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The Pentium 4 was a seventh-generation CPU from Intel targeted at the consumer and enterprise markets. ... Some Socket 478 models supports loadline B (FMB1.0) ...
Socket 478 was launched in August 2001 in advance of the Northwood core to compete with AMD's 462-pin Socket A and their Athlon XP processors. Socket 478 was intended to be the replacement for Socket 423, a Willamette-based processor socket which was on the market for only a short time. This was the last Intel desktop socket to use a pin grid ...
Socket 1 Socket 2 Socket 3 0.6 – 1-micron 1 25 MHz – 50 MHz 8 KiB – 16 KiB N/A N/A Intel Pentium: N/A P5 P54C P54CTB P54CS 1993–1999 65 MHz – 250 MHz Socket 2 Socket 3 Socket 4 Socket 5 Socket 7: 350 nm – 800 nm Unknown 1 50 MHz – 66 MHz 16 KiB N/A N/A Intel Pentium MMX: N/A P55C Tillamook 1996–1999 120 MHz – 300 MHz Socket 7
Intel Core 2 Duo T9600 CPU showing Socket P. The front-side bus (FSB) of CPUs that install in Socket P can run at 400, 533, 667, 800, or 1066 MT/s.By adapting the multiplier the frequency of the CPU can throttle up or down to save power, given that all Socket P CPUs support EIST, except for Celeron that do not support EIST.
In Intel's Tick-Tock cycle, the 2007/2008 "Tick" was the shrink of the Core microarchitecture to 45 nanometers as CPUID model 23. In Core 2 processors, it is used with the code names Penryn (Socket P), Wolfdale (LGA 775) and Yorkfield (MCM, LGA 775), some of which are also sold as Celeron, Pentium and Xeon processors.
Penryn is the code name of a mobile processor from Intel that is sold in varying configurations such as Core 2 Solo, Core 2 Duo, Core 2 Quad, Pentium and Celeron. During development, Penryn was the Intel code name for the 2007/2008 "Tick" of Intel's Tick-Tock cycle which shrunk Merom to 45 nanometers as CPUID model 23.
28 million transistors; All models support: MMX, SSE The 'B' suffix denotes a 133 MHz FSB when the same speed was also available with a 100 MHz FSB. The 'E' suffix denotes a processor with support for Intel's Advanced Transfer Cache [1] in Intel documentation; in reality it indicates a Coppermine core when the same speed was available as either Katmai or Coppermine.
To keep costs low on high-volume competitive products, the CPU core is usually bundled into a system-on-chip (SOC) integrated circuit. SOCs contain the processor core, cache and the processor's local data on-chip, along with clocking, timers, memory (SDRAM), peripheral (network, serial I/O), and bus (PCI, PCI-X, ROM/Flash bus, I2C) controllers.