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Updated in [April 29th, 2023]
What does this course tell?
(Please note that the following overview content is from the original platform)
In this course, you will learn how to use .NET 6 to protect your data to satisfy confidentiality, integrity, non-repudiation, and authentication.
As a software developer, you have a duty to your employer to secure and protect their data. In this course, Cryptography in .NET 6, you will learn how to use the .NET Class Libraries to protect your data to satisfy confidentiality, integrity, non-repudiation, and authentication in your applications. First, you will explore random numbers and understand why they are so important to cryptography. Next, you will look at symmetric and asymmetric encryption, and see how they can work together to overcome each of their downsides. Then, you will explore hashing and authenticated hashing and see how they help satisfy integrity and authentication requirements. Finally, you will learn about digital signatures and how they satisfy the non-repudiation requirements. When you are finished with this course, you will have the knowledge of building up a working sample application that simulates a 2-way chat system between recipients. You will incorporate all the building blocks covered in the course to create a hybrid encryption-based example that shows you how everything works together when building larger protocols.
We consider the value of this course from multiple aspects, and finally summarize it for you from three aspects: personal skills, career development, and further study:
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Cryptography in .NET 6 is a course designed to help software developers understand how to use the .NET Class Libraries to protect their data and satisfy confidentiality, integrity, non-repudiation, and authentication in their applications. In this course, you will learn about random numbers, symmetric and asymmetric encryption, hashing, authenticated hashing, digital signatures, and how to build a working sample application that simulates a 2-way chat system between recipients.
Possible Development Directions:
By the end of this course, you will have the knowledge to build a hybrid encryption-based example that shows you how all the building blocks work together when building larger protocols. You will also be able to apply the concepts you have learned to create secure applications that protect data and satisfy the requirements of confidentiality, integrity, non-repudiation, and authentication.
Related Learning Suggestions:
To further your understanding of cryptography, you may want to explore other topics such as public key infrastructure, digital certificates, and key management. Additionally, you may want to look into other .NET Class Libraries that can help you secure your applications, such as the Windows Cryptography Library. Finally, you may want to look into other encryption algorithms and protocols to further your understanding of cryptography.
[Applications]
Upon completion of this course, Cryptography in .NET 6, students will have the knowledge to build a working sample application that simulates a 2-way chat system between recipients. Students will be able to incorporate the building blocks covered in the course to create a hybrid encryption-based example that shows how everything works together when building larger protocols. Additionally, students will have the skills to use the .NET Class Libraries to protect data to satisfy confidentiality, integrity, non-repudiation, and authentication in their applications.
[Career Paths]
1. Cryptography Engineer: Cryptography engineers are responsible for designing, developing, and implementing cryptographic systems to protect data. They must have a deep understanding of cryptography and its applications, as well as the ability to develop secure systems. As the demand for secure data increases, the need for cryptography engineers is expected to grow.
2. Security Analyst: Security analysts are responsible for identifying and mitigating security risks. They must have a deep understanding of cryptography and its applications, as well as the ability to analyze and assess security threats. As the demand for secure data increases, the need for security analysts is expected to grow.
3. Cryptography Researcher: Cryptography researchers are responsible for researching and developing new cryptographic algorithms and protocols. They must have a deep understanding of cryptography and its applications, as well as the ability to develop new cryptographic solutions. As the demand for secure data increases, the need for cryptography researchers is expected to grow.
4. Cryptography Consultant: Cryptography consultants are responsible for providing advice and guidance on the implementation of cryptographic systems. They must have a deep understanding of cryptography and its applications, as well as the ability to advise on the best cryptographic solutions. As the demand for secure data increases, the need for cryptography consultants is expected to grow.