Reduced Instruction Set Computing - Comparison To Other Architectures

Comparison To Other Architectures

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Some CPUs have been specifically designed to have a very small set of instructions – but these designs are very different from classic RISC designs, so they have been given other names such as minimal instruction set computer (MISC), or transport triggered architecture (TTA), etc.

Despite many successes, RISC has made few inroads into the desktop PC and commodity server markets, where Intel's x86 platform remains the dominant processor architecture. There are three main reasons for this:

  1. A very large base of proprietary PC applications are written for x86 or compiled into x86 machine code, whereas no RISC platform has a similar installed base; hence PC users were locked into the x86.
  2. Although RISC was indeed able to scale up in performance quite quickly and cheaply, Intel took advantage of its large market by spending vast amounts of money on processor development. Intel could spend many times as much as any RISC manufacturer on improving low level design and manufacturing. The same could not be said about smaller firms like Cyrix and NexGen, but they realized that they could apply (tightly) pipelined design practices also to the x86-architecture, just as in the 486 and Pentium. The 6x86 and MII series did exactly this, but was more advanced; it implemented superscalar speculative execution via register renaming, directly at the x86-semantic level. Others, like the Nx586 and AMD K5 did the same, but indirectly, via dynamic microcode buffering and semi-independent superscalar scheduling and instruction dispatch at the micro-operation level (older or simpler ‘CISC’ designs typically execute rigid micro-operation sequences directly). The first available chip deploying such dynamic buffering and scheduling techniques was the NexGen Nx586, released in 1994; the AMD K5 was severely delayed and released in 1995.
  3. Later, more powerful processors, such as Intel P6, AMD K6, AMD K7, and Pentium 4, employed similar dynamic buffering and scheduling principles and implemented loosely coupled superscalar (and speculative) execution of micro-operation sequences generated from several parallel x86 decoding stages. Today, these ideas have been further refined (some x86-pairs are instead merged into a more complex micro-operation, for example) and are still used by modern x86 processors such as Intel Core 2 and AMD K8.

While early RISC designs differed significantly from contemporary CISC designs, by 2000 the highest performing CPUs in the RISC line were almost indistinguishable from the highest performing CPUs in the CISC line.

A number of vendors, including Qualcomm, are attempting to enter the PC market with ARM-based devices dubbed smartbooks, riding on the netbook trend and rising acceptance of GNU/Linux distributions, a number of which already have ARM builds. Other companies are choosing to use Windows CE.

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