第一代Zynq全可编程SoC中的安全解决方案

S. Trimberger
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引用次数: 0

摘要

fpga已经从一个简单的逻辑替代品发展到完全可编程的SoC,具有多核CPU子系统,广泛的外设,数十万个可编程逻辑门和高速千兆收发器。随着底层硬件的复杂性增加,内置的应用程序和它们处理的数据的价值也在增加。传统的FPGA比特流安全性已经得到增强,以满足这些更高的安全性要求。本文概述了Zynq全可编程SoC的安全特性。安全引导过程包括非对称和对称身份验证以及对称加密,以在编程期间保护软件和可编程硬件。在运行期间,硬件可以禁用测试端口,监控芯片上的电源和温度,并检测对配置数据的篡改。ARM Trust Zone通过AXI总线集成到处理器和可编程逻辑子系统中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Security solutions in the first-generation Zynq All-Programmable SoC
FPGAs have grown from a simple logic replacement to fully-programmable SoC, with multi-core CPU subsystems, a broad spectrum of peripherals, hundreds of thousands of gates of programmable logic and high-speed multi-gigabit transceivers. As the complexity of the underlying hardware has grown, so has the value of the applications built in them and the data handled by them. Traditional FPGA bitstream security has been enhanced to address these greater security requirements. This paper presents an overview of the security features of the Zynq All-Programmable SoC. The secure boot process includes asymmetric and symmetric authentication as well as symmetric encryption to protect software and programmable hardware during programming. During operation the hardware can disable test ports, monitor on-chip power and temperature and detect tampering with configuration data. ARM Trust Zone is integrated through the AXI busses into both the processor and the programmable logic subsystems.
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