Athlon

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Athlon is the brand name applied to a series of different x86 processors designed and manufactured by AMD. The original Athlon, or Athlon Classic, was the first seventh-generation x86 processor and, in a first, retained the initial performance lead it had over Intel's competing processors for a significant period of time. AMD has continued the Athlon name with the Athlon 64, an eighth-generation processor featuring AMD64 technology.

Contents 1 Athlon Classic 2 Athlon Thunderbird (T-Bird) 3 Athlon XP 3.1 Palomino 3.2 Thoroughbred (T-Bred) 3.3 Barton and Thorton 3.4 Mobile Athlon XP 4 Models 4.1 Athlon 4.1.1 Athlon Classic 4.1.2 Thunderbird (180 nm) 4.2 Athlon XP 4.2.1 Palomino (180 nm) 4.2.2 Thoroughbred A/B (130 nm) 4.2.3 Thorton (130 nm) 4.2.4 Barton (130 nm) 5 See also 6 External links 7 References

Athlon Classic

The Athlon made its debut on June 23, 1999. The name "Athlon" was chosen by AMD as short for "decathlon". The original Athlon core revision, code-named "K7" (in homage to its predecessor, the K6), was available in speeds of 500 to 700 MHz at its introduction and was later sold at speeds up to 1000 MHz (K75). The processor was compatible with the industry-standard x86 instruction set and plugged into a motherboard slot mechanically similar to (but not pin-compatible with) the Pentium II's Slot 1.

Image:Slot-A Athlon.jpg Image:Athlon arch.png

Internally, the Athlon was essentially a major reworking of the K6 processor core designed for compatibility with the EV6 bus protocol (first used on DEC's Alpha 21264 RISC processor). AMD dramatically improved the floating-point unit from the K6 and put a large 128 KB (64 + 64 KB) L1-Cache on the chip. Like Intel's Pentium II and Katmai Pentium III, there was a secondary cache of 512 KB, mounted externally to the chip itself but still within the CPU module, and running at a lower speed than the core: initially half-speed (up to 700 MHz), but later runs at 2/5 (up to 850 MHz) to 1/3 (up to 1 GHz) of the core speed (because of cost and availability issues with very high speed cache RAM).

The resulting processor was the fastest x86 CPU in the world, and various versions of the Athlon held this distinction continuously from August 1999 until January 2002.

In commercial terms, the Athlon Classic was an enormous success — not just because of its own merits, but also because the normally dependable Intel endured a series of major production, design, and quality control issues at this time. In particular, Intel's transition to a 0.18 μm production process, starting in late 1999 and running through to mid-2000, was chaotic, and there was a severe shortage of Pentium III parts. In contrast, AMD enjoyed a remarkably smooth process transition, had ample supplies available, and Athlon sales became quite strong. Many long-time Intel-only PC dealers found the combination of the Athlon's excellent performance and reasonable pricing tempting, and the prospect of being able to get stock in commercial volumes impossible to resist.

Athlon Thunderbird (T-Bird)

Image:Tbird850.jpg The second-generation Athlon, the Thunderbird, debuted on June 5, 2000. This version of the Athlon shipped in a more traditional pin-grid array (PGA) format that plugged into a socket ("Socket A") on the motherboard. It was sold at speeds ranging from 700 to 1400 MHz. The major difference, however, was cache design. Just as Intel had done when they replaced the old Katmai Pentium III with the much faster Coppermine P-III, AMD replaced the 512 KB external reduced-speed cache of the Athlon Classic with 256 KB of on-chip, full-speed cache. (As a general rule, more cache improves performance, but faster cache improves it further still.)

The Thunderbird was AMD's most successful product since the Am386DX-40 ten years earlier. Mainboard designs had improved considerably by this time, and the initial trickle of Athlon mainboard makers had swollen to include every major manufacturer. Their new fab in Dresden came on-line, allowing further production increases, and the process technology was improved by a switch to copper interconnects. In October 2000 the Athlon "C" was introduced, raising the mainboard front side bus speed to 266 MT/s (133 MHz double-pumped) and providing roughly 10% extra performance over the "B" model Thunderbird.

Athlon XP

Image:Athlon XP.png In performance terms, the Thunderbird had easily eclipsed the rival Pentium III, and the early Pentium 4 were a long way off the pace, but gradually clawed their way closer. The 1.7 GHz P4 (April 2001) served notice that the Thunderbird could not count on retaining performance leadership forever, and thermal and electricity-consumption issues with the Thunderbird design meant that it was not practical to take it past 1400 MHz (even at that speed it was excessively hot).

Palomino

AMD released the third major Athlon version on October 9, 2001, code-named "Palomino". This version, the first to include the SSE instruction set from the Intel Pentium III as well as AMD's 3DNow! Professional, was introduced at speeds between 1333 and 1533 MHz, with ratings from 1500+ and 1800+. The major changes were optimizations to the core design to increase efficiency by roughly 10% over a Thunderbird at the same clock-speed, and power consumption reductions to allow it to be clocked faster (some parts of the chip were already built in 130 nm). It allowed AMD to take the x86 performance lead with the 1800+, increasing it upon the release of the 1900+ (running at 1600 MHz), until Intel released the 2.0 and 2.2 GHz models of the Pentium 4.

The "Palomino" was first released as a mobile version, called the Mobile Athlon 4 (also code-named "Corvette"), after the fact that it was AMD's fourth core to be called Athlon (after the original K7, the 0.18 μm K75, and the Thunderbird), but many people noted that the name was most likely a jab at the then-brand-new Intel Pentium 4. The desktop Athlon XP followed a few months later, in October.

The "Palomino" did have one major flaw, however: it ran very hot. Its SMP enabled version, the Athlon MP entry (which carried the Palomino core before the Athlon XP), was initially hammered due to heat issues with the Palomino core.

"Palomino" core processors are most distinguishable from "Thoroughbred" and "Barton" model Athlon XP's due to a square core cover on the chip, with its resistors located on the flip side of the chip in the middle of the socket. This resistor design added an amount of heat under the chip where it was not easily dissipated. "Palomino"s also had their stepping information engraved on the core cover, as opposed to the label to the side of the core as in the "Thoroughbred" picture.

The Athlon XP was marketed using a PR rating system, which compared its performance to an Athlon Thunderbird. Because the Athlon XP had much higher IPC (instructions per clock) than the Pentium 4 (and about 10% higher than a Thunderbird), it was more efficient; it delivered the same level of performance at a lower clock-speed, or higher performance at the same speed.

Thoroughbred (T-Bred)

Image:AMD-AthlonXP-1700.jpg The fourth-generation Athlon, the Thoroughbred, was released 10 June 2002 at 1.8 GHz, or 2200+ on the PR rating system. There were actually two versions of this core, commonly called A and B. The A version was the one introduced at 1800 MHz, which had some heat issues, so it was only sold in versions from 1333 to 1800 MHz, replacing the Palomino. The B version, which had an additional metal layer, was released at higher clock speeds, up to the 2800+ model, which ran at 2250 MHz. Later, it replaced the entire Athlon XP line until the launch of the Barton core. Two new models, the 2400+ and 2600+, were announced on 21 August 2002. The 2400+ ran at 2000 MHz, and the 2600+ ran at 2083 or 2133 MHz, depending on the front side bus speed (2083 MHz for 333 MT/s FSB, 2133 MHz for 266 MT/s FSB). 2700+ and 2800+ Thoroughbred parts were also announced, but were only available in very small quantities.

The "Thoroughbred" core was on a 0.13 micrometre (130 nm) process, updated from the 0.18 micrometre (180 nm) process of its "Palomino" predecessor. Other than the new process, the Thoroughbred design was not different from the "Palomino" in any way. AMD did have initial troubles with the "Thoroughbred A" revision having substantial heat issues, which were solved in the "B" revision. The rev. A may have been on the 130 nm process, but it offered no real improvements over the old Palomino. Overclockers still liked to use the Palomino; even with it being made on the 180 nm process, it still was able to hit higher clock speeds. The Thoroughbred "B" fixed this problem by adding an extra metal layer to the manufacturing process, allowing enhanced speeds that would allow them to conquer the market again. At first, 2600+ was released. Later, AMD raised the FSB from 266 MT/s (133 MHz double-pumped) to 333 MT/s (166 MHz double-pumped). This allowed the company to raise the performance rating numbers of the CPUs without actually upping the clock speed much. However, AMD failed to manufacture and ship acceptable amounts of the highest-end 2700+ and 2800+ Thoroughbreds, and as a result they were hard to obtain.

Barton and Thorton

Fifth-generation Athlon Barton-core processors released in early 2003 featured PR ratings of 2500+, 2600+, 2800+, 3000+, and 3200+. While not faster than Thoroughbred-core processors in clock speed, they earned their higher PR-rating-per-clock by featuring an additional 256 KB of full-speed on-chip level 2 cache, for a total of 512 KB, and a faster FSB. The Thorton core was a variant of the Barton with half of the L2 cache disabled and thus functionally identical to the Thoroughbred B core. The disabled L2 cache on some Thortons was partially defective, but on others it could be re-enabled through bridge modifications. [1]

As with most Athlons, the Barton core was popular with overclockers. For example, the 2500+ was rated to run an a 333 MT/s (166 MHz double-pumped) bus. By upping this to 400 MT/s (200 MHz double-pumped), it became equivalent to the much more expensive 3200+. Some suspect this was the reason for the relatively short retail lifespan of the lower-rated Bartons, which were the first to be replaced by the cut-down Semprons.

Some AMD proponents claim that these new parts regained performance leadership for the Athlon, but this remained in doubt. Much controversy surrounds the benchmarks which are used to measure performance leadership. In particular, industry insiders point out that some tests have been deliberately skewed in Intel's favour—notably the BAPCo tests, which were written by Intel's own engineers. Other insiders accused AMD's model numbers of no longer being internally consistent, and also accused them of basing their processor ratings on applications which were no longer widely used.

Most observers considered the Athlon no longer the fastest x86 processor in the world, believing that Intel's Pentium 4 overtook the Athlon XP early in 2002 and held its lead until February 2003, with the 3.06 GHz P4 benchmarking slightly faster than the Athlon 2700+. At the time, the question was moot: AMD had yet to deliver the 2700+ and 2800+ in commercial quantities; they did not begin to ship in volume until well into the first quarter of 2003. However, as the initially troublesome transition to the 0.13 micrometre process neared completion, AMD began producing large numbers of 0.13 micrometre parts in the 1700+ to 2400+ speed grades (usually a sign that faster grades are not far away). In mid February 2003, they announced the Athlon XP 3000+ to ship in volume in early March of 2003. Pending an Intel reply, the 3000+ had according to AMD reclaimed the "fastest x86 in the world" title for the Athlon once again. However, reviewers' opinions on this were split, and most still believed the top Intel part to be faster. A month later, Intel introduced a new series of Pentium 4s which had a faster 800 MT/s, or 200 MHz quad-pumped bus (previously it was 533 MT/s, or 133 MHz quad-pumped. The new bus was indicated by the "C" appendage at the end of the model number) and support for Hyper-Threading. In response, AMD released the Athlon XP 3000+ and 3200+ featuring a 400 MT/s bus. Unfortunately, the bus speed increase did not offer a large performance gain. The 3200+ failed to convincingly outperform the new 3.0 GHz Pentium 4 "C", much less the subsequent 3.2 GHz version. Many reviewers concluded that the C-series Pentium 4 was a bridge too far for the Athlon XP, and that Intel had gained a decisive performance lead which the Athlon XP could not overcome. However, AMD did not try to do so; their focus was now on the soon-to-be released K8, the Athlon 64.

AMD taped out officially the Barton core at 3200+, but through deals with certain OEMs such as HP, AMD added unofficially an additional chip to its lineup. The AMD Athlon XP 3300+ was offered in HP Pavilion a810n Desktop PCs, but were quickly overshadowed initially by the Athlon 64 from the ClawHammer core and then from the Newcastle core and later by the Sempron from the Palermo core. Because the Athlon XP 3300+ based itself on the Barton core, its specifications are similar to that of the other Barton-based chips. It ran at frequency of 2.331 GHz, contained 128 KB of L1 Cache and 512 KB of L2 Cache, used 3 integer pipelines and 3 floating point pipelines, utilized 1.65 V, employed 3DNow, MMX, and SSE Multimedia instructions, was manufactured on the 130 nm process, and fit into 462 pin microPGA, Socket A. Its differentiating factor was that it ran on the 333 MHz FSB like the Athlon XP 2500+, 2600+, 2800+, and certain 3000+; rather than on the 400 MHz FSB of certain 3000+ and the 3200+. The ability of the ClawHammer core to process more IPS more efficiently, the consequent transition of the foundries to the newer cores, and a subsequent die shrink led to the elimination of the Barton core from sale to consumers and OEMs. Only a select number of chips from each yield could be run at the higher frequency as the Barton core was at its limit; the AMD Athlon XP 3300+ was the last and highest frequency chip that the Barton core could support.

Mobile Athlon XP

Image:Athlon XPM 2400l.jpg Mobile Athlon XPs (Athlon XP-M) are identical to normal Athlon XPs, apart from running at lower voltages and not being multiplier-locked. The lower vcore ratings allow the CPU to run with less power consumption (ideal for battery-powered laptops) and produce less heat. They are also capable of having their multipliers dynamically adjusted by software to supply faster speeds at higher frequencies when demanded, but throttle back to lower speeds and voltages when CPU demand is lower.

The Athlon XP-M replaced the older Mobile Athlon 4. The Mobile Athlon 4 used the older Palomino core, while the Athlon XP-M uses the newer Thoroughbred and Barton cores.

It also features Power Now! where the CPU's clock speed is automatically decreased when the computer is under a low load, to save battery power and reduce heat. Similar to Intel's SpeedStep technology.

Some specialized low-power Athlon XP-Ms utilise the microPGA socket 563 rather than the standard Socket A.

Athlon XP-Ms on desktop computers became very popular with overclockers, as well as underclockers, by early 2004, in part because their multipliers are unlocked. Athlon XP-Ms are structurally identical to Desktop Athlon cousins but are singled out for their ability to operate at voltages well below normal. Since they are so efficient with voltage, they respond extremely well to increased voltages and overclock extremely well. Athlon XP-Ms overclock demonstrably better than multiplier unlocked Desktop Athlon XPs with the same "Barton" core. Some Barton core Athlon XP-Ms have been successfully overclocked to as high as 3.1 GHz.

Mobile Athlon XPs are also attractive CPUs for use in home theater systems due to their high performance and ability to underclock and undervolt for quiet operation needed in the living room.

Models

Athlon

Athlon Classic

• -> K7 "Argon" (250 nm)
• -> K75 "Pluto/Orion" (180 nm)
• L1-Cache: 64 + 64 KB (Data + Instructions)
• L2-Cache: 512 KB, external chips on CPU module with 50, 40 or 33% of CPU-speed
• MMX, 3DNow!
• Slot A (EV6)
• Front side bus: 200 MT/s (100 MHz double-pumped)
• VCore: 1.6 V (K7), 1.6 - 1.8 V (K75)
• First release: June 23, 1999 (K7), November 29, 1999 (K75)
• Clockrate: 500 - 700 MHz (K7), 550 - 1000 MHz (K75)

Thunderbird (180 nm)

• L1-Cache: 64 + 64 KB (Data + Instructions)
• L2-Cache: 256 KB, fullspeed
• MMX, 3DNow!
• Slot A & Socket A (EV6)
• Front side bus: 200 MT/s (Slot-A, B-models), 266 MT/s (C-models) (100, 133 MHz double-pumped)
• VCore: 1.7 V - 1.75 V
• First release: June 5, 2000
• Clockrate:
  • Slot A: 650 - 1000 MHz
  • Socket A, 200 MT/s FSB (B-models): 650 - 1400 MHz
  • Socket A, 266 MT/s FSB (C-models): 1000 - 1400 MHz

Athlon XP

Palomino (180 nm)

• L1-Cache: 64 + 64 KB (Data + Instructions)
• L2-Cache: 256 KB, fullspeed
• MMX, 3DNow!, SSE
• Socket A (EV6)
• Front side bus: 266 MT/s (133 MHz double-pumped)
• VCore: 1.75 V
• First release: October 9, 2001
• Clockrate: 1333 - 1733 MHz (1500+ to 2100+)

Thoroughbred A/B (130 nm)

• L1-Cache: 64 + 64 KB (Data + Instructions)
• L2-Cache: 256 KB, fullspeed
• MMX, 3DNow!, SSE
• Socket A (EV6)
• Front side bus: 266/333 MT/s (133/166 MHz double-pumped)
• VCore: 1.5 V - 1.65 V
• First release: June 10, 2002 (A), August 21, 2002 (B)
• Clockrate:
  • T-Bred "A": 1400 - 1800 MHz (1600+ to 2200+)
  • T-Bred "B": 1400 - 2250 MHz (1600+ to 2800+)
  • 266 MT/s FSB: 1400 - 2133 MHz (1600+ to 2600+)
  • 333 MT/s FSB: 2083 - 2250 MHz (2600+ to 2800+)

Thorton (130 nm)

• L1-Cache: 64 + 64 KB (Data + Instructions)
• L2-Cache: 256 KB, fullspeed
• MMX, 3DNow!, SSE
• Socket A (EV6)
• Front side bus: 266/333/400 MT/s (133/166/200 MHz double-pumped)
• VCore: 1.6 V - 1.65 V
• First release: September 2003
• Clockrate: 1667 - 2200 MHz (2000+ to 3100+)

Barton (130 nm)

• L1-Cache: 64 + 64 KB (Data + Instructions)
• L2-Cache: 512 KB, fullspeed
• MMX, 3DNow!, SSE
• Socket A (EV6)
• Front side bus: 333/400 MT/s (166/200 MHz double-pumped)
• VCore: 1.65 V
• First release: February 10, 2003
• Clockrate: 1833 - 2333 MHz (2500+ to 3300+)
  • 333 MT/s FSB: 1833 - 2333 MHz (2500+ to 3300+)
  • 400 MT/s FSB: 2100, 2200 MHz (3000+, 3200+)

See also

• List of AMD Athlon microprocessors
• List of AMD Athlon XP microprocessors
• List of AMD Athlon 64 microprocessors

External links

• cpu-collection.de AMD Athlon processor images and descriptions
• amdboard.com AMD Athlon/Duron/Sempron CPU identification and OPN breakdown
• AMD's Technical Specifications for 7th generation CPUs (.pdf)
• Easy identification with Interactive AMD product ID

References

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