
Computer Networking: A Top-Down Approach (7th Edition)
7th Edition
ISBN: 9780133594140
Author: James Kurose, Keith Ross
Publisher: PEARSON
expand_more
expand_more
format_list_bulleted
Question
A list of 4001 integer numbers is given for project 1 in ‘datafile2.csv’ file. All the input integer
numbers are positive and less than 10000. Find a simple and fast (better running time)
a) Submit your code to solve the problem.
b) Explain why your code is simple and fast.
Note: 1. Your algorithm should be simple and fast to get better grade
2. Please do not use any built-in sorting or selection algorithm for this project. Write your
own code to solve the problem
Expert Solution

This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
This is a popular solution
Trending nowThis is a popular solution!
Step by stepSolved in 5 steps

Knowledge Booster
Similar questions
- Use the Problem-Solving Procedure to analyze the following problem. In a posting, express in your own words the ordered steps (pseudocode) needed for a solution. To get full points return here and make value-adding replies to the posts of at least two other students. NOTE: write only pseudocode, not Python code. ProblemPrompt the user for his/her height in feet and inches and then report the height in centimeters. Use a properly named constant.arrow_forwardAnother functionality for the app is the ability to estimate the return on investment over a period of time. In order to implement this feature, you will have to update the investment calculator algorithm. The base function to calculate the return on investment from Task 1 can be reutilized here to simplify our task. This feature will take into consideration a 12-month period by default. To calculate the total amount earned over a period of time, you will have to loop through the n-months period, increase the amount for each period. The other rules from the previous task apply here as well. For example: If you invest $3 million on the first month, and obtain a return of $93,000 dollars, then the amount to be invested in the second month is $3.093 million. To summarize: Loop over a period of 12 months to calculate the total for each period Return the accumulated estimated value for a period of 12 monthsarrow_forwardI need help with this python computer science DEEP BREADTH SEARCH question. I have the layout of the code but I need help filling in the parts that say "pass" and I want you to take a picture of your output and make sure it matches the sample run below. Find a path (not the best path, but just any path) from A to Z. You see that the green path is not the shortest but it does let us navigate from start to finish. (The picture below) First, we need to know A and Z, our starting and ending points. We'll pass these into our function. I'm going to use a dictionary to represent this graph. Each node (vertex, circle) will have a name, in this case "A" and "Z" were the names of the nodes, but in the generated maps I'm going to use "Node 1", "Node 2", "Node 3", etc. Here is an example web_map web_map = { 'Node 1': ['Node 3', 'Node 2'], 'Node 2': ['Node 1', 'Node 4'], 'Node 3': ['Node 1'], 'Node 4': ['Node 2'] } Node 1 is connected to 2 and 3 for instance, and then also note that…arrow_forward
- I would some help in JAVA using eclipse software. provided comments will be appreciated. thanks.arrow_forwardIn matlabarrow_forwardI need the code from start to end with no errors and the explanation for the code ObjectivesJava refresher (including file I/O)Use recursionDescriptionFor this project, you get to write a maze solver. A maze is a two dimensional array of chars. Walls are represented as '#'s and ' ' are empty squares. The maze entrance is always in the first row, second column (and will always be an empty square). There will be zero or more exits along the outside perimeter. To be considered an exit, it must be reachable from the entrance. The entrance is not an exit.Here are some example mazes:mazeA7 9# # ###### # # ## # # #### # ## ##### ## ########## RequirementsWrite a MazeSolver class in Java. This program needs to prompt the user for a maze filename and then explore the maze. Display how many exits were found and the positions (not indices) of the valid exits. Your program can display the valid exits found in any order. See the examples below for exact output requirements. Also, record…arrow_forward
- Coding in Pythonarrow_forwardThis problem is require to use Pythonarrow_forwardt for several problems you will modify some provided Python code to implement algorithms to solve the same instance of the knapsack problem. After implementing all of the code and solving the problem, you must provide a single table of all results similar to the following: Table 1: Example of results summary (numbers are not realistic) Algorithm Iterations Items Selected Weight Objective Local Search (Best Improvement) 3102 49 97 117 Local Search with Random Restarts (k = 100) Local Search with Random walk (p = 0.25) 9510 121 21 147 2102 87 32 184 etc. Knapsack Problem Definition Given n different items, where each item i has an assigned value (v.) and weight (w), select a combination of the items to maximize the total value without exceeding the weight limitations, W, of the knapsack. IMPORTANT!: When generating random problem instance set you must use the code provided and values: n = 150; max weight of 2500; and, use a seed value (for the random number generator) of 51132023.arrow_forward
- Note that you can only use recursion to solve Q1 and you cannot use any loop. You are free to add helper methods, but you are not allowed to change the method header.Question 1: Crazy seriesIn this session, you need to implement the crazy series method. In the crazy series, you will be given a starting number. Then, you need to times 2 for each number until the number is greater than 100. After the number is greater than 100, you need to divide 3 until we reach the number is less than 5. Note that the input number must be greater than 0, and you are not allowed to use loop here.For example,crazySeries(10) should return ArrayList [10.0, 20.0, 40.0, 80.0, 160.0, 53.333333333333336, 17.77777777777778, 5.9259259259259265, 1.9753086419753088]crazySeries(5) should return ArrayList [5.0, 10.0, 20.0, 40.0, 80.0, 160.0, 53.333333333333336, 17.77777777777778, 5.9259259259259265, 1.9753086419753088]crazySeries(1) should return ArrayList [1.0, 2.0, 4.0, 8.0, 16.0, 32.0, 64.0, 128.0,…arrow_forwardThe following code is implementing a Treasure map use the A* algorithm to find the shortest path between two points in a map. It appears that the initial compare looks at the f_cost and decides that we are at the point in the map and exits the routine and prints only the starting point. I'm not sure how to fix it, any help would get appreciated. Example of the output from the following Python program: start place = (0, 0) Treasure location: (29, 86) Path to treasure:(0, 0) Python Code: import heapqimport random class Tile: def __init__(self, x, y): self.x = x self.y = y self.is_obstacle = False self.g_cost = 0 self.h_cost = 0 self.f_cost = 0 self.parent = None # Define comparison methods for Tile objects based on their f_cost def __lt__(self, other): return self.f_cost < other.f_cost def __eq__(self, other): return self.f_cost == other.f_cost class Map: def __init__(self, width, height):…arrow_forwardI need help figuring out what i need to include in my code for the Simulation Statistics part?arrow_forward
arrow_back_ios
SEE MORE QUESTIONS
arrow_forward_ios
Recommended textbooks for you
- Computer Networking: A Top-Down Approach (7th Edi...Computer EngineeringISBN:9780133594140Author:James Kurose, Keith RossPublisher:PEARSONComputer Organization and Design MIPS Edition, Fi...Computer EngineeringISBN:9780124077263Author:David A. Patterson, John L. HennessyPublisher:Elsevier ScienceNetwork+ Guide to Networks (MindTap Course List)Computer EngineeringISBN:9781337569330Author:Jill West, Tamara Dean, Jean AndrewsPublisher:Cengage Learning
- Concepts of Database ManagementComputer EngineeringISBN:9781337093422Author:Joy L. Starks, Philip J. Pratt, Mary Z. LastPublisher:Cengage LearningPrelude to ProgrammingComputer EngineeringISBN:9780133750423Author:VENIT, StewartPublisher:Pearson EducationSc Business Data Communications and Networking, T...Computer EngineeringISBN:9781119368830Author:FITZGERALDPublisher:WILEY

Computer Networking: A Top-Down Approach (7th Edi...
Computer Engineering
ISBN:9780133594140
Author:James Kurose, Keith Ross
Publisher:PEARSON

Computer Organization and Design MIPS Edition, Fi...
Computer Engineering
ISBN:9780124077263
Author:David A. Patterson, John L. Hennessy
Publisher:Elsevier Science

Network+ Guide to Networks (MindTap Course List)
Computer Engineering
ISBN:9781337569330
Author:Jill West, Tamara Dean, Jean Andrews
Publisher:Cengage Learning

Concepts of Database Management
Computer Engineering
ISBN:9781337093422
Author:Joy L. Starks, Philip J. Pratt, Mary Z. Last
Publisher:Cengage Learning

Prelude to Programming
Computer Engineering
ISBN:9780133750423
Author:VENIT, Stewart
Publisher:Pearson Education

Sc Business Data Communications and Networking, T...
Computer Engineering
ISBN:9781119368830
Author:FITZGERALD
Publisher:WILEY