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Pentium processor

Today, the speed of the Pentium processors has allowed for much more complicated algorithms written on the Windows platform, such as computing many-flux calculations and spectral matching routines. New color-matching technology provides sophisticated and intuitive color formulation that is easily learned and used by the expert as well as the novice color matcher. [Pg.53]

Another major change was the introduction of MMX technology. This version of the Pentium processor added three new features ... [Pg.77]

D, E, F. As address busses expanded beyond the 24-bit capability of the 80286, this allowed them to access even more memory. With a 32-bit address bus width, the 80386, 80486, and Pentium processors can now access as much as 4GB of RAM. [Pg.150]

D. PCI buses were developed mainly to support the 64-bit capability of the Pentium processors. [Pg.226]

Megahertz (MHz) One million cycles per second. A processor s clock speed is often expressed in MHz. The original IBM PC operated an 8088 running at 4.77MHz, while the more modern Pentium processor runs at speeds of up to lOOOMHz and higher. [Pg.845]

In 1993, Intel introduced the Pentium Processor. In 2000, Intel introduced Pentium 4, which used about 42 million transistors and had a clock speed of 1.4 GHz. In 2006, Intel introduced the core 2 processor. In 2013, Core i7 were introduced. This reminds the observation of Gordon E. Moore in 1965 and then the... [Pg.155]

Dual-node 3-way SMP with Pentium Processors at 100 MHz with a 192 Mbyte main memory for each node (i.e., a total memory of 384 Mbytes with, in average, 64 Mbytes for each CPU). [Pg.180]

In 1993, Intel introduced the Pentium processor as a Cray (supercomputer) on a chip. It contained 3.1 million transistors and was capable of performing 112 million instructions per second. The Pentium was the first of a number of low-cost but powerful processors that changed information technology. [Pg.1051]

Pipelining A microarchitecture technique that divides the execution of an instruction into sequential steps. Pipelined CPUs have multiple instructions executing at the same time but at different stages in the machine. Or, the act of sending out an address before the data is actually needed. Superscalar Capable of executing multiple instructions in a given clock cycle. For example, the Pentium processor has two execution pipes (U and V) so it is superscalar level 2. The Pentium Pro processor can dispatch and retire three instructions per clock so it is superscalar level 3. [Pg.783]

The PC used for these tasks had a Pentium processor. The system timer was not used because of its discontinuous time measuring. Instead, loops were used to mea-... [Pg.5]

Any computer of reasonable power (for instance Pentium processor, 32 Mb RAM) which is connected to the WWW through a standard browser (e.g. Netscape) is needed to accomplish the design protocol... [Pg.59]

See other pages where Pentium processor is mentioned: [Pg.15]    [Pg.143]    [Pg.532]    [Pg.532]    [Pg.437]    [Pg.76]    [Pg.77]    [Pg.157]    [Pg.405]    [Pg.19]    [Pg.78]    [Pg.931]    [Pg.783]    [Pg.783]    [Pg.784]    [Pg.675]    [Pg.3275]    [Pg.90]   
See also in sourсe #XX -- [ Pg.18 ]



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