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THE NUMPY LIBRARY of python with slides.pptx
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THE NUMPY LIBRARY of python with slides.pptx

numpy library and its usage and types

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THE NUMPY LIBRARY
1. Introduction to NumPy  What is NumPy?  Importance in Data Science and Machine Learning 2. Core Features of NumPy  Arrays and Matrices  Mathematical Operations  Broadcasting OUTLINE
Continue 3. NumPy Arrays  Indexing, Slicing  Reshaping of arrays  Types of Arrays  Arrays functions
INTRODUCTION TO NUMPY WHAT IS NUMPY : Def: NumPy is the abrivation of (Numerical Python) which is a powerful python library for numerical computing .  Why power full library? 1. Mathematical function numpy give wide range of built in functions like arthematic,trigonometric ,statistic. 2. Efficient: It allows for fast, vectorized operations on arrays
Continue…. e.g: vectorization refers to the ability to perform operations on entire arrays (vectors) without the need for writing explicit loops (like for loop) CODE : import numpy as np # Create a NumPy array arr = np.array([1, 2, 3, 4, 5]) # Perform vectorized operations
Continue …. arr_plus_10 = arr + 10 # Add 10 to each element arr_squared = arr ** 2 # Square each element arr_times_2 = arr * 2 # Multiply each element by 2 # Print the results print("Array + 10:", arr_plus_10) print("Array squared:", arr_squared) print("Array * 2:", arr_times_2)
Continue…..  3. Multi-dimensional: You can work with arrays of any dimension (1D, 2D, 3D, etc.).  Importance of numpy in machine learning and data scienece NumPy provides fast and memory-efficient operations for large datasets using arrays. E.g. Numpy works on parallelsim. Machine learning models often involve working with arrays and matrices.  NumPy simplifies these operations with:  Matrix multiplication (dot)  Transposition (T) # changing of row to column and vice versa
Continue ………  Data Preprocessing  NumPy is essential for preparing data before feeding it into ML models, such as: Feature scaling (normalization and standardization). Missing value handling (replacing NaN with values)  Core for Data Science Tasks  Statistical analysis (mean, median, standard deviation).  Manipulating multidimensional arrays.  Creating datasets for visualization
Core Features of NumPy 1. Arrays and Matrices  Explanation:  NumPy introduces the ndarray, a powerful n-dimensional array object that is more efficient than Python's lists.  Matrix is two dimensional array. RULE FOR DOT PRODUCT In dot product the column of first Array and row of second Array is must same so then dot product is applied on it .
Continue….  Why It’s Important:  Arrays are used to represent data points, features, and target labels in machine learning.  Matrices are crucial for linear algebra operations like dot products, solving systems of equations, etc.  2.Broadcasting  Explanation:  Broadcasting allows NumPy to perform operations on arrays with different shapes and sizes.
 It automatically stretches or replicates smaller arrays to match the shape of larger arrays during computations.  RULES FOR BROADCASTING Compare Shapes from Right to Left NumPy compares the dimensions of the arrays starting from the trailing (rightmost) dimensions . RULE: Compare the shapes of the arrays from right to left. If the dimensions are the same or one of them is 1, broadcasting can happen.
Continue…… EXAMPLE import numpy as np # Define arrays a = np.array([[1, 2, 3], [4, 5, 6]]) # Shape: (2, 3) b = np.array([10, 20, 30]) # Shape: (3)
Continue…..  # Add arrays (broadcasting) result = a + b print(result) Result: [[11 22 33] [14 25 36]]
Continue…..  Example 2: Incompatible Shapes  a = np.array([1, 2, 3]) # Shape: (3,)  b = np.array([[10, 20]]) # Shape: (1, 2)  result = a + b # Error:  Form the right most broadcasting is perform on those arrays which has same dimension or has 1 in there dimension
Continue…..
Contiue….  After broadcasting Result A*B =shape (2,1,3,4) In compatibale shapes A= shape (3,4,5) B= shape (2,3) After broadcasting result = error because From the rightmost dimension
Continue…..  a has (5) and b has (4); they don’t match.  Broadcasting fails because no dimension is 1 or compatible  3.MATHMATICAL OPERATIONS OF NUMPY numpy provide a large amount of built in function which works fast in data science and machine learning .
Continue…..  For machine learning task Matrix multiplication (dot)  Transposition (T) numpy provide a large amount of built in functions for preprocessing For Data Science Tasks  Tasks like:
Continue……  Statistical analysis (mean, median, standard deviation).  Manipulating multidimensional arrays.  Creating datasets for visualization  NUMPY ARRAYS A NumPy array is a powerful data structure in the NumPy library, used to store and manipulate largeamounts of numerical data efficiently.
Numpy arrays continue……. WHY NUMPY ARRAY CONSUME LESS MEMORY  NumPy arrays consume less memory and allow faster data manipulation.  NumPy arrays consume less memory because they store data in contiguous memory blocks with a fixed data type for all elements. In contrast, Python lists store references to objects, which requires additional memory for metadata and object pointers
Continue…….  Basics:  NumPy arrays are like Python lists but much faster and support advanced operations.  They are homogeneous, meaning all elements must be of the same data type. BENEFITS :  They allow element-wise operations (e.g., addition, subtraction).  They consume less memory compared to Python lists.  NumPy arrays support multi-dimensional data.
Continue….. Types of Arrays 1D Arrays:  A single row of data (like a list). CODE  arr_1d = np.array([1, 2, 3, 4])  print(arr_1d) # Output: [1 2 3 4] 2D Arrays:  Rows and columns (like a matrix).
Continue……. CODE  arr_2d = np.array([[1, 2], [3, 4]])  print(arr_2d) 3D Arrays:  A collection of matrices (like a cube). CODE  arr_3d = np.array([[[1, 2], [3, 4]], [[5, 6], [7, 8]]])  print(arr_3d)
Continue….. Specialized Arrays: Zeros Array: Filled with zeros. CODE Zero_arr = np.zeros((2, 3)) print(Zero_array)
Indexing, Slicing  Indexing . Access elements using their position(indices ). CODE FOR 1D ARRAY arr = np.array([10, 20, 30, 40])  print(arr[2]) # Output: 30 # print(arr) # for all element For multi-dimensional arrays  CODE FOR 2D ARRAY arr_2d = np.array([[1, 2, 3], [4, 5, 6]])
Continue….  print(arr_2d[1, 2]) # Output: 6 # acess the rows and column all_rows_col = arr_2d[:,:] print(all_rows_col) #acess all columns for specific row row_2 = arr_2d[2, :] # Access the 2nd row  # and all columns
Continue…..  ACCESS ALL ROW FOR SPECIFIC COLUMN:  column2 = arr[:, 2]  print(column2) more on indexing  ARR = arr[1:4,1:4] # from row 1 to 3 rows and column ARR = arr[:2,:] # it give row 0 and 1 row and # all columns
Continue……  3D Array Indexing A 3D array can be thought of as a collection of 2D arrays (matrices) stacked along a third dimension. INDEXING arry_3d = [ [[11,22,33] [12,13,14 ], [[9, 2, 5 ] [3, 4, 6 ]]]
Continue…… Print(arry_3d)  For each element arr_3d_ele = arr_3d(0,1,2) # 14 print( arr_3d_ele) for num of rows and columns x = arr_3d[0, : , :] # give all rows and column on 0 dimension
Continue….  x= arr_3d[0, 0:2 , 0:2] # give 0 num dimension, (0 , 1 row and print(x) # index (0,1) columns x= arr_3d[0:2 , 0:3 , 0:2] # includes (0, and 1 ) dimension and (0 # to 2 row and (0 to 1 index) column
Continue……  Reshaping Arrays in NumPy Reshaping in NumPy allows you to change the shape (number of rows and columns) of an array without changing its data. This is useful when you need to transform arrays for operations, modeling, or visualization. RESHAPE 1D TO 2D ARRAY import numpy as np # Original array (1D)
Continue…… arr = np.array([1, 2, 3, 4, 5, 6]) # Reshape to 2 rows and 3 columns reshaped = arr.reshape(2, 3) print(reshaped)
Arrays functions Function Description np.array() Create an array from a list or tuple np.zeros(shape) Create an array filled with zeros np.ones(shape) Create an array filled with ones np.full(shape, fill) Create an array filled with specific value
Continue….. Function Description np.eye(N) Identity matrix np.arange(start, stop, step) Create array with range np.linspace(start, stop, num) Create array with evenly spaced numbers

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THE NUMPY LIBRARY of python with slides.pptx

  • 1.
  • 2.
    1. Introduction toNumPy  What is NumPy?  Importance in Data Science and Machine Learning 2. Core Features of NumPy  Arrays and Matrices  Mathematical Operations  Broadcasting OUTLINE
  • 3.
    Continue 3. NumPy Arrays Indexing, Slicing  Reshaping of arrays  Types of Arrays  Arrays functions
  • 4.
    INTRODUCTION TO NUMPY WHATIS NUMPY : Def: NumPy is the abrivation of (Numerical Python) which is a powerful python library for numerical computing .  Why power full library? 1. Mathematical function numpy give wide range of built in functions like arthematic,trigonometric ,statistic. 2. Efficient: It allows for fast, vectorized operations on arrays
  • 5.
    Continue…. e.g: vectorization refersto the ability to perform operations on entire arrays (vectors) without the need for writing explicit loops (like for loop) CODE : import numpy as np # Create a NumPy array arr = np.array([1, 2, 3, 4, 5]) # Perform vectorized operations
  • 6.
    Continue …. arr_plus_10 =arr + 10 # Add 10 to each element arr_squared = arr ** 2 # Square each element arr_times_2 = arr * 2 # Multiply each element by 2 # Print the results print("Array + 10:", arr_plus_10) print("Array squared:", arr_squared) print("Array * 2:", arr_times_2)
  • 7.
    Continue…..  3. Multi-dimensional:You can work with arrays of any dimension (1D, 2D, 3D, etc.).  Importance of numpy in machine learning and data scienece NumPy provides fast and memory-efficient operations for large datasets using arrays. E.g. Numpy works on parallelsim. Machine learning models often involve working with arrays and matrices.  NumPy simplifies these operations with:  Matrix multiplication (dot)  Transposition (T) # changing of row to column and vice versa
  • 8.
    Continue ………  DataPreprocessing  NumPy is essential for preparing data before feeding it into ML models, such as: Feature scaling (normalization and standardization). Missing value handling (replacing NaN with values)  Core for Data Science Tasks  Statistical analysis (mean, median, standard deviation).  Manipulating multidimensional arrays.  Creating datasets for visualization
  • 9.
    Core Features ofNumPy 1. Arrays and Matrices  Explanation:  NumPy introduces the ndarray, a powerful n-dimensional array object that is more efficient than Python's lists.  Matrix is two dimensional array. RULE FOR DOT PRODUCT In dot product the column of first Array and row of second Array is must same so then dot product is applied on it .
  • 10.
    Continue….  Why It’sImportant:  Arrays are used to represent data points, features, and target labels in machine learning.  Matrices are crucial for linear algebra operations like dot products, solving systems of equations, etc.  2.Broadcasting  Explanation:  Broadcasting allows NumPy to perform operations on arrays with different shapes and sizes.
  • 11.
     It automaticallystretches or replicates smaller arrays to match the shape of larger arrays during computations.  RULES FOR BROADCASTING Compare Shapes from Right to Left NumPy compares the dimensions of the arrays starting from the trailing (rightmost) dimensions . RULE: Compare the shapes of the arrays from right to left. If the dimensions are the same or one of them is 1, broadcasting can happen.
  • 12.
    Continue…… EXAMPLE import numpy asnp # Define arrays a = np.array([[1, 2, 3], [4, 5, 6]]) # Shape: (2, 3) b = np.array([10, 20, 30]) # Shape: (3)
  • 13.
    Continue…..  # Addarrays (broadcasting) result = a + b print(result) Result: [[11 22 33] [14 25 36]]
  • 14.
    Continue…..  Example 2:Incompatible Shapes  a = np.array([1, 2, 3]) # Shape: (3,)  b = np.array([[10, 20]]) # Shape: (1, 2)  result = a + b # Error:  Form the right most broadcasting is perform on those arrays which has same dimension or has 1 in there dimension
  • 16.
  • 17.
    Contiue….  After broadcasting ResultA*B =shape (2,1,3,4) In compatibale shapes A= shape (3,4,5) B= shape (2,3) After broadcasting result = error because From the rightmost dimension
  • 18.
    Continue…..  a has(5) and b has (4); they don’t match.  Broadcasting fails because no dimension is 1 or compatible  3.MATHMATICAL OPERATIONS OF NUMPY numpy provide a large amount of built in function which works fast in data science and machine learning .
  • 19.
    Continue…..  For machinelearning task Matrix multiplication (dot)  Transposition (T) numpy provide a large amount of built in functions for preprocessing For Data Science Tasks  Tasks like:
  • 20.
    Continue……  Statistical analysis(mean, median, standard deviation).  Manipulating multidimensional arrays.  Creating datasets for visualization  NUMPY ARRAYS A NumPy array is a powerful data structure in the NumPy library, used to store and manipulate largeamounts of numerical data efficiently.
  • 21.
    Numpy arrays continue……. WHYNUMPY ARRAY CONSUME LESS MEMORY  NumPy arrays consume less memory and allow faster data manipulation.  NumPy arrays consume less memory because they store data in contiguous memory blocks with a fixed data type for all elements. In contrast, Python lists store references to objects, which requires additional memory for metadata and object pointers
  • 22.
    Continue…….  Basics:  NumPyarrays are like Python lists but much faster and support advanced operations.  They are homogeneous, meaning all elements must be of the same data type. BENEFITS :  They allow element-wise operations (e.g., addition, subtraction).  They consume less memory compared to Python lists.  NumPy arrays support multi-dimensional data.
  • 23.
    Continue….. Types of Arrays 1DArrays:  A single row of data (like a list). CODE  arr_1d = np.array([1, 2, 3, 4])  print(arr_1d) # Output: [1 2 3 4] 2D Arrays:  Rows and columns (like a matrix).
  • 24.
    Continue……. CODE  arr_2d =np.array([[1, 2], [3, 4]])  print(arr_2d) 3D Arrays:  A collection of matrices (like a cube). CODE  arr_3d = np.array([[[1, 2], [3, 4]], [[5, 6], [7, 8]]])  print(arr_3d)
  • 25.
    Continue….. Specialized Arrays: Zeros Array:Filled with zeros. CODE Zero_arr = np.zeros((2, 3)) print(Zero_array)
  • 26.
    Indexing, Slicing  Indexing. Access elements using their position(indices ). CODE FOR 1D ARRAY arr = np.array([10, 20, 30, 40])  print(arr[2]) # Output: 30 # print(arr) # for all element For multi-dimensional arrays  CODE FOR 2D ARRAY arr_2d = np.array([[1, 2, 3], [4, 5, 6]])
  • 27.
    Continue….  print(arr_2d[1, 2])# Output: 6 # acess the rows and column all_rows_col = arr_2d[:,:] print(all_rows_col) #acess all columns for specific row row_2 = arr_2d[2, :] # Access the 2nd row  # and all columns
  • 28.
    Continue…..  ACCESS ALLROW FOR SPECIFIC COLUMN:  column2 = arr[:, 2]  print(column2) more on indexing  ARR = arr[1:4,1:4] # from row 1 to 3 rows and column ARR = arr[:2,:] # it give row 0 and 1 row and # all columns
  • 29.
    Continue……  3D ArrayIndexing A 3D array can be thought of as a collection of 2D arrays (matrices) stacked along a third dimension. INDEXING arry_3d = [ [[11,22,33] [12,13,14 ], [[9, 2, 5 ] [3, 4, 6 ]]]
  • 30.
    Continue…… Print(arry_3d)  For eachelement arr_3d_ele = arr_3d(0,1,2) # 14 print( arr_3d_ele) for num of rows and columns x = arr_3d[0, : , :] # give all rows and column on 0 dimension
  • 31.
    Continue….  x= arr_3d[0,0:2 , 0:2] # give 0 num dimension, (0 , 1 row and print(x) # index (0,1) columns x= arr_3d[0:2 , 0:3 , 0:2] # includes (0, and 1 ) dimension and (0 # to 2 row and (0 to 1 index) column
  • 32.
    Continue……  Reshaping Arraysin NumPy Reshaping in NumPy allows you to change the shape (number of rows and columns) of an array without changing its data. This is useful when you need to transform arrays for operations, modeling, or visualization. RESHAPE 1D TO 2D ARRAY import numpy as np # Original array (1D)
  • 33.
    Continue…… arr = np.array([1,2, 3, 4, 5, 6]) # Reshape to 2 rows and 3 columns reshaped = arr.reshape(2, 3) print(reshaped)
  • 34.
    Arrays functions Function Description np.array() Createan array from a list or tuple np.zeros(shape) Create an array filled with zeros np.ones(shape) Create an array filled with ones np.full(shape, fill) Create an array filled with specific value
  • 35.
    Continue….. Function Description np.eye(N) Identitymatrix np.arange(start, stop, step) Create array with range np.linspace(start, stop, num) Create array with evenly spaced numbers