Hi guys

In this tutorial, you're going to learn how to write** faster python app**s using **memoization**, you learn how to build your own **cache function** together with utilizing* builtin *methods.

**what is memoization?**

**Memoization** or memoisation is an optimization technique used primarily to speed up computer programs by storing the results of **expensive function calls** and returning the **cached result **when the same inputs occur again.

**Memoization** can be explicitly programmed by the programmer, but some programming languages like Python provide mechanisms to automatically memoize functions.

Building our own memoizer

Let's say for example you have a recursive function to find Fibonacci numbers of a given position .

Let's measure time taken to compute Fibonnaci number before and after memoization .

Below is a basic function for finding Fibonacci of given position

**before memoization**

I use time module to measure the total time taken to compute a Fibonacci number .

```
import time
def fibonacci(n):
if n == 0:
return 0
if n == 1:
return 1
else:
return fibonacci(n-1) + fibonacci(n-2)
beginning = time.time()
result = fibonacci(35)
Time_taken = time.time() - beginning
print(result)
print('Total time taken ', Time_taken, ' seconds')
```

### output

```
kalebu@kalebu-PC:~$ python3 app.py
9227465
Total time taken 3.740154504776001 seconds
```

Now Let's implement our memoizer and measure again our speed after adding memoizer to our function

**after memoization**

I have built a simple function called **memoize **to memorize computed result so that next time when you call , it does not compute again but returning the memorized value

```
import time
def memoize(f):
memory = {}
def memorized(x):
if x not in memory:
memory[x] = f(x)
return memory[x]
return memory[x]
return memorized
@memoize
def fibonacci(n):
if n == 0:
return 0
if n == 1:
return 1
else:
return fibonacci(n-1) + fibonacci(n-2)
beginning = time.time()
result = fibonacci(35)
Time_taken = time.time() - beginning
print(result)
print('Total time taken ', Time_taken, ' seconds')
```

### Output

```
kalebu@kalebu-PC:~$ python3 app.py
9227465
Total time taken 2.2172927856445312e-05 seconds
```

As we can see the time for computations have been released to thousands of time .

Implementing memoizer while maintaining building your program can be quite challenging , thus why python has builtin memoizer for you.

Python builtin memoizer is available in functools module , below a simple example on how you can use it .

**Example of Usage :**

```
import functools
import time
functools.lru_cache(maxsize=128)
def fibonacci(n):
if n == 0:
return 0
if n == 1:
return 1
else:
return fibonacci(n-1) + fibonacci(n-2)
beginning = time.time()
result = fibonacci(35)
Time_taken = time.time() - beginning
print(result)
print('Total time taken ', Time_taken, ' seconds')
```

### Output

```
kalebu@kalebu-PC:~$ python3 app.py
9227465
Total time taken 2.2411346435546875e-05 seconds
```

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