Yeah, I agree... for such a radically different Intel CPU, CPUID is giving way to much information and it does not make sense based on the info we know about Nehalem. Ironic (and incorrect) cooincendence that the system clock yields a quad pumped CSI speed just like the old FSBOriginally Posted by Shintai
Kinda yes, but would be long time till we could know.
Tripplechannel memory..2GB?
One hundred years from now It won't matter
What kind of car I drove What kind of house I lived in
How much money I had in the bank Nor what my cloths looked like.... But The world may be a little better Because, I was important In the life of a child.
-- from "Within My Power" by Forest Witcraft
Regarding its authenticity I was thinking...
Since this is the first chip from Intel with an Integrated Memory Controller, the cache sizes they have currently arent needed (just look at AMD's current lineup and lack of 6+mb of cache).
Socket 1160 & Socket 715 (if will exists) are for single-socket solutions. The old multi-CPU scheme (where all CPUs are connected through the chipset) doesn't make sense. But the system on screenshot is dual-socket. So it definitely uses QPI as system bus.
That's not true.
IMC doesn't eliminate the need for a good cache subsystem.The winning combination is to have both : good caches and IMC.Good caches are needed for scalability.That's why server chips feature large amounts of cache.
AMD did not use large cache because of die sizer and engineering constraints.Intel OTOH had excellent caches and their density allowed to be implemented in large variants.
If the cache size is true , it means core complexity increased to such an extent in Nehalem that it was impossible to field a large L2 and still keep a reasonable die size ( < 300mm^2 ).
Did I say eliminate? Nope. It still needs it, just NOT AS MUCH OF IT b/c of the significant decreases in latency with the IMC. Other factors Im sure played into it though.
Quantum computing
...
or optics one, with their laser project
i7 2600K @ 4.6GHz/Maximus IV Extreme
2x 4GB Corsair Vengeance 1866
HD5870 1GB PCS+/OCZ Vertex 120GB +
WD Caviar Black 1TB
Corsair HX850/HAF 932/Acer GD235HZ
Auzentech X-Fi Forte/Sennheiser PC-350 + Corsair SP2500
heres a road map for intel cpus.
source; chiphell
Last edited by Monkeywoman; 02-03-2008 at 06:44 AM.
Case-Coolermaster Cosmos S
MoBo- ASUS Crosshair IV
Graphics Card-XFX R9 280X [out for RMA] using HD5870
Hard Drive-Kingston 240Gig V300 master Seagate 160Gb slave Seagate 250Gb slave Seagate 500Gb slave Western Digital 500Gb
CPU-AMD FX-8320 5Ghz
RAM 8Gig Corshair c8
Logitech 5.1 Z5500 BOOST22
300Gb of MUSICA!!
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http://www.techpowerup.com/gpuz/933ab/
First slide is about dynamic speeds for mobile 45nm Penryn CPUs.
Second slide is..well. Old and from another site and more or less guesswork.
Third is from a jap site that basicly just try and paste forum/site news into a roadmap.
Nothing new actually...
Last edited by Shintai; 02-03-2008 at 08:46 AM.
Crunching for Comrades and the Common good of the People.
With that die layout, I have a feeling cooling is going to be tough on these. Forget 10c differences with the bad IHS of the Q6x00's, I think look more at 15c with Nehalem. Why not just arrange it in a square instead of a rectangle in a line like that?
Hmmmm , i shall wait for propper benchmarks and reviews to know exactly where nehalem stands.
->"Core VID"
OBVIOUS FAKEInfact, AMD's upcoming 45nm K10 derivate (dubbed Shanghai) will bump the green team's L2 to 6MB...
You were not supposed to see this.
Um, Intel is *on the record* with the claim that Nehalem even has better single-thread IPC than Penryn. Then there's the claim that Nehalem has 1.6 times the SpecInt_rate performance of Clovertown, and 2.6 times the SpecFP_rate performance. (That's in dual-socket QC systems @ 3GHz.)
So, I'd say you need to adjust your "implications" accordingly.
Whatever Intel has done with Nehalem's cache, Nehalem is blazingly fast.
60% increase on integer and 160% increase in floating would be evil.
6MB L3 actually. I believe L2 will stay at 512kb per core. 256k is a bit low for L2 cache. If its true savantu might very well be right on this one(instruction cache only).
I thought SpecFP/Int_rate are bandwidth benchmarks
Needless to say just having an IMC and QPI would boost "rate" benchmarks significantly and does not imply better single thread performance.
Last edited by BrowncoatGR; 02-03-2008 at 10:30 AM.
Seems we made our greatest error when we named it at the start
for though we called it "Human Nature" - it was cancer of the heart
CPU: AMD X3 720BE@ 3,4Ghz
Cooler: Xigmatek S1283(Terrible mounting system for AM2/3)
Motherboard: Gigabyte 790FXT-UD5P(F4) RAM: 2x 2GB OCZ DDR3 1600Mhz Gold 8-8-8-24
GPU:HD5850 1GB
PSU: Seasonic M12D 750W Case: Coolermaster HAF932(aka Dusty
someone said picometers, but i rather fancy attometers.
Thermaltake Armor Series Black
GIGABYTE GA-P35-DS3R
Q6600 3.6 GHZ Thermalright Ultra 120 eXtreme
4 GB Corsair XMS2 w/ OCZ XTX Ram Cooler 2 x 60mm
9800GT 512MB
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720 Watt Enermax Infiniti
4x640GB RAID 10
Windows 7
want lower latency cache... please say 256kb means ultra-low latency...
Last edited by xlink; 02-04-2008 at 10:02 PM.
Hey guys,
This screenshot is not fake. Now, this does not mean that cpuz is reporting all correctly, of course (Core VID is mentionned when the core voltage was not obtained from sensor chip, then cpuz displays the CPU VID).
Concerning caches on Nehalem : the L3 is now shared between 4 physical cores, meaning that is offers 4 access ports. The most access ports a cache has, the slowest it is. Consequently, it is not surprising that Intel added four small, fast and dedicated (and unified) L2 between the L1s and the L3. These caches keep using an inclusive relationship, so of course this means that the useful size of these L2s is only 128KB. However, those caches are not designed for high success rates but for speed.
CPU-Z is wrong on L1 Data size however, they should be 4x32 KB and not 4x16KB. And I don't know about FSB.
A shared L3 between 4 cores means highly complex arbitration mechanism ( that equals increased latency ).Look at AMD's K10 L3.Nothing to brag about either.It is slow , very slow.
With such small L2s , how can they feed a highly complex core with 2 threads ?? Multiple threads means cache thrashing , small size amplifies that and you have a slow L3 behind it.
If that's a good cache subsystem , I'm stupefied.It goes against everything Intel has done lately ( large , shared , extremely fast L2s which thrashed IMC equipped CPUs ).
What about the FSB ? DP Nehalem uses QPI , that works at speed of up to 4.8GTs.How does CPU-Z read that ?
It's tough to compare with K10, since constraints are different. K10 uses exclusive cache hierarchy, and snooping consumes a lot of the bandwidth (inclusive caches act as snoop filters). And AFAIK the Phenom's L3 does not offer 4 access ports.
To summarize, Phenom's cache hierarchy is the one of the A64, plus a shared L3. Nehalem extends C2D cache hierarchy to 4-cores sharing, plus four small L2 in between. These are two different approaches, even if they seem very close.
cpuz uses the exact same method on Nehalem and C2D
Yeah its weird. It's less cache than AMD will have with shanghai although latency might be better. I didnt expect Nehalem to have a unified L2 though. It looks like this will be a great server chip but i'm not sure it will have a significant impact on the desktop.
Seems we made our greatest error when we named it at the start
for though we called it "Human Nature" - it was cancer of the heart
CPU: AMD X3 720BE@ 3,4Ghz
Cooler: Xigmatek S1283(Terrible mounting system for AM2/3)
Motherboard: Gigabyte 790FXT-UD5P(F4) RAM: 2x 2GB OCZ DDR3 1600Mhz Gold 8-8-8-24
GPU:HD5850 1GB
PSU: Seasonic M12D 750W Case: Coolermaster HAF932(aka Dusty
Does this have no Northbridge then only a southbridge?
would that change OC-ing atall???
"Cast off your fear. Look forward. Never stand still, retreat and you will age. Hesitate and you will die. SHOUT! My name is…"
//James
I think Shintai owes 100E to a lot of people on the board...
Thanks for the insightful post and explaining how the new chip will work!
It will change OC abit. More components to be affected.
The server and extreme version will have a northbridge for PCIe only and a southbridge for the usual.
The performance/mainstream will have a southbridge only. With PCIe on the CPU.
The value end will have both IGP and PCIe on the CPU. But still the same southbridge as performance/mainstream.
Server/extreme will have a different southbridge than performance/mainstream/value.
Crunching for Comrades and the Common good of the People.
Not yet, as he even says himself it reads some parts wrong.
I still dont believe in a L3. It simply makes no sense when looking on the size and past history. Itanium only got a L3 due to the massive sizes of up to 24MB and soon 30MB. And I dont think anyone here on the board got access to a nehalem system, nor will have it for the next 3-6 months.
L3 is a step backwards for mainstream, not upwards.
Crunching for Comrades and the Common good of the People.
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