Design Automation for Embedded Systems is an academic journal published by Springer. (ISSN 0929-5585, impact factor 0.9).
Aims and scope
Design Automation for Embedded Systems is a multidisciplinary journal dedicated to cutting-edge research in the automation of embedded systems design. As embedded systems evolve to meet the demands of increasingly complex and intelligent applications—spanning sectors from automotive and aerospace to IoT and edge AI—the need for advanced design methodologies and tools has never been greater.
The journal focuses on innovations that push the boundaries of how embedded systems are architected, designed, verified, and deployed. Core areas of interest include:
Hardware-Software Co-design, synthesis, and optimization for embedded systems, FPGAs, multicore, and heterogeneous systems
AI-assisted design and optimization workflows, including agentic systems and reinforcement-learning-based automation
System-level methodologies leveraging large language models (LLMs) for specification, code synthesis, hardware/software partitioning, and design-space exploration
LLM-aided tools for Register-Transfer Level (RTL) design, High-Level Synthesis (HLS), and formal verification
AI hardware acceleration and co-design methodologies for deploying machine learning workloads on edge and embedded platforms
New datasets, benchmarks, and evaluation frameworks that enable reproducibility and standardization in embedded system design research
Data science and analytics techniques applied to design automation pipelines, performance tuning, and debugging
We welcome contributions that blend embedded systems with advances in artificial intelligence, computer architecture, design methodology, and software engineering. High-quality submissions may include theoretical innovations, practical tools and frameworks, novel architectures, empirical studies, and real-world case studies.
Design Automation for Embedded Systems serves as a forum for researchers and practitioners to present transformative ideas that advance the future of intelligent, automated embedded system design.
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