The Intel Xeon Phi "Knights Landing" processor will be the first to support AVX-512, but it will only support "F" (like SSE without SSE2, or AVX without AVX2), so floating-point stuff mainly.
I'm writing software that operates on bytes and words (8- and 16-bit) using up to SSE4.1 instructions via intrinsics.
I am confused whether there will be EVEX-encoded versions of all/most SSE4.1 instructions in AVX-512F, and whether this means I can expect my SSE code to automatically gain EVEX-extended instructions and map to all new registers.
Wikipedia says this:
The width of the SIMD register file is increased from 256 bits to 512 bits, with a total of 32 registers ZMM0-ZMM31. These registers can be addressed as 256 bit YMM registers from AVX extensions and 128-bit XMM registers from Streaming SIMD Extensions, and legacy AVX and SSE instructions can be extended to operate on the 16 additional registers XMM16-XMM31 and YMM16-YMM31 when using EVEX encoded form.
This unfortunately does not clarify whether compiling SSE4 code with AVX512-enabled will lead to the same (awesome) speedup that compiling it to AVX2 provides (VEX coding of legacy instructions).
Anybody know what will happen when SSE2/4 code (C intrinsics) are compiled for AVX-512F? Could one expect a speed bump like with AVX1's VEX coding of the byte and word instructions?