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Figure 360
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Watts: 67 Physical address: 40 bits External speed range: 200 MHz (System clock) Internal speed range (Regular): 18 (3000+) 24 (4000+) GHz Internal speed range (FX): 26 (FX-51) 28 (FX-57) GHz Multiplier range: 9 12 L1 cache: 128 KB L2 cache: 512 KB, 1 MB Package: micro-PGA Socket(s) used (Regular and FX): Socket 754, Socket 939, Socket AM2
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AMD produces various Sempron CPUs for the low end of the market Semprons come in two socket sizes and have less cache than the Athlon 64, but offer a reasonable trade-off between price and performance AMD Sempron CPUs
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Watts: 35 62 Physical address: 40 bits External speed range: 200 MHz (double-pumped) Internal speed range: 1600 2000 MHz Multiplier range: 8 10 L1 cache: 128 KB L2 cache: 128 KB, 256 KB Package: micro-PGA Socket(s) used: Socket 754, Socket AM2
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CPU clock speeds hit a practical limit of roughly 4 GHz around 2002 2003, motivating the CPU makers to find new ways to get more processing power for CPUs Although Intel and AMD had different opinions about 64-bit CPUs, both decided at virtually the same time to combine two CPUs into a single chip, creating a dual-core architecture Dual-core isn t just two CPUs on the same chip A dual-core CPU has two execution units two sets of pipelines but the two sets of pipelines share caches (how they share caches differs between Intel and AMD) and RAM
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Putting more than two execution cores onto a single chip is called multicore
Pentium D
Intel won the race for first dual-core processor with the Pentium D line of processors (Figure 361) The Pentium D is simply two late-generation Pentium 4s molded onto the same chip with each CPU using its own cache although they do share the same frontside bus One very interesting
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aspect to the Pentium D is the licensing of AMD s AMD64 extensions the smarts inside AMD CPUs that enables AMD CPUs to run either 64- or 32-bit code Intel named their version EM64T Even though the Pentium D is technically a 32-bit processor, it has extra address wires and 64-bit registers to accommodate 64-bit code There are two codenames for Pentium D processors: the Smithfield (model numbers 8xx), using a 90-nm process, and the Presler (model numbers 9xx), using a 65-nm process Pentium Ds use the same LGA 775 package as seen on the later Pentium 4s Intel Pentium D
Process: 90 nm and 65 nm Watts: 95 130 External speed range: 166 MHz, 200 MHz (quad-pumped) Internal speed range: 26 GHz 36 GHz Multiplier range: 14 20 L1 cache: Two 128-KB caches L2 cache: Two 1-MB caches or two 2-MB caches Package: 775-pin LGA Socket(s) used: Socket LGA-775
Figure 361
Pentium D (photo courtesy of Intel Corp)
Athlon Dual Cores
AMD s introduction to dual core came with the Athlon 64 X2 CPUs The X2s are truly two separate cores that share L1 caches, unlike the Intel Pentium D Athlon 64 X2s initially came in both regular and FX versions packaged in the well-known AMD Socket 939 To upgrade from a regular Athlon 64 to an Athlon 64 X2, assuming you have a Socket 939 motherboard, is often as easy as simply doing a minor motherboard update, called flashing the BIOS 5, Understanding BIOS and CMOS, goes through this process in detail, or you can simply check your motherboard manufacturer s Web site for the information on the process In 2006, AMD announced the Socket AM2, designed to replace the Socket 939 across the Athlon line (Figure 362) AMD Athlon 64 X2
Watts: 89 110 Physical address: 40 bits External speed range: 200 MHz (System clock) Internal speed range: 20 (3800+) 24 (4000+) GHz
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