Must indeed produce
EAX. That's because
IMUL treats its operands as signed.
In other words, since
0xB504F333 represents a negative value in 2's complement code (because its most significant bit is set), the instruction actually multiplies
0xB504F333-0x100000000=-1257966797 instead of
0xB504F333=3037000499 by itself.
And so the correct result is
0x15F619989EA1DC29=1582480462354439209 instead of
Since the 64-bit signed product in
EDX:EAX is not the sign extended value of
EAX, which means that the signed product doesn't fit into 32 bits,
IMUL sets the carry and overflow flags to 1. This all is explained in the Intel and AMD CPU manuals.
If you use
MUL ECX instead of
IMUL ECX, you will get
EDX:EAX and the overflow and carry flags will be set again because the now unsigned product still doesn't fit into 32 bits.