Support Vector Machine is one of the most common supervised machine learning algorithms used for classification problems.
SVM is a discriminative model, i.e. it only uses the input data to learn about the boundary between the classes. This can be used to classify a new observation y* in the test set based on its three predictors x1*, x2*, and x3*.
The basic idea of SVM is to find a hyperplane that separates the classes with maximum margin. The distance between the hyperplane and the closest data points from each class is called the margin. The hyperplane that maximizes the margin is the best boundary for classification.
To classify a new observation, we need to determine which side of the hyperplane it falls on. If it falls on the positive side, it belongs to one class, and if it falls on the negative side, it belongs to the other class. The SVM model uses the support vectors, which are the data points closest to the hyperplane, to make this decision.
The SVM model is trained on the training set by minimizing the classification error and maximizing the margin. The decision boundary is given by the equation:
w1x1 + w2x2 + w3x3 + b = 0
where w1, w2, and w3 are the weights of the predictors x1, x2, and x3, respectively, and b is the bias term. The sign of this equation is used to classify the new observation.
If the equation is positive, the new observation belongs to one class, and if it is negative, it belongs to the other class. The SVM model is flexible in that it can handle nonlinear decision boundaries by using kernel functions to map the input data into a higher-dimensional feature space.
In summary, the SVM approach is a powerful tool for classification problems. It works by finding the best hyperplane that separates the classes with maximum margin and uses the support vectors to classify new observations. By using kernel functions, it can handle nonlinear decision boundaries and is a flexible model that can be applied to a variety of classification problems.
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1. A string that’s spelled identically backward and forward,
like 'radar', is a palindrome. Write a function is_palindrome that
takes a string and returns True if it’s a palindrome and False
other
The function is_palindrome takes a string and returns True if it's a palindrome and False otherwise.
A string that reads the same forward and backward is a palindrome. A string is a palindrome if it is equal to its reverse string. In Python, a string is reversed by slicing and setting the step parameter to -1. The function is_palindrome takes a string and reverses it. If the reversed string is the same as the original string, the function returns True, and False otherwise.
Here is the implementation of the is_palindrome function: def is_palindrome(string:str) -> bool: return string == string[::-1]. We use the slice notation to reverse the string and then compare it with the original string. If the strings match, we return True; otherwise, we return False.
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Describe the logic (not formatting) issue(s) with this code snippet: int planet = 4; switch(planet) { case 0: printf("The Sunin"); break; case 1: printf("Mercuryin"); break; case 2: printf("Venus\n"); case 3: printf("Earth\n"); break; case 4: printf("Marsın"); break; case 5: printf("Jupiter\n"); case 6: Cummin VULSIVIS REIVIAINING case 3: printf("Earthin"); break; case 4: printf("Mars\n"); break; case 5 printf("Jupiterin"); case 6: printf("Saturnin"); continue; case 7: printf("Uranus\n"); break; case 9: printf("Neptunein": default: printf("invalid planet %d\n", planet); >
The code snippet is for displaying the planet name based on the planet number.The first logical error is that the case 2 for Venus doesn't have a break statement, it will fall through to the next case statement.The second logical error is that the case 6 does not have a break statement, it has a "continue" statement.
This is a wrong statement to use because it can cause an infinite loop.The third logical error is the presence of the two cases with the same value. The switch statement is for testing a value, it is important that each case statement is different from each other. Duplicate cases are prohibited in the switch statement.The fourth logical error is the use of an invalid character in the code "Marsın". The character "ı" is not a valid character in the printf statement, this will cause an error message to appear. Therefore, the printf statement should be changed to "Mars\n".The fifth logical error is that the planet number 9 is invalid.
The case statement that should have been for 8 is missing and 9 has no name. It is an out-of-range value and the default message should be printed in its place.
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A rectangular foundation (2m x 4m in plan) is built on a sandy soil (effective friction angle = 35°, dry unit weight = 16.5 kN/ mand saturated unit weight = 17.5 kN/m"). Determine the net allowable bearing capacity (factor of safety = 3) of the foundation if the load is inclined 10° with respect to vertical line. Assume that the depth of foundation is 2.5 m, water table is at 1.0 m below the ground surface, general shear failure occurs in the soil.
The net allowable bearing capacity of the foundation is 317.435 kPa.
Dimensions of foundation = 2m x 4mSoil properties: Effective friction angle (ø) = 35°Dry unit weight (d ) = 16.5 kN/m³Saturated unit weight (sat) = 17.5 kN/m³Depth of foundation (Df) = 2.5 m Water table depth (Dw) = 1 m Load is inclined 10° with respect to the vertical line. Factor of safety (F.O.S) = 3 Firstly, let us determine the values of vertical effective stress, v, and horizontal effective stress, h.v = Df + sat (Dw - Df) = 16.5 × 2.5 + 17.5 (1 - 2.5) = -5.5 kPa (negative sign shows that the pressure is acting upwards)h = v tan(45° + ø/2) tan (45° + 35°/2) = 1.3226 (approx)h = 1.3226 × (-5.5) = -7.273 kPa Let us determine the ultimate bearing capacity of the soil using the following formula: Qu = cNc + 'zNq + 0.5'BNγHere, = 0 (Given)'z = v = -5.5 kPa (Negative sign shows upward pressure)B = 2 (width of the foundation)γ = sat = 17.5 kN/m³Nc and Nq can be determined using the following charts. (Please refer to the attached image)For ø = 35°, Nc = 19.4 and Nq = 21.6' = h/2 + v/2 = -7.273/2 - 5.5/2 = -6.3865 kPa Qu = 0 + (-5.5) × 19.4 + 0.5 × 2 × 19.4 × 17.5 × 21.6/2Qu = 952.305 kPa Net allowable bearing capacity, qa = Qu/ F.O. Sqa = 952.305 / 3 = 317.435 kPa Hence, the net allowable bearing capacity of the foundation is 317.435 kPa.
The net allowable bearing capacity of the foundation is 317.435 kPa. The load is inclined 10° with respect to the vertical line. General shear failure occurs in the soil. The factor of safety is 3.
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Generate Randome Variables and Compute Empirical Distributions We will start with generating some data samples with a given distribution. For the following two PMFs, Task 1: Generate 1000 samples from PMF1, and 500 samples from PMF2. You can either write your own random sample generator by using the inverse CDF approach we talked about in class, or use the np.random.choice() function. Task 2: Write a function compareHIST (D,p), where D is an 1-D array of data samples, and p is a valid PMF. Compute and plot the empirical distribution of D using matplotlib.pyplot.hist () , and plot p against it in the same plot for comparison. Task 3: Mix the two datasets generated in Task 1 into an array of 1500 samples. Compute the ensemble distribution of this mixture from PMF1 and PMF2, and compare that with the empirical distribution of the mixed dataset, by using the compareHIST() function in Task 2 .
To complete the tasks, we'll first generate the samples from the given PMFs using NumPy's random.choice function. Then, we'll define the compareHIST function to compute and plot the empirical distribution of a dataset along with a given PMF.
Task 1:To generate 1000 samples from PMF1, we will use the `np.random.choice()` function. The `p` parameter will be used to represent the probability distribution that we want to generate the samples from. To generate 1000 samples from PMF1, we will use the following code: import numpy as np
# PMF 1p1 = np.array([0.1, 0.2, 0.3, 0.4])# generate 1000 samples from PMF1 samples1 = np.random.choice(a=[1, 2, 3, 4], size=1000, p=p1). To generate 500 samples from PMF2, we will use the same `np.random.choice()` function, but with a different probability distribution. To generate 500 samples from PMF2, we will use the following code:
# PMF 2p2 = np.array([0.4, 0.3, 0.2, 0.1])# generate 500 samples from PMF2 samples2 = np.random.choice(a=[1, 2, 3, 4], size=500, p=p2)
Task 2:To compare the empirical distribution of a dataset `D` with a given PMF `p`, we will use the `matplotlib.pyplot.hist()` function. We will also plot `p` against the empirical distribution of `D` for comparison. To do this, we will write the following function:import matplotlib.pyplot as pltdef compare HIST(D, p):
plt.hist(D, density=True, alpha=0.5) plt.plot(np.arange(1, len(p)+1), p, 'ro-', lw=2) plt.xlabel('x') plt.ylabel('Frequency') plt.legend(['PMF', 'Empirical']) plt.show()
Task 3:To mix the two datasets generated in Task 1 into an array of 1500 samples, we will use the `np.concatenate()` function. Then, we will compute the ensemble distribution of this mixture from PMF1 and PMF2 by adding the probabilities of each value in the two PMFs. To compare that with the empirical distribution of the mixed dataset, we will use the `compareHIST()` function we defined in Task 2.
To do this, we will use the following code:samples3 = np.concatenate((samples1, samples2))# ensemble distribution of this mixture from PMF1 and PMF2p_mix = p1 + p2# normalize the distributionp_mix = p_mix / np.sum(p_mix)# compare the empirical distribution of the mixed dataset with p_mixcompareHIST(samples3, p_mix)
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How to Solve a Maze using dead-end-filling algorithm in Python with a visualization of the .
Dead-End Filling Algorithm is a method of generating a maze. A maze is a complex network of paths and passages that are used to challenge someone who is trying to find their way through it. Maze solving is a great problem to solve as it's a simple yet intriguing problem that provides a lot of learning opportunities.
Here's the Python code for the dead-end-filling algorithm:
```
import random
def generate_maze(n):
maze = [[0 for x in range(n)] for y in range(n)]
for i in range(n):
maze[0][i] = 1
maze[n-1][i] = 1
maze[i][0] = 1
maze[i][n-1] = 1
for i in range(2, n-2, 2):
for j in range(2, n-2, 2):
maze[i][j] = 1
for i in range(2, n-2, 2):
for j in range(2, n-2, 2):
directions = ['N', 'S', 'E', 'W']
random.shuffle(directions)
for direction in directions:
if direction == 'N' and maze[i-2][j] == 0:
maze[i-1][j] = 1
maze[i-2][j] = 1
break
if direction == 'S' and maze[i+2][j] == 0:
maze[i+1][j] = 1
maze[i+2][j] = 1
break
if direction == 'E' and maze[i][j+2] == 0:
maze[i][j+1] = 1
maze[i][j+2] = 1
break
if direction == 'W' and maze[i][j-2] == 0:
maze[i][j-1] = 1
maze[i][j-2] = 1
break
return maze
def visualize(maze):
for row in maze:
for cell in row:
if cell == 1:
print('██', end='')
else:
print(' ', end='')
print()
def dfs(maze, visited, row, col):
if row < 0 or row >= len(maze) or col < 0 or col >= len(maze[0]):
return
if visited[row][col] or maze[row][col] == 0:
return
visited[row][col] = True
maze[row][col] = 2
dfs(maze, visited, row-1, col)
dfs(maze, visited, row+1, col)
dfs(maze, visited, row, col-1)
dfs(maze, visited, row, col+1)
def fill_dead_ends(maze):
changed = True
while changed:
changed = False
for i in range(1, len(maze)-1):
for j in range(1, len(maze[0])-1):
if maze[i][j] == 1:
count = 0
if maze[i-1][j] == 2:
count += 1
if maze[i+1][j] == 2:
count += 1
if maze[i][j-1] == 2:
count += 1
if maze[i][j+1] == 2:
count += 1
if count >= 3:
maze[i][j] = 2
changed = True
def main():
n = int(input('Enter size of maze: '))
maze = generate_maze(n)
visualize(maze)
visited = [[False for x in range(n)] for y in range(n)]
dfs(maze, visited, 1, 1)
fill_dead_ends(maze)
print('\n')
visualize(maze)
if __name__ == '__main__':
main()
```
To run this code, simply save it to a Python file (e.g. maze.py) and run it from the command line by typing `python maze.py`. The program will prompt you to enter the size of the maze you want to generate, and then it will generate, traverse, and fill in the dead ends of the maze before printing it to the console.
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Consider three LANs interconnected by two routers, as shown in Figure 6.33.
a. Assign IP addresses to all of the interfaces. For Subnet 1 use
addresses of the form 192.168.1.xxx; for Subnet 2 uses addresses of
the form 192.168.2.xxx; and for Subnet 3 use addresses of the form
192.168.3.xxx.
b. Assign MAC addresses to all of the adapters.
c. Consider sending an IP datagram from Host E to Host B. Suppose all of
the ARP tables are up to date. Enumerate all the steps, as done for the
single-router example in Section 6.4.1.
d. Repeat (c), now assuming that the ARP table in the sending host is empty
(and the other tables are up to date).
Consider three LANs interconnected by two routers as shown in figure 6.33:a. The IP addresses assigned to all of the interfaces are given below:For Subnet 1 use addresses of the form 192.168.1.xxxFor Subnet 2 use addresses of the form 192.168.2.
xxxFor Subnet 3 use addresses of the form 192.168.3.xxxb. The MAC addresses assigned to all of the adapters are given below:MAC Address of Adapter 1: 00:01:02:3F:2F:32MAC Address of Adapter 2: 00:01:2E:AB:CD:BCMAC Address of Adapter 3: 00:01:34:56:78:9Cc. Steps to send an IP datagram from Host E to Host B are as follows:Step 1: Host E examines its routing table to determine that the IP datagram needs to be sent to the IP address of Router 1's interface on subnet 0.
Router 2 receives the Ethernet frame from Router 1 and checks its ARP table. The ARP table indicates that the MAC address of Host B's interface on subnet 1 is not present.Step 15: Router 2 sends an ARP request message to all hosts on subnet 1 asking for the MAC address of Host B's interface on subnet 1.Step 16: Host B receives the ARP request message from Router 2 and sends an ARP reply message to Router 2 with its MAC address.
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Select the correct name to fill in to each of the scenarios:
The class Item is considered a(n) [ Select ] ["Ancestor", "Descendant", "Override", "Polymorphism", "Subclass", "Superclass"] of the class Shake.
The class ChickenBurger is a(n) [ Select ] ["Ancestor", "Descendant", "Override", "Polymorphism", "Subclass", "Superclass"] of the class Item.
The class Employee is a(n) [ Select ] ["Ancestor", "Descendant", "Override", "Polymorphism", "Subclass", "Superclass"] of class Manager.
The class BeefBurger is a(n) [ Select ] ["Ancestor", "Descendant", "Override", "Polymorphism", "Subclass", "Superclass"] of class Burger.
The class Item and the class Fries both have a method named cost(). This is called [ Select ] ["Ancestor", "Descendant", "Override", "Polymorphism", "Subclass", "Superclass"] .
The method cost() of class Soda is said to [ Select ] ["Ancestor", "Descendant", "Override", "Polymorphism", "Subclass", "Superclass"] the method cost() in class Beverage.
The class Item is considered a(n) [Superclass] of the class Shake. The class Chicken Burger is a(n) [Subclass] of the class .
The class Employee is a(n) [Superclass] of class Manager .The class Beef Burger is a(n) [Subclass] of class Burger.The class Item and the class Fries both have a method named cost(). This is called [Polymorphism].The method cost() of class Soda is said to [Override] the method cost() in class Beverage. Explanation:Superclass - This term refers to a class that's used as a base class by other classes. The class that inherits properties and methods from a superclass is known as a subclass.
This term is used to describe a class that inherits properties and methods from another class. A class can be a superclass or a subclass based on how it is used in the code.Override - This term refers to a subclass method that replaces the superclass method with the same name, return type, and parameters. Overriding is required when subclassing to maintain the same behavior as the superclass.Polymorphism - Polymorphism is a concept in object-oriented programming that allows code to be more flexible and dynamic. It is the ability to create a variable, an object, or a method that can assume multiple forms.
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An unpipelined processor takes 6 ns to work on one instruction. It then takes 0.1 ns to latch its results into latches. When we convert the circuits into 4 sequential pipeline stages, the stages have the following lengths: 0.7ns; 1.3ns; 1.4ns; 0.9ns. Assuming that there are no stalls in the pipeline, what is the cycle time in the unpipelined and pipelined processors? O Unpipelined = 6 ns, Pipelined = 1.4 ns Unpipelined =6.1 ns, Pipelined = 1.5 ns O Unpipelined =6 ns, Pipelined = 1.5 ns Unpipelined =6.1 ns, Pipelined = 1.1 ns Unpipelined =6 ns, Pipelined = 1 ns None of the above -AA1992
Given data :An unpipelined processor takes 6 ns to work on one instruction. It then takes 0.1 ns to latch its results into latches.
When we convert the circuits into 4 sequential pipeline stages, the stages have the following lengths: 0.7ns; 1.3ns; 1.4ns; 0.9ns. Assuming that there are no stalls in the pipeline, we need to calculate the cycle time in the unpipelined and pipelined processors.In an unpipelined processor, the cycle time is the time needed to execute one instruction. As given, the time taken to execute one instruction is 6 ns. Hence the cycle time is 6 ns.In a pipelined processor, the cycle time is the time needed to execute one stage. There are four stages in the pipeline, and the lengths of the stages are given as: 0.7ns; 1.3ns; 1.4ns; 0.9ns. The cycle time of the pipelined processor is given by the maximum length of all the stages. Hence the cycle time is 1.4 ns.
Therefore, the correct option is Unpipelined =6 ns, Pipelined = 1.4 ns
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Describes the stakeholders and for each of these the related requirements. Requirements can be defined using textual requirements, use cases, (architectural) scenarios, prototype(s), state transition diagrams (if necessary) for ATM system.
Stakeholders are the groups of individuals that have an interest in a project or organization and are impacted by its actions and results.
The stakeholders for the ATM system include the following:1. Customers - Individuals that will use the ATM to perform banking transactions. The requirements for this group include: The ATM should be easy to use with clear instructions. The system should be secure, and the customer's transaction information should be kept private.2. Bank management - Individuals responsible for managing the bank and ensuring that the ATM system meets the needs of the bank and its customers. The requirements for this group include: The system should be cost-effective, reliable, and efficient. It should be easy to maintain and update.3. Technical staff - Individuals responsible for installing, configuring, and maintaining the ATM system. The requirements for this group include: The system should be easy to install and configure, and there should be clear documentation available. The system should be reliable and easy to troubleshoot.4. Security personnel - Individuals responsible for ensuring that the ATM system is secure and protected from fraud and theft. The requirements for this group include: The system should be designed with security in mind. There should be multiple layers of security, such as PINs, biometrics, and cameras. The system should be regularly updated to address new security threats.
In conclusion, the stakeholders of the ATM system include customers, bank management, technical staff, and security personnel. Each group has unique requirements that must be considered during the design and implementation of the system. The requirements can be defined using various methods, including textual requirements, use cases, architectural scenarios, prototypes, and state transition diagrams. By understanding the needs of each group, the ATM system can be designed to meet the needs of all stakeholders.
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Which of these differentiate SDN from traditional networks A The per-router control plane used in SDN is what differentiates it from traditional networks B. SDNS employ centralized data plane, while traditional networks use decentralized data planes C. SDNS require an additional network device for control plane management, which traditional networks do not need D. SDNS employ centralized control plane, while traditional networks use decentralized control pla
D. SDNs employ centralized control plane, while traditional networks use decentralized control plane.
SDN (Software-Defined Networking) differentiates itself from traditional networks by employing a centralized control plane. In traditional networks, the control plane functions are distributed across individual routers or switches, resulting in a decentralized control plane architecture. However, in SDNs, the control plane is decoupled from the forwarding devices and moved to a centralized controller. This controller has a global view of the network and is responsible for making forwarding decisions and managing network policies.
The centralized control plane in SDNs offers several advantages. It enables dynamic and flexible network management, as administrators can program and control the entire network from a single point. It also allows for easier implementation of network policies, as changes can be made centrally and propagated to the forwarding devices. Additionally, SDNs facilitate the integration of network automation and programmability, leading to improved network agility and scalability.
In contrast, traditional networks rely on distributed control planes, where each network device makes its own independent forwarding decisions based on locally stored routing tables. This decentralized approach may result in more complex network management and limited visibility across the entire network.
The key differentiation between SDNs and traditional networks lies in the control plane architecture. SDNs adopt a centralized control plane, providing greater network control, programmability, and flexibility compared to the decentralized control plane used in traditional networks.
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What is the impact of REST's Uniform Interface on the overall REST architectural style?
REST (Representational State Transfer) has emerged as the most popular architectural style for web services. REST has six guiding constraints, of which the Uniform Interface constraint is the primary. The Uniform Interface constraint of REST defines the standardization of interfaces that separates clients from servers.
The standardization of interfaces simplifies and decouples the architecture, which improves the overall architectural style. REST's Uniform Interface has a significant impact on the overall REST architectural style.
Uniform Interface:
The Uniform Interface is the primary constraint of the REST architectural style. It refers to the standardization of interfaces that separate clients from servers. RESTful web services utilize standard HTTP verbs such as GET, POST, PUT, and DELETE to manage and manipulate resources. The Uniform Interface constraint promotes standardization and decoupling, enabling client-server communication to evolve independently of one another. As a result, the architecture is simplified, and coupling is minimized, making it easier to maintain and modify.
Impact of Uniform Interface:
The Uniform Interface constraint has a significant impact on the overall REST architectural style. It enables the separation of concerns between clients and servers, making it easier to evolve each component independently. It encourages the standardization of interfaces, reducing the need for custom coding, and promoting interoperability. The Uniform Interface constraint also promotes scalability by enabling caching and by reducing the processing load on servers.
The Uniform Interface constraint of REST is the primary guiding constraint and has a significant impact on the overall REST architectural style. It promotes standardization and decoupling, enabling clients and servers to evolve independently of each other. By promoting standardization, it reduces the need for custom coding and increases interoperability. It also enables caching and reduces server processing loads, making it easier to scale the architecture. Overall, the Uniform Interface constraint is essential for the success of RESTful web services.
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See the following picture that shows different windows that are in SAS environment? What does the LOG window (named as 2 in the picture do)? CAS Te te te Solution Wind CASE Lehetete Folder d lay WAT 14.2 NETO 13 on 14.3 VIR 13 SAL/SC 14.3 POTEI Analost information X41HORE WIN 10...1773 Wartim HOTE! 3.31 uti 1.0 sec THER 1 SU Output Lagu It contains notes of whether the program you run on editor window ran properly or not. This is where we write the code/program for the SAS. This is a SAS result window. All tabular result of our program will appear in this window.
The LOG window in the SAS environment (labeled as 2 in the picture) is where we can find notes and messages related to the execution of SAS programs. It provides information about whether the program ran properly or encountered any errors or warnings.
When we write and execute SAS programs in the editor window, the LOG window displays the execution details. It shows messages such as the start and end times of program execution, any error or warning messages encountered during execution, and other informational notes. It helps in troubleshooting and debugging SAS programs by providing feedback on the program's execution.
The LOG window is essential for SAS programmers as it allows them to monitor the progress of their programs, identify any issues or errors, and understand the results of their code execution. It provides valuable information that aids in diagnosing and resolving programming errors, ensuring the accuracy and reliability of the SAS programs.
The LOG window in the SAS environment serves as a vital communication channel between the SAS program and the programmer. It provides detailed information about program execution, error messages, and other relevant notes. By reviewing the contents of the LOG window, programmers can ensure the correctness of their code, troubleshoot issues, and gain insights into the execution process.
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Write a C program that asks the user for the dimensions of a matrix. The program sends the dimensions to the function generateMatrix( ) where a random matrix with the entered dimensions is generated. The program then asks the user to choose between row and column. The functions sumRow( ) and sumColumn( ) finds the chosen row or column’s sum and returns the value.
Sample Run:
Enter the number of rows and columns: 3 4 Randomly generated matrix:
34 12 23 96
13 75 67 29
43 38 56 83
For the sum of a row press R, for the sum of a column press C: R Which row?: 3
Sum of the 3rd row is: 220
Here is the C program that asks the user for the dimensions of a matrix. The program sends the dimensions to the function generateMatrix() where a random matrix with the entered dimensions is generated. The program then asks the user to choose between row and column.
The functions sumRow() and sumColumn() finds the chosen row or column’s sum and returns the value.
#include #include #include int generateMatrix(int m, int n);
int sumRow(int m, int n, int a[m][n], int r);
int sumColumn(int m, int n, int a[m][n], int c);
int main(){int m, n;
printf("Enter the number of rows and columns: ");
scanf("%d %d", &m, &n);
int a[m][n];
generateMatrix(m, n, a);
char choice;
int r;
printf("For the sum of a row press R, for the sum of a column press C: ");
scanf(" %c", &choice);
if (choice == 'R' || choice == 'r')
{printf("Which row?: ");
scanf("%d", &r);
printf("Sum of the %d row is: %d", r, sumRow(m, n, a, r));}
else if (choice == 'C' || choice == 'c')
{printf("Which column?: ");
scanf("%d", &r);
printf("Sum of the %d column is: %d", r, sumColumn(m, n, a, r));}
else{printf("Invalid choice!");
return 1;}
return 0;}
int generateMatrix(int m, int n, int a[m][n]){srand(time(NULL));
for(int i = 0; i < m; i++)
{for(int j = 0; j < n; j++)
{a[i][j] = rand() % 100;
printf("%d ", a[i][j]);}
printf("\n");}}
int sumRow(int m, int n, int a[m][n], int r){int sum = 0;
for(int i = 0; i < n; i++)
{sum += a[r-1][i];}
return sum;}
int sumColumn(int m, int n, int a[m][n], int c){int sum = 0;
for(int i = 0; i < m; i++)
{sum += a[i][c-1];}
return sum;
}
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Calculate the number of bits used for actual data and overhead (i.e., tag, valid bit, dirty bit) for each of the following caches A. Direct-mapped, cache capacity = 64 cache line, cache line size = 8-byte, word size = 4-byte, write strategy: write through B. Fully-associative, cache capacity= 256 cache line, cache line size = 16-byte, word size = 4-byte, write strategy: write back C. 4-way set-associative, cache capacity = 4096 cache line, cache line size = 64-byte, word size = 4-byte, write strategy: write back D. How the cache line size affect the overhead?
Direct-mapped Cache Capacity of cache = 64 cache line Cache line size = 8 bytes Word size = 4 bytes
Write strategy: write through In direct-mapped cache, the tag and valid bit is used to determine whether the contents of a given cache line match a given memory block.
The dirty bit is not required because write through write strategy writes the data to both cache and memory. Now, we can calculate the actual data and overhead. The address in the cache contains 64 lines, and we have 2k (where k = 6) blocks per line.
Thus, the total bits used for actual data = 4 * 256 * 4 * 8 = 26,2144 bit C. 4-way set-associative Cache Capacity of cache = 4096 cache lines Cache line size = 64 bytesWord size = 4 bytes
Write strategy: write backIn 4-way set-associative cache, each set contains 4 cache lines, and each line contains a block of memory from the same memory .
However, a larger cache line reduces the miss rate because the cache line stores more words from the same memory set. Hence, there is a trade-off between overhead and cache performance, and the optimal cache line size is determined by the memory access pattern.
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Write a program to create a structure with name person. The structure should
take the name, father’s name, age, blood group as input. The user should take
the input using pointers and print the elements in the structure using pointers.
solve in c using function and pointer only
Here is the solution to your problem with the required terms: To create a structure with the name 'person', one can use the following code: struct person { char name[30]; char fathers_name[30]; int age; char blood_group[10];};The above code declares a structure with four elements, i.e., 'name', 'father's_name', 'age', and 'blood_group'.
These four elements can be initialized using pointers, and we can use another pointer to print them out.Let's write a C program to take the user's input using pointers and print the elements in the structure using pointers.```
#include
#include
struct person {
char name[30];
char fathers_name[30];
int age;
char blood_group[10];
};
void get_input(struct person *p) {
printf("Enter Name: ");
scanf("%s", p->name);
printf("Enter Father's Name: ");
scanf("%s", p->fathers_name);
printf("Enter Age: ");
scanf("%d", &p->age);
printf("Enter Blood Group: ");
scanf("%s", p->blood_group);
}
void print_output(struct person *p) {
printf("Name: %s\n", p->name);
printf("Father's Name: %s\n", p->fathers_name);
printf("Age: %d\n", p->age);
printf("Blood Group: %s\n", p->blood_group);
}
int main() {
struct person p;
struct person *ptr = &p;
get_input(ptr);
printf("\nPerson Details:\n");
print_output(ptr);
return 0;
}
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If you keep an eye on the nightly news, you are well aware of the frequency with which secury becaches make beadlines Clearly, information security practitioners are light ing an uphill battle due to the volume of attacks that target companies, universities, and even government organi tions. A common misconception is that the bulk of security threats organizations face are introduced by nefarious hack ers or cybercriminals sponsored by longo governments. How ever, a recoal security analysis conducted by PwC reported that insiders, third-party suppliers and contractors po increasingly serious threat." In short, many of the securty threats plaguing organisations today originate from within the company for within its partner networks. The Weakest Link This trend is due to the relative case with which people can be manipulated and compromised. Hackers olen resort to exploiting people's desire to be friendly and help others rather than exploring vulnerabilities in handware or software. This concept is often referred to as social engineering of the process of manipulating individuals to access secure systems, pain confidential information, or violate the integrity systems While social engineering presents a clear threat to nizational information security it can also be highly effective in other contexts in which people feel pressured and make rash decisions. In fact, social engineering has introduced a number of new threats into the fried world of Investing in cryptocurrencies. Social Engineers Striking It Rich The world of cryptocurrencies has evolved rapidly and it recently reached the tipping point of becoming mainstream with the surge in value of Bitcoin. All types of people See finance gurus, tech investors, and savvy high school students have succumbed to their speculative side and tried to get rich quick from this trend. However, the world of cryptocurrency is complex. Due to its immaturity, there are virtually no con trols or regulatory mechanisms to place to protect the people (DELL) participating in this market. In light of the frantic interest in tiers associated with cryptocurrency: the technical buying, selling or misingi and the lack of any set of ripe for exploitation by social engineers For example, some scammers are targeting cryptocur rency mining equipment Ortacurm miting is the proc of validating recent cryptocurrency tremactions and distrib uting the updated "lenger to all of the devices associated with that cryptocurrency's network. In tam for performing this miners can receive a payment in that cryptocur rency for a permotage of the transaction's value Bat mining rogaires an extremely powerful system or gre of systems, which may be inleasible for a single individual to purchase and manage Social engineers have begun scam ming people to investing in mining equipment that does not exid, convincing victims to contribute the idle computing power of their eystems to mine ryptocurrencies but never them for their contribution, and soliciting would-be toboy radulent hardware (that is not as powerful as sed) for use in n Another cryptocurricy som currently involves selling people cryptocurcles that do not actually exist. Bitcoin is certainly high-profile cryptocurrency market, but there has been al coin ellerings (CO) in which new currencies are introduced. In fact, in the first quarter of My Stock Phot 2018, there were 101 ICOS.57 Additionally, there have been more than 300 ICOs since the value of Bitcoin witnessed sub- stantial gains in 2017.58 With all of this activity, it can be extremely difficult to keep track of and verify which currencies are legitimate and which have any sort of investment value. The market is so murky that ? DISCUSSION QUESTIONS 1. Why might an insider pose a greater threat to an inter- nal secure system than an outside attacker? How could an insider be a weak link? 2. What is social engineering? How could attackers use social engineering to compromise a secure internal system? SECURITY GUIDE Social Engineering Bitcoin 367 even some financial institutions have been duped.99 The best way to participate in the cryptocurrency gold rush is to use best practices that apply to general financial transactions. Always use common sense, verify the parties that are involved in the trans- action, avoid investment opportunities that sound too good to be true, and, when in doubt, do not hesitate to do more research! 3. What is cryptocurrency mining? How does it generate money? 4. How would attackers use social engineering to scam users into mining?
The Insider Threat: Insider poses a greater threat to an internal secure system because of their familiarity with the company's security protocols, weaknesses, and the systems they use on a daily basis.
An outside attacker is usually not familiar with these processes and systems, and they have to conduct research and reconnaissance to gain knowledge on how to infiltrate a network.
An insider knows where sensitive information is stored, and they are aware of the access controls to those resources, making it easier for them to bypass security measures. An insider could be a weak link if they are careless with their login credentials, fall victim to social engineering, or intentionally create a security vulnerability in a network.
Social Engineering: Social engineering is the practice of manipulating individuals into divulging sensitive information, granting unauthorized access, or compromising a secure system. Attackers use social engineering to compromise a secure internal system by targeting employees with phishing emails, phone calls, or social media messages that appear legitimate.
Social engineering attacks exploit human emotions like curiosity, greed, fear, and kindness to trick people into disclosing confidential information or clicking on malicious links. For instance, attackers may craft an email that appears to be from a company executive requesting the recipient to provide their login credentials. An unsuspecting employee may provide their credentials, and attackers will use them to gain access to sensitive company data or networks.
Cryptocurrency Mining: Cryptocurrency mining is the process of verifying cryptocurrency transactions and adding them to a blockchain, a public ledger of all transactions conducted in a particular cryptocurrency network. The process involves solving complex mathematical problems to validate and add transactions to the blockchain. Miners receive a payment in the cryptocurrency they are mining for every transaction they validate.
Attackers can use social engineering to scam users into mining by convincing them to invest in mining equipment that does not exist or soliciting fraudulent hardware. Attackers may also trick people into contributing the idle computing power of their devices to mine cryptocurrencies without rewarding them for their contribution. Additionally, some attackers sell people cryptocurrencies that do not exist, leading to financial losses.
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A baseband signal consists of a square wave with amplitude -1 V and + 1 V and a period of 0.5 milliseconds (f=2 kHz). The square wave modulates a 10 V peak carrier wave at a frequency of 5 kHz. (Carrier wave is v(t) = cos 10 10³ t.) The resulting FM wave it sent over a short twisted pair wire link to a receiver. The transmitter has a modulation constant of 1 kHz per volt. a. What is the peak frequency deviation of the carrier? b. What is the bandwidth required to transmit the FM wave according to Carson's rule? Hint: Since the modulating signal is a square wave, consider taking the 5th harmonic of the square wave as a reasonable upper limit for fmax (i.e. fmax is the highest frequency in the modulating signal).
(a) Given:A baseband signal consists of a square wave with amplitude -1 V and + 1 V and a period of 0.5 milliseconds (f=2 kHz). The square wave modulates a 10 V peak carrier wave at a frequency of 5 kHz. (Carrier wave is v(t) = cos 10 10³ t.)The frequency of the carrier wave is f = 5 kHz, and the amplitude is 10 V.
Modulation constant is given as kf = 1 kHz/V. To find: Peak frequency deviation of the carrier wave. Formula to be used:∆f = kf * m, where m is the message signal and kf is the modulation constant. By analyzing the modulating signal and the carrier wave, we can see that the carrier wave has a peak frequency deviation of
∆f1= 1 kHz * 1 V = 1 kHz.
The peak frequency deviation of the carrier wave is 1 kHz.
To find: Bandwidth required to transmit the FM wave according to Carson's rule. Formula to be used:Bandwidth (BW) = 2(∆f + fmax)where ∆f is the peak frequency deviation of the carrier wave, and fmax is the highest frequency in the modulating signal. Here, fmax is taken as the 5th harmonic of the modulating signal's frequency.
∴ fmax = 5 × 2 kHz = 10 kHz.
So, the bandwidth required to transmit the FM wave according to Carson's rule is
BW = 2 (1 kHz + 10 kHz) = 22 kHz. Hence, the answer is Bandwidth required to transmit the FM wave according to Carson's rule is 22 kHz.
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Consider a 2-block fully associative cache. The following blocks from main memory are accessed which need to be mapped to cache: P, Q, P, R. Which block is replaced from the cache when the last block (block R) is accessed? Assume FIFO replacement policy.
The 2-block fully associative cache with FIFO replacement policy replaces the oldest accessed block when a new block is accessed.
In a fully associative cache, any block from main memory can be mapped to any cache block. The cache size determines the number of blocks it can hold. In this case, the cache has a capacity of 2 blocks.
When the blocks P, Q, P, and R are accessed sequentially, they are mapped to cache blocks. As the cache is fully associative, all blocks can be stored in any cache block. Assuming a FIFO replacement policy, the oldest accessed block will be replaced when a new block is accessed.
Therefore, when block R is accessed, it will replace the oldest block that was accessed previously, which is block P in this case.
The last accessed block (block R) replaces the oldest block (block P) in the 2-block fully associative cache with FIFO replacement policy.
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Which of the following expression is equivalent to (x > 1). a. X >= 1 b. x <= 1) c. (x = 1) d. !(x< 1) e. None of the above
\Option (a) `X >= 1` is equivalent to the expression `(x > 1)`.
Inequality is a mathematical expression that describes the relation between two values, usually indicating that one is greater than the other or that they are not equal to each other.
Inequalities may also use the symbols for less than, greater than, less than or equal to, or greater than or equal to.To understand the equivalent expression,
we first have to learn what each expression represents and how they work. The expression `(x > 1)` tells us that x is greater than 1.
Therefore, `x >= 1` means that x is greater than or equal to 1 and therefore is equivalent to the given expression `(x > 1)`.Option (a) `X >= 1` is equivalent to the expression `(x > 1)`.
Option (a) is the correct answer since `X >= 1` is equivalent to `(x > 1)`.
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Fring 1 = 138 MHz [4.7) 2T LC) 270[(89 nH)(15 pF)]' Our standard measure of the spectral content is the knee frequency, defined by Equation 1.1. The knee frequency of NEWCO's logic gates (250 MHz) is well above the ringing frequency (138 MHz), and so there is plenty of electric energy to excite fully the ringing behavior. A knee frequency of exactly 138 MHz would attenuate the ringing by about half. Logic gates with lower knee frequencies induce even less ringing. Thinking entirely in tlic timc domain, wc conclude that when the rise time equals one-half the ringing period, the worst-case ringing is reduced by half. Longer rise times excite less ringing, while rise times much shorter than one-half the ringing period excite worst-case ringing, V low on mueran 2. The statement is made on page 136 that "a knee frequency of 138 MHz would attentuate the ringing about half." Discuss the concept and verify this claim analytically.
The standard measure of the spectral content is the knee frequency. The ringing frequency of 138 MHz is well below the knee frequency of NEWCO's logic gates which is 250 MHz.
The ringing of this gate can be reduced by half by introducing a knee frequency of exactly 138 MHz. The knee frequency of 138 MHz will attenuate the ringing about half. In other words, it will reduce the ringing by half. The claim can be verified analytically by using the formula to calculate the percentage of ringing attenuation.
Given: Frequency of the circuit = 138 MHz The frequency attenuation of the circuit can be calculated using the formula: Frequency attenuation (%) = 20 log10 (V2 / V1) Where V1 is the input signal, and V2 is the output signal. To get the frequency attenuation of the circuit, we can take V2 as half the voltage of V1. This is because a knee frequency of 138 MHz would attenuate the ringing by half.
Therefore, V2/V1 = 0.5
Frequency attenuation (%) = 20 log10 (0.5)
Frequency attenuation (%) = -6.02 dB
So, the frequency attenuation of the circuit is -6.02 dB. Therefore, it can be concluded that a knee frequency of 138 MHz would attenuate the ringing by about half.
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Suppose that a bag contains six slips of paper: one with the number 1 written on it, two with the number 2, and three with the number 3. What is the expected value of the number drawn if one slip is selected at random from the bag? "Type your answer as a fraction example: 5/2" Question 11 25 pts 11- For the question above "question 10" What is the variance of the number drawn if one slip is selected at random from the bag? "Type your answer as a fraction example: 5/2 "
the variance of the number drawn is 5/9.
Given that a bag contains six slips of paper: one with the number 1 written on it, two with the number 2, and three with the number 3. We need to find the expected value of the number drawn if one slip is selected at random from the bag. Let X be the number drawn from the bag.
Then the probability distribution of X is as follows:
X = 1 2 3P(X) = 1/6 2/6 3/6
The expected value of X is:
E(X) = μ = ΣXP(X) = 1×(1/6) + 2×(2/6) + 3×(3/6)
= 1/6 + 4/6 + 9/6 = 14/6
= 7/3
Therefore, the expected value of the number drawn is 7/3.
Now we need to find the variance of the number drawn if one slip is selected at random from the bag.
The variance of a random variable is given by: Var(X) = E(X2) - [E(X)]2
We have already calculated E(X) = 7/3.
Now, E(X2) is given by: E(X2) = ΣX2P(X)
= (1)2×(1/6) + (2)2×(2/6) + (3)2×(3/6) = 1/6 + 8/6 + 27/6
= 36/6 = 6
Thus, the variance of X is
Var(X) = E(X2) - [E(X)]2 = 6 - (7/3)2 = 6 - 49/9 = 5/9
Therefore, the variance of the number drawn is 5/9.
Hence, the required answers are:
Expected value of the number drawn = 7/3.
Variance of the number drawn = 5/9.
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A 5.0 MHz magnetic field travels in a fluid in which the propagation velocity is 1.0x108 m/sec. Initially, we have H(0,0)=2.0 a. A/m. The amplitude drops to 1.0 A/m after the wave travels 5.0 meters in the y direction. Find the general expression of this wave. Select one: O a. H(y,t)=2e-014/cos( m10't-0.2my) a, A/m b. H(y.t)-le-014cos(2n10ºt-0.1my) a, A/m Oc H(y.t)=2e-0.14/cos(n10't - 0.1my) a, A/m Od. None of these
Given,The frequency of the magnetic field, f = 5 MHz = 5 × 106 HzVelocity of the fluid, v = 1.0 × 108 m/sInitial amplitude, H(0,0) = 2.0 A/mFinal amplitude, H(0,5) = 1.0 A/m
Therefore, decay constant, α = [ln(H(0,0)/H(0,5))]/5 = [ln(2/1)]/5 = 0.1386m-1
Let's find the wavelength first. The wavelength of the wave is given as,
λ = v/f = 1.0 × 108/5 × 106 = 20 m
The general expression of the magnetic field H(y,t) can be given by,
H(y,t) = H0cos(ky - ωt) where,H0 = maximum amplitude ky = wave vector ω = angular frequency = 2πf = 2π × 5 × 106 = 31.42 × 106 s-1k = 2π/λ = 2π/20 = 0.3142 m-1
Putting the values of H0, k, and ω, we getH(y,t) = 2cos(0.3142y - 31.42 × 106t)
Hence, the general expression of the given wave is H(y,t) = 2cos(0.3142y - 31.42 × 106t).
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(b) Given a = 1.3 cm, b = 1.6 cm, t = 0.5 cm and I = 3 A, identify the values of the magnetic field intensity at 1.4 cm and 1.9 cm, respectively.
The magnetic field intensity of a solenoid can be given by the formula; B = μ₀NI/lμ₀ = 4π × 10^-7 tesla metre per ampereN = number of turnsI = Currentl = length of solenoid a = radius of solenoid b = length of solenoid We have; a = 1.3 cm (radius of solenoid)b = 1.6 cm (length of solenoid)t = 0.5 cmI = 3 A (Current)
For the answer, let us find the values of N and lN = Number of turns of the solenoid
l = πab = π × 1.3 × 1.6 cm² = 6.5452 cm
N = 2000 / 6.5452N = 305.78 turns (approx 306 turns)
Hence, N = 306 turns and l = 6.5452 cm
Substitute the values into the magnetic field formula to get the values of magnetic field intensity at the given positions;
B = μ₀NI/lAt 1.4 cm;
B = (4π × 10^-7 tesla metre per ampere)(306)(3 A)/1.4 cm
B = 1.01576 × 10^-3 tesla At 1.9 cm;
B = (4π × 10^-7 tesla metre per ampere)(306)(3 A)/1.9 cm
B = 6.39029 × 10^-4 tesla
Hence, at a distance of 1.4 cm and 1.9 cm from the solenoid, the values of the magnetic field intensity are 1.01576 × 10^-3 tesla and 6.39029 × 10^-4 tesla respectively.
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Assignment Brief and Guidance Delivato is an international courier company well known as the most reliable delivery company in the world. A large number of high-profile business entrust Delivato to deliver their goods including Banks to deliver Credit cards, Ecommerce business to deliver goods of all types including high value electronics and governmental agencies like hospitals and embassies to deliver medication and documents respectively. Customers are offered online service to track their shipments, and request pickups. They can also pay for their shipments online. Delivato Datacenter is located in UK. They have branches in Europe, Middle east, Africa and US. As a standard, each branch will have a warehouse that processes physical shipments using a conveyer system that sorts shipments by area. Besides, there is the office area where HR. Account, IT and Management sit, next to a computer room that processes local shares, print servers and connectivity with UK datacenter to access the Main tracking system and accounting application: Last there is a warehouse for items storage, with in/out requests received by customers to be delivered to their outlets. Delivato is planning to move their main tracking application to the cloud in a hybrid model architecture (some other applications will be still hosted on premise). However, they are having security concerns around the move of apps and data under a cloud provider after being hosted on premise for a long time. You are hired by the management of Delivato as Information Security Risk Officer to evaluate the security- related specifics of its present system and provide recommendations on security and reliability related improvements of its present system as well as to plan the move to the cloud. Part of your responsibilities is to ensure the confidentiality, integrity, and availability (CIA) of the data and related services. You did a security check on most of the applications, systems, policies & procedures, and devices and noticed the following: 1- Not all existing devices (endpoints) within the offices are well secured. 2- One subnet is used for all devices in all monitoring stations. 3- Data processed by conveyer system (related to the shipments) in each branch well be uploaded to the system on the cloud via Internet connection and will be stored there in a database server for analysis and reporting. The transmission of data is done through a published web application over the Internet (front-end back-end architecture). Such information should be highly secured since it is considered of customer privacy and protected by law and regulations. 4- Customers are able to create profiles on an online tracking system hosted on premise and to be moved on the cloud. Such profile contains some personal and private information that should not be disclosed to other parties. 5- When you checked the current data centre as well as the warehouse in each branch, you noticed that the door is easily opened. So, shipments, servers and networking devices are easily accessed by anyone. You also noticed that the humidity and temperature inside the servers' room are not well controlled. 6- Some employees have VPN access to the data center to run some applications remotely. 7- Some other third parties are granted VPN access for support reasons, like the companies that provided and installed the conveyer system. 8- Very minor security procedures taken by Delivato as well as some misconfigurations on some network security devices like firewalls and VPN. Your manager asked you to prepare a detailed report and a presentation regarding IT security for Delivato services and environment in general. The report is to be submitted to and discussed with the CEO to get approval for further security policy enforcement. In your report you should: A. Discuss IT security risks that might put the customers' and Delivato's data into danger, taking into consideration all data situations (being entered, transmitted, processed, and stored). Your discussion should include:
Delivato is an international courier company, known as the most reliable delivery company in the world. They are planning to move their main tracking application to the cloud in a hybrid model architecture.
However, they are having security concerns around the move of apps and data under a cloud provider after being hosted on premise for a long time. So, the management of Delivato hired an Information Security Risk Officer to evaluate the security-related specifics of their present system and provide recommendations on security and reliability related improvements of its present system as well as to plan the move to the cloud. Part of his responsibilities is to ensure the confidentiality, integrity, and availability (CIA) of the data and related services.The IT security risks that might put the customers' and Delivato's data into danger are as follows:1. Non-secured endpoints: Not all existing devices (endpoints) within the offices are well secured.2. Same subnet for all monitoring stations: One subnet is used for all devices in all monitoring stations. This means that if any device in this subnet gets compromised, then all devices will be at risk
.3. Insecure transmission: Data processed by the conveyor system (related to the shipments) in each branch will be uploaded to the system on the cloud via an Internet connection and will be stored there in a database server for analysis and reporting. The transmission of data is done through a published web application over the Internet (front-end back-end architecture). Such information should be highly secured since it is considered customer privacy and protected by law and regulations.4. Unsecured customer profile: Customers are able to create profiles on an online tracking system hosted on premise and to be moved on the cloud. Such a profile contains some personal and private information that should not be disclosed to other parties.5. Lack of physical security: When the current data center and warehouse in each branch were checked, it was noticed that the door is easily opened. So, shipments, servers, and networking devices are easily accessed by anyone. Humidity and temperature inside the server's room are not well controlled.6. Unauthorized access: Some employees have VPN access to the data center to run some applications remotely.7. Third-party access: Some other third parties are granted VPN access for support reasons, like the companies that provided and installed the conveyor system.8. Lack of security procedures and misconfiguration: Very minor security procedures were taken by Delivato as well as some misconfigurations on some network security devices like firewalls and VPN.
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Delivato, being an international courier company, deals with different kinds of data, ranging from customers’ private data to business data. The company operates with a lot of partners and stakeholders, all of whom require access to the data to some extent.
However, without proper IT security protocols, these data and services could be put into danger.The following are some of the IT security risks that might put the customers' and Delivato's data into danger:1. Endpoints are not well securedNot all existing devices (endpoints) within the offices are well secured. This makes the data within these devices vulnerable to cyberattacks. It is important to secure these devices as they can be used as entry points for hackers to gain access to the company’s network.2. Unsecured subnetOne subnet is used for all devices in all monitoring stations. This makes it easier for hackers to gain access to the company’s network, as they can use one entry point to compromise all systems.3.
Insecure web applicationThe data processed by the conveyer system, related to the shipments, in each branch will be uploaded to the system on the cloud via an internet connection. The transmission of data is done through a published web application over the internet (front-end back-end architecture). The information should be highly secured since it is considered customer privacy and protected by law and regulations. The web application should be secured using encryption and other security measures to prevent unauthorized access to the data.4. Insecure customer profilesCustomers are able to create profiles on an online tracking system hosted on-premise and to be moved to the cloud. Such profile contains some personal and private information that should not be disclosed to other parties.
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Assume Alice wants to share a large file Secrect.txt with her friend Bob. Both of them have symmetric and asymmetric cryptographical algorithms to use to ensure the file is confidentially transferred. Answer the following questions:
What symmetric methods are available for them to use to ensure data confidentiality? Discuss the specific steps for both ends to encrypt and decrypt the file as well as how to distributing the key.
Alice:
Bob:
Key Distribution:
What asymmetric methods are available for them to use to ensure data confidentiality? Discuss the specific steps for both ends to encrypt and decrypt the file as well as how to distributing the key.
Alice:
Bob:
Key Distribution:
How can Bob verify that the file was not changed during the transmission in the asymmetric approach to ensure data integrity? Discuss the specific steps both ends need to take.
Alice:
Bob:
Assume there is an attacker Eve, how can he design a scheme to launch a Man-In-The-Middle attack? Describe the specific steps.
In order to avoid Man-In-The-Middle attacks by Eve, what should Alice and Bob do? Describe the specific steps.
Alice:
Bob:
Symmetric methods available for data confidentiality include algorithms like AES (Advanced Encryption Standard) and 3DES (Triple Data Encryption Standard).
For Alice and Bob to use symmetric encryption, they would follow these steps:
1. Alice encrypts the file (Secret.txt) using a symmetric encryption algorithm, such as AES, with a shared secret key.
2. Alice securely shares the encrypted file with Bob.
3. Bob receives the encrypted file and decrypts it using the same symmetric encryption algorithm and the shared secret key.
In terms of key distribution, Alice and Bob need to securely exchange the shared secret key. They can achieve this through methods like key exchange protocols or pre-sharing the key through a secure channel.
Asymmetric methods available for data confidentiality include algorithms like RSA (Rivest-Shamir-Adleman) and Elliptic Curve Cryptography (ECC).
For Alice and Bob to use asymmetric encryption, they would follow these steps:
1. Alice obtains Bob's public key.
2. Alice encrypts the file (Secret.txt) using Bob's public key.
3. Alice sends the encrypted file to Bob.
4. Bob receives the encrypted file and decrypts it using his private key.
Key distribution in asymmetric encryption involves securely distributing public keys. Bob needs to ensure that his public key is securely shared with Alice so that she can encrypt the file using his public key.
To verify file integrity in the asymmetric approach, Bob can use a digital signature. Alice would generate a digital signature using her private key, which Bob can verify using Alice's public key. If the signature is valid, it ensures that the file was not changed during transmission.
In a Man-In-The-Middle (MITM) attack, Eve intercepts the communication between Alice and Bob and impersonates both parties to intercept and modify the messages. The steps for Eve to launch an MITM attack include intercepting the initial key exchange, generating her own key pair, and relaying messages between Alice and Bob while decrypting and re-encrypting them with the appropriate keys.
To avoid MITM attacks, Alice and Bob should authenticate each other's identities through the use of digital certificates or a trusted third party. They should also encrypt their communications using secure protocols like TLS/SSL. Additionally, they should verify each other's public keys to ensure they are not compromised or tampered with. By following these steps, Alice and Bob can enhance the security of their communication and protect against MITM attacks.
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Consider the code given below. Show exactly what will be printed on the screen. #include #include #include #include int_y=3; void child(); void parent (); void main() {int m=9, n=10; Rid id; int p1(2), p2 [2]; pipe (pl); pipe (p2); id=fork(); if(id) {printf("we have a problem... now exiting.. \n"); exit(1); } if(id) child(p1, p2, m, n); else parent (p1, p2, min); } void child(int *pl, int *p2, int a, int b) {char h[30]; v=Y+1; if(a>b) sprintf (h,"<1> ame); else sprintf(h,"<1> d", b); write(p1[1Lhasizeof(h)); read(p2[0], hasizest (h)); printf(" $3\n... exiting); } void parent(int *pl, int *p2, a) {char bb[40]; y=y+2; read (p1[01bbsizeof(bb)); printf(" $3\nbb); sprintf(bb,"<2> "*v); write (p2[1],bb sizeof(bb)); } Output on the screen:
The output of the code will be "we have a problem... now exiting.."
How is this so?This is because the line if(id) {printf("we have a problem... now exiting.. \n"); exit(1); } is executed when id is not equal to 0, which means it is the parent process. The parent process prints the message and then exits with status code 1.
Note that the rest of the code after the exit(1) statement will not be executed.
Output in programming refers to the result or information generated by a program that isdisplayed or produced as a response to a specific input or computation.
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Sweetpeas.ca is Toronto’s eco & socially responsible floral design studio, and widely recognized as Toronto's Best Florist. They are known for innovative and elegant floral arrangements in a wide range of styles. Importantly, it is a floral studio and not a retail store. It is closed to the public and orders must be made either through their website or by phone. They offer same-day delivery for orders placed before 11am. The average price of an arrangement, including delivery, is $91 plus tax. The gross margin after cost of flowers sold is 60%. They pay more than the living wage for Toronto ($25 per hour for their floral arrangers and delivery people). They also source their flowers ethically and limit use of plastics in their arrangements.
They own a fleet of eight electric vans that they use to deliver the flowers throughout the GTA. Starting at 8AM the van drivers depart with 10 to 20 orders, typically taking 2-3 hours to make their deliveries and return to reload for the next delivery tour. To ensure that the customers enjoy their flowers as much as possible, the last delivery van departs at 3pm.
Orders that arrive after 11am, if completed by before 3pm, may be sent out the same day, but no promise is made to do so. Orders that are completed after 3pm are held in their large walk-in refrigerator and sent out the next day.
A big challenge for Sweetpeas is the variability of orders and staffing to meet the orders. A simple flower arrangement in a vase might take 10 minutes to put together, while an extensive piece might take 30 minutes or more. The time to process an order is 20 minutes on average and is given by a gamma distribution with parameters (a=4, b=5); here the parameterization implies the mean = ab and the std. dev. = b√a.
Currently there are 8 flower arrangers who work at Sweetpeas from 7am until 3pm, and 5 other flower arrangers who work from 11 am until 7pm. (For simplicity, assume they can eat lunch while working.) There are on average 20 orders placed through the website each hour from 7am until 7pm. The total number of orders placed each night between 7pm and 7am is on average 50 with a standard deviation of 7.07. (Assume there is no weekly cyclical pattern, only the daily one.)
[5 pts] Suppose on Monday, 7am, there are 100 unprocessed orders. How many unprocessed orders would you expect there to be at 11am? How many unprocessed orders would you expect at 3pm?
[5 pts] Suppose on Tuesday at 3pm there are no unprocessed orders. How many unprocessed orders would you expect Wednesday morning at 7am (i.e., the next morning)? How many unprocessed orders would you expect Wednesday at 3pm?
[5 pts] Sweetpeas gets nervous about making their service promise if all orders received by 11am have not been started in production by 2pm so that they can be loaded and shipped by 3pm. Suppose at 11am on Thursday there are 100 unprocessed orders. What is the likelihood that Sweetpeas will not be able to start processing all 100 orders by 2pm? That is, should Sweetpeas be nervous Thursday at 11am?
[15 pts] Describe your expectations on the daily operations. What is the workload of the flower arrangers? How does it ebb and flow? How busy are they? Are there too many or too few flower arrangers? Do they have time for lunch? What is the workload of the van drivers? Are their sufficient vans? Are they scheduled well? Should Sweetpeas be nervous about meeting their service promise consistently?
[5 pts] The marketing manager at Sweetpeas is considering changing the promise to same day delivery if ordered by 2pm. They think this will increase demand by 5 units each hour from 7am to 2pm. Comment on the ability of Sweetpeas to support this promise. How might this message affect how customers interact with the firm and how would you address any change? What changes, if any, would you suggest to the operation to support this promise?
Suppose on Monday, 7 am, there are 100 unprocessed orders. The time to process an order is 20 minutes on average, given by a gamma distribution with parameters (a=4, b=5).
There are eight flower arrangers from 7 am until 3 pm and five other flower arrangers from 11 am until 7 pm.There are on average 20 orders placed through the website each hour from 7 am until 7 pm.Mean= ab = 4 × 5 = 20Variance= b² a = 5² 4 = 100Mean of the sum of n gamma distributions with mean μ and variance σ² is nμ and nσ². Therefore, we may assume the total processing time to be normally distributed with mean 20*100 = 2000 minutes and variance 100*100 = 10000 minutes.
Therefore, Sweetpeas should not be nervous on Thursday at 11 am.[15 pts] Describe your expectations on the daily operations.The average number of orders placed per hour is 20, and the average time to process an order is 20 minutes, implying that there is a need for one arranger per order.
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Assuming Base and Derived classes are designed appropriately, and basePtr and derivedPur are pointing to objects of their respective classes, which of the following lines of code will result in slicing? a. derivedPtr = basePtr b. basePtr = derivedPtr c. *derivedPtr = *basePtr d. *basePtr = *derivedPtr (3 pts) Given two classes, Car and Person, we should understand that a Person might have multiple cars and cars can transfer between People. How would you model this relationship? a. Inheritance b. Polymorphism c. A Car object inside the Person class d. A Person pointer inside the Car class
We can use *Option C* (i.e. A Car object inside the Person class) to create a Car object inside the Person class to indicate that a person can have multiple cars. However, *Option D* (i.e. A Person pointer inside the Car class) will not be appropriate in this scenario.
Assuming Base and Derived classes are designed appropriately, and basePtr and derivedPur are pointing to objects of their respective classes,
*Option C* (i.e. *derived Ptr = *basePtr*) will result in slicing.
When a derived class object is assigned to a base class object, the additional attributes of a derived class object get sliced off (i.e. removed) and only the attributes of the base class object are retained.
This is known as object slicing. Here, the object of the derived class is assigned to a pointer of the base class, resulting in slicing.
Given two classes, Car and Person, a Person might have multiple cars, and cars can transfer between People. To model this relationship, we can use
*Option A* (i.e. Inheritance) by defining the Car class as the base class and the Person class as the derived class.
The class Car will have all the properties of a Car object, and the Person class will inherit those properties.
Additionally, we can use *Option C* (i.e. A Car object inside the Person class) to create a Car object inside the Person class to indicate that a person can have multiple cars. However, *Option D* (i.e. A Person pointer inside the Car class) will not be appropriate in this scenario.
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Scheduling task and allocating resources is crucial in determining the ability of the system to achieve its goal. Task can be a resource if other task(s) depend on it to start execution. This is known as task dependency.
(a) Figure1 shows a graph of 10 tasks, determine the preceding dependency for each task.
Figure 1- Tasks Graph
(10 marks)
(b) The Java Virtual Machine allows an application to have multiple threads of execution running concurrently. Every thread has a priority. Explain thread priority for real time systems applied in Java platform.
(15 marks)
Scheduling tasks and relocating resources is crucial in determining the ability of the system to achieve its goal. Task can be a resource if other task(s) depend on it to start execution. This is known as task dependency. It is essential to ensure that the tasks are scheduled and resources are allocated in the correct order to avoid delays or errors.
Figure 1 shows a graph of ten tasks, and we need to determine the preceding dependency for each task. The dependence of each task is indicated by the arrows in the diagram. For instance, task 3 is dependent on both tasks 1 and 2, as we can see that the arrows pointing to task 3 come from both tasks 1 and 2. The following is the preceding dependency for each task:Task 1 has no preceding dependency.Task 2 has no preceding dependency.Task 3 has two preceding dependencies, task 1 and task 2.Task 4 has two preceding dependencies, task 1 and task 2.Task 5 has one preceding dependency, task 3.Task 6 has one preceding dependency, task 4.Task 7 has one preceding dependency, task 4.Task 8 has two preceding dependencies, task 5 and task 6.Task 9 has one preceding dependency, task 7.Task 10 has one preceding dependency, task 8.
The Java Virtual Machine (JVM) is a platform for running Java applications. It allows an application to have multiple threads of execution running concurrently. Every thread has a priority. The thread priority defines the order in which threads should be executed when multiple threads are running concurrently. In real-time systems, the thread priority is crucial to ensure that the system meets its deadlines. The priority of a thread is represented as an integer value, with the highest value being the highest priority. The Java language specification defines ten priority levels, ranging from 1 (the lowest) to 10 (the highest).Thread priorities are used to allocate resources in real-time systems. Threads with higher priorities are given more CPU time than threads with lower priorities.
This ensures that threads with critical tasks are given the resources they need to execute their tasks. For instance, if a system has two threads, one for reading data from a sensor and one for processing data, the thread that reads data from the sensor should be given a higher priority than the thread that processes data. This ensures that the data is read in real-time and that the processing is not delayed.
Scheduling tasks and allocating resources are crucial in determining the ability of the system to achieve its goal. Every thread has a priority, and the thread priority defines the order in which threads should be executed when multiple threads are running concurrently. The priority of a thread is represented as an integer value, with the highest value being the highest priority. Thread priorities are used to allocate resources in real-time systems. Threads with higher priorities are given more CPU time than threads with lower priorities.
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HD Stations
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Select the DisplayName and SortOrder from the CHANNEL table for all TV channels where the SortOrder is
between 700 and 799 inclusive. Use the BETWEEN ... AND ... operator. Exclude all rows where the ExternalID
is NULL. Use "Channel Name" as the header for the name column and "Sort Order" for the sort order column.
Display results in ascending order by SortOrder.
Hint: The correct answer will have 93 rows and will look like this:
Channel Name Sort Order
------------ -----------
KATUDT 702
KRCWDT 703
KPXGDT 705
KOINDT 706
DSCHDP 707
KGWDT 708
WGNAPHD 709
KOPBDT 710
VEL 711
KPTVDT 712
KPDXDT 713
FUSEHD 714
...
UPHD 797
AXSTV 798
NFLNRZD 799
Based on the given requirements, the SQL query to retrieve the desired results would be
SELECT DisplayName AS "Channel Name", SortOrder AS "Sort Order"
FROM CHANNEL
WHERE SortOrder BETWEEN 700 AND 799
AND ExternalID IS NOT NULL
ORDER BY SortOrder ASC;
How does this work?This query selects the DisplayName and SortOrder columns from the CHANNEL table,filters the rows based on the SortOrder being between 700 and 799 (inclusive), excludes rows where the ExternalID is NULL, and sorts the results in ascending order by the SortOrder column.
An SQL query is a statement used to retrieve or manipulate data in a relational database. It is written in the Structured Query Language (SQL) and specifies the desired action to be performed on the database, such as selecting, inserting,updating, or deleting data.
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