Use a capital a in a07 as it makes a difference.

Once you have completed the assignment in exercise 3-1, do the following:
1) Create a new repository in GitHub called A07. Use a capital A in A07 as it makes a difference.
2) Create other files as needed for references to images, stylesheets, etc.
3) Upload the index.html, other html files such as sorkin.html, image and support files to the Github Repository
4) The files for this assignment are included in the starter files for this assignment.
5) Follow the instructions in the attached PDF file for Exercise 4-1.
6) You MUST change the copyright information to have the correct due date and your name.
7) Create a new repository in GitHub called A08.
8) Upload your files to your repository A08 and any other subfolders you have created.
9) Follow the instructions in the attached PDF file for Exercise 5-1.
10) You MUST change the copyright information to have the correct due date and your name.
11) Create a new repository in GitHub called A09.

What are the key objectives?

Use hadoop
Complete a team project, which demonstrates your ability to work in a team to design and solve a bigdata problem. Guidelines:
o Work in self-assembled teams of one to three students.
o Devise your own case study and data set to work on.
o Identify outcomes of that you intend to do and why.
o Project idea must be preapproved prior to beginning work.
Required artifacts for submission:
1. Project overview document: What is the project about? What are the key objectives?
2. Docker-compose.yml file that sets up the services you will use in your project. If your project
uses the cloud, then the command line steps to deploy/undeploy the resources in the cloud.
3. Accompanying code.
4. A slide deck of your presentation to outline project, goals, architecture, outcomes, and lessons
learned.

What are the key objectives?

Complete a team project, which demonstrates your ability to work in a team to design and solve a bigdata problem. Guidelines:
o Work in self-assembled teams of one to three students.
o Devise your own case study and data set to work on.
o Identify outcomes of that you intend to do and why.
o Project idea must be preapproved prior to beginning work.
Required artifacts for submission:
1. Project overview document: What is the project about? What are the key objectives?
2. Docker-compose.yml file that sets up the services you will use in your project. If your project
uses the cloud, then the command line steps to deploy/undeploy the resources in the cloud.
3. Accompanying code.
4. A slide deck of your presentation to outline project, goals, architecture, outcomes, and lessons
learned.

Use a capital a in a07 as it makes a difference.

Once you have completed the assignment in exercise 3-1, do the following:
1) Create a new repository in GitHub called A07. Use a capital A in A07 as it makes a difference.
2) Create other files as needed for references to images, stylesheets, etc.
3) Upload the index.html, other html files such as sorkin.html, image and support files to the Github Repository
4) The files for this assignment are included in the starter files for this assignment.
5) Follow the instructions in the attached PDF file for Exercise 4-1.
6) You MUST change the copyright information to have the correct due date and your name.
7) Create a new repository in GitHub called A08.
8) Upload your files to your repository A08 and any other subfolders you have created.
9) Follow the instructions in the attached PDF file for Exercise 5-1.
10) You MUST change the copyright information to have the correct due date and your name.
11) Create a new repository in GitHub called A09.

What are the key objectives?

Use hadoop
Complete a team project, which demonstrates your ability to work in a team to design and solve a bigdata problem. Guidelines:
o Work in self-assembled teams of one to three students.
o Devise your own case study and data set to work on.
o Identify outcomes of that you intend to do and why.
o Project idea must be preapproved prior to beginning work.
Required artifacts for submission:
1. Project overview document: What is the project about? What are the key objectives?
2. Docker-compose.yml file that sets up the services you will use in your project. If your project
uses the cloud, then the command line steps to deploy/undeploy the resources in the cloud.
3. Accompanying code.
4. A slide deck of your presentation to outline project, goals, architecture, outcomes, and lessons
learned.

What are the key objectives?

Complete a team project, which demonstrates your ability to work in a team to design and solve a bigdata problem. Guidelines:
o Work in self-assembled teams of one to three students.
o Devise your own case study and data set to work on.
o Identify outcomes of that you intend to do and why.
o Project idea must be preapproved prior to beginning work.
Required artifacts for submission:
1. Project overview document: What is the project about? What are the key objectives?
2. Docker-compose.yml file that sets up the services you will use in your project. If your project
uses the cloud, then the command line steps to deploy/undeploy the resources in the cloud.
3. Accompanying code.
4. A slide deck of your presentation to outline project, goals, architecture, outcomes, and lessons
learned.

It will automatically open in the query window and you can continue working on it.

. Use the following steps to create the file and submit it:
1.Open MySQL Workbench and select the database you created
2.In the query window write the first drop and create statement and execute them to insure they are working
3.Click File Save Script As (it will show a generic name of the query)
4.Name the file as follows: Last Name, First Initial, Phase2 (e.g. StoneMPhase2) and save it somewhere you can find it. Leave it as a .sql file
5.Add the next drop and create statements and execute again.
6.If it works, save the file. If not, make the corrections, re-execute until it works.
7.Continue until all of the drop and create statements are executing and tables are created.
8.Submit the .sql file to the drop box.
You can do this in stages if you want. The next time you open MySQL Workbench go to FileOpen SQL Script and then select the file that you have been saving. It will automatically open in the query window and you can continue working on it.

Download the un-formatted flyer from the link

Download the Un-formatted flyer from the link
Create a html (web) document, following the instructions, that looks like a flyer and upload it as the assignment
Your boss asked you to create a website that advertises the company’s commodity trading seminars. Your boss created the text in the unformatted flyer, has asked you to modify the text in the flyer, format its paragraphs and characters, and insert a picture to create the formatted flyer as shown here. You may use any picture that you like. You may also use the background and foreground colors of your choice.

Selection sort

Take several mystery sorting algorithms and determine which ones they are by experimentation.
The object file mysterysorts.o contains six sorting algorithms, which you can use by calling the
mysterySort function with an array, its length, and an integer between 0 and 5 to indicate which
algorithm to use. The function is designed to take an array of numbers and order the elements into
ascending order using the particular algorithm. More specifically, the algorithms used are:
Bubble sort
Insertion sort
Selection sort
Heap sort
Merge sort
Quicksort (where the first element of the array is used as the pivot for partitioning.)
Your job as the sorting detective is to figure out which algorithm is implemented by each mystery sort.
Below are some techniques you may use.
First, you can interrupt the sort and observe how the values are being moved around the array. Read
the comments of the provided header file mysterysorts.h that tells you how you can control the
number of steps performed by the algorithm. You should then check whether the behavior of the
algorithm matches the known behavior and invariants of the particular sorting algorithms. You must
use randomly generated arrays for these tests, not hard coded arrays.
Secondly, you can time the sorting algorithms and get an overall idea of their performances. A way to
measure elapsed system time for programs is to use function gettimeofday(). If you record the
starting and finishing times in the timeval structures start and finish, you can compute the
time elapsed in microseconds as demonstrated in the starter file named demo.c .
To perform this task you will need to complete the time_category and classify functions in the
file detective.c . They should take a number for algorithm to select and use one or more calls to
mysterySort with that algorithm number to determine which algorithm it is using. Do not hard code
your conclusions of which algorithm is which, but write code to analyze the algorithm’s behavior and
determine which algorithm it is. Grading tests will be run with the algorithms being assigned different
numbers.
2
Note that the object file mysterysorts.o is compiled on the CS department servers under Linux, so
it may not be compatible with your home machine.