I have tested three C++ program codes which **load the data from the memory to CPU, do the simple + or x operations** (count the time here) and then report the result. These three codes have the same structure but with different data types (int,double,float).

The testing result is: The time is 2x when the data size is 2x for both three codes.

However, I have the following observations.

Observation 1: the time is 2x slower when the optimization is not used. However, it is strange since the loading time (bottleneck) should not be affected by the compiler.

Observation 2: the time for double type program code is roughly 2x faster than both the int and float type program codes when no compiler optimization is added into it and the data size is fixed (256MB,512MB,1024MB,2048MB,4096MB). It is also strange, since double should be the slowest one.

Remark for Observation 2: The time for both three codes are similar when I add the compiler optimization (O,O2,O3).

The attched Code is here:

```
int main()
{
float value;
double totalTimeDifference;
const int numberOFElements=178956970; //4GB for 6 arrays in total
float*FLOAT_Array_one=new float[numberOFElements];
float*FLOAT_Array_two=new float[numberOFElements];
float*FLOAT_Array_three=new float[numberOFElements];
float*FLOAT_Array_four=new float[numberOFElements];
float*FLOAT_Array_five=new float[numberOFElements];
float*FLOAT_Array=new float[numberOFElements];
srand(time(NULL));
for(int i=0;i<numberOFElements;i++)
{
FLOAT_Array_one[i]=rand()% 400;
FLOAT_Array_two[i]=rand()% 400;
FLOAT_Array_four[i]=rand()% 400;
FLOAT_Array_five[i]=rand()% 400;
}
timeval tim1;
timeval tim2;
gettimeofday(&tim1,NULL);
//****************************//
for(int i=0;i<numberOFElements;i++)
{
FLOAT_Array[i]=FLOAT_Array_one[i]+FLOAT_Array_two[i];
}
//****************************//
//****************************//
for(int i=0;i<numberOFElements;i++)
{
FLOAT_Array_three[i]=FLOAT_Array_four[i]*FLOAT_Array_five[i];
}
//****************************//
gettimeofday(&tim2,NULL);
double t1=tim1.tv_sec+(tim1.tv_usec/1000000.0);
double t2=tim2.tv_sec+(tim2.tv_usec/1000000.0);
for(int i=0;i<numberOFElements;i++)
{
if(i%2==0)
value=value+FLOAT_Array[i]+FLOAT_Array_three[i];
else
value=value-FLOAT_Array[i]-FLOAT_Array_three[i];
}
totalTimeDifference=t2-t1;
cout<<value<<endl;
cout<<totalTimeDifference<<endl;
}
```