The Embedded Frontier cover art

The Embedded Frontier

The Embedded Frontier

Written by: Jacob Beningo
Listen for free

About this listen

The Embedded Frontier, hosted by embedded systems expert Jacob Beningo, is a cutting-edge podcast dedicated to exploring the rapidly evolving world of embedded software and embedded system trends. Each episode delves into the latest technological advancements, industry standards, and innovative strategies that are shaping the future of embedded systems. Jacob Beningo, with his deep industry knowledge and experience, guides listeners through complex topics, making them accessible for both seasoned developers and newcomers alike.

This podcast serves as an educational platform, offering insights, interviews, and discussions with leading experts and innovators in the field. Listeners can expect to gain valuable knowledge on how to modernize their embedded software, implement best practices, and stay ahead in this dynamic and critical sector of technology. Whether you're an embedded software developer, a systems engineer, or simply a tech enthusiast, "The Embedded Frontier" is your go-to source for staying updated and inspired in the world of embedded systems. Join Jacob Beningo as he navigates the intricate and fascinating landscape of embedded technologies, providing a unique blend of technical expertise, industry updates, and practical advice.

© 2026 Beningo Embedded Group, LLC Economics
Episodes
  • #023 - Modernization Embedded Systems with Test-Driven Development

    #023 - Modernization Embedded Systems with Test-Driven Development
    Jan 21 2026
    In this episode, embedded systems expert Jacob Beningo explores test-driven development (TDD) as the fourth step to modernize embedded software development. He addresses common misconceptions that TDD doesn't work for embedded developers, demonstrates how proper software architecture enables effective testing, and explains the mental shift required to write tests before production code for higher quality, more reliable embedded systems.

    Key Takeaways:

    • Test-driven development requires writing tests first, then production code to make tests pass, which feels counterintuitive initially but improves over time
    • Properly architected embedded software with decoupled hardware layers makes TDD highly effective for application code
    • The mental adjustment to TDD takes several weeks but results in faster overall development and higher code quality
    • TDD provides immediate feedback when changes break existing functionality through regression testing
    • Multiple testing types are available: unit, integration, system, regression, performance, and user acceptance testing
    • System-level TDD can drive development from user requirements down to individual components
    • AI tools can accelerate TDD processes while maintaining rigorous testing standards
    • A simple push button module can require 98 tests and 4,000 checks for complete validation
    • 100% test coverage is a worthy goal but doesn't guarantee bug-free code
    • TDD initially feels slower but dramatically reduces debugging time and improves long-term development velocity
    Show More Show Less
    27 mins
  • #022 - 2026 Embedded Systems Trends

    #022 - 2026 Embedded Systems Trends
    Jan 7 2026
    Embedded systems expert Jacob Beningo explores five major industry trends for 2026, focusing on how AI-assisted development, security requirements, and platform-based engineering are reshaping embedded software development. This comprehensive analysis covers emerging technologies and methodologies that microcontroller-based system developers need to understand to stay competitive in the evolving embedded systems landscape.

    Key Takeaways:

    • Use AI to create custom development tools rather than just copying code, potentially saving months of development time annually
    • Security is no longer optional due to regulations like CRA - threat modeling and secure boot processes are now requirements
    • Platform-based engineering is driving adoption of modern tools like CMake, VS Code, and Zephyr RTOS across silicon vendors
    • C++ continues gradual adoption in embedded systems, growing from 3% to 30% market share over 20 years while C remains dominant
    • Functional simulation techniques can reduce debugging time by 50%, saving significant development resources when combined with AI tools
    • Edge AI and tiny ML are poised for resurgence as microcontrollers gain more compute power and specialized processing units
    • DevOps adoption varies widely, with basic Git and compilation pipelines being minimum requirements for modern development
    • West manifest tools are becoming important for managing complex multi-repository platform projects
    • AI should enhance expertise rather than replace fundamental embedded systems knowledge and skills
    • Copy-paste culture threatens to erode deep embedded systems expertise needed for solving complex hardware-software integration issues
    Show More Show Less
    34 mins
  • #021 - From Pray and Patch to Proactive: Modernizing Embedded Security

    #021 - From Pray and Patch to Proactive: Modernizing Embedded Security
    Dec 11 2025

    Visit our sponsor's website to learn more about their embedded security solutions at https://www.RunSafeSecurity.com/jacob

    This episode explores the critical shift from reactive "patch and pray" security approaches to proactive embedded security strategies. Host Jacob discusses common vulnerabilities in embedded systems, real-world security threats from nation-state actors, and practical tools and processes developers can implement to secure their devices throughout the entire development lifecycle.

    Key Takeaways:

    • Memory exploits (buffer overflows, out-of-bounds reads/writes, use-after-free) are the most common embedded system vulnerabilities
    • Nation-state actors like Voltaifun are actively targeting critical infrastructure through embedded devices
    • Even simple connected devices like $20 coffee makers pose significant security risks through botnets and grid manipulation
    • Supply chain attacks have risen 700% in recent years, requiring secure programming and signed keys throughout manufacturing
    • Threat Model Security Analysis (TMSA) should be performed upfront to identify critical data and potential attack vectors
    • Hardware isolation using ARM TrustZone, multi-core processors, or memory protection units provides essential security layers
    • Software Bill of Materials (SBOM) helps track open source components and monitor for newly discovered vulnerabilities
    • Static and dynamic analysis tools should be integrated into CI/CD pipelines for continuous security monitoring
    • Security must be considered throughout the entire device lifecycle, from design to end-of-life decommissioning
    • Proactive security approaches using runtime protection tools are more effective than reactive patching strategies
    Show More Show Less
    38 mins
No reviews yet