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Syllabus
- Introduction
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FPGA Security and Security Requirements 4 min
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Confidentiality, Authenticity and Integrity 8 min
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Standard Security Algorithms supported in PolarFire devices
- Layered Security Approach
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Overview 1 min
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Secure Hardware 3 min
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Design Security 3 min
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Data Security 3 min
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Summary 1 min
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Differential Power Analysis (DPA)
- PolarFire Security Architecture
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Overview 1 min
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System Controller 1 min
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SRAM PUF 1 min
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Non-volatile memory 1 min
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Security Segments 2 min
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Anti-Tamper Features 2 min
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User Crypto Processor 2 min
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Knowledge Check
- Bitstream
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Bitstream Security 5 min
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Initial Key Loading 5 min
- Supply Chain Assurance
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Supply Chain Assurance 5 min
- Anti - Tamper Features
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Anti Tamper Features 7 min
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Tamper Responses 2 min
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Zeroization 2 min
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Knowledge Check
- Your Feedback
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We need Your Feedback
Introduction to PolarFire® FPGA Security
This class explains the basic tenets of security, and specifically the design security and data security features of PolarFire® FPGAs. (Nov 2022)
Today's applications are expected to meet demanding functional requirements and must do so securely by protecting both application design and critical information. Protecting design and information calls for secure hardware, and both design and data security. Microchip's PolarFire® FPGAs provide a solid foundation that meet all application security needs. This class explains the basic tenets of security, and specifically the design security and data security features of PolarFire FPGAs. At the end of this class, you will be able to confidently identify the security features that match your needs.