I have a simple bit reader which uses the
SHLD instruction (__shiftleft128) to read a bit stream.
This works great. However, I have been doing some profiling and I notice that whatever instruction comes after the
SHLD instruction takes a lot of time.
Assembly CPU Time Instructions Retired add r10b, r9b 19.000ms 92,000,000 cmp r10b, 0x40 58.000ms 180,000,000 jb 0x140016fa6 <Block 24> Block 23: and r10b, 0x3f 43.000ms 204,000,000 mov r15, r11 30.000ms 52,000,000 mov qword ptr [rbp+0x20], r11 add rbx, 0x8 16.000ms 78,000,000 mov qword ptr [rbp+0x10], rbx mov r11, qword ptr [rbx] 6.000ms 44,000,000 bswap r11 2.000ms mov qword ptr [rbp+0x28], r11 8.000ms 20,000,000 Block 24: mov rdx, r15 61.000ms 208,000,000 movzx ecx, r10b 1.000ms 6,000,000 **shld** rdx, r11, cl 24.000ms 58,000,000 inc edi **127.000ms** 470,000,000
As you can see in the table above the
inc instruction after the
shld instruction takes a lot of time (8% CPU time).
I would like to know a bit more about why this is the case and how I can avoid it? Is there any instructions that can run in parallel with an shld on cpu level?
I remember reading about
shld in some AMD optimziation manual but I can't find it again.