I implemented some of the tests from the book. Some raw data from my computer:

Test Run #1:

TestIntegerAssignment 00:00:00.6680000

TestCallRoutineWithNoParameters 00:00:00.9780000

TestCallRoutineWithOneParameter 00:00:00.6580000

TestCallRoutineWithTwoParameters 00:00:00.9650000

TestIntegerAddition 00:00:00.6410000

TestIntegerSubtraction 00:00:00.9630000

TestIntegerMultiplication 00:00:00.6490000

TestIntegerDivision 00:00:00.9720000

TestFloatingPointDivision 00:00:00.6500000

TestFloatingPointSquareRoot 00:00:00.9790000

TestFloatingPointSine 00:00:00.6410000

TestFloatingPointLogarithm 00:00:41.1410000

TestFloatingPointExp 00:00:34.6310000

Test Run #2:

TestIntegerAssignment 00:00:00.6750000

TestCallRoutineWithNoParameters 00:00:00.9720000

TestCallRoutineWithOneParameter 00:00:00.6490000

TestCallRoutineWithTwoParameters 00:00:00.9750000

TestIntegerAddition 00:00:00.6730000

TestIntegerSubtraction 00:00:01.0300000

TestIntegerMultiplication 00:00:00.7000000

TestIntegerDivision 00:00:01.1120000

TestFloatingPointDivision 00:00:00.6630000

TestFloatingPointSquareRoot 00:00:00.9860000

TestFloatingPointSine 00:00:00.6530000

TestFloatingPointLogarithm 00:00:39.1150000

TestFloatingPointExp 00:00:33.8730000

Test Run #3:

TestIntegerAssignment 00:00:00.6590000

TestCallRoutineWithNoParameters 00:00:00.9700000

TestCallRoutineWithOneParameter 00:00:00.6680000

TestCallRoutineWithTwoParameters 00:00:00.9900000

TestIntegerAddition 00:00:00.6720000

TestIntegerSubtraction 00:00:00.9770000

TestIntegerMultiplication 00:00:00.6580000

TestIntegerDivision 00:00:00.9930000

TestFloatingPointDivision 00:00:00.6740000

TestFloatingPointSquareRoot 00:00:01.0120000

TestFloatingPointSine 00:00:00.6700000

TestFloatingPointLogarithm 00:00:39.1020000

TestFloatingPointExp 00:00:35.3560000

(1 Billion Tests Per Benchmark, Compiled with Optimize, AMD Athlon X2 3.0ghz, using Jon Skeet's microbenchmarking framework available at http://www.yoda.arachsys.com/csharp/benchmark.html)

Source:

```
class TestBenchmark
{
[Benchmark]
public static void TestIntegerAssignment()
{
int i = 1;
int j = 2;
for (int x = 0; x < 1000000000; x++)
{
i = j;
}
}
[Benchmark]
public static void TestCallRoutineWithNoParameters()
{
for (int x = 0; x < 1000000000; x++)
{
TestStaticRoutine();
}
}
[Benchmark]
public static void TestCallRoutineWithOneParameter()
{
for (int x = 0; x < 1000000000; x++)
{
TestStaticRoutine2(5);
}
}
[Benchmark]
public static void TestCallRoutineWithTwoParameters()
{
for (int x = 0; x < 1000000000; x++)
{
TestStaticRoutine3(5,7);
}
}
[Benchmark]
public static void TestIntegerAddition()
{
int i = 1;
int j = 2;
int k = 3;
for (int x = 0; x < 1000000000; x++)
{
i = j + k;
}
}
[Benchmark]
public static void TestIntegerSubtraction()
{
int i = 1;
int j = 6;
int k = 3;
for (int x = 0; x < 1000000000; x++)
{
i = j - k;
}
}
[Benchmark]
public static void TestIntegerMultiplication()
{
int i = 1;
int j = 2;
int k = 3;
for (int x = 0; x < 1000000000; x++)
{
i = j * k;
}
}
[Benchmark]
public static void TestIntegerDivision()
{
int i = 1;
int j = 6;
int k = 3;
for (int x = 0; x < 1000000000; x++)
{
i = j/k;
}
}
[Benchmark]
public static void TestFloatingPointDivision()
{
float i = 1;
float j = 6;
float k = 3;
for (int x = 0; x < 1000000000; x++)
{
i = j / k;
}
}
[Benchmark]
public static void TestFloatingPointSquareRoot()
{
double x = 1;
float y = 6;
for (int x2 = 0; x2 < 1000000000; x2++)
{
x = Math.Sqrt(6);
}
}
[Benchmark]
public static void TestFloatingPointSine()
{
double x = 1;
float y = 6;
for (int x2 = 0; x2 < 1000000000; x2++)
{
x = Math.Sin(y);
}
}
[Benchmark]
public static void TestFloatingPointLogarithm()
{
double x = 1;
float y = 6;
for (int x2 = 0; x2 < 1000000000; x2++)
{
x = Math.Log(y);
}
}
[Benchmark]
public static void TestFloatingPointExp()
{
double x = 1;
float y = 6;
for (int x2 = 0; x2 < 1000000000; x2++)
{
x = Math.Exp(6);
}
}
private static void TestStaticRoutine() {
}
private static void TestStaticRoutine2(int i)
{
}
private static void TestStaticRoutine3(int i, int j)
{
}
private static class TestStaticClass
{
}
```