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Why is Multiplication Often Faster Than Division in Floating-Point Operations?
Why is Multiplication Often Faster Than Division in Floating-Point Operations?
The Performance of Floating Point Division vs. Multiplication
Regarding floating point operations, processors have asymmetric performance. While multiplication often takes only a few clock cycles, division can take significantly longer. This discrepancy can impact code efficiency, as illustrated by the example provided:
float f1 = 200f / 2; float f2 = 200f * 0.5;
In many cases, multiplying by 0.5 will be slightly faster than dividing by 2. This difference arises due to the complexity of division in hardware.
The Mechanisms of Division
Division requires an iterative process of subtractions, much like long division in elementary school. Conversely, multiplication can be largely performed with simultaneous additions, making it a faster operation.
To ameliorate the performance penalty of division, some CPUs employ reciprocal approximations to speed up the process. While this method is not as accurate as true division, it can significantly improve speed.
Case Study
The performance difference becomes more pronounced in the following loop:
float f1;
float f2 = 2;
float f3 = 3;
for (i = 0; i < 1e8; i++) {
f1 = (i * f2 + i / f3) * 0.5; // or divide by 2.0f, respectively
}Here, the division operation within the loop will contribute a significant overhead, making the use of multiplication by 0.5 preferable for efficiency.
Conclusion
Understanding the hardware limitations of floating point division can help programmers optimize code performance. In many cases, utilizing multiplication by a constant value can be significantly faster than direct division, particularly in loops.
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