About this Course
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자막: 영어

귀하가 습득할 기술

Montgomery Modular MultiplicationSide-Channel AttackHardware DesignCryptographic Hardware

다음의 4/5개 강좌

100% 온라인

지금 바로 시작해 나만의 일정에 따라 학습을 진행하세요.

유동적 마감일

일정에 따라 마감일을 재설정합니다.

완료하는 데 약 14시간 필요


자막: 영어

강의 계획 - 이 강좌에서 배울 내용

완료하는 데 2시간 필요

Digital System Design: Basics and Vulnerabilities

To learn hardware security, we first need to learn how hardware is designed. This week's lectures give an overview of the basics on digital logic design, which is a semester-long course for freshmen and sophomores in most schools. By no means we can cover all the materials. What we provide here is the minimal set that you need to understand about digital design for you to move on to learn hardware security.

7 videos (Total 63 min), 2 readings, 1 quiz
7개의 동영상
Digital System Specification10m
Digital System Implementation9m
Function Simplification and Don't Care Conditions10m
Sequential System Specification8m
Sequential System Implementation7m
Vulnerabilities in Digital Logic Design12m
2개의 읽기 자료
Week 1 Overview10m
1개 연습문제
완료하는 데 2시간 필요

Design Intellectual Property Protection

As a hardware designer or a company, you want to protect your design intellectual property (IP) from being misused (by users, competitors, silicon foundry, etc). We will cover how you can build such protection during the design process which can be used as an evidence to support law enforcement protection. You are expected to understand the basic digital logic design knowledge covered in week 1. We will use several NP-hard problems as examples to illustrate the concepts of IP protection. These problems (graph vertex coloring problem and graph partitioning problem) will be introduced in the lecture and you do not need to know the concept of NP-complete.

6 videos (Total 78 min), 1 reading, 1 quiz
6개의 동영상
Watermarking Basics8m
Watermarking Examples12m
Good Watermarks15m
Hardware Metering13m
1개의 읽기 자료
Week 2 Overview10m
1개 연습문제
완료하는 데 2시간 필요

Physical Attacks and Modular Exponentiation

This week you will learn the fundamentals about physical attacks: what are physical attacks, who are the attackers, what are their motivations, how can they attack your system (from hardware), what kind of skills/tools/equipment they should need to break your system, etc. You will also see what are the available countermeasures. You will learn how system security level and tamper resistance level are defined and some general guidelines on how to make your system secure by design. In the second part, you will learn a useful mathematical operation called modular exponentiation. It is widely used in modern cryptography but it is very computational expensive. You will see how security vulnerability might be introduced during the implementation of this operation and thus make the mathematically sound cryptographic primitives breakable. This will also be important for you to learn side channel attack next week.

7 videos (Total 80 min), 1 reading, 1 quiz
7개의 동영상
Physical Attacks and Countermeasures 13m
Building Secure Systems 10m
Modular Exponentiation (ME) Basics 6m
ME in Cryptography8m
ME Implementation and Vulnerability14m
Montgomery Reduction11m
1개의 읽기 자료
Week 3 Overview10m
1개 연습문제
완료하는 데 2시간 필요

Side Channel Attacks and Countermeasures

This week, we focus on side channel attacks (SCA). We will study in-depth the following SCAs: cache attacks, power analysis, timing attacks, scan chain attacks. We will also learn the available countermeasures from software, hardware, and algorithm design.

5 videos (Total 86 min), 1 reading, 1 quiz
5개의 동영상
Memory Vulnerabilities and Cache Attacks19m
Power Analysis16m
More Attacks and Countermeasures13m
Modified Modular Exponentiation22m
1개의 읽기 자료
Week 4 Overview10m
1개 연습문제
60개의 리뷰Chevron Right


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Hardware Security의 최상위 리뷰

대학: ARFeb 11th 2017

It was a very nice course. Lots of exposure was given to mathematical ways of analyzing threat.

대학: MNJun 5th 2017

I found this course very informative, it expanded to me the landscape of cyber security.



Gang Qu

Associate Professor
Electrical and Computer Engineering

메릴랜드 대학교 칼리지파크 캠퍼스 정보

The University of Maryland is the state's flagship university and one of the nation's preeminent public research universities. A global leader in research, entrepreneurship and innovation, the university is home to more than 37,000 students, 9,000 faculty and staff, and 250 academic programs. Its faculty includes three Nobel laureates, three Pulitzer Prize winners, 47 members of the national academies and scores of Fulbright scholars. The institution has a $1.8 billion operating budget, secures $500 million annually in external research funding and recently completed a $1 billion fundraising campaign. ...

사이버 보안 전문 분야 정보

The Cybersecurity Specialization covers the fundamental concepts underlying the construction of secure systems, from the hardware to the software to the human-computer interface, with the use of cryptography to secure interactions. These concepts are illustrated with examples drawn from modern practice, and augmented with hands-on exercises involving relevant tools and techniques. Successful participants will develop a way of thinking that is security-oriented, better understanding how to think about adversaries and how to build systems that defend against them....
사이버 보안

자주 묻는 질문

  • 강좌에 등록하면 바로 모든 비디오, 테스트 및 프로그래밍 과제(해당하는 경우)에 접근할 수 있습니다. 상호 첨삭 과제는 이 세션이 시작된 경우에만 제출하고 검토할 수 있습니다. 강좌를 구매하지 않고 살펴보기만 하면 특정 과제에 접근하지 못할 수 있습니다.

  • 강좌를 등록하면 전문 분야의 모든 강좌에 접근할 수 있고 강좌를 완료하면 수료증을 취득할 수 있습니다. 전자 수료증이 성취도 페이지에 추가되며 해당 페이지에서 수료증을 인쇄하거나 LinkedIn 프로필에 수료증을 추가할 수 있습니다. 강좌 내용만 읽고 살펴보려면 해당 강좌를 무료로 청강할 수 있습니다.

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