These extensions include SSE4a, AVX 1.1, SSE2, F16C, MMX, XOP, AVX, SSE3, SSE, ABM, BMI1, CLMUL, AMD64, SSE4.1, FMA4, FMA3, SSE4.2, CVT16, AMD-V, Supplemental SSE3, AES, and TBM. The FX-8320 had better benchmark score in Cinebench R11.5 and PassMark. This processing unit also features ECC support. If you were to drastically or minimally increase the base frequency of the CPU, then you would gaze upon better results in every performance examination. The overpriced CPU, I mean, the Intel i5 3570k has a lot fewer instruction set extensions. These include SSE2, MMX, SSE4, AVX, SSE3, EM64T, SSE, SSE4.1, SSE4.2, Supplemental SSE3, and AES. The 3570k had better benchmark scores in GeekBench (32-bit), 3D Mark 11 (Physics), Cinebench R11.5 (Single Core), and PassMark (Single Core). You will notice that the better scores are due to the Intel i5 3570k having stronger cores.
When revealing benchmark scores, you might see Intel getting the final guffaw; I vocalize the word no and deposit shame on you for fathoming such an idea. Almost all of the results were adjacent. The 3570k has stronger singular cores, but this processor only has four physical threads. The FX-8320 has eight cores that are only slightly less powerful. Overall, AMD is still winning this race. Before we end this, let’s recap and see who the true winner really is, even though the numbers and my insinuations have made it painfully