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Unlike many of Intel's recent microarchitectures (such as {{intel|Skylake|l=arch}} and {{intel|Kaby Lake|l=arch}}) which make use of a unified scheduler, AMD continue to use a split pipeline design. µOP are decoupled at the µOP Queue and are sent through the two distinct pipelines to either the Integer side or the FP side. The two sections are completely separate, each featuring separate schedulers, queues, and execution units. The Integer side splits up the µOPs via a set of individual schedulers that feed the various ALU units. On the floating point side, there is a different scheduler to handle the 128-bit FP operations. Zen support all modern {{x86|extensions|x86 extensions}} including {{x86|AVX}}/{{x86|AVX2}}, {{x86|BMI1}}/{{x86|BMI2}}, and {{x86|AES}}. Zen also supports {{x86|SHA}}, secure hash implementation instructions that are currently only found in [[Intel]]'s ultra-low power microarchitectures (e.g. {{intel|Goldmont|l=arch}}) but not in their mainstream processors.
 
Unlike many of Intel's recent microarchitectures (such as {{intel|Skylake|l=arch}} and {{intel|Kaby Lake|l=arch}}) which make use of a unified scheduler, AMD continue to use a split pipeline design. µOP are decoupled at the µOP Queue and are sent through the two distinct pipelines to either the Integer side or the FP side. The two sections are completely separate, each featuring separate schedulers, queues, and execution units. The Integer side splits up the µOPs via a set of individual schedulers that feed the various ALU units. On the floating point side, there is a different scheduler to handle the 128-bit FP operations. Zen support all modern {{x86|extensions|x86 extensions}} including {{x86|AVX}}/{{x86|AVX2}}, {{x86|BMI1}}/{{x86|BMI2}}, and {{x86|AES}}. Zen also supports {{x86|SHA}}, secure hash implementation instructions that are currently only found in [[Intel]]'s ultra-low power microarchitectures (e.g. {{intel|Goldmont|l=arch}}) but not in their mainstream processors.
  
From the memory subsystem point of view, data is fed into the execution units from the [[L1D$]] via the load and store queue (both of which were almost doubled in capacity) via the two [[Address Generation Units]] (AGUs) at the rate of 2 loads and 1 store per cycle. Each core also has a 512 KiB level 2 cache. L2 feeds both the the level 1 data and level 1 instruction caches at 32B per cycle (32B can be sent in either direction (bidirectional bus) each cycle). L2 is connected to the L3 cache which is shared across all cores. As with the L1 to L2 transfers, the L2 also transfers data to the L3 and vice versa at 32B per cycle (32B in either direction each cycle).
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From the memory subsystem point of view, data is fed into the execution units from the [[L1D$]] via the load and store queue (both of which were almost doubled in capacity) via the two [[Address Generation Units]] (AGUs) at the rate of 2 loads and 1 store per cycle. Each core also has a 512 KiB level 2 cache. L2 feeds both the the level 1 data and level 1 instruction caches at 32B per cycle (32B can be send in either direction (bidirectional bus) each cycle). L2 is connected to the L3 cache which is shared across all cores. As with the L1 to L2 transfers, the L2 also transfers data to the L3 and vice versa at 32B per cycle (32B in either direction each cycle).
  
 
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codenameZen +
core count4 +, 6 +, 8 +, 16 +, 24 +, 32 + and 12 +
designerAMD +
first launchedMarch 2, 2017 +
full page nameamd/microarchitectures/zen +
instance ofmicroarchitecture +
instruction set architecturex86-64 +
manufacturerGlobalFoundries +
microarchitecture typeCPU +
nameZen +
pipeline stages19 +
process14 nm (0.014 μm, 1.4e-5 mm) +