Love_In_Rio
Veteran
So 2 full Tahitis @ 850 mhz with only 300W TDP?
(and probably a bios switch making it a full 7970x2 around 375W)
That sounds pretty efficient
Or two full 7980s ( Tahiti at 1/16 rate DP )
AMD: Southern Islands (7*** series) Speculation/ Rumour Thread
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Or two full 7980s ( Tahiti at 1/16 rate DP )
Exactly. It's just a normal improvement over the previous cards, there's nothing special.
But I wonder whether 850Mhz is a bit low.
Probably necessary for 300W. They are free to provide a buff enough VRM that ocing it to 1GHz should be a breeze.
I wonder the same. I doubt we'll see anything less than a 375W TDP.
Maybe AMD will reconfigure PowerTune as Boost:
- 925MHz dual GPU boost, when front-end is limiting
- 1100MHz single GPU boost, in cases when AFR is not working, through render-to-texture or similar
Of couse enthusiasts should be able unlock it to >375W and a included water-cooler would be appropriate if they are aiming >$800.
- 925MHz dual GPU boost, when front-end is limiting
- 1100MHz single GPU boost, in cases when AFR is not working, through render-to-texture or similar
Of couse enthusiasts should be able unlock it to >375W and a included water-cooler would be appropriate if they are aiming >$800.
Silent_Buddha
Legend
If they have the power circuitry on board for this, then it should theoretically be capable of overclocking to the same limits as a 7970.
The clocks are probably just there to keep TDP under a certain level for certification.
Regards,
SB
The clocks are probably just there to keep TDP under a certain level for certification.
Regards,
SB
Maximum PCIe power spec. If they want the card to be certified, they won't go above 300W @ stock settings.
That's not really true
http://www.anandtech.com/show/4209/amds-radeon-hd-6990-the-new-single-card-king/18
Hmm... chances of pushing a 1+Ghz 7950 1.5GB out there at $380-400, post-GTX680?
Now's a good time to do a balanced price-perf SKU that doesn't necessarily hurt AMD (1Ghz vs full-unit chips, I've no idea, but it'd probably be a good idea), while maintaining almost the same performance gap wrt the 680 (probably 15% or so, at a 25-30% price gap).
(I want my quarterrate dp fix)
Now's a good time to do a balanced price-perf SKU that doesn't necessarily hurt AMD (1Ghz vs full-unit chips, I've no idea, but it'd probably be a good idea), while maintaining almost the same performance gap wrt the 680 (probably 15% or so, at a 25-30% price gap).
(I want my quarterrate dp fix
)AMD may or may not care about PCIe compliance for a dual GPU halo card, but that's almost certainly where the assumption (that may or may not be warranted) of max 300W comes from (which was the question).
From Tridam (Hardware.fr):
"AMD nous a indiqué hier avoir l'intention de proposer une version GHz Edition de la Radeon HD 7970, sans préciser la forme exacte que cette déclinaison prendrait."
Which you could translate as:
"Last night, AMD told us that they intend to launch a GHz Edition of the Radeon HD 7970, without specifying exactly what it would be."
I sure hope it's running above 1 GHz, otherwise the 8% overclock will leave most people underwhelmed.
"AMD nous a indiqué hier avoir l'intention de proposer une version GHz Edition de la Radeon HD 7970, sans préciser la forme exacte que cette déclinaison prendrait."
Which you could translate as:
"Last night, AMD told us that they intend to launch a GHz Edition of the Radeon HD 7970, without specifying exactly what it would be."
I sure hope it's running above 1 GHz, otherwise the 8% overclock will leave most people underwhelmed.
DarthShader
Regular
Could be enough, if they can add a Boost on top of that. This could be doable with current hardware, but with new Bios. (or not?)
Could be, but it is a question for each particular board target if it is necessary.
hurleybird
Newcomer
AMD could have had something like this ready for the Kepler launch.
With any luck we'll get an improved cooling solution, improved components, and ~1.2GHz stock clock.
Or maybe they'll try to lower voltage to improve perf/watt vs. Kepler.
Anyway, got a link?
To Damien's statement? It's in the comments section of this review, page 5, 3rd comment from the top: http://www.hardware.fr/articles/857-1/nvidia-geforce-gtx-680-test.html
D
Deleted member 13524
Guest
So.. erm.. any speculation as to when will AMD lower the MSRP of the HD7900s?
Broken Hope
Regular
Hope it's soon, I want to upgrade my 5870 but I'm not paying £400+ lower it to £330-360 and you'll have an instant purchase from me.
Maybe someone can answer these questions for me. Is Tahiti unbalanced? Based on Pitcairn it seems to be less efficient. Does Tahiti have too much memory? Seems the extra 1GB isn't offering a performance or visual benefit. Too much bandwidth? For an extra 37% bandwidth it doesn't show up in benchmarks. Is the wide bus/memory controller eating unnecessarily into GCN TDP? Is GCN spending more on compute than Kepler or is Kepler inching out performance other ways per mm^2? How much can be chalked up to Kepler being launched about 3 months later and being able to tune their final product to Tahiti?
I am asking these questions after looking at the two chip "costs" and putting aside their architecture. I am more curious if it is an architectural issue or an implementation difference. GCN Tahiti 7970 is a bit bigger than Kepler GK104 (~ 352mm^2 / 4.3B transistors versus ~ 294mm^2 3.5B transisters) and, specifically, has more memory on a wide bus (384bit 264GB/s versus 256bit 192GB/s). The extra 1GB of VRAM may not be coming into play just yet with current software but is an advantage. Kepler has a slight edge as it is clocked higher at 1006MHz plus Boost verus 925MHz for GCN. So the general picture we see is that in theory GCN should be faster than Kepler:
Die Size: 19% larger
Memory Bandwidth: 37.5%
Memory Size: 50%
Frequency: (9%)
So my question is: What is holding GCN, specifically Tahiti, back? As others have noted it seems Pitcairn at 212mm^2 scaled up to Tahiti size would, in theory, be faster. So is Tahiti not "balanced" correctly?
And is the extra 1GB of memory and 384bit bus overkill? Are there any tests show that GCN is a more bandwidth needy design than Kepler? My understanding is that memory buses and the traces to the memory and extra chips costs a lot of power, plus they take up a lot of area real estate.
Can any of this also be chalked up to NV scaling back compute in their consumer graphic cards (an assumption I am making, right or wrong, based on how Kepler seems to fall far behind the Fermi cards in a lot of compute tests) and being able to fine tune their launch in response to GCN?
Edit: Maybe I should have made this a new thread? GCN and Kepler compared, contrasted or something as such?
I am asking these questions after looking at the two chip "costs" and putting aside their architecture. I am more curious if it is an architectural issue or an implementation difference. GCN Tahiti 7970 is a bit bigger than Kepler GK104 (~ 352mm^2 / 4.3B transistors versus ~ 294mm^2 3.5B transisters) and, specifically, has more memory on a wide bus (384bit 264GB/s versus 256bit 192GB/s). The extra 1GB of VRAM may not be coming into play just yet with current software but is an advantage. Kepler has a slight edge as it is clocked higher at 1006MHz plus Boost verus 925MHz for GCN. So the general picture we see is that in theory GCN should be faster than Kepler:
Die Size: 19% larger
Memory Bandwidth: 37.5%
Memory Size: 50%
Frequency: (9%)
So my question is: What is holding GCN, specifically Tahiti, back? As others have noted it seems Pitcairn at 212mm^2 scaled up to Tahiti size would, in theory, be faster. So is Tahiti not "balanced" correctly?
And is the extra 1GB of memory and 384bit bus overkill? Are there any tests show that GCN is a more bandwidth needy design than Kepler? My understanding is that memory buses and the traces to the memory and extra chips costs a lot of power, plus they take up a lot of area real estate.
Can any of this also be chalked up to NV scaling back compute in their consumer graphic cards (an assumption I am making, right or wrong, based on how Kepler seems to fall far behind the Fermi cards in a lot of compute tests) and being able to fine tune their launch in response to GCN?
Edit: Maybe I should have made this a new thread? GCN and Kepler compared, contrasted or something as such?
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