**EDIT:**

I rerun the code under the Windows 7 x64 (Intel Core i7 930 @ 3.8GHz).

Again, the code is:

```
from datetime import datetime
import numpy as np
START_TIME = datetime.now()
# one of the following lines is uncommented before execution
#s = np.float64(1)
#s = np.float32(1)
#s = 1.0
for i in range(10000000):
s = (s + 8) * s % 2399232
print(s)
print('Runtime:', datetime.now() - START_TIME)
```

The timings are:

- float64: 16.1s
- float32: 16.1s
- float: 3.2s

Now both `np`

floats (either 64 or 32) are 5 times slower than the built-in `float`

. Still, a significant difference. I'm trying to figure out where it comes from.

**EDIT:**

Thank you for the answers, they help me understand how to deal with this problem.

But I still would like to know the precise reason (based on the source code perhaps) why the code below runs 10 times slow with `float64`

than with `float`

.

**EDIT:**

numpy.float64 is ** 10 times** slower than float in arithmetic calculations. It's so bad that even converting to float and back before the calculations makes the program run 3 times faster. Why? Is there anything I can do to fix it?

I want to emphasize that my timings are not due to any of the following:

- the function calls
- the conversion between numpy and python float
- the creation of objects

I updated my code to make it clearer where the problem lies. With the new code, it would seem I see a ten-fold performance hit from using numpy data types:

```
from datetime import datetime
import numpy as np
START_TIME = datetime.now()
# one of the following lines is uncommented before execution
#s = np.float64(1)
#s = np.float32(1)
#s = 1.0
for i in range(10000000):
s = (s + 8) * s % 2399232
print(s)
print('Runtime:', datetime.now() - START_TIME)
```

The timings are:

- float64: 34.56s
- float32: 35.11s
- float: 3.53s

Just for the hell of it, I also tried:

from datetime import datetime import numpy as np

```
START_TIME = datetime.now()
s = np.float64(1)
for i in range(10000000):
s = float(s)
s = (s + 8) * s % 2399232
s = np.float64(s)
print(s)
print('Runtime:', datetime.now() - START_TIME)
```

The execution time is 13.28 s; it's actually 3 times faster to convert the `float64`

to `float`

and back than to use it as is. Still, the conversion takes its toll, so overall it's more than 3 times slower compared to the pure-python `float`

.

My machine is:

- Intel Core 2 Duo T9300 (2.5GHz)
- WinXP Professional (32-bit)
- ActiveState Python 3.1.3.5
- Numpy 1.5.1

**END OF EDIT**

**ORIGINAL QUESTION:**

I am getting really weird timings for the following code:

```
import numpy as np
s = 0
for i in range(10000000):
s += np.float64(1) # replace with np.float32 and built-in float
```

- built-in float: 4.9 s
- float64: 10.5 s
- float32: 45.0 s

Why is `float64`

twice slower than `float`

? And why is `float32`

5 times slower than float64?

Is there any way to avoid the penalty of using `np.float64`

, and have `numpy`

functions return built-in `float`

instead of `float64`

?

I found that using `numpy.float64`

is much slower than Python's float, and `numpy.float32`

is even slower (even though I'm on a 32-bit machine).

`numpy.float32`

on my 32-bit machine. Therefore, every time I use various numpy functions such as `numpy.random.uniform`

, I convert the result to `float32`

(so that further operations would be performed at 32-bit precision).

Is there any way to set a single variable somewhere in the program or in the command line, and make all numpy functions return `float32`

instead of `float64`

?

`float64`

makes it so much slower, I don't know. Note that, AFAIK, your architecture doesn't affect float data: 32-bit or 64-bit architectures just relate to memory addresses. – Thomas K May 10 '11 at 21:50`s=10000000.`

, that should be faster. More seriously: you're profiling function call speed, while Numpy excels when it can vectorize operations. Is the`import`

statement also in the version that uses built-in`float`

? – Fred Foo May 10 '11 at 21:50`python -mtimeit -s "import numpy; s = numpy.float(1)" "(s + 8) * s % 2399232"`

to time it. Replace`numpy.float`

by`numpy.float32(1)`

,`numpy.float64(1)`

or`1.0`

for other variants. – J.F. Sebastian May 19 '11 at 7:01