Sapphire Radeon R9 290 Tri-X OC Review: Our First Custom Cooled 290
by Ryan Smith on December 24, 2013 3:45 PM EST- Posted in
- GPUs
- AMD
- Radeon
- Sapphire
- Radeon 200
When we first took a look at AMD’s Radeon R9 290 back in November, what we found was a card that was on the whole a mixed bag. On the one hand the amount of performance offered for the price was unequaled. AMD decided they wanted to take on the $500 GeForce GTX 780 and win, and they did just that by delivering performance better than the GTX 780 for just $400. This made 290 a very potent card for gamers still looking for a value at the high-end.
On the other hand AMD had to make significant sacrifices elsewhere to get there. AMD’s reference cooler already struggled to keep the 290X without generating excessive noise, and for the 290 AMD needed to turn up the fan speed even further in order to ensure the 290’s average performance was very close to its maximum performance. The end result was that while the reference 290 was fast it was also obnoxiously loud, especially in comparison to the high-end cards of the last few years. Ultimately this meant that for buyers concerned about noise the options available were either to take a performance reduction or pay quite a bit more for a GTX 780.
With that said, we have known since that first day that the stories of the 290 and 290X weren’t yet complete. While the reference cards set the bar for performance and (for better or worse) drive the overall perception of the series, the modern board partner system means that in time we can look forward to partners eventually releasing semi-custom and fully-custom cards, which use custom coolers and custom boards respectively. Customization allows the board partners to differentiate from each other by designing cards around different capabilities – be it size, cooling, or overclocking – in the process creating a wide spectrum of cards for a wide spectrum of use cases. Or with respect to the 290 in particular, customization offers partners a chance to go back and try to improve on the reference 290’s weakness, its noisy cooler.
Ever since the 290 review there has been a lot of chatter and questions about when we’d see the first customized cards show up, and the answer is that customized cards are finally here. There are already a handful of models on the shelves now with a number more to arrive over the next few weeks, and over the coming weeks we’ll be taking a look at several of those models. The first such card we’ll be looking at is Sapphire’s first customized card, the Sapphire Radeon R9 290 Tri-X OC.
AMD GPU Specification Comparison | |||||
AMD Radeon R9 290X | Sapphire Radeon R9 290 Tri-X | AMD Radeon R9 290 | |||
Stream Processors | 2816 | 2560 | 2560 | ||
Texture Units | 176 | 160 | 160 | ||
ROPs | 64 | 64 | 64 | ||
Core Clock | 727MHz | 699MHz | 662MHz | ||
Boost Clock | 1000MHz | 1000MHz | 947MHz | ||
Memory Clock | 5GHz GDDR5 | 5.2GHz GDDR5 | 5GHz GDDR5 | ||
VRAM | 4GB | 4GB | 4GB | ||
Typical Board Power | ~300W | ~300W | ~300W | ||
Width | Double Slot | Double Slot | Double Slot | ||
Length | 10.95" | 12" | 10.95" | ||
Warranty | N/A | 2 Years | N/A | ||
MSRP | $549 | $449 | $399 |
Meet The Sapphire Radeon R9 290 Tri-X OC
The first customized 290 series card in our hands, Sapphire’s Radeon R9 290 Tri-X OC is a rather straightforward semi-custom card. Sapphire has taken AMD’s reference design and replaced AMD’s reference blower with their recently introduced Tri-X open air cooler, which as we’ll see significantly changes the cooling/performance equilibrium compared to the reference 290. At the same time Sapphire has also given the 290 Tri-X OC a mild factory overclock to boost its out of the box performance and differentiate it from the reference 290 and competing customized 290s. The end result is a card that is intended to be faster and quieter than the reference 290 we saw barely more than a month ago.
Diving into specifics, we’ll start with the 290 Tri-X OC’s specifications. As Sapphire typically does numerous tiers of factory overclocked cards – OC, VaporX, and Toxic – the 290 Tri-X OC represents the lowest tier for a factory overclocked part and comes with a mild but meaningful factory overclock. On the GPU side Sapphire has essentially erased the 290’s clockspeed disadvantage versus the 290X, bumping the maximum boost clock back up from 947MHz to 1000Mhz, an improvement of 53MHz (6%). Meanwhile the memory clockspeed has also received a slight bump, going from 5GHz to 5.2GHz, a smaller 200MHz (4%) increase. Compared to the reference 290, the reference card was typically cooled just well enough to sustain its maximum boost clock, so the real world clockspeed difference between Sapphire’s card and the reference card should match the maximum boost clocks mentioned above, while the real world performance difference will be more tapered as few games scale perfectly with clockspeeds.
More significant however is Sapphire’s replacement of the reference 290’s blower with their in-house Tri-X cooler. First introduced back in October on their R9 280X Toxic, the Tri-X is Sapphire’s latest design for a high performance open air cooler. As the years have gone by and designs have been continually tuned, the board partners have increasingly settled on a handful of basic cooler designs, with these large multi-fan open air coolers being among the most common. Sapphire in that respect is no different, with the Tri-X cooler implementing these principles to create a very sound, very effective design.
For the 290 Tri-X OC Sapphire is using a slightly different variation of their Tri-X cooler than what we saw on the 280X Toxic. The variably sized 80mm/90mm fans are gone in favor of a trio of equally sized 85mm fans, maintaining the triple fan design of the Tri-X while ever so slightly changing the airflow and aesthetics. The shroud has also been changed to accommodate the new fan sizes, though functionally it’s identical to the previous one. The three fan setup ultimately ensures that Sapphire has plenty of airflow to work with even at low fan speeds and that virtually every inch of the heatsink is covered by the airflow coming off of those fans.
Speaking of heatsinks, the heatsink assembly on the Tri-X has also received some minor modifications in order to accommodate the 290 series. Most significantly here, Sapphire has put together a new baseplate to match the component locations on the reference 290 PCB and to cover the VRM circuitry. Otherwise the primary heatsink itself remains unchanged from what we saw with the 280X Toxic. Here Sapphire uses a two segment vertical fin design with 5 copper heatpipes to move heat between the GPU and the heatsink. Two pipes going to the first segment located over the GPU while the other three go to the segment at the tail end of the card, with the largest of these heatpipes measuring 10mm in diameter.
As for the board itself, as was previously mentioned this is a semi-custom card, so Sapphire is melding their custom cooler to AMD’s reference board – complete with the AMD logo. This isn’t an overclocking-centric card, so AMD’s board is a reasonable choice here, especially if it means getting cards out quickly. Using AMD’s board also means that the power requirements and I/O options are identical to the reference 290. This means we’re looking at a peak power consumption of about 300W, augmented by a 6pin + 8pin PCIe power socket set at the top of the card. Meanwhile I/O is 2x DL-DVI, 1x DisplayPort, and 1x HDMI. This also means that the BIOS selection switch is present; it of course didn’t do anything special for the 290, so Sapphire has repurposed it to allow selecting between UEFI and BIOS type VBIOSes.
On a related note, because Sapphire is using AMD’s reference board this means that Sapphire’s cooler is larger than the board itself. The board is 10.5” long, while the Tri-X cooler brings the total length of the card to a clean 12”. Though despite the size difference, Sapphire has done an extremely good job with their build quality here, more than resolving the issues we saw with our 280X Toxic sample. Sapphire has mounted the board to the Tri-X cooler at every single screw point available on the board, including 3 points at the rear of the card, securely attaching the card to the cooler. There is no flex or bending of any kind in the board or the cooler, so the card is as solid as solid can be.
Finally, let’s quickly talk about warranties, pricing, and availability. As with all of their cards, Sapphire is offering a 2 year warranty on the 290 Tri-X OC, which is middling for a video card warranty these days. Meanwhile for pricing Sapphire is setting the MSRP for the card at $449, $50 above the official MSRP for the reference 290. The price difference is admittedly more than we’re used to seeing for a low tier semi-custom card, but Sapphire is coming into this with a very strong hand, as we’ll see in our power/temp/noise testing. Ultimately the pricing Sapphire will be able to maintain will be based on the quality of other board partners’ cards and their own pricing. Compared to the reference 290 Sapphire is in a good position, but until we’ve seen other customized cards it’s hard to say just how they’re going to compare.
The other factor of course will be what retail prices are like when this card arrives at etailers, which is currently scheduled for the end of this week. Cryptocoin mania has continued to rage on over the past month, which has resulted in highly distorted video card prices. This should (theoretically) abate soon, but for the time being there’s a good chance the 290 Tri-X OC is going to premiere at closer to $550 than $450. Given the exceptional nature of what’s going on right now we’re going to make our comparisons using MSRP pricing on the basis that all of this is temporary, but it’s something that bears mentioning.
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skiboysteve - Thursday, December 26, 2013 - link
I had that even worse. Card would crash in Diablo 3 from overheating. Case was super hot and GPU fan was pegged on high. I sold it (6850) and bought a GTX 660 because it had a blower, now its quiet and cool.Th-z - Wednesday, December 25, 2013 - link
Thus the problem lies, people like small form factor these days. Open air cooler can complicate how the air is moved. Take the beta Steam Machine for example, the GPU is in a chamber that uses riser to reduce the size of the case. The design is simple for a blower cooler, the air basically moves one way all the way. If it's an open air cooler, both hot and cool air are intermingling, additional fans would need to help moving the air, and air path would also need a redesign.I agree with Ryan, AMD simply needs to do better job with their reference cooler, perhaps their AIB partners can step in and make their own blower cards that perform better than AMD's reference design.
Ryan Smith - Thursday, December 26, 2013 - link
I had originally intended to put the following discussion about blowers versus open air coolers in the article, but it came off as too disjoint from the rest of the article so I dropped it. But since you’re asking, I’ll publish it here in the comments.---
When looking at the cooling performance of the 290 Tri-X OC relative to the reference 290, it’s important to keep in mind that the Tri-X OC’s cooling advantages don’t come for free; there are tradeoffs to be made for achieving this kind of performance. At the risk of sounding like a broken record, open air coolers can be very high performance solutions, however there are some important differences between open air coolers and blowers that need to be taken into consideration.
Between the two types of coolers, blowers are the more compatible and more self-sufficient due to the fact that the blower design is essentially self-exhausting. By blowing hot air directly outside of the chassis, blowers aren’t significantly reliant on the chassis cooling, meaning they’ll work in a wide variety of cases and environments, especially small form factor designs or multi-GPU setups. The one downside to blowers is that the limited amount of space available to funnel air (about 1 PCIe slot’s width) requires that all of that airflow is generated by one fan, which in turn may have to run at a relatively high speed to move enough air. The end result being that while blowers don’t have to be loud, they’re generally louder than open air coolers.
Open air coolers on the other hand essentially punt on the issue of cooling, focusing solely on removing heat from the GPU and related components, and making removal of that hot air the job of the chassis. This allows open air coolers to utilize numerous large, slow fans that can move a good deal of air without generating a lot of noise, but only a small portion of that air is exhausted outside the chassis by the open air cooler itself. The bulk of the work for removing heat from the chassis falls to the chassis itself, which can be beneficial as chassis fans are larger and quieter still, potentially making the combined solution a very quiet own.
When it comes to open air coolers the drawback here two-fold. The first is simply that open air cards need breathing room; even though most cards are only two slots wide, the slot adjacent to the card needs to be kept complete open in order to permit airflow (even a small card like a sound card would still be an issue). The second drawback is that if the chassis can’t handle the heat load – and keep in mind that a single 290 under load is going to generate more heat than the rest of the system combined – then open air coolers will struggle to work well while at the same time the heat from the video card will have a run-on effect that makes it hard to properly cool the other components in the chassis.
Because of the compatibility and self-reliance aspects of blowers, blowers are the coolers used on most high-end reference cards, as the design allows for the reference card design to be used in the widest range of systems. In that sense blowers represent a nice middle ground between functionality and noise, with a high quality blower capable of bringing all of that functionality without bringing too much noise. NVIDIA’s GTX Titan blower being a good example of what a blower is capable of at the high end, while the reference 290 is an unfortunate example of what a blower looks like if it’s struggling to keep up. On the other hand an open air cooler can scale up better while still maintaining very low noise levels – as exemplified by cards like the 290 Tri-X OC and the Radeon HD 7990 – but the compatibility issues mean that the resulting cards can’t be used as in wide a range of systems, something that can be problematic for reference cards.
In the end however there’s a need for both kinds of coolers to be on the market. As neither style is without its flaws, having the two vastly different designs allows for a wider range of market coverage than what either cooler alone could accomplish.
Jwboo65 - Monday, December 30, 2013 - link
Typo in the third paragraph. The very last word. Nice article. Thanks Ryan!Wade_Jensen - Wednesday, December 25, 2013 - link
Would someone be willing to explain binning? I hear Anand and Ryan and Ian talking about it surrounding CPU and GPUs scaling but its never explained. But how is it accomplished and/or caused in manufacturing? Is that how intel has differing performance in an i5 and i7 of identical tdp, HT aside?Yes, I've tried Google. :p
sheh - Wednesday, December 25, 2013 - link
Take a million chips, run them through test equipment to collect data on voltage, heat, max frequency, functionality of cores/subunits. Sort them according to the results, do any external tweaking if needed (e.g., I think old CPUs has things like resistors on the package to disable/limit features), print the correct model number/put on the sticker, sell.Sunburn74 - Wednesday, December 25, 2013 - link
Essentially, if you manufacture 100 chips with target level of perfomance X, some will exceed target level of performance X, some will just barely reach it, and some will underperform and not quite reach the target.As the supplier, you bin/plan to sell the overperformers as your highest level product (ie gtx 9000 OC uber ultra TI lightning thor odin card), your on target performers as some mid range product (gtx 8950), and your poor performers as some lower range product (gtx 7000 energy sipper)
Its more complex than that in the real world as intel/nvidia/amd offer a large multitude of products, but in a nutshell that's binning.
Sunburn74 - Wednesday, December 25, 2013 - link
BTW, this also explains why the best overclocking products generally tend to be on the higher end of the product spectrumWade_Jensen - Wednesday, December 25, 2013 - link
Thanks guys! :)gonks - Wednesday, December 25, 2013 - link
Ryan, there's a typo on the gaming charts and oc charts, on the headers says "Maxium quality".Great review btw!