Thought Leadership

Part 1: The 2014 Wilson Research Group Functional Verification Study

FPGA Design Trends

In my previous blog, I introduced the 2014 Wilson Research Group Functional Verification Study (click here). The objective of my previous blog was to provide an overview on our large, worldwide industry study. The key findings from this study will be presented in a set of upcoming blogs. In this blog, I present trends related to various aspects of FPGA design to illustrate growing design complexity.

Let’s begin by examining embedded processor trends targeted at a general FPGA implementation. Our 2014 study found that 56% of all FPGA designs contained one or more embedded processors, as shown in Figure 1. Although we did not see an overall growth in the number of FPGAs containing one or more embedded processors between 2012 and 2014, we did see an increase in the number of FPGA projects creating designs containing more than one embedded processor.

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Figure 1. Number of embedded processors in FPGA trends

SoC class designs (i.e., designs containing embedded processors) add a new layer of verification complexity to the verification process that did not exist with traditional non-SoC class designs due to hardware and software interactions, new coherency architectures, and the emergence of complex network-on-a-chip interconnect.

In addition to embedded processors targeted at general FPGA class of designs, there has been a recent emergence of specific programmable SoC FPGA implementations, such as: Xilinx’s Zynq, Altera’s Arria/Cydone, and Microsemi’s SmarFusion. Figure 2 shows the adoption trends for these programmable SoC FPGAs, which you can see grew by over 93 percent between 2012 and 2014. Keep in mind that this trend data does not represent volume production—it represents the number of FPGA projects that are creating designs targeted at a programmable SoC class of FPGA.

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Figure 2. Type of FPGA implementation trends

As the industry moves to SoC class designs, regardless of targeted FPGA implementation, FPGA projects are starting to increase their adoption of industry standard on-chip bus protocols—versus proprietary bus protocols. Figure 3 shows the current adoption of AMBA and other on-chip bus protocols for FPGA designs as identified by our new study. Note, the reason we are not showing trends here is that the 2012 study did not separate out the various AMBA protocols, which is something we decided to do for our 2014 study. Hence, we cannot do an apples-to-apples comparison between 2012 and 2014 for FPGA on-chip bus protocol adoption.

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Figure 3. FPGA on-chip bus protocol adoption

Another aspect of SoC class design is the emergence of IP-based design practices, which is fundamental for improving design productivity. Figure 4 shows FPGA design composition trends—and we see that there has been a declined in new logic created by FPGA project teams. At the same time we see an increase in the adoption of both internally developed and externally acquired IP.

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Figure 4. FPGA design composition trends

In my next blog (click here), I’ll focus on verification effort trends related to FPGA designs.

Quick links to the 2014 Wilson Research Group Study results

Harry Foster

Harry Foster is Chief Scientist Verification for the Design Verification Technology Division of Mentor, A Siemens Business; and is the Co-Founder and Executive Editor for the Verification Academy. In addition, Harry is serving as the 2021 Design Automation Conference General Chair. He holds multiple patents in verification and has co-authored six books on verification. Harry was the 2006 recipient of the Accellera Technical Excellence Award for his contributions to developing industry standards, and was the original creator of the Accellera Open Verification Library (OVL) standard.

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This article first appeared on the Siemens Digital Industries Software blog at https://blogs.stage.sw.siemens.com/verificationhorizons/2015/02/08/part-1-the-2014-wilson-research-group-functional-verification-study/