Core Component Summary

As we have up to now listed entire system configurations, we won't bother summarizing the systems again. Instead, we will do the reverse and list the various components and price segments of each component, including the alternatives that we have listed throughout the article. As long as you make sure that the CPU, RAM and motherboard choices match up, you can use this page as a summary of potential components and piece together your own dream system.

Our RealTime Pricing Engine is also available for those seeking additional options in each category. We have been working on improving the search capabilities, so give it a shot if you haven't yet! We have linked in several searches into the tables below to help out.

We begin with the core components relative to gaming: the motherboard, processor, RAM and video card. Your choice of motherboard will determine your platform - i.e. what type of CPU, RAM and video card you can use - but there are still many levels of performance within each platform.

Motherboards
Target Segment Component Price
Budget Chaintech VNF-250 (754) (Socket 754 Components) 71
Budget+ Abit AV8 (939) (Socket 939 Components) 101
Mid-Range DFI 915P-TAG i915P (Socket 775 Components) 118
Mid-Range Abit AG8 i915P Chipset 129
Mid-Range MSI K8N Neo2 Platinum 131

Starting with the motherboard, in the budget bracket, we have socket 754 coming in with the lowest price of $71. There are some other motherboards that are slightly cheaper, but reliability is a concern with most of them, so we opt instead to spend the extra $10 to $15. Coming in at a slightly higher price is the Abit AV8 socket 939 motherboard. With dual-channel memory support, the platform will outperform a socket 754 setup clock for clock; however, the additional cost of the motherboard, CPU, and dual DIMMs is outweighed by the option to simply purchase a faster socket 754 processor - at least, this is true in the budget segment. We've already talked about the performance advantage that AMD has over Intel in processors, but the Intel chipsets are still some of the best and they are reasonably priced. At the top end, we have the socket 939 motherboards. You'll notice that there really aren't any "high-end" parts that we would recommend. $200+ motherboards do exist, but they don't offer enough in the way of additional features to make us recommend them. That should change once the NForce4 SLI and other dual-PEG (PCI Express Graphics) boards start shipping.

Processors
Target Segment Component Price
Budget AMD Athlon 64 2800+ 512K 1.8 GHz (754) (AMD socket 754) 127
Budget AMD Athlon 64 3000+ 512K 2.0 GHz (754) (AMD socket 939) 146
Budget+ Pentium 4 520 2.8 GHz 1MB Cache (Intel socket 775) 158
Budget+ AMD Athlon 64 3000+ 512K 1.8 GHz (939) 90nm 166
Budget+ Pentium 4 530 3.0 GHz 1MB Cache 171
Budget+ AMD Athlon 64 3200+ 512K 2.2 GHz (754) 189
Mid-Range AMD Athlon 64 3200+ 512K 2.0 GHz (939) 90nm 216
Mid-Range Pentium 4 540 3.2 GHz 1MB Cache 218
Mid-Range AMD Athlon 64 3400+ 512K 2.4 GHz (754) 219
Mid-Range Pentium 4 550 3.4 GHz 1MB Cache 277
Mid-Range AMD Athlon 64 3500+ 512K 2.2 GHz (939) 90nm 285
High-End+ AMD Athlon 64 FX-55 1MB 2.6 GHz (939) 877

You can see the price scaling compared to performance quite well here. Socket 939 chips generally outperform their socket 754 clockspeed counterparts by 5% to 10%, but you can see that the socket 754 parts are still significantly cheaper. For instance, the 939 3000+ runs at 1.8 GHz and sits in between the 754 3000+ 2.0 GHz and the 754 3200+ 2.2 GHz in price. For games, it's also right in between those two chips - at least when paired with dual-channel RAM. When every penny counts, we'll stick with 754 for the budget system, but saving up the extra $75 to upgrade might be a better idea. In the mid-range, where price/performance isn't the overriding concern, socket 939 clearly wins out. The dual-channel memory roughly matches the performance of the higher clocked 754 parts, and the 90 nm chips improve it with an additional few percent in performance. At the high end, we feel that the FX-55 is the only option truly worth considering. If you feel that the price is too much for that level of performance, the same can be said of the 3800+ and 4000+. The 3800+ is double the cost of the 3500+ and is only clocked 200 MHz faster, while the 4000+ doubles the L2 cache to 1 MB. Together, these only add 10% to 20% to the performance of the processor.

Video Cards
Target Segment Component Price
Budget+ XFX GeFORCE 6600GT 128 MB PCIe (NVIDIA 6600 Series) 178
Budget+ ATI X700 Pro 250 PCIe (ATI X700 Series) 189
Budget+ Sapphire Radeon 9800 Pro 128 MB 256-bit AGP (ATI 9800 Series) 196
Mid-Range XFX GeForce 6600GT AGP 128 MB 229
Mid-Range Leadtek GeFORCE 6800 128MB GDDR AGP (NVIDIA 6800 Series) 273
Mid-Range+ Albatron GeFORCE 6800 GT 256MB GDDR3 AGP 374
High-End ATI X800 Pro VIVO PCIe (ATI X800 Series) 449
High-End Gigabyte X800 XT 256 MB GDDR3 AGP 456
High-End XFX 6800 GT 256 MB GDDR3 PCIe 456
High-End eVGA 6800 Ultra 256 MB GDDR3 AGP 524
High-End Sapphire X800 XT PE 256 MB GDDR3 AGP 555
High-End+ Two XFX 6800 GT 256 MB GDDR3 PCIe (SLI) 912

Graphics cards are an interesting phenomenon among computer components right now. Unlike processors and motherboards where the price can double for only small improvements in performance and/or features, video card performance scales almost linearly with price. In fact, the PCI Express 6600GT is actually faster and/or cheaper than the comparable AGP parts. The X700 Pro is also an option, but we feel that the increased RAM and core speeds of the 6600GT are preferable to the additional RAM. As this is the most important component in a gaming rig, we suggest that you spend as much money as possible on this component. Anyone seriously considering waiting for SLI components to ship should take a look at our reality check. Assuming the parts are SLI compliant and not counting the additional cost of the SLI-capable motherboard, two of the cheapest 6800 GT PCI Express parts currently cost over $900. Two 6600 GT cards in SLI would be a lot less expensive, but our early testing showed that the 6600GT in SLI was only able to match the performance of a single 6800 GT at best. SLI does have the potential to nearly double your GPU performance, but you'll need to shell out a lot of money for it when it first launches.

Memory
Target Segment Component Price
Budget 1x512MB Mushkin Basic 2.5-4-4 (512 MB PC3200 RAM) 75
Mid-Range Mushkin Dual Pack 2x512 PC3200 2.5-3-3 159
Mid-Range 2x512MB PDP Systems (Patriot) PC3200 2-3-2 1T 192
High-End 2x512MB Crucial Ballistix 2-2-2 1T 262
High-End 2x512MB OCZ Platinum Rev. 2 PC3200 2-2-2 1T 275

Notably absent from our RAM recommendations are any DDR2 parts. Perhaps in another 3 to 6 months, prices will have come close enough to parity with DDR that we will begin recommending DDR2; but for now, low latency DDR outperforms the best DDR2 and still costs less. The fact that DDR2 is at present an Intel-only option doesn't help matters. For the small increase in performance that lower timings provide, more RAM is a much better choice for the budget and mid-range segments. For overclockers and performance enthusiasts, though, low latency RAM is the way to go. The fastest 2-2-2 PC3200 may only be 5% to 10% faster than the slowest PC3200 RAM, but then the FX-55 is only 5% to 10% faster than the 3800+ and costs several hundred dollars more.

For those looking at the budget system and wondering which upgrades would provide the most tangible benefit, we would recommend them in the following order of increasing performance. First GPU, then CPU, and lastly, RAM. (Motherboards generally don't vary all that much in performance, so the only real benefit is the additional features like Firewire and RAID that come on the more expensive models.) Here is our reasoning on the upgrade importance:

First, graphics cards are usually the most expensive component in any gaming system, but they also have the largest impact in most games. They don't really hold their value too well either, so if you purchase a 9800 Pro and decide it's too slow, you'll be looking at $250+ to upgrade to something faster and you may only get about half of your investment in your original card back. It's better to start with a 6800 or 6800 GT if you can afford the extra cost.

The same goes for processors, although they cost less than graphics cards. If you buy a 2800+ and find it to be somewhat sluggish, you'll end up with an extra CPU - which you can try to sell - and a faster model can cost over $200. The AMD 3200+ to 3500+ is the sweet spot in terms of price/performance, which is what we recommend shooting for when possible. Note that for some game types like flight simulators, the CPU can be more of a bottleneck than the GPU, so if you play more simulations than first-person shooters, take that into consideration.

Finally, we have the memory. Unlike GPUs and CPUs, RAM can be upgraded at any point in the future with no loss in investment. You can start with 512 MB in single channel mode and then upgrade to 1 GB and dual-channel mode when you have the funds available - at least on socket 939 and 775. Unfortunately, additional RAM is less likely to help performance, particularly after you pass the 1 GB mark.

Taken together, these upgrades would push the price of the budget system to $1000 or more. If you feel the Mid-Range system is too expensive, however, taking these four parts from the Mid-Range and sticking with the remainder of choices on the Budget system is a good compromise. Overclocking would also be a way to improve performance, but you would want better RAM for that - you might look at the PDP (Patriot) 2-3-2 PC3200 RAM, as people have reported overclocks in the 230 to 250 MHz bus range with relaxed timings and it only costs about $20 more than the Mushkin RAM that we've recommended. Your mileage may vary, of course, and we won't dwell on this much more as this is not intended to replace the Overclocking Guide.

Those looking at our high-end parts as a list of potential upgrades would be in a similar situation, only that we would focus more on the graphics card than the CPU and RAM. If you're looking for the ultimate in graphics performance, waiting for SLI is still the best advice even though it adds $500 to the mid-range system. The CPU is overkill for all, but the wealthiest (or most serious) gamers, but so is SLI. SLI shifts the bottleneck so far towards the CPU that only those who run 1600x1200 with 4xAA and 8xAF will realize its full potential, and some games will still be bottlenecked by the CPU. For serious overclocking, the high-end RAM that we've listed would be a good upgrade, especially when paired with one of the 90 nm processors.

Miniature Gaming Summary of Other Components
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  • Arkali - Tuesday, November 23, 2004 - link

    For Intel gaming you should have picked the new AOPEN socket 479 855GME motherboard and a Dothan processor.
  • Glassmaster - Monday, November 22, 2004 - link

    #30 Doesn't look like they are going to defend their PSU recommendations. I just want to know if they actually build and stress test these systems with the Generic PSUs to make sure their recommended systems really are reliable.

    Glassmaster.
  • Live - Monday, November 22, 2004 - link

    I like the format of this guide. I think the guides in general has been a great addition to Anandtech.

    To bad PCI-e motherboards is not out yet. Since the sli previews are not out in force yet I'm still not 100% sure if its something you want on your motherboard for more upgradability but it sure looks like it is not. Too expensive both in terms of motherboard and the 2 cards. But for a gamer, investing in anything else then PCI-e seems like a bad move. Unless you like to buy second-hand. I bet a lot of AGP cards will soon be available on the market as the high end crowd switches to the latest.
  • mldeveloper - Monday, November 22, 2004 - link

    i like the format of this guide, since i always jumped to the end to see the final price breakdown anyway.
  • nurazlanshah - Monday, November 22, 2004 - link

    is the a big difference in fps between 128mb and 256mb for a same graphic card?
  • deathwalker - Monday, November 22, 2004 - link

    Jarod...great writeup. Ignore all the sniping. It's a tough job doing a article like this and sometimes there just aren't any absolute rights and wrongs. Somepeople just like to pipe-off and be heard.
  • AaronAxvig - Monday, November 22, 2004 - link

    #15 I think if you really wanted maximum performance for a LOT of money, you would go with RAIDed SCSI. Very fast, no?
  • Momental - Monday, November 22, 2004 - link

    Fantastic article, Trog......I mean Jarrod. ;)

    I was considering going the SLI route with (2) two 6600GT's, but then realized that the performance is identical to that of one 6800GT. And who wants to take the chance of one of the GPU's defecating the bed? Additionally, the cost of the SLI-capable board ain't gonna be cheap. I will, however, wait for the VIA and nVidia PCI-e boards to become available before finally building a new system.

    The only thing I might change from the mid-range system is to put in the lower latency RAM, such as the OCZ Plat Rev. 2 or the Ballistix. Pop on a good aftermarket HSF on the CPU and we're good to go!!
  • gilkman - Monday, November 22, 2004 - link

    Very nice article. It's been a few years since my last homebuilt but with the new games it's def time to upgrade. I like the format of this article. It gives me a few more options and insight compared to the similar guides they have over at sharkeyextreme.com

    I am def looking at high end parts to put together and I was very interested in the Dell 20 inch widescreen LCD - Does anyone have any comments on using a widescreen LCD for games? The Dell widescreen has 16MS refresh and high resolutions, and I know that HL2 will support widescreen play, but what about other modern games like RTS's and RPG's? Is it safer to stick with a 4:3 screen?
  • SDA - Monday, November 22, 2004 - link

    Looks good, but I object to using a cheap PSU for a lot of the systems. It's worth the small amount of extra money you pay to get a better PSU... a TON of the problems I've seen in DIY systems resulted from cheapo PSUs that couldn't deliver enough power or simply couldn't deliver clean enough power. Cheap PSU = false savings, IMHO. There are plenty of good PSUs out there for cheap (TTGI, CWT aka Antec).

    And yeah, sure, the budget rigs don't stress the PSU much. I still hold that you shouldn't go generic. Having looked inside a lot of generic PSUs, I can safely say that I wouldn't ever want to see one in ANY system I build.

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