The term “

” comes from the Latin word “Memoization” (memorandum), which is commonly shortened to “memo” in American English, and which means “to transform the results of a function into something to remember.”.to remember

In computing, memoization is used to speed up computer programs by eliminating the repetitive computation of results, and by avoiding repeated calls to functions that process the same input.

**Table of Contents**

- What is Memoization?
- Why is Memoization used>
- Where to use Memoization?
- Types of Memoization
- How Memoization Technique used in Dynamic Programming?
- How Memoization is different from Tabulation?
- Coding Practice Problems for Memoization
- FAQs
- 1) Is memoization better than DP?
- 2) Is memoization the same as caching?
- 3) Why memoization is top down?
- 4) Does memoization use recursion?
- 5) Should I use tabulation or memoization?
- 6) Where is memoization used?
- 7) Why is it called memoization?
- 8) How does memoization reduce time complexity?
- 9) What is difference between memoization and caching?
- 10) Why tabulation is faster than memoization?

- Conclusion

## Why is Memoization used?

Memoization is a specific form of * caching* that is used in

*. The purpose of caching is to improve the performance of our programs and keep data accessible that can be used later. It basically stores the previously calculated result of the subproblem and uses the stored result for the same subproblem. This removes the extra effort to calculate again and again for the same problem. And we already know that if the same problem occurs again and again, then that problem is recursive in nature.*

*dynamic programming*## Where to use Memoization?

We can use the memoization technique where the ** use of the previously-calculated results** comes into the picture. This kind of problem is mostly used in the context of recursion, especially with problems that involve overlapping subproblems.

Let’s take an example where the same subproblem repeats again and again.

**Example to show where to use memoization:**

Let us try tofind the factorial of a number.

Below is a ** recursive method** for finding the factorial of a number:

int factorial(unsigned int n)

{

if (n == 0)

return 1;

return n * factorial(n – 1);

}

**What happens if we use this recursive method?**

If you write the complete code for the above snippet, you will notice that there will be 2 methods in the code:

```
1. factorial(n)
2. main()
```

Now if we have multiple queries to find the factorial, such as finding factorial of 2, 3, 9, and 5, then we will need to call the factorial() method 4 times:

```
factorial(2)
factorial(3)
factorial(9)
factorial(5)
```

So it is safe to say that for finding factorial of numbers K numbers, the time complexity needed will be **O(N*K)**

to find the factorial of a particular number, and**O(N)**to call the factorial() method K different times.**O(K)**

**How Memoization can help with such problems?**

If we notice in the above problem, while calculation factorial of 9:

- We are calculating the factorial of 2
- We are also calculating the factorial of 3,
- and We are calculating the factorial of 5 as well

Therefore if we store the result of each individual factorial at the first time of calculation, we can easily return the factorial of any required number in just O(1) time. This process is known as

.Memoization

**Solution using Memoization (How does memoization work?):**

If we find the factorial of 9 first and store the results of individual sub-problems, we can easily print the factorial of each input in O(1).

Therefore the time complexity to find factorial numbers using memoization will be **O(N)**

to find the factorial of the largest input**O(N)**to print the factorial of each input.**O(1)**

**Types of Memoization**

**Types of Memoization**

The Implementation of memoization depends upon the changing parameters that are responsible for solving the problem. There are various dimensions of caching that are used in memoization technique, Below are some of them:

- 1D Memoization: The recursive function that has only one argument whose value was not constant after every function call.
- 2D Memoization: The recursive function that has only two arguments whose value was not constant after every function call.
- 3D Memoization: The recursive function that has only three arguments whose values were not constant after every function call.

## How Memoization technique is used in Dynamic Programming?

Dynamic programming helps to efficiently solve problems that have overlapping subproblems and optimal substructure properties. The idea behind dynamic programming is to break the problem into smaller sub-problems and save the result for future use, thus eliminating the need to compute the result repeatedly.

There are two approaches to formulate a dynamic programming solution:

**Top-Down Approach:***This approach follows the***memoization**. It consists of*technique*and**recursion**. In computation, recursion represents the process of calling functions repeatedly, whereas cache refers to the process of storing intermediate results.**caching****Bottom-Up Approach:***This approach uses the***tabulation**to implement the dynamic programming solution. It addresses the same problems as before, but without recursion. In this approach, iteration replaces recursion. Hence, there is no stack overflow error or overhead of recursive procedures.*technique*

## How Memoization is different from Tabulation?

For more details please refer: Tabulation vs. Memoization

## Coding Practice Problems on Memoization

Question |
Article |
Practice |
Video |
---|---|---|---|

Count ways to reach the nâ€™th stair |
View |
Solve |
Watch |

Word Break Problem | DP-32 |
View |
Solve |
Watch |

Program for Fibonacci numbers |
View |
Solve |
Watch |

nth Catalan Number |
View |
Solve |
Watch |

Gold Mine Problem |
View |
Solve |
Watch |

Subset Sum Problem |
View |
Solve |
Watch |

Cutting a Rod |
View |
Solve |
Watch |

Min Cost Path |
View |
Solve |
Watch |

Minimum number of jumps to reach end |
View |
Solve |
Watch |

Longest Palindromic Substring | Set 1 |
View |
Solve |
Watch |

Longest Repeating Subsequence |
View |
Solve |
Watch |

Count ways to reach the nth stair using step 1, 2 or 3 |
View |
Solve |
Watch |

Count of different ways to express N as the sum of 1, 3 and 4 |
View |
Solve |
Watch |

Count number of ways to cover a distance |
View |
Solve |
Watch |

Count of arrays having consecutive element with different values |
View |
Solve |
Watch |

Largest Sum Contiguous Subarray |
View |
Solve |
Watch |

Smallest sum contiguous subarray |
View |
Solve |
Watch |

Unique paths in a Grid with Obstacles |
View |
Solve |
Watch |

Different ways to sum n using numbers greater than or equal to m |
View | Solve |
Watch |

## Frequently asked questions (FAQs) about Memoization

**1: Is memoization better than DP?**

**1: Is memoization better than DP?**

Memoization is the top-down approach to solving a problem with dynamic programming. It’s called memoization because we will create a memo for the values returned from solving each problem.

**2: Is memoization the same as caching?**

**2: Is memoization the same as caching?**

Memoization is actually a specific type of caching. The term caching can generally refer to any storing technique (like HTTP caching) for future use, but memoizing refers more specifically to caching function that returns the value.

**3: Why memoization is top-down?**

**3: Why memoization is top-down?**

The top-Down approach breaks the large problem into multiple subproblems. if the subproblem is solved already then reuse the answer. Otherwise, Solve the subproblem and store the result in some memory.

**4: Does memoization use recursion?**

**4: Does memoization use recursion?**

Memoization follows top-down approach to solving the problem. It consists of recursion and caching. In computation, recursion represents the process of calling functions repeatedly, whereas cache refers to the process of storing intermediate results.

**5: Should I use tabulation or memoization?**

**5: Should I use tabulation or memoization?**

For problems requiring all subproblems to be solved, tabulation typically outperforms memoization by a constant factor. This is because the tabulation has no overhead of recursion which reduces the time for resolving the recursion call stack from the stack memory.

Whenever a subproblem needs to be solved for the original problem to be solved, memoization is preferable since a subproblem is solved lazily, i.e. only the computations that are required are carried out.

### 6: Where is memoization used?

Memoization is an optimization technique used to speed up computer programs by caching the results of expensive function calls and returning them when the same inputs are encountered again.

### 7: Why is it called memoization?

The term “memoization” comes from the Latin word “memorandum” (“to remember”), which is commonly shortened to “memo” in American English, and which means “to transform the results of a function into something to remember.”.

### 8: How does memoization reduce time complexity?

Solving the same problem again and again takes time and increases the run-time complexity of the overall program. This problem can be resolved by maintaining some cache or memory where we will store the already calculated result of the problem for some particular input. So that if we don’t want to recalculate the same problem, we can simply use the result that is stored in the memory and reduce the time complexity.

### 9: What is the difference between memoization and caching?

Memoization is actually a specific type of caching that involves caching the return value of a function based on input. Caching is a more general term. For example, HTTP caching is caching but it is not memoization.

### 10: Why tabulation is faster than memoization?

Tabulation is usually faster than memoization, because it is iterative and solving subproblems requires no overhead of recursive calls.

Memoization is a technique used in computer science to speed up the execution of recursive or computationally expensive functions by caching the results of function calls and returning the cached results when the same inputs occur again.

The basic idea of memoization is to store the output of a function for a given set of inputs and return the cached result if the function is called again with the same inputs. This technique can save computation time, especially for functions that are called frequently or have a high time complexity.

Here’s a step-by-step guide to implementing memoization:

Identify the function that you want to optimize using memoization. This function should have repeated and expensive computations for the same input.

Create a dictionary object to store the cached results of the function. The keys of the dictionary should be the input parameters to the function, and the values should be the computed results.

At the beginning of the function, check if the input parameters are already present in the cache dictionary. If they are, return the cached result.

If the input parameters are not in the cache dictionary, compute the result and store it in the cache dictionary with the input parameters as the key.

Return the computed result.

### Here’s a Python code example of implementing memoization using a dictionary:

## Python3

`def` `fibonacci(n, cache` `=` `{}):` ` ` `if` `n ` `in` `cache:` ` ` `return` `cache[n]` ` ` `if` `n ` `=` `=` `0` `:` ` ` `result ` `=` `0` ` ` `elif` `n ` `=` `=` `1` `:` ` ` `result ` `=` `1` ` ` `else` `:` ` ` `result ` `=` `fibonacci(n` `-` `1` `) ` `+` `fibonacci(n` `-` `2` `)` ` ` `cache[n] ` `=` `result` ` ` `return` `result` |

**Output**

In the above code, we define a function called fibonacci that calculates the nth number in the Fibonacci sequence. We use a dictionary object called cache to store the results of the function calls. If the input parameter n is already present in the cache dictionary, we return the cached result. Otherwise, we compute the result using recursive calls to the fibonacci function and store it in the cache dictionary before returning it.

Memoization can be used to optimize the performance of many functions that have repeated and expensive computations. By caching the results of function calls, we can avoid unnecessary computations and speed up the execution of the function.

## Conclusion

Memoization is a programming concept and can be applied to any programming language. Its absolute goal is to optimize the program. Usually, this problem is seen when programs perform heavy computations. This technique cache all the previous result that is computed so that it will not have to recalculate for the same problem.

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