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These specifications are co-developed by Arm and its partners in the System Architecture Advisory Committee (SystemArchAC). Architecture Compliance Suite (ACS) is the test tools that help to check the compliance of these specifications. The Arm SystemReady Requirements Specification documents the requirements of the certifications. [174]
AMD64, ccNUMA + SSE2 + PowerNow! + AMD64 + NX Bit. 200 800 90 Venus 100 1600–3000 Socket 939: Troy 200 Socket 940: Athens 800 Denmark 100 2 1600–3200 1000 HT Socket 939: AMD64, NX Bit: Italy 200 1600–3200 Socket 940: AMD64, NX Bit, ccNUMA: Egypt 800 1600–3200 Santa Ana 1200 1800–3200 Socket AM2: DDR2: AMD64, NX Bit: Santa Rosa 2200 ...
AMD K6-2 – an improved K6 with the addition of the 3DNow! SIMD instructions. AMD K6-III Sharptooth – a further improved K6 with three levels of cache – 64 KB L1, 256 KB full-speed on-die L2, and a variable (up to 2 MB) L3. AMD K7 Athlon – microarchitecture of the AMD Athlon classic and Athlon XP microprocessors. Was a very advanced ...
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 ...
Concrete products are codenamed "Llano": List of AMD accelerated processing units. 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)
This is a list of central processing units based on the ARM family of instruction sets designed by ARM Ltd. and third parties, sorted by version of the ARM instruction set, release and name.
AMD64 (also variously referred to by AMD in their literature and documentation as “AMD 64-bit Technology” and “AMD x86-64 Architecture”) was created as an alternative to the radically different IA-64 architecture designed by Intel and Hewlett-Packard, which was backward-incompatible with IA-32, the 32-bit version of the x86 architecture.
The SBSA seeks to strengthen the ARM ecosystem by specifying a minimal set of standardized features so that an OS built for this standard platform should function correctly without modification on all hardware products compliant with the specification.