<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
AMD Cheat Sheet
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| AMD Processors | ||||||||||
| Argon (K7) | Athlon | Slot A | 500-700 | 512K | 22 + cache | 250 | 184 | 100 | ||
| Pluto (K75) | Athlon | Slot A | 550-850 | 512K | 22 + cache | 180 | 102 | 100 | ||
| Orion (K75) | Athlon | Slot A | 900-1000 | 512K | 22 + cache | 180 | 102 | 100 | ||
| Spitfire | Duron | 462 | 600-950 | 64K | 25 | 180 | 100 | 100 | ||
| Morgan | Duron | 462 | 900-1300 | 64K | 25.2 | 180 | 106 | 100 | ||
| Thunderbird | Athlon "B" | 462 | 650-1400 | 256K | 37 | 180 | 117 | 100 | ||
| Thunderbird | Athlon "C" | 462 | 1000-1400 | 256K | 37 | 180 | 117 | 133 | ||
| Palomino | Athlon XP/M | 462 | 850-1733 | 256K | 37.5 | 180 | 129 | 100/133 | ||
| Palomino | Athlon MP | 462 | 1000-1733 | 256K | 37.5 | 180 | 129 | 100/133 | 1-2 | |
| Thoroughbred A | Athlon XP | 462 | 1467-1833? | 256K | 37.5 | 130 | 80 | 133 | ||
| Thoroughbred B | Athlon XP/M | 462 | 1200-2133 | 256K | 37.5 | 130 | 84 | 133 | ||
| Thoroughbred B | Athlon XP | 462 | 2083-2250 | 256K | 37.5 | 130 | 84 | 166 | ||
| Thoroughbred B | Athlon MP | 462 | 1667-2133 | 256K | 37.5 | 130 | 84 | 133 | 1-2 | |
| Barton | Athlon XP/M | 462 | 1467-2133 | 512K | 54.3 | 130 | 101 | 133 | ||
| Barton | Athlon XP | 462 | 1833-2167 | 512K | 54.3 | 130 | 101 | 166 | ||
| Barton | Athlon XP | 462 | 2100-2200 | 512K | 54.3 | 130 | 101 | 200 | ||
| Barton | Athlon MP | 462 | 2133 | 512K | 54.3 | 130 | 101 | 166 | 1-2 | |
| Applebred | Duron | 462 | 1400-1800 | 64K | 25.2* | 130 | 84* | 133 | ||
| Thorton | Athlon XP | 462 | 1667-2067 | 256K | 37.5* | 130 | 101* | 133 | ||
| Thoroughbred B | Sempron | 462 | 1500-2000+ | 256K | 37.5 | 130 | 84 | 166 | ||
| Sledgehammer | Athlon FX | 940 | 2200-??? | 1024K | 105.9 | 130 SOI | 193 | 200 | Y | |
| Sledgehammer | Opteron | 940 | 1400-2400 | 1024K | 105.9 | 130 SOI | 193 | 200 | Y | 1-8 |
| Sledgehammer | Athlon FX | 939 | 2400-??? | 1024K | 105.9 | 130 SOI | 193 | 200 | Y | |
| Clawhammer | Athlon 64 | 754 | 1800-2200(?) | 512K | 105.9 | 130 SOI | 193 | 200 | Y | |
| Clawhammer | Athlon 64 | 754 | 2000-2400(?) | 1024K | 105.9 | 130 SOI | 193 | 200 | Y | |
| Newcastle | Athlon 64 | 754 | 1800-2600(?) | 512K | 68.5 | 130 SOI | 144 | 200 | Y | |
| Newcastle | Athlon 64 | 939 | 2200-2600(?) | 512K | 68.5 | 130 SOI | 144 | 200 | Y | |
| San Diego | Athlon FX | 939 | 2600-??? | 1024K | 105.9(?) | 90 SOI | 114(?) | 200 | Y | |
| Paris | Sempron | 754 | 1800-??? | 256K | ~50(?) | 130 SOI | 118 | 200 | N | |
| Venus | Opteron 1xx | 940 | 90 SOI | 200? | Y | |||||
| Troy | Opteron 2xx | 940 | 90 SOI | 200? | Y | 1-2 | ||||
| Athens | Opteron 8xx | 940 | 90 SOI | 200? | Y | 1-8 | ||||
| Odessa | Athlon 64 M? | 754? | 512K | 130 SOI | 200? | Y | ||||
| Winchester | Athlon 64 | 939 | 512K | 68.5(?) | 90 SOI | 83(?) | 200 | Y | ||
| Dublin | Athlon XP-M | 462 | 37.5 | 130 SOI | 128 | 200? | N | |||
| Newark | Athlon 64-M LP | 754? | 90 SOI | 200? | Y | |||||
| Lancaster | Athlon 64 M | 754? | 90 SOI | 200? | Y | |||||
| Georgetown | Athlon XP M | 462/754? | 90 SOI | 200? | N? | |||||
| Sonora | Athlon XP-M LP | 462/754? | 90 SOI | 200? | N? | |||||
| Denmark | Opteron 1xx | 940 | 90 SOI | 200? | Y | |||||
| Italy | Opteron 2xx | 940 | 90 SOI | 200? | Y | 1-2 | ||||
| Egypt | Opteron 8xx | 940 | 90 SOI | 200? | Y | 1-8 | ||||
| Toledo | Dual Core FX | 939 | 90 SOI | 200? | Y | 2C | ||||
| Palermo | Sempron (?) | 939 (?) | 256K? | ~50(?) | 90 SOI | 62(?) | 200 | N? | ||
| Oakville | Athlon 64 Mobile | 754? | 512K? | 90 SOI | 200? | Y | ||||
| Victoria | Sempron (?) | 754 (?) | 256K? | ~50(?) | 90 SOI | 62(?) | 200 | N? | ||
| * 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 all Athons/Durons is double-pumped, but the CPU multiplier is based off the listed speed. | ||||||||||
A few notes to clarify the information. The stated die sizes and transistor counts for the Applebred and Thorton reflect the fact that these processors are Thoroughbred and Barton cores, respectively, with half of the L2 cache disabled, which is why they have a single asterisk next to them. There have been reports of hacking the Thorton processors and turning them into full Barton CPUs, but considering the insignificant cost difference these days, it's probably not worth worrying about. AMD plans on discontinuing the Barton soon anyway, and will use the old Thoroughbred core for the Socket A Sempron chips.
Transistor counts on Paris, Victoria, and Palermo are likely off, but it remains to be seen how AMD actually configures these chips. Early Athlon 64 512K cache chips for socket 754 were Clawhammer cores with half the cache disabled, but the newer models (i.e. 3200+ at 2.2 GHz with 512K, 3400+ 2.4 GHz 512K, and 3700+ 2.6 GHz with 512K) appear to be actual Newcastle cores. The same could very well happen with the Paris cores, where initial shipments are "downgraded" Newcastle cores, and later versions may physically remove the ~18.7 million transistors used in the L2 cache. Regardless, values on these cores should be taken with a grain of salt.
Unreleased processors will likely change from these current estimates, and question marks indicate best guess data at present. If you notice any errors or if you have additional information on forthcoming processors, let us know in the comments section or email.
Take note of the Toledo, Denmark, Italy, and Egypt cores; the 2C next to it stands for dual core. All four models use the same basic core and should come out around the same time in early 2005. Whether they launch as planned remains to be seen, and precise details about the internal layout are not yet clear - recent news suggests that each core will have its own L2 cache. Dual core is best described as SMP on a single chip, and while on the subject of SMP, please note that all of the Athlon XP processors could support multi-processor configurations unofficially. 2-way SMP was almost a certainty, but none of the CPUs were verified to function in such a configuration by AMD. While it would not be prudent to take such a risk as a business, quite a few enthusiasts saved themselves a lot of money by putting XP chips into SMP motherboards instead of spending the extra money on MP chips.
The basic core of the Athlon, from the Pluto all the way through the latest Newcastle and Paris processors, changed very little since its inception. It has a 10 stage integer pipeline and 15 stage floating point pipeline, with three identical Arithmetic/Logic Units (ALUs), Address Generation Units (AGUs), and Floating Point Units (FPUs). The FPUs also handle the MMX, 3DNow!/+, and SSE/SSE2 support. Opteron increased the length to 12/17 stages, in addition to bringing 64-bit support. Future versions of the Athlon 64 will likely increase the length of the pipeline past the current 12/17 stages in order to increase clock speeds, but I doubt that AMD will ever show the hubris of Intel by creating a 31 stage pipeline - at least, not on any iteration of the Athlon architecture. This is especially a problem with the increasing power leakage of high clockspeeds and increasingly small process technology. Until those issues are resolved, I think it's safe to say that pipeline lengths will stay in the 10 to 15 stages (for integers) range with AMD.
Update: One reader was good enough to send a link to AMD's site where they actually list the Opteron as being a 12/17 design. (Thanks Tom!) Finding any good details on the Intel and AMD sites can be a major chore, most likely due to the level of competition between the companies as well as their size. There's a rule somewhere that the larger a company gets, the less informative and helpful their web site becomes! For those that want the link, here's the Opteron information. That means that all Athlon 64 designs are also 12/17, of course. The Denmark, Italy, and Egypt CPUs are also dual core, it appears, and their entries have been updated to reflect this. (The old roadmap didn't include that information.)
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Anemone - Monday, August 23, 2004 - link
Isn't the Athlon 64 3700 the Odessa or what was supposed to be Odessa in the original code names?Just checking, love this article sorting through all the would be's and once were's, back in time.
JarredWalton - Monday, August 23, 2004 - link
plewis - Rosewood is correct in stating that *all* Athlon 64 processors have an integrated memory controller. That means that all S754, S939, and S940 motherboards do not have a memory controller, so any other chips made for those boards (i.e. Sempron 3100+) also have to have an integrated memory controller. I believe there are some benchmarks on AT that show how the 1.8 GHz Sempron 3100+ compares to the Athlon XP chips. Basically, it beats them in almost all cases.Rosewood - Regarding the 250 nm 233-333 processors, they definitely existed in at least a couple of the processors, late in the PII lifetime. I personally purchased a Pentium II 300 batch SL2W8 - there was a big deal made over many of these being downmarked PII 450 chips at the time. It overclocked to 450 MHz like a champ! :)
How many of these were made? I don't think there were very many. After all, it wasn't too long after the introduction of the 100 MHz bus PII chips that the 66 MHz bus chips were discontinued by Intel. (At least, that's how I remember it.) However, I don't know if they only released 250 nm versions inthe 300 and 333 models, or if they were also in some 233 and 266 models. I do know that *some* of the chips at least exist.
rosewood - Monday, August 23, 2004 - link
plewis00 - unless im on crack, I think all the A64s have had the memory controller on chip and not on the NB, including the 754s.plewis00 - Monday, August 23, 2004 - link
Can I ask, I am not that well informed on AMD processors, but if the Sempron 3100+ is an S754 chip, then how can it have an integrated memory controller, because I thought on all S754 boards, the memory controller is in the Northbridge? Am I right?rosewood - Monday, August 23, 2004 - link
Great article - good history. Two thingsKlamath P II Slot 1 233-333 512K 7.5 + 37.2 350/250 203 + L2 66
Are we sure that there were 250 parts of this line? I beleive ya but a bro says thats not right so ... yea?
2)
Can you include the A64 Mobiles as they are a bit different. IIRC, I have a 3000+ in my laptop and its 1.8ghz but 1meg L2 Cache.
3) I said two? Well, I just thought of this one :P Could you add pictures of the stuff if possible as well as model # guides / how to tell. I was recently given a tray of CPUs and if I try I can probably noodle through which is which but it would be nice to just look here and say "Ah yes, this 2200+ is a barton because the core looks like this ..."
But seriously, AWESOME article.
Holobits - Monday, August 23, 2004 - link
Good Job Jarred!! Reading your article started bringing me back memory of my pentium 2 and 2 3dFX Voodoo 2s in SLI:) Your article is very informative and I look forward to seeing another.JarredWalton - Monday, August 23, 2004 - link
srg - They're with the Pentium 3 and early Celeron processors. :) If people are really interested in getting the list of Slot A and Slot 1 processors for AMD and Intel, I can work on compiling that. Initially, I just felt they were old enough that it wasn't worth the effort.MAME - Monday, August 23, 2004 - link
ha, whoopsanyway, nice article!
MAME - Monday, August 23, 2004 - link
srg - Monday, August 23, 2004 - link
What about the Slot A Thunderbirds? OK, their basically 'B' types but still.srg