Tools and Software

Discover tools and software to help you with your FPGA design.

Browse through the development tools available for building software and creating FPGA designs for Intel® SoC FPGAs.

ARM* DS-5*

ARM* Development Studio 5* (DS-5) Intel® SoC FPGA Edition

Every SoC FPGA-based embedded system design is unique due to the customized logic programmed into the FPGA. To perform system debugging effectively, the ARM* Development Studio 5* (DS-5*) Intel® SoC FPGA Edition toolkit dynamically adapts to your configuration. It unifies all software debugging information from the CPU and FPGA domains and presents them in an organized fashion within the standard DS-5 user interface. Intel and ARM developed the toolkit to give you an unprecedented level of FPGA-visibility and control that delivers substantial productivity gains.

SoC EDS

Intel® SoC FPGA Embedded Development Suite

The Intel® SoC FPGA Embedded Development Suite (SoC EDS) is a comprehensive tool suite for embedded software development for Intel® SoC FPGAs. It contains development tools, utility programs, run-time software, and application examples to expedite firmware and application software for SoC FPGA embedded systems. With SoC EDS, you get all the tools you need to work more productively, improve your software quality, and ultimately get to market faster.

Intel® Quartus® Prime software

The Intel® Quartus® Prime software provides everything you need to design with Intel® SoC FPGAs. It is a complete development package that comes with a user-friendly GUI and technology to help you bring your ideas into reality. The Intel® Quartus® Prime software environment includes a host of tools and features to enhance productivity, many of which are the first in the industry.

Intel® FPGA SDK for OpenCL™1

The Intel® FPGA SDK for Open Computing Language (OpenCL™) allows a user to abstract away the traditional hardware FPGA development flow for a much faster and higher-level software development flow. Emulate your OpenCL™ C accelerator code on an x86-based host in seconds by getting a detailed optimization report with specific algorithm pipeline dependency information. You can also prototype the accelerator kernel on a virtual FPGA fabric in minutes and push the longer compile time to the end when you are pleased with your kernel code results.

Virtual Platform

Virtual Platform for Industry-Leading SoC FPGAs

Intel, in collaboration with Mentor Graphics, provides embedded software developers access to virtual platforms. These platforms support Intel's entire SoC FPGA portfolio, including the Intel® Arria® 10 SoC, the industry’s only 20 nm SoC FPGA, and the third-generation 14 nm Intel® Stratix® 10 SoCs with a 64-bit quad-core ARM* Cortex*-A53 processor. The virtual platforms, built with Mentor Graphics* Vista tools, are pre-built, fully functional simulations models of the SoC FPGA’s ARM* processor subsystems.

What Is a Virtual Platform?

The SoC FPGA virtual platforms comprise an instruction set simulator CPU model plus peripheral device models, delivered as a stand-alone binary executable. You download, install, and run the executable with a pre-built Linux image on a host PC. Additionally, you can link a model of custom functions in the FPGA fabric to the virtual platform for system-level simulation. The virtual platform supports both bare-metal and operating system environments, and allows software execution and debug on multi-core configurations of Intel's SoC FPGAs. You can use any GDB-compatible debug environment, including ARM Development Studio 5 Intel SoC FPGA Edition toolkit for comprehensive debugging of bare metal, Linux*, and other OS applications.

Basing the SoC FPGA virtual platform on the Mentor Graphics Vista tool suite provides users a seamless migration to Mentor Graphics’ Vista Virtual Prototyping solutions. The Vista Virtual Prototyping tool suite provides additional insight into hardware/software interaction or non-intrusive profiling and analysis. It also extends the SoC FPGA virtual platform, including timing-approximate or timing-accurate CPU models.  

When Do I Use a Virtual Platform?

Software developers can use the Intel® Stratix® 10 SoC virtual platform to start embedded software development and debug for the integrated quad-core ARM* Cortex*-A53 processor subsystem well before first silicon availability. Additionally, SoC FPGA virtual platforms simplify embedded software development and reduce the need for expensive hardware by enabling large development teams to perform application development and software regression testing in a virtual environment modeling an Intel® SoC FPGA.

Next Steps

For more information on the Intel® SoC FPGA virtual platform, refer to the following links:

To download the latest documentation for the Intel® Arria® 10 SoC Virtual Platform, refer to the following link:

To download the latest documentation for the Intel® Stratix® 10 SoC Virtual Platform, refer to the following link:

For support questions regarding the SoC FPGA virtual platform go to the Forums page on Rocketboards.org:

Open-source and Linux for SoC FPGAs

Intel Enables Linux on SoC FPGAs and the Nios® II Processor

Intel contributes to the Linux community to enable our SoC FPGA and Nios® II processor customers via the community portal RocketBoards.org. We ensure the availability of Linux* kernels, U-boot, and the meta-Intel layers for Angstrom and the Yocto Project for the Intel® SoC FPGAs. Intel contributes to the open-source community to enable the Linux* kernel to run on its SoC FPGA and Nios® II processor architectures. Contributions include improvements to the general kernel as well as new SoC FPGA and Nios® II processor-specific functions, such as the FPGA manager framework. By nature, these improvements benefit everyone in the Linux* community.

Industry-Leading Linux* Support

Intel keeps up with the Linux community by upgrading to the latest stable kernel on kernel.org. Additionally, Intel supports a modern release strategy by updating public git trees every two weeks on RocketBoards.org.

Upstreaming

Intel's approach to Linux for SoC FPGAs and the Nios® II processor is centered on upstreaming fixes and improvements of the SoC FPGA and Nios II processor code primarily to kernel.org and DENX.de. Consequently, Intel assembled a Linux team with upstreaming as a key strategy.

Delivery

In addition to providing the latest stable kernel for the SoC FPGA architecture, Intel also supports U-Boot, LTSI kernel with and without PREEMPT_RT, and a meta-Intel layer. This code runs (and was tested on) the Yocto-compatible, Angstrom distribution. You can obtain the code via the public code repositories on RocketBoards.org, which is a “one-stop-shop” for Linux developers working on Intel® SoC FPGAs.

RocketBoards.org code repositories include:

  • Latest stable kernel
  • LTSI kernel
  • LTSI kernel with PREEMPT_RT
  • U-Boot now mainlined
  • Meta-Intel layer for Angstrom Distribution

Intel® SoC FPGAs Linux Ongoing Innovation

Intel contributes to the Linux kernel, kernel.org. Specifically, Intel innovates by augmenting the Linux kernel with new features, such as an FPGA manager framework for programming and reconfiguring the FPGA. Furthermore, Intel is enhancing the kernel to better handle memory map reconfiguration via dynamic device trees.

Additional Resources

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Architecture Matters

Building a product with a strong architecture is key to ensuring that your system design meets its performance requirements now and into the future.

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Resource Center

The Intel® SoC FPGAs Resource Center provides everything you need to get started with Intel® SoC FPGAs including reference designs, application reports, how-to videos, white papers, training and more.

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Intel® SoC FPGAs

Intel SoC FPGAs integrate an ARM*-based hard processor system (HPS) consisting of processor, peripherals, and memory interfaces with the FPGA fabric using a high-bandwidth interconnect backbone.

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Ecosystem


Our ecosystem partners and the Intel® SoC FPGA user community provide a wide range of options to meet your SoC FPGA development needs.

Product and Performance Information

1

OpenCL™ and the OpenCL logo are trademarks of Apple Inc. used by permission by Khronos.