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Figure 350
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Athlon Thunderbird (photo courtesy of AMD)
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Duron is the generic name given to lower-end CPUs based on the Athlon processor Basically an Athlon with a smaller cache, the Duron supported the same 200-MHz frontside bus as the Athlon, giving it a slight edge over the Celeron The Duron connected to the same 462-pin Socket A as the later Athlon CPUs (Figure 351) AMD Duron CPUs
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Process: 180 nm Watts: 21 57 External speed range: 100 MHz (double-pumped)
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Figure 351
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Internal speed range: 600 MHz 18 GHz Multiplier range: 6 135 L1 cache: 128 KB L2 cache: 64 KB L3 cache: No Package: PGA Socket(s) used: Socket A
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While the Pentium II and III were little more than improvements on the Intel Pentium Pro, the Pentium 4 introduced a completely redesigned core, called NetBurst NetBurst centered around a totally new 20-stage pipeline combined with other features to support this huge pipeline Each stage of the pipeline performed fewer operations than typical pipeline stages in earlier processors, which enabled Intel to crank up the clock speed for the Pentium 4 CPUs The first Pentium 4s included a new version of SSE called SSE2, and later versions introduced SSE3 The Pentium 4 achieved a 400-MHz frontside bus speed twice the Athlon s 200 MHz by using four data transfers per clock cycle on a 100-MHz bus Intel used this same quad-pumped frontside bus technology on a 133-MHz bus to achieve a 533-MHz frontside bus There were two packages of early Pentium 4 CPUs The first Pentium 4 CPUs came in a 423-pin PGA package and had a 256-KB L2 cache These were replaced by the 512-KB L2 cache Pentium 4 with a 478-pin PGA package (Figure 352) Even though the new package has more pins, it is considerably smaller than the earlier package Intel Pentium 4 Willamette CPUs
Process: 180 nm Watts: 49 100 External speed range: 100 MHz, 133 MHz (quad-pumped) Internal speed range: 13 20 GHz Multiplier range: 13 20 L1 cache: 128 KB L2 cache: 256 KB Package: 423-pin PGA, 478-pin PGA Socket(s) used: Socket 423, Socket 478
Figure 352
Pentium 4 (423- and 478-pin)
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AMD Athlon XP (Palomino and Thoroughbred)
Not to be left in the dust by Intel s Pentium 4, AMD released an upgraded version of the Athlon Thunderbird called the Athlon XP, codenamed Palomino, quickly followed by the Thoroughbred Both processors used the 462-pin PGA package, but AMD incorporated a number of performance enhancements to the Athlon core, including support for Intel s SSE instructions The Thoroughbred increased the external speed to a double-pumped 166 MHz and increased the clock speeds, while its 150-nm process reduced wattage One interesting aspect of the Athlon XP was AMD s attempt to ignore clock speeds and instead market the CPUs using a performance rating (PR) number that matched the equivalent power of an Intel Pentium 4 processor For example, the Athlon XP 1800+ actually ran at 16 GHz, but AMD claimed it processed as fast or better than a Pentium 4 18 GHz ergo 1800+ AMD Athlon XP CPUs
Process: 180 nm (Palomino), 150 nm (Thoroughbred) Watts: 60 72 (Palomino), 49 70 (Thoroughbred) External speed range: 133 MHz, 166 MHz (double-pumped) Internal speed range: 13 GHz (1500+) 22 GHz (2800+) Multiplier range: 13 165 L1 cache: 128 KB L2 cache: 256 KB, 512 KB Package: 462-pin PGA Socket(s) used: Socket A
Intel Pentium 4 (Northwood and Prescott)
The Pentium 4 versus Athlon XP war really started to heat up with the next generation of Pentium 4 processors These P4s increased the frontside bus speed to 800 MHz (200 MHz quad-pumped) and introduced hyperthreading With hyperthreading, each individual pipeline can run more than one thread at a time a very tricky act to achieve A single Intel P4 with hyperthreading looks like two CPUs to the operating system Figure 353 shows the Task Manager in Windows XP on a system running a hyperthreaded Pentium 4 Note how the CPU box is broken into two groups Windows thinks this one CPU is two CPUs Hyperthreading enhances a CPU s efficiency, but has a couple of limitations First, the operating system and the application have to be hyperthreading-aware to take advantage of the feature Second, although the CPU uses idle processing power to simulate the actions of a second processor, it doesn t double the processing power because the main execution resources are not duplicated Even with the limitations, hyperthreading is an interesting advancement in superscalar architecture
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