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Introduction to data structure and algorithm analysis
| Institution | Jomo Kenyatta University of Science and Technology |
| Course | Information Technol... |
| Year | 3rd Year |
| Semester | Unknown |
| Posted By | Jeff Odhiambo |
| File Type | |
| Pages | 638 Pages |
| File Size | 2.03 MB |
| Views | 1758 |
| Downloads | 0 |
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Description
Data structures and algorithm analysis are fundamental concepts in computer science that focus on organizing and manipulating data efficiently. Data structures are specialized formats used to store, organize, and manage data, such as arrays, linked lists, stacks, queues, trees, and graphs. Algorithms, on the other hand, are step-by-step procedures or formulas for solving problems and performing computations. Algorithm analysis involves evaluating the efficiency of algorithms, typically in terms of time and space complexity, using Big O notation to assess how algorithms scale with increasing input size. Understanding these concepts is essential for optimizing software performance and solving complex computational problems effectively.
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Network Services and Applications
On completion of this course, you will be able to:
Understand FTP fundamentals.
Understand TFTP fundamentals.
Understand DHCP fundamentals.
Understand Telnet fundamentals.
Understand HTTP fundamentals.
Understand DNS fundamentals.
Understand NTP fundamentals.
23 Pages
162 Views
0 Downloads
811.5 KB
WAN Technologies
On completion of this course, you will be able to:
Understand the basic concepts and development history of WANs.
Understand PPP and PPPoE implementations.
Master basic PPP and PPPoE configurations.
Understand basic MPLS/SR concepts.
29 Pages
128 Views
0 Downloads
1.04 MB
Network Management and O&M
On completion of this course, you will be able to:
Understand basic concepts of network management and O&M.
Master common network management and O&M methods.
Describe basic functions of network management and O&M.
Understand the fundamentals of SNMP.
Understand Huawei iMaster NCE and related technologies.
19 Pages
196 Views
0 Downloads
646.48 KB
SDN and NFV Overview
On completion of this course, you will be able to:
Describe the development of SDN and NFV.
Understand basic principles of OpenFlow.
Understand Huawei SDN solution.
Understand the standard NFV architecture.
Understand Huawei NFV solution.
29 Pages
152 Views
0 Downloads
1.35 MB
Network Programmability and Automation
On completion of this course, you will be able to:
Describe the difficulties of conventional network O&M.
Understand the implementation of network automation.
Understand the classification of programming languages.
Describe the Python code style.
Describe the basic usage of Python telnetlib
17 Pages
151 Views
0 Downloads
471.79 KB
Typical Campus Network Architectures and Practices
On completion of this course, you will be able to:
Understand the definition of campus networks.
Understand the typical networking architectures of campus networks.
Master the planning and design methods of small campus networks.
Master the deployment and implementation methods of small campus networks.
Understand the small campus network O&M concepts.
Understand the small campus network optimization concepts.
Independently complete a campus network project.
25 Pages
1321 Views
0 Downloads
809.84 KB
BIT 2317: COMPUTER SECURITY
Institution: Jomo Kenyatta University of Science and Technology
Year: 2016/2017
Semester: 4th Year, 1st Semester (4.1)
SMA 2101: CALCULUS I
To understand the word function, we consider the following scenario and definitions. For example, the growth of a sidling is an instance of a functional relation, since the growth may be affected by variations in temperature, moisture, sunlight, etc. If all these factors remain constant, then the growth is a function of time.
117 Pages
1367 Views
0 Downloads
592.87 KB
BIT 2317: COMPUTER SYSTEM SECURITY
Institution: Jomo Kenyatta University of Science and Technology
Year: 2016/2017
Semester: 3rd Year, 1st Semester (3.1)
BIT 2317: COMPUTER SYSTEMS SECURITY
Institution: Jomo Kenyatta University of Science and Technology
Year: 2016/2017
Semester: 4th Year, 2nd Semester (4.2)