<b>Updated</b> CPU Cheatsheet - Seven Years of Covert CPU Operations
by Jarred Walton on August 28, 2004 9:00 AM EST- Posted in
- CPUs
Intel Cheat Sheet
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| Intel IA32/EM64T Processors | |||||||||||
| Covington | Cel | Slot 1 | 266/300 | 8K+8K | 7.5 | 350 | 118 | 66 | |||
| Mendocino | Cel ("A") | Slot 1 | 266-433 | 16K+16K | 128K | 19 | 250 | 154 | 66 | 1-2 | |
| Mendocino | Cel ("A") | 370 | 233-533 | 16K+16K | 128K | 19 | 250 | 154 | 66 | 1-2 | |
| Coppermine-128 | Cel ("A") | 370 | 533-766 | 16K+16K | 128K | 28* | 180 | 106 | 66 | ||
| Coppermine-128 | Cel ("A") | 370 | 800-1100 | 16K+16K | 128K | 28* | 180 | 106 | 100 | ||
| Klamath | P II | Slot 1 | 233-333 | 16K+16K | 512K | 7.5+37.2 | 350 | 203+L2 | 66 | 1-2 | |
| Deschutes | P II | Slot 1 | 266-333 | 16K+16K | 512K | 7.5+37.2 | 250 | 118+L2 | 66 | 1-2 | |
| Deschutes | P II | Slot 1 | 350-450 | 16K+16K | 512K | 7.5+37.2 | 250 | 118+L2 | 100 | 1-2 | |
| Deschutes | P II Xeon | Slot 2 | 400-450 | 16K+16K | 512K | 7.5+37.2 | 250 | 118+L2 | 100 | 1-2 | |
| Deschutes | P II Xeon | Slot 2 | 400-450 | 16K+16K | 1M | 7.5+74.4 | 250 | 118+L2 | 100 | 1-2 | |
| Deschutes | P II Xeon | Slot 2 | 450 | 16K+16K | 2M | 7.5+148.8 | 250 | 118+L2 | 100 | 1-2 | |
| Katmai | P III | Slot 1 | 450-600 | 16K+16K | 512K | 9.5+37.2 | 250 | 131+L2 | 100 | 1-2 | |
| Katmai | P III B | Slot 1 | 533-600 | 16K+16K | 512K | 9.5+37.2 | 250 | 131+L2 | 133 | 1-2 | |
| Tanner | P III Xeon | Slot 2 | 500, 550 | 16K+16K | 512K | 9.5+37.2 | 250 | 128+L2 | 100 | 1-8 | |
| Tanner | P III Xeon | Slot 2 | 500, 550 | 16K+16K | 1M | 9.5+74.4 | 250 | 128+L2 | 100 | 1-8 | |
| Tanner | P III Xeon | Slot 2 | 500, 550 | 16K+16K | 2M | 9.5+148.8 | 250 | 128+L2 | 100 | 1-8 | |
| Cascades** | P III Xeon | Slot 2 | 600-1000 | 16K+16K | 256K | 28.1 | 180 | 106-90 | 133 | 1-2 | |
| Cascades | P III Xeon | Slot 2 | 700 | 16K+16K | 1M | 180 | 210? | 100 | 1-4 | ||
| Cascades | P III Xeon | Slot 2 | 700, 900 | 16K+16K | 2M | 180 | 385 | 100 | 1-4 | ||
| Coppermine** | P III | Slot 1 | 550-1000 | 16K+16K | 256K | 28.1 | 180 | 106-90 | 100 | 1-2 | |
| Coppermine** | P III B | Slot 1 | 533-1000 | 16K+16K | 256K | 28.1 | 180 | 106-90 | 133 | 1-2 | |
| Coppermine** | P III E | 370 | 500-1100 | 16K+16K | 256K | 28.1 | 180 | 106-90 | 100 | 1-2 | |
| Coppermine** | P III EB | 370 | 533-1133 | 16K+16K | 256K | 28.1 | 180 | 106-90 | 133 | 1-2 | |
| Tualatin | Cel ("A") | 370 | 1000-1400 | 16K+16K | 256K | 28.1 | 130 | 80 | 100 | ||
| Tualatin | P III | 370 | 1000-1333 | 16K+16K | 256K | 28.1 | 130 | 80 | 133 | 1-2 | |
| Tualatin | P III S | 370 | 1133-1400 | 16K+16K | 512K | 45.9 | 130 | 110? | 133 | 1-2 | |
| Willamette | Cel-128 | 478 | 1700-1800 | 12Ku+8K | 128K | 36.5 | 180 | 217* | 100 | ||
| Willamette | P 4 | 423 | 1300-2000 | 12Ku+8K | 256K | 42 | 180 | 217 | 100 | ||
| Willamette | P 4 | 478 | 1500-2400 | 12Ku+8K | 256K | 42 | 180 | 217 | 100 | ||
| Foster | Xeon DP | 603 | 1400-2000 | 12Ku+8K | 256K | 42 | 180 | 217 | 100 | 1-2 | |
| Foster | Xeon MP | 603 | 1400, 1500 | 12Ku+8K | 256K | 512K | 42+37? | 180 | 100 | 1-4 | |
| Foster | Xeon MP | 603 | 1600 | 12Ku+8K | 256K | 1M | 42+74? | 180 | 100 | 1-4 | |
| Northwood | Cel | 478 | 1400-2800 | 12Ku+8K | 128K | 36.5 | 130 | 131? | 100 | ||
| Northwood | Mob. Cel. | 478 | 1400-2800 | 12Ku+8K | 256K | 130 | 100 | ||||
| Northwood** | P 4 | 478 | 1800-2600 | 12Ku+8K | 512K | 55 | 130 | 146-131 | 100 | ||
| Northwood** | P 4 "B" | 478 | 2267-2800 | 12Ku+8K | 512K | 55 | 130 | 146-131 | 133 | ||
| Northwood** | P 4 HTT | 478 | 3067 | 12Ku+8K | 512K | 55 | 130 | 146-131 | 133 | ||
| Northwood** | P 4 "C" | 478 | 2400-3400 | 12Ku+8K | 512K | 55 | 130 | 146-131 | 200 | ||
| Gallatin** | P 4 EE | 478 | 3200-3400 | 12Ku+8K | 512K | 2M | 55+123 | 130 | 231-237? | 200 | |
| Prestonia | Xeon DP | 603 | 1600-3000 | 12Ku+8K | 512K | 55 | 130 | 100 | 1-2 | ||
| Prestonia | Xeon DP | 604 | 2000-3067 | 12Ku+8K | 512K | 55 | 130 | 133 | 1-2 | ||
| Prestonia | Xeon DP | 604 | 3067-3200 | 12Ku+8K | 512K | 1M | 55+61 | 130 | 133 | 1-2 | |
| Gallatin | Xeon MP | 603 | 1500-2800 | 12Ku+8K | 512K | 1M | 55+61 | 130 | 100 | 1-4 | |
| Gallatin** | Xeon MP | 603 | 2000-2700 | 12Ku+8K | 512K | 2M | 55+123 | 130 | 231-237? | 100 | 1-4 |
| Gallatin | Xeon MP | 603 | 3000 | 12Ku+8K | 512K | 4M | 55+246? | 130 | 100 | 1-4 | |
| Prescott 256? | Cel D | 478/775 | 2400-3200 | 12Ku+16K | 256K | 90 | 133 | ||||
| Prescott | P 4 "A" | 478 | 2400-2800 | 12Ku+16K | 1M | 125 | 90 | 112 | 133 | ||
| Prescott | P 4 "E" | 478 | 2800-3400 | 12Ku+16K | 1M | 125 | 90 | 112 | 200 | ||
| Prescott | P 4 "E" | T/775 | 2800-??? | 12Ku+16K | 1M | 125 | 90 | 112 | 200 | ||
| Prescott | P 4 "E" | T/775 | ???-??? | 12Ku+16K | 2M | 90 | 200/266 | ||||
| Nocona | Xeon | T/775? | 2800-3600+ | 12Ku+16K | 1M | 125 | 90 | 112? | 200 | 1-2 | |
| Irindale | 2M | 90 | 200? | ||||||||
| Banias | Cel M | 478M | 1300-1500 | 32K+32K | 512K | 130 | 100 | ||||
| Banias | P M | 478M | 900-1800 | 32K+32K | 1M | 130 | 100 | ||||
| Dothan | Cel M | 478M | 900-1500 | 32K+32K | 1M | 90 | 100/133 | ||||
| Dothan | P M | 478M | 1000-2400 | 32K+32K | 2M | 90 | 100/133 | ||||
| Potomac | 65 | ||||||||||
| Smithfield | 2C | ||||||||||
| Jonah | P M? | 65? | 2C | ||||||||
| Tulsa | |||||||||||
| Merom | |||||||||||
| Conroe | |||||||||||
| Gilo | |||||||||||
| Whitefield | |||||||||||
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| Intel IA64 Processors | |||||||||||
| Merced**** | Itanium1 | PAC-418 | 733-800 | 16K+16K | 96K | 2-4M | 25+300 | 180 | 300 | 66 | 512 |
| McKinley+ | Itanium2 | PAC-611 | 900-1000 | 16K+16K | 256K | 1.5-3M | 221 | 180 | 421 | 100 | 512 |
| Deerfield | Itanium2 | PAC-611 | 1000, 1500? | 16K+16K | 256K | 1.5M? | 130 | 266? | 100 | 512 | |
| Madison++ | Itanium2 | PAC-611 | 1300-1500? | 16K+16K | 256K | 2-6M | 477 | 130 | 374 | 100 | 512 |
| Fanwood | Itanium2 | PAC-611 | 1500-1667? | 16K+16K | 256K | 9M | 130 | 100/166 | 512 | ||
| Montecito | Itanium2? | 24M? | 1700? | 90 | 2C? | ||||||
| Millington | Itanium2? | ||||||||||
| Dimona | Itanium2? | 2C | |||||||||
| Montvale | Itanium2? | ||||||||||
| Tukwila | Itanium2? | 16C? | |||||||||
| Foxton | Itanium2? | ||||||||||
| Pellston | Itanium2? | ||||||||||
| * Die Size and/or transistor count is based off a larger CPU core with a portion of the die disabled. | |||||||||||
| ** Various steppings/sources listed different die sizes. | |||||||||||
| *** The bus speed on the P4, PM, CM, and Itanium is quad-pumped, but the CPU multiplier is based off the listed speed. | |||||||||||
| **** Figures for Merced based off of 4M L3 cache version. | |||||||||||
| + Figures for McKinley based off 3M L3 cache version. | |||||||||||
| ++ Figures for Madison based off 6M L3 cache version. | |||||||||||
| +++ All Itaniums are said to be 512-way SMP capable, but this is more a factor of the motherboard and system design than the chip itself (I think). | |||||||||||
Notes on the Intel side of things are similar to the AMD side. There are again a couple cores that have an asterisk, indicating that the core was a "downgraded" version of a faster core, mostly with the Celeron processors. The double-asterisks are for chips that had varying die sizes in the various steppings. This probably occurs to a small degree in most chips, but in the Cascades, Coppermine, and Northwood cores, the changes were well documented and rather drastic. Thoroughbred A to B in AMD was only a 4 mm2 die size increase, while Coppermine fluctuated between 106 mm2 to 90 mm2, and Northwood went from 146 mm2 to 131 mm2. My guess is that it was due in part to hand-optimizing the layouts of the cores, but if anyone has precise details on the hows and whys of the decreases, I would like to hear them.
In order to make the charts fit nicely within the space constraints, x86-64 was removed from the column lists. As of now, the only Intel CPUs that are known to include x86-64 support are the Nocona and Potomac cores. There will almost certainly be more in the future. The L1 cache of the P4 chips includes a trace cache, which stores decoded micro-ops, abbreviated uops. In the chart above, the trace cache corresponds to the L1 instruction cache found in typical CPUs, and 12Ku+16K means the cache has the ability to store 12,000 micro-ops as well as a standard 16KB of L1 data cache.
You can see that Intel also has 2C (dual core) designs in their roadmap, as well as a highly speculative 16C (sixteen core!) Itanium. Whether or not Tukwila will ever see the light of day is anyone's guess - it could simply be a mythical design that some hardware sites fantasize about. Transistor count on such a chips would likely be several BILLION transistors. (On a different note, I was recently up in Tukwila, WA purchasing a mountain bike from a pawn shop. They didn't have any processors for sale, unfortunately.)
In contrast to AMD, Intel has had several major architecture revisions during the past seven or so years. AMD pretty much stuck with the K7/Athlon core for all their processors, which was admittedly a very good design. Intel, with its deeper pockets, attacked on numerous fronts. First was the Pentium III line, which more or less ended in a draw with their rival AMD. Prompted by marketing - because "clockspeed sells" - Intel came up with a radical new architecture dubbed NetBurst, the basis of the Pentium 4. NetBurst was a success on the desktop, but it really was too power hungry for laptops, so Intel decided to pursue a completely separate architecture for its mobile processors, which is now also penetrating Blade and other low voltage markets. Finally, shortly after the launch of the Athlon 64, Intel countered with their reworked NetBurst architecture and the Prescott line of processors. Add to this the long-awaited launch of IA-64 (roughly ten years in the making!) which was a completely new architecture that was even more radical than NetBurst. Intel has been busy, needless to say.
For their desktop chips, SMP was available both officially and unnofficially. The Celeron chips were not intended for SMP use and were never validated (by Intel) to work in such configurations. However, enterprising motherboard makers like Abit with their BP6 board allowed users to run early Celerons in dual CPU configurations. Intel put a stop to that with Coppermine-128 and Tualatin-256 (if you can call it that) Celerons. The P3 Xeon chips were all "multi-processor" configurations, capable of up to 8-way SMP. Such support was more dependent on the motherboard and chipset, though, so most setups topped out at 4-way SMP. Intel had a chipset that linked two 4-way buses together for their 8-way configuration, while ServerWorks created a chipset and motherboard that supported 8-way directly. In theory, they could have even followed Intel's example and linked two buses together to have a 16-way SMP setup, although at that point motherboard size becomes a difficult issue.
Itanium and SMP is a special case that needs further clarification. SMP is not always listed in the above chart, but all Itaniums are said to be capable of 512-way SMP. This is really more of a factor of the motherboard(s) and system design than the chip itself. For example, special high-end clustered systems have been built using AMD Athlon MP and Opteron CPUs as well as Xeon chips that have as many as 128 chips in a "single" system. Itanium is a similar case with SMP. Motherboards with up to eight sockets exist for Itanium, but 512-way SMP requires special hardware beyond the motherboard. (Please feel free to correct me if that's wrong, but I'm pretty sure this is the case. I can't imagine what a motherboard for 512 Itaniums would even look like if it were to exist - 8x8 feet in size?)
Update: A couple people pointed out issues with the naming of the Celeron processors. At the time, Intel used "A" to designate processors that overlapped an existing model. So there were cacheless Celeron 266/300 processors, and the 266/300 with 128K L2 cache had an "A" suffix. This occurred again with the Celeron 533, and once more with the Celeron 1000/1100. In a similar vein, the Klamath core was only 350 nm, while Deschutes was 250 nm. It was initially listed as 350/250 as there were certain Deschutes cores that were released as a pseudo-Klamath, for instance the P2 300 MHz SL2W8. There was not any way to actually tell (other that word of mouth) which P2 chips had the Klamath core and which had the Deschutes core. The chart has now been corrected by putting in a 250 nm 266-333 Deschutes line.
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JarredWalton - Monday, August 30, 2004 - link
#50 - Good catch. Obviously, there was some cutting and pasting involved. At some point, I corrected all of the names, but missed some of the clock speeds (at least on the Intel charts).#53 - Yes, you are correct. Someone corrected me before, but I didn't change both AMD charts. The Clawhammer supposedly does not have all three HyperTransport paths, so the FX would have to use the Sledgehammer core. It's just a little odd trying to figure out what AMD is doing on those cores. If it were Intel, every core version (i.e. different cache size, different memory controller, different socket) would probably get its own name. :)
OC DETECTIVE - Monday, August 30, 2004 - link
Actually #25's assertion that the FX 939 is a Clawhammer is incorrect. See details of correspondence with AMD's technical dept.over hereit is a Sledgehammer!
http://www.xtremesystems.org/forums/showthread.php...
Pumpkinierre - Sunday, August 29, 2004 - link
#49 There was a post not so long back that had the Prescott pipeline at 22 stages. But your information is right at launch. I just wonder how valid all this pipeline model is or whether the processor takes what it needs for the task required.karlreading - Sunday, August 29, 2004 - link
very informative article, very handy when talking hardware!!!heintjeput2 - Sunday, August 29, 2004 - link
A found a few things who are probably wrongP4 2.2 2800 Northwood 512 100 28.0X 478
should be:
P4 2.2 2200 Northwood 512 100 22.0X 478
and:
P4 3.2E 3800 Prescott 1024 200 19.0X 478
should be:
P4 3.2E 3200 Prescott 1024 200 16.0X 478
P4 540/J 3800 Prescott 1024 200 19.0X T/775
should be:
P4 540/J 3200 Prescott 1024 200 16.0X T/775
P4 3.2C 3800 Northwood 512 200 19.0X 478
>>
P4 3.2C 3200 Northwood 512 200 16.0X 478
P4EE 3.2 3800 Gallatin 512 200 19.0X 478 2048
>>
P4EE 3.2 3200 Gallatin 512 200 16.0X 478 2048
PM 1.2 (LV) 1800 Banias 1024 100 18.0X 478M
>>
PM 1.2 (LV) 1200 Banias 1024 100 12.0X 478M ??
MP4 3.2 HT 3800 Northwood 512 133 28.5X 478M
>>
MP4 3.2 HT 3200 Northwood 512 133 25.5X 478M
Athlon XP-M 2600+ 1933 Barton 512 133.3 14.5X
>>
Athlon XP-M 2600+ 2000 Barton 512 133.3 15.0X
Sempron 3100+ 1800 Paris** 256 200 9.0X 754
>>
Sempron 3100+ 1800 Paris* 256 200 9.0X 754
add:
Athlon XP-M 2400+ (ULV) 1800 Barton 512 133.3 13.5X
Athlon XP-M 2400+ (LV) 1800 Barton 512 133.3 13.5X
Athlon XP-M 2500+ (LV) 1867 Barton 512 133.3 14.0X
Athlon XP-M 2600+ (LV) 2000 Barton 512 133.3 15.0X
IntelUser2000 - Sunday, August 29, 2004 - link
I don't understand why people don't look up at Anandtech's old articles for information(or at least don't seem to)Take a look at the Pentium 4 Willamette article that states 10-stage pipeline for Pentium III and 20-stage pipeline for Pentium 4. I believe the most common figures are the Integer pipelines not including fetch/decode stages(according to your article anyway).
Link to article: http://www.anandtech.com/cpuchipsets/showdoc.aspx?...
Also why does it say Prescott have 23 stage pipelines?
"The Prescott further extended the NetBurst pipeline to 23 stages in addition to the 8 fetch/decode stages. For whatever reason, Intel generally describes the pipeline of the Prescott as 31 stages while only calling the earlier design a 20 stage pipeline."
JarredWalton - Sunday, August 29, 2004 - link
47 - Somehow I screwed that up in the update. Sorry. The 133 MHz bus (533 FSB) Xeon chips run in socket 604, so the two later Prestonia core Xeons are socket 604 parts. As far as I know, all the Gallatin Xeon cores are still socket 603.Marlin1975 - Saturday, August 28, 2004 - link
ALL the P4 Xeons are listed at socket 603. I know the later and even current ones are now 604.Zebo - Saturday, August 28, 2004 - link
One of the best guides I even read thanks I learned a lot.:)JarredWalton - Saturday, August 28, 2004 - link
Not like anyone is going to notice anymore (*wink*), but the article has now been updated with all of the corrections as well as additional commentary. I hope this clarifies a few things. If there are still errors, send them my way!