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So far, only AMD has had any market presence in the computing market for more than a couple of product generations. Cyrix was successful during the 386 and 486 generations of products but did not do well after the Pentium was introduced. List of former IA-32 compatible microprocessor vendors:
AMD/Hygon joint venture, making CPUs based on AMD Zen1 with some modifications for the Chinese market. [28] MCST: Elbrus 2000: Russian VLIW processor family, designed to run x86 code using dynamic binary translation. Space Electronics Inc. / Maxwell: 80386DXRP: Intel 386 CPUs repackaged in special radiation-hardened packages for use in space ...
The Am386 CPU is a 100%-compatible clone of the Intel 80386 design released by AMD in March 1991. It sold millions of units, positioning AMD as a legitimate competitor to Intel, rather than being merely a second source for x86 CPUs (then termed 8086-family). [1]
AMD processor with Intel copyright. AMD has a long history of litigation with former (and current) partner and x86 creator Intel. [303] [304] [305] In 1986, Intel broke an agreement it had with AMD to allow them to produce Intel's microchips for IBM; AMD filed for arbitration in 1987 and the arbitrator decided in AMD's favor in 1992.
Intel Atom Oak Trail 2-way simultaneous multithreading, in-order, burst mode, 512 KB L2 cache Intel Atom Bonnell: 2008 SMT Intel Atom Silvermont: 2013 Out-of-order execution Intel Atom Goldmont: 2016 Multi-core, out-of-order execution, 3-wide superscalar pipeline, L2 cache Intel Atom Goldmont Plus: 2017 Multi-core Intel Atom Tremont: 2019
As of 2020, the x86 architecture is used in most high end compute-intensive computers, including cloud computing, servers, workstations, and many less powerful computers, including personal computer desktops and laptops.
The K5 is AMD ' s first x86 processor to be developed entirely in-house. Introduced in March 1996, its primary competition was Intel's Pentium microprocessor. The K5 was an ambitious design, closer to a Pentium Pro than a Pentium regarding technical solutions and internal architecture. However, the final product was closer to the Pentium ...
In Cyrix's first product, the 8087 math co-processor, Cyrix used hardware math multipliers rather than the CORDIC algorithm, which allowed the chip to be faster and more accurate than Intel's co-processor. Thus, while AMD's 386s and even 486s had some Intel-written microcode software, Cyrix's designs were completely independent.