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The very fastest shifters are implemented as full crossbars, in a manner similar to the 4-bit shifter depicted above, only larger. These incur the least delay, with the output always a single gate delay behind the input to be shifted (after allowing the small time needed for the shift count decoder to settle; this penalty, however, is only incurred when the shift count changes).
CX (Count register): Serves as a counter in loop, string, and shift/rotate instructions. Iterative operations often use CX to determine the number of times a loop or operation should execute. DX (Data register): Used in conjuction with AX for multiplication and division operations that produce results larger than 16 bits.
Below is the full 8086/8088 instruction set of Intel (81 instructions total). [2] These instructions are also available in 32-bit mode, in which they operate on 32-bit registers (eax, ebx, etc.) and values instead of their 16-bit (ax, bx, etc.) counterparts.
While what these instructions do is similar to bit level gather-scatter SIMD instructions, PDEP and PEXT instructions (like the rest of the BMI instruction sets) operate on general-purpose registers. [12] The instructions are available in 32-bit and 64-bit versions. An example using arbitrary source and selector in 32-bit mode is:
The CLRW instruction is deleted (it wastes a 6-bit memory address and duplicates MOVLW 0). Five new instructions with a 6-bit memory address operands are added. These do not have a destination select bit, and include three "compare and skip" instructions which do not write a result, and two "rotate without carry" instructions.
The 8086 [3] (also called iAPX 86) [4] is a 16-bit microprocessor chip designed by Intel between early 1976 [citation needed] and June 8, 1978, when it was released. [5] The Intel 8088, released July 1, 1979, [6] is a slightly modified chip with an external 8-bit data bus (allowing the use of cheaper and fewer supporting ICs), [note 1] and is notable as the processor used in the original IBM ...
Packed shift, with signed shift-amounts. Shift-amount is provided on a per-vector-lane basis, and is taken from the bottom 8 bits of each lane of the last source argument. The shift-amount is considered signed − a positive value will cause left-shift, while a negative value causes right-shift. 8-bit, signed VPSHAB xmm1,xmm2/m128,xmm3: XOP.9 ...
In computing, a linear-feedback shift register (LFSR) is a shift register whose input bit is a linear function of its previous state. The most commonly used linear function of single bits is exclusive-or (XOR). Thus, an LFSR is most often a shift register whose input bit is driven by the XOR of some bits of the overall shift register value.