything.lm wrote:Sadly, not all GPUs have Dual Link DVI connectors, even though ANY card nowadays would have enough onboard RAM. With discrete GPUs, it's usually mentioned which kind of connector they have.
According to wikipedia the 690G supports dual-link. Not the greatest source, I know. AMD's own website says it "Supports a maximum resolution of 2048x1536 @ 32bpp" but that is probably the analog output.
I have been looking forward to this review, thanks.
How would the power consumption be affected if you would downclock the IGP? For a low power server, this would be very interesting to know.
The bios of this board allows you to lower the VGA core clock from default 400 MHz to 200MHz. On the Gigabyte 780G board, you can go as low as 150MHz. If you also consider that the 780G is manufactured at a lower 55nm process, 780G might actually be the better choice for a low power server.
How would the power consumption be affected if you would downclock the IGP? For a low power server, this would be very interesting to know.
The bios of this board allows you to lower the VGA core clock from default 400 MHz to 200MHz. On the Gigabyte 780G board, you can go as low as 150MHz. If you also consider that the 780G is manufactured at a lower 55nm process, 780G might actually be the better choice for a low power server.
Great review, one thing i've been wondering about this board, will it fit a 8800gts? i notice one of the chips is extreamly close to the PCI-e slot, and that alone is holding me back from purchasing it. in my current system there's about a paper thin inch between my card and the ram due to placement, and i'm not entirely sure if the card would go over the chip in that system or not fit at all. Any info on that would be great:)
And another question.
With the 690 chipset, when a non Phenom was placed, voltage in BIOS was available. The instance you placed a Phenom (in my case 9500) the ability to adjust the voltage was not available.
Granted, if the AMD overdrive tool is working, then in a windows environment this is not to important. But in case of a non Windows environment, bios option would be simpler.
With the 690 chipset, when a non Phenom was placed, voltage in BIOS was available. The instance you placed a Phenom (in my case 9500) the ability to adjust the voltage was not available.
Granted, if the AMD overdrive tool is working, then in a windows environment this is not to important. But in case of a non Windows environment, bios option would be simpler.
I think Mike is right, it has much to do with the OS (especially if you intend using Windows XP/Vista). I suggest you try this:lm wrote:Some questions:
3) Can the integrated audio give bit-perfect digital output, or does it force resampling?
http://www.asio4all.com
This driver is one of my finest discoveries on the software front lately It provides ASIO support (i.e. bit-identical transport of the audio data to the soundcard, bypassing the Windows kernel, so at least any resampling there can be avoided) for virtually all modern sound devices, so it should work fine with this board's codec, too. Of course, the application you're using to play back your cds/dvds/etc. should be capable of dealing with the ASIO interface.
As far as I can see, the specifications of the ALC888 codec are pretty impressive, Realtek claims support for 16/20/24 bit depths and 44,1/48/96/192Khz sapmling rates throught S/PDIF-out on their web site - if this holds true in reality, you may be able to get some decent output combined with the mentioned driver.
Well, all intergrated chipsets on the market including Intel, AMD, nVIDIA didn't support dual-link DVI regardless of G45, 790GX, GF8300, 945G, 690G, and GF6100. I think it's their policy to protect their discrete VGA business. You just can't get every traits of discrete cousins like simultaneous DVI/HDMI digitals and have to put up with DSUB/DVI or DSUB/HDMI if you want dual monitors.
I was wondering if anyone was able to find the answers to my quesitons about the 740G chipset and Phenom?
1. Is 740G supported by AMD Overdrive tool?
2. Does Bios still show voltage option when Phenom is pluged in?
I'm really tempted by this chipset and a nice 9150e or 9550 undervolted for cluster nodes.
1. Is 740G supported by AMD Overdrive tool?
2. Does Bios still show voltage option when Phenom is pluged in?
I'm really tempted by this chipset and a nice 9150e or 9550 undervolted for cluster nodes.
That is interesting. However from what I read on that site, I understood that it does not bypass windows kernel, just uses it in a different way. On this site seems to be a very good explanation of how it works inside:npp wrote:
http://www.asio4all.com
This driver is one of my finest discoveries on the software front lately It provides ASIO support (i.e. bit-identical transport of the audio data to the soundcard, bypassing the Windows kernel, so at least any resampling there can be avoided) for virtually all modern sound devices, so it should work fine with this board's codec, too. Of course, the application you're using to play back your cds/dvds/etc. should be capable of dealing with the ASIO interface.
http://www.head-fi.org/forums/f46/asio4 ... on-221237/
And btw, I'd probably use linux in it, since my main box takes care of my occasional windows usage needs.
Sure, don't take my explanation for a scientific fact, I'm a total noob What I know is that ASIO output works for me even when the Windows Audio Service isn't started at all... And I guess it's a shortcut after all. I'll read the link thoroughly, thanks for replying.
UPDATE> Yes, the picture seems pretty bright in vista/xp, close to what I have thought... However, no idea of how Linux handles audio. I remeber reading somewhere that it's a better way.. So ASIO wouldn't be needed at all. Good luck
UPDATE> Yes, the picture seems pretty bright in vista/xp, close to what I have thought... However, no idea of how Linux handles audio. I remeber reading somewhere that it's a better way.. So ASIO wouldn't be needed at all. Good luck
I bought this motherboard (based almost solely on this report), added a 4850e with a Minja in an NSK3480 and the machine is fantastic quiet. As it was said the MOSFETs grow hot, I bought MOSFET coolers but after unboxing the motherboard I saw that there are so many little things that look MOSFETs to my eyes. Can we get a pic of which ones get hot?
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How about the PicoPSU
Mike, Lawrence,
Very interesting review and board. Got my attention for a nice home server.
Is it possible to add a little test with the PicoPSU? I'm very curious to see what this does to the power usage, idle and loaded. Maybe you have one laying around.
Regards,
Pieter
Very interesting review and board. Got my attention for a nice home server.
Is it possible to add a little test with the PicoPSU? I'm very curious to see what this does to the power usage, idle and loaded. Maybe you have one laying around.
Regards,
Pieter
GA-MA74GM-S2 Idle Power Levels
I am putting together a machine to act as a NAS, a web server, and a general number cruncher. After reading the article on the GA-MA74GM-S2, I put together a similar machine:
AMD Athlon X2 4850e
GA-MA74GM-S2H
Mushkin 2GB (2 x 1GB) DDR2 800
2 Western Digital 1TB drives (WD10EACS)
PicoPSU-120 with 12V, 8.5A Power Adapter
Zalman CNPS 8700 NT
Lian Li PC-V350B
3 PWM Arctic Cooling Case Fans
Debian Linux (Etch stable)
My hope was to put together a machine that had some power to it, but that would idle at a very low power state. My plan is to have it on 24/7, and it will spend most of its time idle. I was also hoping to keep it pretty quiet. I have installed Debian Linux, and configured the two drives in a RAID 1 configuration.
I used a Kill-A-Watt meter to measure the power consumption. After installing the OS and figuring out how to turn on the AMD cool n quiet feature in Linux, I was disappointed to see that it idled at 42W. The review configuration was able to achieve 31W, and I was hoping to get even less than that, assuming that the PicoPSU would be more efficient at the lower power levels than the 400W Seasonic power supply used in the review.
I then started playing around with the configuration to try to determine where my additional power consumption was coming from:
Idle, Complete System: 42W
Idle, 1GB RAM: 41W
Idle, 1GB RAM, 1 Drive: 35W
Idle, 1GB RAM, 1 Drive, CPU Fan only: 31-32W
I should note that I haven’t yet figured out how to throttle back the three case fans. They’re running full speed currently. Also, I had originally chained the three fans together (the Arctic Cooling fans have cables designed for this) and had them powered off the motherboard, but I later realized that the motherboard was putting out 5V instead of 12V. I unplugged that pin and connected them to the 12V off of the floppy connector. I hooked up a scopemeter to the PWM line and it wasn’t pulsing but remained constant at 2.5V (I am assuming this is the high state). I have the system Smart Fan Control set to “Enabledâ€
AMD Athlon X2 4850e
GA-MA74GM-S2H
Mushkin 2GB (2 x 1GB) DDR2 800
2 Western Digital 1TB drives (WD10EACS)
PicoPSU-120 with 12V, 8.5A Power Adapter
Zalman CNPS 8700 NT
Lian Li PC-V350B
3 PWM Arctic Cooling Case Fans
Debian Linux (Etch stable)
My hope was to put together a machine that had some power to it, but that would idle at a very low power state. My plan is to have it on 24/7, and it will spend most of its time idle. I was also hoping to keep it pretty quiet. I have installed Debian Linux, and configured the two drives in a RAID 1 configuration.
I used a Kill-A-Watt meter to measure the power consumption. After installing the OS and figuring out how to turn on the AMD cool n quiet feature in Linux, I was disappointed to see that it idled at 42W. The review configuration was able to achieve 31W, and I was hoping to get even less than that, assuming that the PicoPSU would be more efficient at the lower power levels than the 400W Seasonic power supply used in the review.
I then started playing around with the configuration to try to determine where my additional power consumption was coming from:
Idle, Complete System: 42W
Idle, 1GB RAM: 41W
Idle, 1GB RAM, 1 Drive: 35W
Idle, 1GB RAM, 1 Drive, CPU Fan only: 31-32W
I should note that I haven’t yet figured out how to throttle back the three case fans. They’re running full speed currently. Also, I had originally chained the three fans together (the Arctic Cooling fans have cables designed for this) and had them powered off the motherboard, but I later realized that the motherboard was putting out 5V instead of 12V. I unplugged that pin and connected them to the 12V off of the floppy connector. I hooked up a scopemeter to the PWM line and it wasn’t pulsing but remained constant at 2.5V (I am assuming this is the high state). I have the system Smart Fan Control set to “Enabledâ€
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rdibley --
Your WD GP drives idle at ~3W each, compared to about 1W or less for the 2.5" drive of our review. The optical drive pulls just about nothing when it's not spinning.
PWM is more energy efficient than voltage control. The latter does not change power draw compared to straight 12V to the fan. The fan slows down because the VR controller absorbs a higher proportion of the electrical energy. In fact, a VR controller + fan may pull a touch more power than just the fan alone. But each fan probably draws only a watt or so.
Keep in mind that the Killawatt's precision is not that high, at least + or -1W.
Your WD GP drives idle at ~3W each, compared to about 1W or less for the 2.5" drive of our review. The optical drive pulls just about nothing when it's not spinning.
PWM is more energy efficient than voltage control. The latter does not change power draw compared to straight 12V to the fan. The fan slows down because the VR controller absorbs a higher proportion of the electrical energy. In fact, a VR controller + fan may pull a touch more power than just the fan alone. But each fan probably draws only a watt or so.
Keep in mind that the Killawatt's precision is not that high, at least + or -1W.
High power CPU warning
Hello,
I notice that one or two of you are considering overclocking and putting high TDP CPUs in this board.
There appears to be a problem with the low 7xx chipsets supporting the high power (quad core 9850 etc) CPUs. It is not a fault of the chipset itself, but a design flaw with the board manufacturers that employ them - the on-board power supplies can't handle it.
This board DOES explicitly state that Phenom FX and Phenom x4 are compatible, but here is an article about the situation. . .
http://www.anandtech.com/mb/showdoc.aspx?i=3279&p=1
AL
I notice that one or two of you are considering overclocking and putting high TDP CPUs in this board.
There appears to be a problem with the low 7xx chipsets supporting the high power (quad core 9850 etc) CPUs. It is not a fault of the chipset itself, but a design flaw with the board manufacturers that employ them - the on-board power supplies can't handle it.
This board DOES explicitly state that Phenom FX and Phenom x4 are compatible, but here is an article about the situation. . .
http://www.anandtech.com/mb/showdoc.aspx?i=3279&p=1
AL