|ETCPC
📢 Calling all coding enthusiasts! 📊💻
📢 Join us for an exhilarating coding tutorial covering Sorting, Two Pointer, and Binary Search algorithms! 🎓
🗓 Date: Mon, 24 July, 2023
⏰ Time: 7:30 PM [1:30 Evening LT]
🎙 Speaker: Ms. Mebatsion Sahle, ETCPC Manager and an experienced programmer and algorithm expert.
🔥 Don't miss this incredible opportunity to delve into Sorting, Two Pointer, and Binary Search algorithms, and enhance your problem-solving skills to new heights! 🌟🔍
During this tutorial, Ms. Mebatsion Sahle will guide you through the intricacies of various sorting algorithms like Bubble Sort, Selection Sort, Insertion Sort, Merge Sort, Quick Sort, and more. You'll gain insights into their working principles and time complexities, equipping you to choose the most efficient algorithm for different scenarios. 💡🔢
Next, we'll explore the power of the Two Pointer technique, which is widely used to optimize solutions for array-based problems. You'll learn how to cleverly navigate through arrays and solve problems in linear or logarithmic time complexities. 🏹🎯
Lastly, we'll uncover the secrets of Binary Search, a fundamental algorithm for efficiently searching elements in a sorted array. You'll understand its implementation and master the art of searching for values with speed and precision. 🔍🌐
Whether you're a beginner or an experienced coder, this tutorial caters to all levels of expertise. Each topic will be explained in a beginner-friendly manner, gradually building up to more advanced concepts. 💪🚀
Get ready to sharpen your coding skills, tackle complex problems, and level up your algorithms game!
We eagerly anticipate your active participation in this enriching tutorial!
For any inquiries or further information, please contact us on @etcpc_support.
You can participate this session on our:
Facebook Live
LinkedIn Live
Telegram Live
YouTube Live and,
Google Meet (Limited Seat)
N.B. If you are participating on this event on Google meet, you must reserve your seat first by filling your information on this form. If you reserve seat and don't participate on google meet, there will be a penalty!
#ETCPC #TrainingCamp #SortingAlgorithms #TwoPointerTechnique #BinarySearch #CodingTutorial #AlgorithmExpert #ProblemSolving #EfficientDataArrangement #CodingEnthusiasts
📢 Calling all coding enthusiasts! 📊💻
📢 Join us for an exhilarating coding tutorial covering Sorting, Two Pointer, and Binary Search algorithms! 🎓
🗓 Date: Mon, 24 July, 2023
⏰ Time: 7:30 PM [1:30 Evening LT]
🎙 Speaker: Ms. Mebatsion Sahle, ETCPC Manager and an experienced programmer and algorithm expert.
🔥 Don't miss this incredible opportunity to delve into Sorting, Two Pointer, and Binary Search algorithms, and enhance your problem-solving skills to new heights! 🌟🔍
During this tutorial, Ms. Mebatsion Sahle will guide you through the intricacies of various sorting algorithms like Bubble Sort, Selection Sort, Insertion Sort, Merge Sort, Quick Sort, and more. You'll gain insights into their working principles and time complexities, equipping you to choose the most efficient algorithm for different scenarios. 💡🔢
Next, we'll explore the power of the Two Pointer technique, which is widely used to optimize solutions for array-based problems. You'll learn how to cleverly navigate through arrays and solve problems in linear or logarithmic time complexities. 🏹🎯
Lastly, we'll uncover the secrets of Binary Search, a fundamental algorithm for efficiently searching elements in a sorted array. You'll understand its implementation and master the art of searching for values with speed and precision. 🔍🌐
Whether you're a beginner or an experienced coder, this tutorial caters to all levels of expertise. Each topic will be explained in a beginner-friendly manner, gradually building up to more advanced concepts. 💪🚀
Get ready to sharpen your coding skills, tackle complex problems, and level up your algorithms game!
We eagerly anticipate your active participation in this enriching tutorial!
For any inquiries or further information, please contact us on @etcpc_support.
You can participate this session on our:
Facebook Live
LinkedIn Live
Telegram Live
YouTube Live and,
Google Meet (Limited Seat)
N.B. If you are participating on this event on Google meet, you must reserve your seat first by filling your information on this form. If you reserve seat and don't participate on google meet, there will be a penalty!
#ETCPC #TrainingCamp #SortingAlgorithms #TwoPointerTechnique #BinarySearch #CodingTutorial #AlgorithmExpert #ProblemSolving #EfficientDataArrangement #CodingEnthusiasts
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|ETCPC
📢 Calling all graph enthusiasts! 📊🌐
📢 Join us for an exciting two-part tutorial on Graphs and Graph Algorithms - Part 1! 🎓
🗓️ Date: Mon, 31July 2023
⏰ Time: 7:30 PM [ 1:30 Evening LT]
🎙️ Speaker: Mr. Admasu Abera, a seasoned programmer and graph algorithm expert.
🔥 Don't miss this incredible opportunity to unravel the fascinating world of graphs and explore essential graph algorithms like Breadth-First Search (BFS) and Depth-First Search (DFS)! 🌟🔍
In Part 1 of this tutorial, we will start by diving into Graph Representation. You'll learn about various methods to represent graphs and understand how to choose the most suitable representation for specific problems. 📈🔢
Next, we'll delve into the Breadth-First Search (BFS) algorithm, a powerful technique for traversing graphs level by level. BFS is widely used for shortest path problems and finding connected components in an efficient manner. 🚀🌈
After that, we'll explore the Depth-First Search (DFS) algorithm, which allows you to traverse graphs in a depthward motion. DFS is valuable for solving problems like topological sorting, cycle detection, and finding connected components. 🚶♀️🌲
Whether you're new to graphs or looking to sharpen your graph algorithm skills, this tutorial is perfect for you! [Insert Speaker Name] will present the concepts in a clear and engaging manner, making complex graph algorithms approachable for all attendees. 💪💡
Get ready to embark on a captivating journey through the world of graphs and elevate your algorithmic thinking to new heights!
We eagerly anticipate your active participation in this enriching tutorial!
For any inquiries or further information, please contact us on telegram @etcpc_support
#ETCPC #GraphAlgorithms #GraphTheory #BFS #DFS #GraphRepresentation #CodingTutorial #AlgorithmExpert #ProblemSolving #CodingEnthusiasts
📢 Calling all graph enthusiasts! 📊🌐
📢 Join us for an exciting two-part tutorial on Graphs and Graph Algorithms - Part 1! 🎓
🗓️ Date: Mon, 31July 2023
⏰ Time: 7:30 PM [ 1:30 Evening LT]
🎙️ Speaker: Mr. Admasu Abera, a seasoned programmer and graph algorithm expert.
🔥 Don't miss this incredible opportunity to unravel the fascinating world of graphs and explore essential graph algorithms like Breadth-First Search (BFS) and Depth-First Search (DFS)! 🌟🔍
In Part 1 of this tutorial, we will start by diving into Graph Representation. You'll learn about various methods to represent graphs and understand how to choose the most suitable representation for specific problems. 📈🔢
Next, we'll delve into the Breadth-First Search (BFS) algorithm, a powerful technique for traversing graphs level by level. BFS is widely used for shortest path problems and finding connected components in an efficient manner. 🚀🌈
After that, we'll explore the Depth-First Search (DFS) algorithm, which allows you to traverse graphs in a depthward motion. DFS is valuable for solving problems like topological sorting, cycle detection, and finding connected components. 🚶♀️🌲
Whether you're new to graphs or looking to sharpen your graph algorithm skills, this tutorial is perfect for you! [Insert Speaker Name] will present the concepts in a clear and engaging manner, making complex graph algorithms approachable for all attendees. 💪💡
Get ready to embark on a captivating journey through the world of graphs and elevate your algorithmic thinking to new heights!
We eagerly anticipate your active participation in this enriching tutorial!
For any inquiries or further information, please contact us on telegram @etcpc_support
#ETCPC #GraphAlgorithms #GraphTheory #BFS #DFS #GraphRepresentation #CodingTutorial #AlgorithmExpert #ProblemSolving #CodingEnthusiasts
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|ETCPC
📢 Calling all coding enthusiasts! 🖥️💻
📢 Join us for an informative tutorial on Complete Search techniques! 🧩🔎
🗓️ Date: Aug 8, 2023
⏰ Time: 7:30 PM [1:30 Evening LT]
🎙️ Speaker: Mr. Wendirad Demelash, an experienced programmer and problem-solving expert.
✉️ Meeting Link: https://meet.google.com/stj-oicr-oug
🔥 Don't miss this incredible opportunity to dive into the world of Complete Search and enhance your problem-solving skills! 💪💡
In this tutorial, we will explore various techniques for Complete Search, including iterative complete search, recursive complete search, and divide and conquer strategies. These powerful algorithms are fundamental for exhaustive problem-solving and can be applied across different domains. 🌟🔍
You will learn how to approach problems systematically, breaking them down into smaller subproblems and exploring all possible solutions. By the end of the tutorial, you'll have a solid understanding of Complete Search techniques and be equipped with valuable problem-solving tools. 🚀🧠
Whether you're a beginner looking to expand your coding knowledge or an experienced programmer aiming to sharpen your algorithmic thinking, this tutorial is perfect for you! Mr. Wendirad Demelash will present the concepts in a clear and engaging manner, ensuring that all attendees can grasp the material easily. 🎓💻
Get ready to enhance your problem-solving abilities and take your coding skills to new heights!
We eagerly anticipate your active participation in this enriching tutorial!
For any inquiries or further information, please contact us on Telegram @etcpc_support.
#ETCPC #CompleteSearch #ProblemSolving #CodingTutorial #AlgorithmicThinking #CodingEnthusiasts
📢 Calling all coding enthusiasts! 🖥️💻
📢 Join us for an informative tutorial on Complete Search techniques! 🧩🔎
🗓️ Date: Aug 8, 2023
⏰ Time: 7:30 PM [1:30 Evening LT]
🎙️ Speaker: Mr. Wendirad Demelash, an experienced programmer and problem-solving expert.
✉️ Meeting Link: https://meet.google.com/stj-oicr-oug
🔥 Don't miss this incredible opportunity to dive into the world of Complete Search and enhance your problem-solving skills! 💪💡
In this tutorial, we will explore various techniques for Complete Search, including iterative complete search, recursive complete search, and divide and conquer strategies. These powerful algorithms are fundamental for exhaustive problem-solving and can be applied across different domains. 🌟🔍
You will learn how to approach problems systematically, breaking them down into smaller subproblems and exploring all possible solutions. By the end of the tutorial, you'll have a solid understanding of Complete Search techniques and be equipped with valuable problem-solving tools. 🚀🧠
Whether you're a beginner looking to expand your coding knowledge or an experienced programmer aiming to sharpen your algorithmic thinking, this tutorial is perfect for you! Mr. Wendirad Demelash will present the concepts in a clear and engaging manner, ensuring that all attendees can grasp the material easily. 🎓💻
Get ready to enhance your problem-solving abilities and take your coding skills to new heights!
We eagerly anticipate your active participation in this enriching tutorial!
For any inquiries or further information, please contact us on Telegram @etcpc_support.
#ETCPC #CompleteSearch #ProblemSolving #CodingTutorial #AlgorithmicThinking #CodingEnthusiasts
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|ETCPC
📢 Calling all graph enthusiasts! 📊🌐
📢 Join us for the thrilling continuation of our two-part tutorial on Graphs and Graph Algorithms - Part 2! 🎓
🗓️ Date: Mon, 14th August 2023
⏰ Time: 7:30 PM [1:30 Evening LT]
🎙️ Speaker: Mr. Abdi Adem, a seasoned programmer and graph algorithm expert.
🔥 Don't miss this incredible opportunity to deepen your understanding of graphs and explore essential graph algorithms like Shortest Path Algorithms and Minimum Spanning Trees! 🌟🔍
In Part 2 of this tutorial, we will unravel the fascinating world of shortest path algorithms. These algorithms are essential tools for finding the most efficient path between two vertices in a graph. We will cover:
1. Shortest Path Algorithms:
Shortest path algorithms are fundamental tools used to find the most efficient path between two vertices in a graph. They have numerous applications, ranging from navigation systems to network routing protocols. Here are two commonly used algorithms for finding the shortest path:
a) Dijkstra's Algorithm: Named after the Dutch computer scientist Edsger W. Dijkstra, this algorithm efficiently determines the shortest path in a graph with non-negative edge weights. By maintaining a priority queue, Dijkstra's algorithm explores vertices in increasing order of their distance from the source vertex.
b) Bellman-Ford Algorithm: This algorithm handles graphs with negative edge weights and detects negative cycles. It iteratively relaxes the edges of the graph until it finds the shortest path.
Next, we will dive into the concept of Minimum Spanning Trees (MSTs). An MST is a tree that spans all the vertices in a connected, weighted graph while minimizing the total sum of edge weights. We will explore:
2. Minimum Spanning Tree (MST) Algorithms:
Minimum spanning tree algorithms are used to find the most cost-effective way to connect all the vertices in a graph. The two main algorithms for finding MSTs are:
a) Kruskal's Algorithm: Named after the Czech mathematician Josef Kruskal, this algorithm builds an MST by iteratively adding the smallest-weighted edges that do not create cycles.
b) Prim's Algorithm: Named after the American mathematician Robert C. Prim, this algorithm grows an MST from an arbitrary starting vertex by greedily adding edges with the smallest weights.
We will dive into the intricacies of these algorithms, understand their time complexities, and discuss real-world applications.
Whether you're a novice seeking to expand your knowledge or an experienced enthusiast looking to refine your graph algorithm skills, this tutorial is perfect for you! Mr. Abdi Adem will present the concepts in a clear and engaging manner, making complex graph algorithms approachable for all attendees. 💪💡
Get ready to embark on a captivating journey as we explore the world of graphs and elevate your algorithmic thinking to new heights!
We eagerly anticipate your active participation in this enriching tutorial!
For any inquiries or further information, please contact us on Telegram @etcpc_support.
#ETCPC #GraphAlgorithms #GraphTheory #ShortestPathAlgorithms #MinimumSpanningTrees #KruskalsAlgorithm #PrimsAlgorithm #CodingTutorial #AlgorithmExpert #ProblemSolving #CodingEnthusiasts
📢 Calling all graph enthusiasts! 📊🌐
📢 Join us for the thrilling continuation of our two-part tutorial on Graphs and Graph Algorithms - Part 2! 🎓
🗓️ Date: Mon, 14th August 2023
⏰ Time: 7:30 PM [1:30 Evening LT]
🎙️ Speaker: Mr. Abdi Adem, a seasoned programmer and graph algorithm expert.
🔥 Don't miss this incredible opportunity to deepen your understanding of graphs and explore essential graph algorithms like Shortest Path Algorithms and Minimum Spanning Trees! 🌟🔍
In Part 2 of this tutorial, we will unravel the fascinating world of shortest path algorithms. These algorithms are essential tools for finding the most efficient path between two vertices in a graph. We will cover:
1. Shortest Path Algorithms:
Shortest path algorithms are fundamental tools used to find the most efficient path between two vertices in a graph. They have numerous applications, ranging from navigation systems to network routing protocols. Here are two commonly used algorithms for finding the shortest path:
a) Dijkstra's Algorithm: Named after the Dutch computer scientist Edsger W. Dijkstra, this algorithm efficiently determines the shortest path in a graph with non-negative edge weights. By maintaining a priority queue, Dijkstra's algorithm explores vertices in increasing order of their distance from the source vertex.
b) Bellman-Ford Algorithm: This algorithm handles graphs with negative edge weights and detects negative cycles. It iteratively relaxes the edges of the graph until it finds the shortest path.
Next, we will dive into the concept of Minimum Spanning Trees (MSTs). An MST is a tree that spans all the vertices in a connected, weighted graph while minimizing the total sum of edge weights. We will explore:
2. Minimum Spanning Tree (MST) Algorithms:
Minimum spanning tree algorithms are used to find the most cost-effective way to connect all the vertices in a graph. The two main algorithms for finding MSTs are:
a) Kruskal's Algorithm: Named after the Czech mathematician Josef Kruskal, this algorithm builds an MST by iteratively adding the smallest-weighted edges that do not create cycles.
b) Prim's Algorithm: Named after the American mathematician Robert C. Prim, this algorithm grows an MST from an arbitrary starting vertex by greedily adding edges with the smallest weights.
We will dive into the intricacies of these algorithms, understand their time complexities, and discuss real-world applications.
Whether you're a novice seeking to expand your knowledge or an experienced enthusiast looking to refine your graph algorithm skills, this tutorial is perfect for you! Mr. Abdi Adem will present the concepts in a clear and engaging manner, making complex graph algorithms approachable for all attendees. 💪💡
Get ready to embark on a captivating journey as we explore the world of graphs and elevate your algorithmic thinking to new heights!
We eagerly anticipate your active participation in this enriching tutorial!
For any inquiries or further information, please contact us on Telegram @etcpc_support.
#ETCPC #GraphAlgorithms #GraphTheory #ShortestPathAlgorithms #MinimumSpanningTrees #KruskalsAlgorithm #PrimsAlgorithm #CodingTutorial #AlgorithmExpert #ProblemSolving #CodingEnthusiasts
|ETCPC
📢 Calling all coding enthusiasts! 🖥️💻
📢 Join us for an informative tutorial on Dynamic Programming! 🚀🔢
🗓️ Date: Sun, 20 Aug, 2023
⏰ Time: 7:30 PM [1:30 Evening LT]
🎙️ Speaker: Mr. Yohannes Melese, an experienced programmer and Dynamic Programming expert.
🔥 Don't miss this incredible opportunity to dive into the world of Dynamic Programming and enhance your problem-solving skills! 💪💡
In this tutorial, we will explore the power of Dynamic Programming and its applications in solving complex problems efficiently. The session will cover the following topics:
1. Fibonacci Numbers:
Discover the beauty of Fibonacci sequences and learn how Dynamic Programming can be used to compute Fibonacci numbers efficiently. Unravel the secrets behind this famous sequence and witness the magic of optimized calculations. 🌸🔢
1. Longest Common Subsequence (LCS):
Delve into the realm of sequence matching and unravel the mysteries of finding the Longest Common Subsequence. Explore how Dynamic Programming can be applied to efficiently solve this problem, unlocking the potential for various applications such as DNA sequence analysis and text comparison. 🧬✨
1. Knapsack Problem:
Embark on a journey of optimization as we tackle the Knapsack Problem. Learn how Dynamic Programming techniques can help us maximize value while considering limited capacity. Discover strategies to efficiently solve this classic problem, making informed decisions on item selection and resource allocation. 🎒💡
1. Matrix Chain Multiplication:
Enter the realm of matrices and explore the fascinating Matrix Chain Multiplication problem. Learn how Dynamic Programming can be employed to determine the optimal order of multiplication, minimizing computational complexity and maximizing efficiency. 🧮⚙️
1. Dynamic Programming Optimization:
Dive into the world of optimization techniques within Dynamic Programming. Explore strategies like memoization, tabulation, and bottom-up approaches to optimize your solutions further. Unleash the true potential of Dynamic Programming by mastering these optimization techniques. 🚀🔝
Whether you're a beginner looking to expand your coding knowledge or an experienced programmer aiming to sharpen your algorithmic thinking, this tutorial is perfect for you! Mr. Yohannes Melese will present the concepts in a clear and engaging manner, ensuring that all attendees can grasp the material easily. 🎓💻
Get ready to unlock the power of Dynamic Programming and witness how it revolutionizes problem-solving.
We eagerly anticipate your active participation in this enriching tutorial!
For any inquiries or further information, please contact us on Telegram @etcpc_support.
#ETCPC #DynamicProgramming #ProblemSolving #CodingTutorial #AlgorithmicThinking #CodingEnthusiasts
📢 Calling all coding enthusiasts! 🖥️💻
📢 Join us for an informative tutorial on Dynamic Programming! 🚀🔢
🗓️ Date: Sun, 20 Aug, 2023
⏰ Time: 7:30 PM [1:30 Evening LT]
🎙️ Speaker: Mr. Yohannes Melese, an experienced programmer and Dynamic Programming expert.
🔥 Don't miss this incredible opportunity to dive into the world of Dynamic Programming and enhance your problem-solving skills! 💪💡
In this tutorial, we will explore the power of Dynamic Programming and its applications in solving complex problems efficiently. The session will cover the following topics:
1. Fibonacci Numbers:
Discover the beauty of Fibonacci sequences and learn how Dynamic Programming can be used to compute Fibonacci numbers efficiently. Unravel the secrets behind this famous sequence and witness the magic of optimized calculations. 🌸🔢
1. Longest Common Subsequence (LCS):
Delve into the realm of sequence matching and unravel the mysteries of finding the Longest Common Subsequence. Explore how Dynamic Programming can be applied to efficiently solve this problem, unlocking the potential for various applications such as DNA sequence analysis and text comparison. 🧬✨
1. Knapsack Problem:
Embark on a journey of optimization as we tackle the Knapsack Problem. Learn how Dynamic Programming techniques can help us maximize value while considering limited capacity. Discover strategies to efficiently solve this classic problem, making informed decisions on item selection and resource allocation. 🎒💡
1. Matrix Chain Multiplication:
Enter the realm of matrices and explore the fascinating Matrix Chain Multiplication problem. Learn how Dynamic Programming can be employed to determine the optimal order of multiplication, minimizing computational complexity and maximizing efficiency. 🧮⚙️
1. Dynamic Programming Optimization:
Dive into the world of optimization techniques within Dynamic Programming. Explore strategies like memoization, tabulation, and bottom-up approaches to optimize your solutions further. Unleash the true potential of Dynamic Programming by mastering these optimization techniques. 🚀🔝
Whether you're a beginner looking to expand your coding knowledge or an experienced programmer aiming to sharpen your algorithmic thinking, this tutorial is perfect for you! Mr. Yohannes Melese will present the concepts in a clear and engaging manner, ensuring that all attendees can grasp the material easily. 🎓💻
Get ready to unlock the power of Dynamic Programming and witness how it revolutionizes problem-solving.
We eagerly anticipate your active participation in this enriching tutorial!
For any inquiries or further information, please contact us on Telegram @etcpc_support.
#ETCPC #DynamicProgramming #ProblemSolving #CodingTutorial #AlgorithmicThinking #CodingEnthusiasts
|ETCPC
📣 Attention all coding enthusiasts! Join us for an exciting tutorial on Greedy Algorithms! 🌟💻
🗓️ Date: Sunday, 27 Aug 2023
⏰ Time: 7:30 PM [1:30 Evening LT]
🎙️ Speaker: Mr. Yohannes Melese, an experienced programmer and expert in Greedy Algorithms.
🔥 Don't miss this incredible opportunity to explore the world of Greedy Algorithms and enhance your problem-solving skills! 💪💡
In this tutorial, we will delve into the power of Greedy Algorithms and their applications in solving optimization problems. The session will cover the following topics:
1. Activity Selection Problem:
Discover the elegance of the Activity Selection Problem and how Greedy Algorithms can efficiently schedule activities for maximum productivity. Learn how to make optimal choices at each step, resulting in an overall optimal solution. 📅⏱️
1. Fractional Knapsack Problem:
Embark on a journey of optimization as we explore the Fractional Knapsack Problem. Discover how Greedy Algorithms can help us maximize value while considering item weights and limited capacity. Learn the strategy of selecting items with the highest value-to-weight ratio to achieve an optimal solution. 🎒💰
1. Huffman Encoding:
Enter the realm of data compression as we dive into Huffman Encoding. Explore how Greedy Algorithms can be used to construct efficient prefix codes, minimizing the total encoded length. Uncover the secrets of optimal encoding and decoding, resulting in space-efficient data representation. 📚💾
Whether you're a beginner or an experienced programmer, this tutorial is designed to enhance your problem-solving skills. Yohannes Melese will present the concepts in a clear and engaging manner, making it easy for all attendees to grasp the material. 🎓💡
Get ready to unlock the power of Greedy Algorithms and witness how they revolutionize optimization problem-solving.
We eagerly anticipate your active participation in this enriching tutorial!
For any inquiries or further information, please contact us on Telegram @etcpc_support.
#ETCPC #GreedyAlgorithms #ProblemSolving #CodingTutorial #Optimization #CodingEnthusiasts
📣 Attention all coding enthusiasts! Join us for an exciting tutorial on Greedy Algorithms! 🌟💻
🗓️ Date: Sunday, 27 Aug 2023
⏰ Time: 7:30 PM [1:30 Evening LT]
🎙️ Speaker: Mr. Yohannes Melese, an experienced programmer and expert in Greedy Algorithms.
🔥 Don't miss this incredible opportunity to explore the world of Greedy Algorithms and enhance your problem-solving skills! 💪💡
In this tutorial, we will delve into the power of Greedy Algorithms and their applications in solving optimization problems. The session will cover the following topics:
1. Activity Selection Problem:
Discover the elegance of the Activity Selection Problem and how Greedy Algorithms can efficiently schedule activities for maximum productivity. Learn how to make optimal choices at each step, resulting in an overall optimal solution. 📅⏱️
1. Fractional Knapsack Problem:
Embark on a journey of optimization as we explore the Fractional Knapsack Problem. Discover how Greedy Algorithms can help us maximize value while considering item weights and limited capacity. Learn the strategy of selecting items with the highest value-to-weight ratio to achieve an optimal solution. 🎒💰
1. Huffman Encoding:
Enter the realm of data compression as we dive into Huffman Encoding. Explore how Greedy Algorithms can be used to construct efficient prefix codes, minimizing the total encoded length. Uncover the secrets of optimal encoding and decoding, resulting in space-efficient data representation. 📚💾
Whether you're a beginner or an experienced programmer, this tutorial is designed to enhance your problem-solving skills. Yohannes Melese will present the concepts in a clear and engaging manner, making it easy for all attendees to grasp the material. 🎓💡
Get ready to unlock the power of Greedy Algorithms and witness how they revolutionize optimization problem-solving.
We eagerly anticipate your active participation in this enriching tutorial!
For any inquiries or further information, please contact us on Telegram @etcpc_support.
#ETCPC #GreedyAlgorithms #ProblemSolving #CodingTutorial #Optimization #CodingEnthusiasts
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