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AMD Steamroller Family 15h is a microarchitecture developed by AMD for AMD APUs, which succeeded Piledriver in the beginning of 2014 as the third-generation Bulldozer-based microarchitecture. [2] Steamroller APUs continue to use two-core modules as their predecessors, while aiming at achieving greater levels of parallelism.
Steamroller is the AMD codename for its third-generation microarchitecture based on an improved version of Piledriver. Steamroller cores are found in the Socket FM2+ Kaveri based series of APUs and CPUs. Excavator is the codename for the fourth-generation Bulldozer core. [55]
AMD Steamroller Family 15h (3rd-gen) – third-generation Bulldozer (Second optimisation and die shrink to 28 nm). CPUID model numbers are 30h-3Fh. AMD Excavator Family 15h (4th-gen) – fourth-generation Bulldozer (Final optimisation). CPUID model numbers are 60h-6Fh, later updated revisions have model numbers 70h-7Fh.
Advanced Micro Devices (NYS: AMD) has introduced the first processors based on the Bulldozer chip architecture, under the FX product banner. Sporting as many as eight processor cores per chip ...
AMD Excavator Family 15h is a microarchitecture developed by AMD to succeed Steamroller Family 15h for use in AMD APU processors and normal CPUs. On October 12, 2011, AMD revealed Excavator to be the code name for the fourth-generation Bulldozer-derived core. The Excavator-based APU for mainstream applications is called Carrizo and was released ...
Llano AMD Fusion (K10 cores + Redwood-class GPU) (launch Q2 2011, this is the first AMD APU) uses Socket FM1 Bulldozer architecture; Bulldozer, Piledriver, Steamroller, Excavator (2011–2017) [ edit ]
Bulldozer was a clean-sheet design, not a development of earlier processors. [136] The core was specifically aimed at 10–125 W TDP computing products. AMD claimed dramatic performance-per-watt efficiency improvements in high-performance computing (HPC) applications with Bulldozer cores. While hopes were high that Bulldozer would bring AMD to ...
AMD K6: 1997 6 Superscalar, branch prediction, speculative execution, out-of-order execution, register renaming [b] AMD K6-III: 1999 Branch prediction, speculative execution, out-of-order execution [1] AMD K7: 1999 Out-of-order execution, branch prediction, Harvard architecture: AMD K8: 2003 64-bit, integrated memory controller, 16 byte ...