Write an assembly program that: 1. Accepts <> number from the keyboard. 2. Determine if the number is prime or not, to be displayed later. 3. Calculate the binary representation of the number. 4. Use the DOS interrupt subroutines to output the results as: Clear the screen, then print out: "Binary representation = " <> "You entered: " <> "Prime", <> OR, "Not Prime", <> While you test your code to make the output screenshots, you should choose your number to be the first two nonzero digits from the right of your university number, just like the following examples: 320190107058 ->
Write an assembly program that: 1. Accepts <> number from the keyboard. 2. Determine if the number is prime or not, to be displayed later. 3. Calculate the binary representation of the number. 4. Use the DOS interrupt subroutines to output the results as: Clear the screen, then print out: "Binary representation = " <> "You entered: " <> "Prime", <> OR, "Not Prime", <> While you test your code to make the output screenshots, you should choose your number to be the first two nonzero digits from the right of your university number, just like the following examples: 320190107058 ->
Computer Networking: A Top-Down Approach (7th Edition)
7th Edition
ISBN:9780133594140
Author:James Kurose, Keith Ross
Publisher:James Kurose, Keith Ross
Chapter1: Computer Networks And The Internet
Section: Chapter Questions
Problem R1RQ: What is the difference between a host and an end system? List several different types of end...
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Question
Write an assembly program that:
1. Accepts <> number from the keyboard.
2. Determine if the number is prime or not, to be displayed later.
3. Calculate the binary representation of the number.
4. Use the DOS interrupt subroutines to output the results as:
Clear the screen, then print out:
"Binary representation = " <>
"You entered: " <>
"Prime", <> OR, "Not Prime", <>
While you test your code to make the output screenshots, you should choose your number to be the first two nonzero digits from the right of your university number, just like the following examples:
320190107058 -> [Digit1 = 8] and [Digit2 = 5] -> 58
320180125003 -> [Digit1 = 3] and [Digit2 = 5] -> 53
320200100280 -> [Digit1 = 8] and [Digit2 = 2] -> 28
Any two or more identical codes will take zero !!!
Submission: The script file (*.asm code) and the screenshot for the output after print out the results
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