Category Archives: Xcell SW Journal

A Recipe for Embedded Systems

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One thing that is always important for engineers, is the need for us to deliver our projects on quality, schedule and budget. When it comes to developing embedded systems there are a number of lessons, learnt by embedded system developers over the years which can be used to ensure your embedded system achieves these. Let us explore some of the most important lessons learned in developing these.

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SDSoC Accelerate your AES Encryption

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The Advanced Encryption Standard (AES) has become an increasingly popular cryptographic specification in many applications, including those within embedded systems. Since the National Institute of Standards and Technology (NIST) selected the speci- cation as a standard in 2002, developers of processor, microcontroller, FPGA and SoC applications have turned to AES to secure data entering, leaving and residing within their systems. The algorithm is described very efficiently at a higher abstraction level, as is used in traditional software development; but because of the operations involved, it is most efficiently implemented in an FPGA. Indeed, developers can even get some operations “for free” in the routing. For those reasons, AES is an excellent example of how developers can benefit from the Xilinx® SDSoC™ development environment by describing the algorithm in C and then accelerating the implementation in hardware. In this article we will do just that, first gaining familiarity with the AES algorithm and then implementing AES256 (256-bit key length) on the processing system (PS) side of a Xilinx Zynq®-7000 All Programmable SoC to establish a baseline of software performance before accelerating it in the onchip programmable logic (PL). To gain a thorough understanding of the benefits to be gained, we will perform the steps in all three operating systems the
SDSoC environment supports: Linux, FreeRTOS and BareMetal

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SDSoC Step by Step Example

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Until the release of the Xilinx® SDSoC™ development environment, the standard SoC design methodology involved a mix of disparate engineering skills. Typically, once the system architect had generated a system architecture and subsystem segmentation from the requirement, the solution would be split between functions implemented in hardware (the logic side) and functions implemented in software (the processor side). FPGA and software engineers would separately develop their respective functions and then combine and test them in accordance with the integration test plan. This approach worked well for years, but the advent of more-capable SoCs, such as the Xilinx Zynq®-7000 All Programmable SoC and the upcoming Xilinx Zynq UltraScale™ MPSoC, mandated a new design methodology.

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