Overclocking Results
It is important to state that in all cases we are using the stock retail heatsinks (except with the simulated X2 3800+, which used a Zalman CNPS9500). Again, adding a nice aftermarket cooling solution might improve overclocking results a bit, but for the extra $30-$50 you could simply upgrade to a faster processor instead. Here are the overclocking results we achieved as well as the settings that were used. We tried for 100 MHz increments on the CPU overclock, so if we could get a system running at 2.5 GHz but not 2.6 GHz, we stopped at 2.5 GHz. With additional time and effort, we could improve the final results and increase performance a few percent, but searching for the elusive last 3%-5% is beyond the scope of this article. (CPU speeds are approximate to within 10 MHz -- slight differences between the specified bus speed and the actual bus speed can affect clock speed slightly.)
Starting with the percent overclocks achieved, the two Sempron offerings tie for first place with a 39% overclock when using the budget motherboards (we were able to get a 50% overclock with the Sempron AM2 using the Gigabyte nForce 590 SLI motherboard), while the Pentium D 805 falls behind with "only" a 35% overclock. However, getting a 35% overclock out of a budget dual core platform is in some ways more impressive than a 40% overclock of a single core CPU. If you happen to run applications that take advantage of multiple processors, you can probably already guess that the Pentium D 805 is going to easily beat anything that the two Sempron platforms can put up in SMP-aware benchmarks. It's also important to note that the Pentium D would actually load Windows at 3.8 GHz and POST at up to 4.0 GHz. Better cooling (and a better power supply) would have almost certainly allowed a higher overclock, but as mentioned for the price you may as well start with a better CPU.
The Sempron systems were far less likely to POST at higher overclocks, at least with the budget motherboards. The Biostar TForce AM2 motherboard in particular hit a brick wall with a HyperTransport bus speed of 280 MHz; below that it would POST, but above that it required the use of the CMOS clear jumper to get the motherboard back online. Given our experience with other AM2 motherboards, we would venture to guess that a BIOS update could improve the Biostar motherboard. However, we are currently using the latest Biostar TForce 550 BIOS, and the motherboard has been available for about six weeks now. Hopefully, Biostar will release an improved BIOS for the motherboard that addresses performance and overclocking, but we don't make purchase recommendations based on hope.
In terms of ease of overclocking, the Biostar TForce4U-775 was actually the most difficult system to deal with. The difficulty wasn't so much in actual capability, but more in terms of understanding the BIOS options. We ended up using "expert" mode for the bus and memory settings, then we specified a front side bus value of 720 MHz and a memory speed of 540-720 MHz dependent on which memory was used. CPU-Z doesn't always report the correct memory speed on the motherboard, which caused some confusion on our part. For example, the 720 FSB speed and 720 MHz memory speed shows up in CPU-Z as a 1:1 memory ratio and a 360 MHz memory speed. However, benchmarks confirm that the memory is indeed running at a 1:2 ratio.
So now we've set the stage with the processors used and the overclocks achieved. Let's find out how things shake down in the actual benchmarks. We have run most of our typical motherboard benchmarks, and all benchmarking was conducted at 1280x1024 resolution with settings appropriate for a midrange graphics card, with the exception of 3DMark03/05 which were run at the default 1024x768.
It is important to state that in all cases we are using the stock retail heatsinks (except with the simulated X2 3800+, which used a Zalman CNPS9500). Again, adding a nice aftermarket cooling solution might improve overclocking results a bit, but for the extra $30-$50 you could simply upgrade to a faster processor instead. Here are the overclocking results we achieved as well as the settings that were used. We tried for 100 MHz increments on the CPU overclock, so if we could get a system running at 2.5 GHz but not 2.6 GHz, we stopped at 2.5 GHz. With additional time and effort, we could improve the final results and increase performance a few percent, but searching for the elusive last 3%-5% is beyond the scope of this article. (CPU speeds are approximate to within 10 MHz -- slight differences between the specified bus speed and the actual bus speed can affect clock speed slightly.)
| AMD Sempron 754 System | ||
| Stock Setting | Overclocked Setting (39%) | |
| HyperTransport Speed | 200 MHz | 278 MHz |
| HyperTransport Multiplier | 5X | 3X |
| CPU Multiplier | 9X | 9X |
| CPU Speed | 1800 MHz | 2500 MHz |
| Memory Ratio | DDR-400 | DDR-400 |
| Actual Memory Speed | DDR-400 | DDR-556 |
| Memory Timings | 2-3-2-10-2T | 2.5-3-3-10-2T |
| CPU Voltage | 1.350 V | 1.550 V |
| Memory Voltage | 2.800 V | 2.800 V |
| AMD Sempron AM2 System | ||
| Stock Setting | Overclocked Setting (50%) | |
| HyperTransport Speed | 200 MHz | 300 MHz (278 MHz Biostar) |
| HyperTransport Multiplier | 5X | 4X |
| CPU Multiplier | 9X | 9X |
| CPU Speed | 1800 MHz | 2700 MHz (2500 MHz Biostar) |
| Memory Ratio | DDR2-800 | DDR2-533 |
| Actual Memory Speed | DDR2-720 | DDR2-772 (DDR2-714 Biostar) |
| Memory Timings | 4-4-4-12-2T | 4-4-4-12-2T |
| CPU Voltage | 1.350 V | 1.550 V |
| Memory Voltage | 2.100 V | 2.100 V |
| Intel Budget System | ||
| Stock Setting | Overclocked Setting (35%) | |
| Front Side Bus Speed | 533 MHz | 720 MHz |
| CPU Multiplier | 20X | 20X |
| CPU Speed | 2667 MHz | 3600 MHz |
| Memory Ratio | DDR2-667 (2:5) | DDR2-720 (1:2) |
| Actual Memory Speed | DDR2-667 | DDR2-720 |
| Memory Timings | 4-4-4-12-2T | 4-4-4-12-1T |
| CPU Voltage | 1.125 V | 1.400 V |
| Memory Voltage | 2.100 V | 2.100 V |
| Simulated AMD X2 3800+ AM2 System | ||
| Stock Setting | Overclocked Setting (30%) | |
| HyperTransport Speed | 200 MHz | 260 MHz |
| HyperTransport Multiplier | 5X | 5X |
| CPU Multiplier | 10X | 10X |
| CPU Speed | 1800 MHz | 2600 MHz |
| Memory Ratio | DDR2-800 | DDR2-533 |
| Actual Memory Speed | DDR2-720 | DDR2-650 |
| Memory Timings | 4-4-4-12-2T | 4-4-4-12-1T |
| CPU Voltage | 1.350 V | 1.500 V |
| Memory Voltage | 2.100 V | 2.100 V |
Starting with the percent overclocks achieved, the two Sempron offerings tie for first place with a 39% overclock when using the budget motherboards (we were able to get a 50% overclock with the Sempron AM2 using the Gigabyte nForce 590 SLI motherboard), while the Pentium D 805 falls behind with "only" a 35% overclock. However, getting a 35% overclock out of a budget dual core platform is in some ways more impressive than a 40% overclock of a single core CPU. If you happen to run applications that take advantage of multiple processors, you can probably already guess that the Pentium D 805 is going to easily beat anything that the two Sempron platforms can put up in SMP-aware benchmarks. It's also important to note that the Pentium D would actually load Windows at 3.8 GHz and POST at up to 4.0 GHz. Better cooling (and a better power supply) would have almost certainly allowed a higher overclock, but as mentioned for the price you may as well start with a better CPU.
The Sempron systems were far less likely to POST at higher overclocks, at least with the budget motherboards. The Biostar TForce AM2 motherboard in particular hit a brick wall with a HyperTransport bus speed of 280 MHz; below that it would POST, but above that it required the use of the CMOS clear jumper to get the motherboard back online. Given our experience with other AM2 motherboards, we would venture to guess that a BIOS update could improve the Biostar motherboard. However, we are currently using the latest Biostar TForce 550 BIOS, and the motherboard has been available for about six weeks now. Hopefully, Biostar will release an improved BIOS for the motherboard that addresses performance and overclocking, but we don't make purchase recommendations based on hope.
In terms of ease of overclocking, the Biostar TForce4U-775 was actually the most difficult system to deal with. The difficulty wasn't so much in actual capability, but more in terms of understanding the BIOS options. We ended up using "expert" mode for the bus and memory settings, then we specified a front side bus value of 720 MHz and a memory speed of 540-720 MHz dependent on which memory was used. CPU-Z doesn't always report the correct memory speed on the motherboard, which caused some confusion on our part. For example, the 720 FSB speed and 720 MHz memory speed shows up in CPU-Z as a 1:1 memory ratio and a 360 MHz memory speed. However, benchmarks confirm that the memory is indeed running at a 1:2 ratio.
So now we've set the stage with the processors used and the overclocks achieved. Let's find out how things shake down in the actual benchmarks. We have run most of our typical motherboard benchmarks, and all benchmarking was conducted at 1280x1024 resolution with settings appropriate for a midrange graphics card, with the exception of 3DMark03/05 which were run at the default 1024x768.
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mariush - Thursday, July 13, 2006 - link
88.7 CPU AMD Sempron 3100+67.2 MB Asus K8N4-E-SE
45.2 512Mb DDRAM 400MHz Samsung
85.1 250 GB Maxtor 16Mb SATA II 300 6V250F0 DiamondMax 10 with NCQ
41.9 ASUS DRW-1608P3S
86.1 ASUS EN6600-SILENCER/TD/128
26.3 400 W Generic case
That would be budget.. $440 plus taxes.. and runs any game currently on the market.
JarredWalton - Thursday, July 13, 2006 - link
Runs or runs well? 7600 GT is going to be about 75% faster in GPU-limited benches. 512MB of RAM "runs any game" sure - but some games suck with less than 1GB. Actually, a lot of games suck with only 512MB RAM. Look up about 4 posts for my budget recommendations. Either you don't care about gaming (get IGP), or gaming is important (get at least 7600 GT). Anything else is basically limping along.Kougar - Thursday, July 13, 2006 - link
Thanks for another great article! Really appreciated this one as it answered my Sempron vs 805 vs X2 3800+ curiosity that'd been growing, using the 7600GT no less! No component nitpicking from here! ;)Since ya brought up the E6300, I just wanted to ensure y'all had seen this website that has a authentic 2mb cache version, that included some very lovely benchmarks and even added some E6300 @ 2.4ghz benchmarks to boot. I can't say the revision number of the chip used though to gauge if this was a newer or older not quite as OC-able chip. Er, if I didn't say so before, it's in French, but that's what Google is for! http://www.matbe.com/articles/lire/306/merom-et-co...">Linky
Oh, and I guess while on the subject... NDA lifts for y'all tomorrow right?? ;)
JarredWalton - Thursday, July 13, 2006 - link
Yup. Tomorrow is the big day. :)Paladin165 - Wednesday, July 12, 2006 - link
Jarred, thanks for the guide. It was just what I needed. However I do think it might be interesting to do a kind of "below-budget" guide. Find the cheapest possible system that still runs XP reliably, and uses new, off-the-shelf parts to do it. I do feel like anandtech focuses too much on rather high-end parts. I have to plead with my wife for any part over $50!I mean when you say budget gaming you really mean budget cutting-edge gaming. Don't forget that every game worth playing wasn't made last year...there are thousands of games out there that the integrated GeForce 6100 or 6150 handles fine. Many of these are better than current games, after all there are only one or two really classic games released every year. The only star game on metacritic right now is Oblivion.
I'd like to see what kind of computer you could buy today for $200 or $300 total.
JarredWalton - Thursday, July 13, 2006 - link
Not sure you can really get under $300 without making some serious compromises. I insist on:1GB RAM
DVDR
Everything else is up for change. So let's see....
Socket AM2:
http://labs.anandtech.com/alllinks.php?pfilter=477...">ECS Xpress 300 CrossFire RS485M-M $62
http://labs.anandtech.com/alllinks.php?pfilter=460...">AMD Sempron 3000+ 256KB Manila (1.6 GHz) $62
http://labs.anandtech.com/alllinks.php?pfilter=435...">G.Skill PC-4200 2x512MB Extreme NT $75
http://labs.anandtech.com/alllinks.php?pfilter=436...">BenQ 16X DW1650 $33
http://labs.anandtech.com/alllinks.php?pfilter=172...">Hitachi SATA 3.0Gbps 80GB Deskstar 7K80 $48
http://www.newegg.com/Product/Product.asp?Item=N82...">Generic Linkworld Case + 430W PSU $37
TOTAL = $317
Alternative AM2 Parts:
http://labs.anandtech.com/alllinks.php?pfilter=482...">ECS nForce 410 GeForce 6100 C51GM-M $72
http://labs.anandtech.com/alllinks.php?pfilter=435...">G.Skill PC-5300 2x512MB Extreme LA $85
Socket 754:
http://labs.anandtech.com/alllinks.php?pfilter=418...">MSI nForce 410 GeForce 6100 K8NGM-V $62
http://labs.anandtech.com/alllinks.php?pfilter=293...">AMD Sempron 64 2800+ 256KB Palermo (1.6 GHz) $56
http://labs.anandtech.com/alllinks.php?pfilter=433...">G.Skill PC-3200 1024MB Value NT $84
http://labs.anandtech.com/alllinks.php?pfilter=436...">BenQ 16X DW1650 $33
http://labs.anandtech.com/alllinks.php?pfilter=172...">Hitachi SATA 3.0Gbps 80GB Deskstar 7K80 $48
http://www.newegg.com/Product/Product.asp?Item=N82...">Generic Linkworld Case + 430W PSU $37
TOTAL = $320
Socket 775:
http://labs.anandtech.com/alllinks.php?pfilter=425...">MSI Xpress 200 RC410M-L $68
http://labs.anandtech.com/alllinks.php?pfilter=438...">Intel Pentium D 805 533FSB 2x1MB $114
http://labs.anandtech.com/alllinks.php?pfilter=435...">G.Skill PC-4200 2x512MB Extreme NT $75
http://labs.anandtech.com/alllinks.php?pfilter=436...">BenQ 16X DW1650 $33
http://labs.anandtech.com/alllinks.php?pfilter=172...">Hitachi SATA 3.0Gbps 80GB Deskstar 7K80 $48
http://www.newegg.com/Product/Product.asp?Item=N82...">Generic Linkworld Case + 430W PSU $37
TOTAL = $375
Alternative 775 Parts:
http://labs.anandtech.com/alllinks.php?pfilter=220...">Intel Pentium D 820 800FSB 2x1MB $109 After Rebate ($146 otherwise)
http://labs.anandtech.com/alllinks.php?pfilter=435...">G.Skill PC-5300 2x512MB Extreme LA $85
I spent much more on the Pentium D setup (relatively speaking), but that second CPU core can be extremely helpful. Even without OC'ing, the PD805 is definitely faster than just about any Sempron chip. Run Folding@Home for example, and you can get upwards of 400 PPD compared to about 200 PPD for Sempron chips. However, these are all just general picks and not something I've actually tested or benchmarked. Maybe some of the mobos suck - I don't really know for sure. At $317, the AM2 is a nice pick. No sense in getting 754 for $3 more. $375 for the PD805 system is also quite nice, for a dual core config.
jonp - Wednesday, July 19, 2006 - link
Question:For Socket 775 you list the MSI Xpress 200 RC410M-L motherboard. Neither NewEgg nor MSI show this board compatible with a Pentium D processor. Will the Dual Core Intel Pentium D 805 actually run on this motherboard?
http://www.newegg.com/Product/Product.asp?Item=N82...">http://www.newegg.com/Product/Product.asp?Item=N82...
http://www.msicomputer.com/product/p_spec.asp?mode...">http://www.msicomputer.com/product/p_spec.asp?mode...
JarredWalton - Wednesday, July 19, 2006 - link
That's the problem with trying to cut costs. :| Apparently I screwed up (since this was a quicker post than I'd use for article recommendations). So swap out the MSI board for...Hell, let's go with the ASRock Core 2 compatible model. :) (If you want to overclock, probably go elsewhere!)
http://www.newegg.com/Product/Product.asp?Item=N82...">ASRock 775Dual-VSTA ($64)
I'm stuck looking for an IGP solution for socket 775 that will support Pentium D. Looks like you might need to get a discrete GPU or else stick with Intel 945G chipsets.
midfield - Monday, July 24, 2006 - link
Thanks for the review and comments.I'm wondering if you'd make recommendations on a motherboard for socket 775 which has more SATA ports, or a SATA controller card, and also a full tower case. I'd like to build an OpenSolaris+ZFS disk array server for the home.
Viditor - Monday, July 17, 2006 - link
I'm surprised you didn't include the Asus M2NPV-VM (AM2) in the build...Raid 5 (as well as the usual 0/1/10)
Dual Head (both VGA and DVI) output
HDTV audio and video including RGB
nVidia 6150 graphics
Firewire
GBE
All for under $90...