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Sapphire's Ultimate HD4670 512MB GDDR3 tested

by on09 February 2009

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Review: A passive graphics card with enough gaming muscle

 

Back when the HD 4670 was launched, Sapphire was the first company whose cards we’ve found in retail, and so far, Sapphire managed to launch a couple of cards, one of which is passively cooled. Everyone had high expectations for the HD 4670, especially after rave reviews the HD 4800 generation has received. It was priced at $79/€69, and the price hasn’t changed since.

This card is based on the same architecture as the already famous HD 4870/HD 4850 cards, but it’s aimed at a lower segment, for those seeking for a sub-€100 card. The new architecture brought about a couple of improvements over the previous generation, most notably bad antialiasing gaming performance.

Radeon HD 4670 card has a tough task of proving its worth in a quite densely populated sub-€100 segment. Proving its dominance over the Geforce 9500GT isn’t quite a tough task, but its true adversary is the Geforce 9600GSO, as it costs only a couple of Euros more than the HD 4670 GDDR3. These cards in most cases run neck to neck, but 9600GSO’s couple of Euros more bring a couple of frames more as well. In today’s test, this will be the battle to behold.

Two HD 4670 cards were announced, and they’re different from each other in terms of memory speeds and quantity, and thus in bandwidth. One comes with 1GB of memory running at 900MHz and packing a bandwidth of 28.8GB/s, whereas the other one features a 512MB of memory at 1000MHz. The memory speed on the 512MB version results in a higher bandwidth totaling at 32GB/s.

Apart from the aforementioned HD 4670 cards, another RV730 based card hit the market – the HD 4650. This card, however, uses the GDDR2 memory clocked at 500MHz (1000MHz effectively) and runs slower, at core speed of 600MHz. Note that all the HD 46xx cards are stuck with the 128 bit memory interface.

Unlike the RV730 cards, Nvidia Geforce 9600 GSO (formerly known as 8800 GS) features the 192-bit memory interface, which coupled with 384MB of GDDR3 memory running at 800MHz (1600MHz effectively) enables it to score a higher bandwidth (38.4GB/s) than that of HD 4670 cards.

HD 4670’s cores run at 750MHz, and they’re codenamed RV730XT. It features 320 stream processors, whereas the top Radeon HD 4000 cards come with a total of 800 stream processors.

The Sapphire HD 4670 Ultimate card we’re looking at today comes with 512MB of GDDR3 memory, but it’s the total silence that separates it from the pack. Sapphire achieved it by using a dual-slot passive cooler that does a great job. Despite being dual-slot, the most important thing is that the card is inaudible, and the following photo shows it in all its glory.

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However, Sapphire UltimateHD4670 512MB GDDR3 PCI-E HDMI/DVI-I/VGA can be considered a single slot card too, since the cooler on the back of the card, if placed in the first slot, won’t obstruct access to the next one. However, this is only the case if there’s no other slots before the first PCI-Express slot on the motherboard, otherwise you can kiss the one next to the graphics card goodbye. It’s not uncommon for cards with a passive cooler on the back of the card to sometimes reach some overly large chipset or CPU coolers, but it’s not a frequent occurrence either.

It’s more likely however to encounter trouble with memory of non-standard height (such as OCZ Reaper Series) on motherboards that don’t have enough space between the memory slots and PCI-Express slots. We personally experienced this using Sapphire’s HD 3850 Ultimate and OCZ Reaper’s memory on Nvidia’s 680i motherboard.

However, you’ve nothing to worry about when using Sapphire HD 4670 Ultimate card, due to it not being as lengthy and featuring an elevated cooler on the back of the card.

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One of the things we’ve come to appreciate on the cards is an integrated HDMI connector. Many partners offer it via the DVI-to-HDMI converters, despite the fact that HDMI is supported on all the newer Radeons. Apart from the HDMI outs, this card features a DVI and a bit outdated VGA out. These three outs make this card ideal for HTPCs, although its height might pose a problem in lower cases, as it’s 1.7cm higher than the standard card. 

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The cooler has two heatpipes going from the front to the rear block, but the blocks are also connected via the aluminum bridge, featuring Sapphire’s logo. In order to make the card passive and inaudible, heatpipe technology was a must. Additional surface provided by the upper aluminum block ensures that the card runs stable under a workload, when the GPU temperatures are at their peak.

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The heatpipe is in direct contact with the graphics core, so heat easily transfers to the furthest points of the cooler. If the in-case cooling is appropriate, you can rest assured that your card won’t overheat. However, you should still make sure that your case fans run properly and that the air around the graphics card has a nice airflow to it. If this is not the case you might have excess heat gathering around the passive cooler, which might lead to your GPU overheating.

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We measured temperatures during gaming and seen that with adequate in-case cooling, the GPU stays below 59 degrees Celsius. When idling, the GPU temperatures go down to 35 degrees Celsius.

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Passive cards’ temperatures depend on the airflow within the case, and if it’s adequate you can rest assured that the passive cooling will do a good job, even in smaller and cluttered cases.

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Sapphire strapped their card with 512MB of GDDR3 memory running at 873MHz (1746MHz effectively). The front memory blocks partially touch the cooler, but not the ones on the back of the card, which are left uncooled. The memory in question is Hynix H5RS5223CFR N0C, where N0 says it’s a 1000MHz memory.

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You can use the two card’s outs simultaneously.

So far we’ve said a lot about Sapphire HD 4670, and what we might’ve missed can be read from the following picture.

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Note that this card is Direct 10.1 and Shader model 4.1, which ATI never fails to emphasize. Still, some might think that this is not overly important and that DX10.0 is quite enough before transitioning to DirectX 11.

We, on the other hand, found the card’s sub-75W consumption much more interesting, as the card draws all the power it needs via the PCI-Express slot. Also, note that only software Crossfire is possible with this card, as you might’ve deduced for yourself seeing that it lacks the Crossfire connectors.

The box is as pretty as the card, with a refreshing design and imaginative characters of the prettier gender, of course.

In the box you’ll find: CyberLink PowerDVD 7, CyberLink DVD Suite, Ruby ROM, installation CD and a written user’s manual with no additional cables or connectors.

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Last modified on 11 February 2009
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