Better RTL Design for Modern FPGAs
Learn why HDL craftsmanship still matters in modern FPGA development, from portable RTL design and reusable IP to AI-assisted hardware engineering.
Learn why HDL craftsmanship still matters in modern FPGA development, from portable RTL design and reusable IP to AI-assisted hardware engineering.
Learn why HDL craftsmanship still matters in modern FPGA development, from portable RTL design and reusable IP to AI-assisted hardware engineering.
Bare-metal, RTOS, or embedded Linux? Learn how to choose the right embedded software architecture based on real-time performance, power consumption, connectivity, scalability, and long-term product requirements.
Learn how cell balancing impacts battery pack safety, performance, thermal behavior, and reliability in modern Battery Management Systems (BMS).
FPGA-in-the-Loop (FIL) testing changes everything by bridging the gap between simulation and real-world validation. This article explains when to use FIL versus traditional simulation, essential setup components, and how to optimize your testing workflow for maximum efficiency.
Struggling with FPGA timing closure? This article breaks down practical techniques for pipelining, logic simplification, and smart device selection that can rescue your next project from routing nightmares and inconsistent builds.
Struggling to choose between FPGA + Processor and SoC for your embedded design? Dive deep into performance, power, flexibility, and cost to make the optimal decision for your next project.
Discover how Re:Build AppliedLogix’s Phase 0 sets the stage for successful embedded systems projects. We clarify objectives, capture detailed requirements, and mitigate risks early for efficient development.
Re:Build AppliedLogix offers a collaborative approach to embedded systems design. Our experienced senior engineers work alongside your team, providing cutting-edge solutions, knowledge transfer, and dedicated support to bring your products to market on budget and on time.