Algorithms For Dummies. John Paul Mueller
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Название: Algorithms For Dummies

Автор: John Paul Mueller

Издательство: John Wiley & Sons Limited

Жанр: Программы

Серия:

isbn: 9781119870005

isbn:

СКАЧАТЬ href="#ulink_e40fc3b2-0ea3-540d-835c-82efdd9292c9">Shaking Things Up with Random Numbers Performing Data Compression Keeping Data Secret Changing the Data Domain Analyzing Links Spotting Data Patterns Dealing with Automation and Automatic Responses Creating Unique Identifiers Chapter 22: Ten Algorithmic Problems Yet to Solve Solving Problems Quickly Solving 3SUM Problems More Efficiently Making Matrix Multiplication Faster Determining Whether an Application Will End Creating and Using One-Way Functions Multiplying Really Large Numbers Dividing a Resource Equally Reducing Edit Distance Calculation Time Playing the Parity Game Understanding Spatial Issues

      11  Index

      12  About the Authors

      13  Advertisement Page

      14  Connect with Dummies

      15  End User License Agreement

      List of Illustrations

      1 Chapter 2FIGURE 2-1: Complexity of an algorithm in case of best, average, and worst inpu...

      2 Chapter 3FIGURE 3-1: Using Colab commands makes configuring your Notebook easy.FIGURE 3-2: The Settings dialog box helps you configure the Colab IDE.FIGURE 3-3: Customize shortcut keys for speed of access to commands.FIGURE 3-4: Colab lets you compare two files to see how they differ.FIGURE 3-5: Create a new Python 3 Notebook.FIGURE 3-6: Use this dialog box to open existing notebooks.FIGURE 3-7: When using GitHub, you must provide the location of the source code...FIGURE 3-8: Using GitHub means storing your data in a repository.FIGURE 3-9: Colab code cells contain a few extras not found in Notebook.FIGURE 3-10: Use the GUI to make formatting your text easier.

      3 Chapter 4FIGURE 4-1: In the recursion process, a function continuously calls itself unti...

      4 Chapter 6FIGURE 6-1: A tree in Python looks much like the physical alternative.FIGURE 6-2: Graph nodes can connect to each other in myriad ways.

      5 Chapter 7FIGURE 7-1: The arrangement of keys when using a BST.FIGURE 7-2: The arrangement of keys when using a binary heap.

      6 Chapter 8FIGURE 8-1: Presenting a simple undirected graph.FIGURE 8-2: Creating the directed version of the same graph.FIGURE 8-3: A mixed graph shows a mix of directed and undirected subgraphs.FIGURE 8-4: Using a weighted graph to make things more realistic.FIGURE 8-5: Seeing what a graph contains makes it easier to understand.FIGURE 8-6: Plotting the graph can help you see degree centrality with greater ...

      7 Chapter 9FIGURE 9-1: Representing the example graph by NetworkX.FIGURE 9-2: The example graph becomes weighted.FIGURE 9-3: The example graph becomes weighted and directed.FIGURE 9-4: Negative edges are added to the example graph.FIGURE 9-5: A negative cycle in a graph can create problems for some algorithms...

      8 Chapter 10FIGURE 10-1: A graph showing the network clusters of relationships among friend...FIGURE 10-2: Communities often contain cliques that can prove useful for SNA.FIGURE 10-3: A sample graph used for navigation purposes.

      9 Chapter 11FIGURE 11-1: A strongly connected network.FIGURE 11-2: A network with a dead end in node 2.FIGURE 11-3: A network with a spider trap in nodes 4, 5, and 6.

      10 Chapter 12FIGURE 12-1: Stuffing more and more transistors into a CPU.FIGURE 12-2: How sampling from a bucket works.FIGURE 12-3: An example of windowing a stream of DNA data.FIGURE 12-4: Adding a single element to a bit vector.FIGURE 12-5: Adding a second element can cause collisions.FIGURE 12-6: Locating an element and determining that it exists means searching...FIGURE 12-7: Testing membership of a website using a Bloom filter.FIGURE 12-8: Counting only leading zeros.FIGURE 12-9: How values are updated in a Count-Min Sketch.

      11 Chapter 13FIGURE 13-1: Associative and commutative properties allow parallelism.FIGURE 13-2: A schema representing a computing cluster.FIGURE 13-3: Mapping a list of numbers by a square function.FIGURE 13-4: Reducing a list of numbers to its sum.FIGURE 13-5: An overview of the complete MapReduce computation.

      12 Chapter 14FIGURE 14-1: A Huffman tree and its symbolic table of conversion.

      13 Chapter 15FIGURE 15-1: The sets of P, NP, NP-complete and NP-hard problems.FIGURE 15-2: From a balanced tree (left) to an unbalanced tree (right).

      14 Chapter 16FIGURE 16-1: Cities represented as nodes in a weighted graph.FIGURE 16-2: Transforming Saturday into Sunday.FIGURE 16-3: Highlighting what transformations are applied.

      15 Chapter 17FIGURE 17-1: A histogram of a normal distribution.FIGURE 17-2: A histogram of a uniform distribution.FIGURE 17-3: Displaying the results of a Monte Carlo simulation.FIGURE 17-4: Displaying the results of a Monte Carlo simulation on quick select...FIGURE 17-5: Displaying Monte Carlo simulations as input grows.

      16 Chapter 18FIGURE 18-1: Switching ending trips in a TSP problem may bring better results.FIGURE 18-2: Local search explores the landscape by hill climbing.FIGURE 18-3: An 8-queen puzzle solved.FIGURE 18-4: Symbols and truth tables of logic operators AND, OR, and NOT.FIGURE 18-5: The number of unsatisfiable clauses decreases after random adjustm...FIGURE 18-6: Execution is speedier because the starting point is better.

      17 Chapter 19FIGURE 19-1: Looking where the objective function is going to touch the feasibl...FIGURE 19-2: Wondering which vertex is the right one.

      18 Chapter 20FIGURE 20-1: A and B are points on a map’s coordinates.FIGURE 20-2: A maze representing a topological map with obstacles.FIGURE 20-3: An intricate maze to be solved by heuristics.

      Guide

      1  Cover

      2  Title Page

      3  СКАЧАТЬ