Holiday 2006 Shopping Guide: GPUs
by Jarred Walton on December 13, 2006 5:15 AM EST- Posted in
- Guides
Ultra Budget GPUs
Looking at the cheapest discrete graphics cards available, there are a ton of overlapping product names and it is extremely easy to get confused. Not only do you have overlapping product names, but you also have a lot of different clock speeds and architectures, making it even more difficult to determine which options are the best. We are looking to keep prices in the Ultra Budget category under $75, but we will actually look at two price brackets: cards that cost under $50 and cards that cost between $50 and $75. The less expensive cards will be good for people that just need any graphics card, either because they want a DVI port, other features not available with integrated graphics, or perhaps because they just want a good overclocking motherboard and there are more such options available if you aren't looking for IGP.
Looking at the sub $50 graphics cards, most of the least expensive options support either the Radeon X300 SE HyperMemory or the GeForce 6200 LE TurboCache graphics chip. The X300 comes with four pixel shaders and two vertex shaders - twice as many as the Radeon Xpress 1100 - and a stock clock speed of 325/400 MHz core/RAM. Nearly all of the X300 chips are going to have a 64-bit memory bus with 64MB of memory onboard and the ability to share up to 256MB of system memory. The 6200 TurboCache parts are very similar, with four pixel shaders and three vertex shaders, a 64-bit memory interface, and 64MB of onboard memory with the ability to use up to 256MB of system memory. Clock speeds are slightly faster than the ATI X300, at 350/700 core/RAM. You also get Shader Model 3.0 support with the NVIDIA parts, making them a slightly better overall option out of these two chipsets (not that they're fast enough to play any SM3.0 games anyway).
For only a few dollars more, you can also start to find the ATI Radeon X550 HyperMemory, which has 128MB of onboard memory and the ability to use up to 512MB of system memory, as well as slightly higher clock speeds relative to the X300: 400/500 core/RAM. This GPU is basically a slightly faster version of the X300 with an otherwise identical feature set. Coming closer to the $50 mark, we begin to see some of the X1300 HyperMemory cards. The good news is that not only do you get slightly faster clock speeds than the X550, but you also get SM3.0 and AVIVO support. On the NVIDIA side, the 7100 GS and the 7300 LE are both available for close to $50. The 7100 GS really isn't much better than the 6200 TurboCache, as it has the same core clock speed, but the 7300 LE improves performance slightly by running the core at 450 MHz. None of these cards are particularly fast, so if you want the absolute cheapest option we would recommend a 6200 TurboCache card, while if you are willing to pay slightly more for performance we would suggest trying to get one of the X1300 cards. The ASUS EAX1300/TD/128M would be our choice if you're trying to keep costs as low as possible but still get a bit more in the way of performance and features.
As we move up to the $75 range, we start to see 7300 GS, X1300 LE, a few older cards like the GeForce 6600 LE and 6600, and near the top of the price limit there are a few Radeon X1300 Pro and GeForce 7300 GT cards. The 7300 LE and GS are both pretty anemic when it comes to performance, and the X1300 (along with the LE and Pro variants) is definitely going to be faster. However, the 7300 GT actually turns the tables and begins to offer reasonable budget gaming performance, particularly if you get one of the factory overclocked models. For end-user overclocking, the 7300 GT is also going to be a good choice, at least relative to the X1300 Pro. There are a few games where the X1300 Pro might be a bit faster compared to the stock 7300 GT, but overall we would give the edge to the NVIDIA GPU. If you still prefer ATI hardware and are considering the X1300 Pro, you would probably be better off spending an extra $10-$15 to get an X1600 Pro instead, which will basically match the performance of the 7300 GT when looking at a large selection of games. If we stick to a strict $75 budget, however, the best of the more expensive Ultra Budget offerings would be the EVGA 256-P2-N443-LX GeForce 7300 GT for $75. That particular 7300 GT has a 64bit memory interface, however, so we would suggest spending $85 to get the factory overclocked Biostar V7302GT21 7300 GT (400/700 core/RAM) that comes with a 128bit memory bus.
Taking a quick look at the AGP side of the market, at the extreme low end of the price spectrum there are a few Xabre and Volari cards that cost under $25. We would take the Chaintech SLV3-128 Volari V3 128MB for around $28 as the cheapest AGP card with a DVI port that we can find. Just don't count on driver support and gaming compatibility being all that great. Not surprisingly, there are a lot of older GPUs still available on the AGP platform, but we wouldn't recommend most of them. Radeon 9600 parts are basically the same as the X300 PCI-E parts in terms of performance, so if you're not too demanding they might fit the bill. We would recommend staying away from the GeForce FX line as that series of GPUs never performed as well as we would like, but you can find a few GeForce 6200 and 6600 LE cards priced under $75. If you're stuck looking for a better performing AGP graphics card, you might look at trying to pick up something like a used Radeon 9800 Pro instead, rather than spending more money for less performance on a new card. If you haven't noticed already, when compared strictly on price PCI-E definitely offers more bang for the buck than AGP these days.
For those wanting a quick rundown of all of the various GPUs available in this price range, here are the standard features, clock speeds, and estimated prices. (We won't include any AGP chips in this list.) We have organized this table in order of roughly estimated increasing performance, with the slowest cards at the top. Unfortunately, there are still a lot of cards that we aren't listing, due to variations in clock speed. Missing features (i.e. SM3.0) also come into play, so don't place too much weight on the rankings. This is merely a quick look at how we see things without regards to price, and we would generally focus on the GPUs we've specifically recommended above.
Looking at the cheapest discrete graphics cards available, there are a ton of overlapping product names and it is extremely easy to get confused. Not only do you have overlapping product names, but you also have a lot of different clock speeds and architectures, making it even more difficult to determine which options are the best. We are looking to keep prices in the Ultra Budget category under $75, but we will actually look at two price brackets: cards that cost under $50 and cards that cost between $50 and $75. The less expensive cards will be good for people that just need any graphics card, either because they want a DVI port, other features not available with integrated graphics, or perhaps because they just want a good overclocking motherboard and there are more such options available if you aren't looking for IGP.
Looking at the sub $50 graphics cards, most of the least expensive options support either the Radeon X300 SE HyperMemory or the GeForce 6200 LE TurboCache graphics chip. The X300 comes with four pixel shaders and two vertex shaders - twice as many as the Radeon Xpress 1100 - and a stock clock speed of 325/400 MHz core/RAM. Nearly all of the X300 chips are going to have a 64-bit memory bus with 64MB of memory onboard and the ability to share up to 256MB of system memory. The 6200 TurboCache parts are very similar, with four pixel shaders and three vertex shaders, a 64-bit memory interface, and 64MB of onboard memory with the ability to use up to 256MB of system memory. Clock speeds are slightly faster than the ATI X300, at 350/700 core/RAM. You also get Shader Model 3.0 support with the NVIDIA parts, making them a slightly better overall option out of these two chipsets (not that they're fast enough to play any SM3.0 games anyway).
For only a few dollars more, you can also start to find the ATI Radeon X550 HyperMemory, which has 128MB of onboard memory and the ability to use up to 512MB of system memory, as well as slightly higher clock speeds relative to the X300: 400/500 core/RAM. This GPU is basically a slightly faster version of the X300 with an otherwise identical feature set. Coming closer to the $50 mark, we begin to see some of the X1300 HyperMemory cards. The good news is that not only do you get slightly faster clock speeds than the X550, but you also get SM3.0 and AVIVO support. On the NVIDIA side, the 7100 GS and the 7300 LE are both available for close to $50. The 7100 GS really isn't much better than the 6200 TurboCache, as it has the same core clock speed, but the 7300 LE improves performance slightly by running the core at 450 MHz. None of these cards are particularly fast, so if you want the absolute cheapest option we would recommend a 6200 TurboCache card, while if you are willing to pay slightly more for performance we would suggest trying to get one of the X1300 cards. The ASUS EAX1300/TD/128M would be our choice if you're trying to keep costs as low as possible but still get a bit more in the way of performance and features.
As we move up to the $75 range, we start to see 7300 GS, X1300 LE, a few older cards like the GeForce 6600 LE and 6600, and near the top of the price limit there are a few Radeon X1300 Pro and GeForce 7300 GT cards. The 7300 LE and GS are both pretty anemic when it comes to performance, and the X1300 (along with the LE and Pro variants) is definitely going to be faster. However, the 7300 GT actually turns the tables and begins to offer reasonable budget gaming performance, particularly if you get one of the factory overclocked models. For end-user overclocking, the 7300 GT is also going to be a good choice, at least relative to the X1300 Pro. There are a few games where the X1300 Pro might be a bit faster compared to the stock 7300 GT, but overall we would give the edge to the NVIDIA GPU. If you still prefer ATI hardware and are considering the X1300 Pro, you would probably be better off spending an extra $10-$15 to get an X1600 Pro instead, which will basically match the performance of the 7300 GT when looking at a large selection of games. If we stick to a strict $75 budget, however, the best of the more expensive Ultra Budget offerings would be the EVGA 256-P2-N443-LX GeForce 7300 GT for $75. That particular 7300 GT has a 64bit memory interface, however, so we would suggest spending $85 to get the factory overclocked Biostar V7302GT21 7300 GT (400/700 core/RAM) that comes with a 128bit memory bus.
Taking a quick look at the AGP side of the market, at the extreme low end of the price spectrum there are a few Xabre and Volari cards that cost under $25. We would take the Chaintech SLV3-128 Volari V3 128MB for around $28 as the cheapest AGP card with a DVI port that we can find. Just don't count on driver support and gaming compatibility being all that great. Not surprisingly, there are a lot of older GPUs still available on the AGP platform, but we wouldn't recommend most of them. Radeon 9600 parts are basically the same as the X300 PCI-E parts in terms of performance, so if you're not too demanding they might fit the bill. We would recommend staying away from the GeForce FX line as that series of GPUs never performed as well as we would like, but you can find a few GeForce 6200 and 6600 LE cards priced under $75. If you're stuck looking for a better performing AGP graphics card, you might look at trying to pick up something like a used Radeon 9800 Pro instead, rather than spending more money for less performance on a new card. If you haven't noticed already, when compared strictly on price PCI-E definitely offers more bang for the buck than AGP these days.
For those wanting a quick rundown of all of the various GPUs available in this price range, here are the standard features, clock speeds, and estimated prices. (We won't include any AGP chips in this list.) We have organized this table in order of roughly estimated increasing performance, with the slowest cards at the top. Unfortunately, there are still a lot of cards that we aren't listing, due to variations in clock speed. Missing features (i.e. SM3.0) also come into play, so don't place too much weight on the rankings. This is merely a quick look at how we see things without regards to price, and we would generally focus on the GPUs we've specifically recommended above.
Budget GPUs | |||||||
GPU | Pixel Shaders |
Vertex Shaders |
ROPs | Core Speed |
RAM Speed |
Memory Interface |
Price |
X300 SE | 4 | 2 | 2 | 325 | 400 | 64bit | $38 |
6200 TC | 4 | 3 | 2 | 350 | 700 | 64bit | $38 |
X300 LE | 4 | 2 | 2 | 325 | 400 | 128bit | $70 |
7100 GS | 4 | 3 | 2 | 350 | 667 | 64bit | $49 |
X550 HM | 4 | 2 | 2 | 400 | 500 | 64bit | $47 |
X550 | 4 | 2 | 2 | 400 | 500 | 128bit | $60 |
X700 | 8 | 6 | 4 | 400 | 700 | 128bit | $75 |
7300 LE | 4 | 3 | 2 | 450 | 667 | 64bit | $52 |
7300 GS | 4 | 3 | 2 | 550 | 800 | 64bit | $59 |
X1300 | 4 | 2 | 4 | 450 | 500 | 128bit | $52 |
6600 LE | 8 | 3 | 4 | 300 | 550 | 128bit | $66 |
X1300 Pro | 4 | 2 | 4 | 600 | 800 | 128bit | $75 |
X1600 Pro | 12 | 5 | 4 | 500 | 800 | 64bit | $85 |
7300 GT | 8 | 4 | 4 | 350 | 667 | 128bit | $75 |
51 Comments
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Jodiuh - Wednesday, December 13, 2006 - link
The FR bought release day from Fry's had a 39C transistor and hit 660/1000. The AR ordered online last week has a 40C transistor and hits 630/1000. It may not be quite as fast, but I'll be keeping the newer AR w/ the 40C transistor...comforts me at night. :DJodiuh - Thursday, December 14, 2006 - link
Reply from EVGA!Jod,
AR= Etail/Retail RoHS compliant
FR= Frys Retail RoHS compliant
All of our cards had the correct transistor value when shipped out.
Regards,
munky - Wednesday, December 13, 2006 - link
Again, this is completely wrong. The major difference between the x1800 and x1900 cards is that the x1900's have 3 pixel shaders per "pipe", whereas the x1800's only have one. If anything, the x1900 pipes are more powerful.
evonitzer - Wednesday, December 13, 2006 - link
Akin to my comment above, quads are the thing these days, so the 1900 series has 4 pixel shaders per pipe. And if you go back to the original article when the 1900 was released, you'll see that the whole architecture is closer to 4 x1600's than 3 x1800's, either of which would result in the 48 shaders that we see. I recommend you read the first few pages of the debut article, but I think we can agree that the shaders in the x1800 were probably more potent than the ones in the 1600, so the 1900 is probably a little wimpier per shader than the 1800. However, it has 3 times as many, so it's better.Also the comment was probably intended to dissuade people from assuming that the 1900 would be 3 times better than the 1800, and that there is a difference of architectures going on here.
JarredWalton - Wednesday, December 13, 2006 - link
Ding! That was a main point of talking about the changes in architecture. In the case of the X1650 XT, however, double the number of pixel shaders really does end up being almost twice as fast as the X1600 XT.
I also added a note on the page talking about the G80 mentioning that they have apparently taken a similar route, using many more "less complex" shader units in order to provide better overall performance. I am quite sure that a single G80 pixel shader (which of course is a unified shader, but that's beside the point) is not anywhere near as powerful as a single G70 pixel shader. When you have 96/128 of them compared to 24, however, more definitely ends up being better. :-)
munky - Wednesday, December 13, 2006 - link
The 7600gt is 12 pipes. The x1650xt is 8 pipes with 3 pixel shaders each. You may want to rethink the statement quoted above.
evonitzer - Wednesday, December 13, 2006 - link
What he meant were "pixel shaders", which seem to be interchanged with pipelines quite often. If you look on the table you'll see that the x1650xt is listed as having 24 pixel pipelines, and the 7600gt has 12 pixel pipelines, when they should read shaders instead.Also quads seem to be the thing, so the 7600 gt probably has 3 quads of shaders, and the 1650 has twice that with 6 quads. Pixel shaders, to be more exact.
JarredWalton - Wednesday, December 13, 2006 - link
I have changed references from "pixel pipelines" to "pixel shaders". While it may have been a slight error in semantics to call them pipelines before, the basic summary still stands. ATI needed more pixel shaders in order to keep up with the performance and video was offering, indicating that each pixel shader from ATI is less powerful (overall -- I'm sure there are instances where ATI performs much better). This goes for your comment about X1800 below as well.Spoelie - Wednesday, December 13, 2006 - link
why does nvidia always gets replaced to "and video" in your texts? here and in the article :)JarredWalton - Wednesday, December 13, 2006 - link
Speech recognition does odd things. I don't proof posts as well as I should. :)