Learn more at www.analog.com and on LinkedIn and X.Key Responsibilities Apply AI/ML methodologies to improve synthesis results, timing closure, power estimation, and design space explorationDevelop and implement digital subsystems for mixed‑signal ICs, including control logic, digital interfaces, and on‑chip processing blocksExecute RTL design, coding, and optimization in Verilog/SystemVerilog for performance, area, and power targetsPerform synthesis with timing and placement constraints (Genus), static timing analysis and power analysis (Tempus), and logical equivalence checking (Conformal)Participate in architecture and design reviews, contributing technical analysis on timing, area, power, and testability trade‑offsCollaborate with analog design teams to implement and integrate digital‑analog interfaces and control architecturesRequired Skills and Experience MSEE or MSCE with 7+ years of digital IC design experience, or PhD with 5+ years (BSEE/BSCE with equivalent depth considered)Strong RTL design skills in Verilog/SystemVerilog with experience delivering complex digital subsystemsDemonstrated ability to deliver digital designs through tape‑out, silicon validation, and production releaseSolid scripting skills (Python, Tcl, shell) with experience applying AI/ML techniques to enhance productivityKnowledge of synthesis, static timing analysis, DFT (scan, ATPG, BIST), and clock domain crossing methodologiesProficiency with Cadence digital design tools: Genus, Innovus, Tempus, ConformalExcellent presentation, technical writing, and communication skillsPreferred Qualifications Curiosity and initiative to explore AI/ML techniques and emerging tools that can transform design workflows, with an enthusiasm for discovering more effective ways of workingWorking knowledge of place‑and‑route (Innovus), floorplanning, and physical‑aware design techniquesExperience with low‑power design techniques including multi‑voltage domains, power gating, and UPFFamiliarity with digital interfaces (I2C, SPI, UART) and mixed‑signal SoC integrationStrong analytical and problem‑solving abilitiesTechnical Scope Application of AI/ML‑driven workflows to improve design quality, turnaround time, or coverageBlock‑level digital subsystem ownership from specification through silicon bring‑up and production validationClock domain crossing analysis, lint, and formal verification for multi‑clock digital architecturesDFT implementation including scan insertion, ATPG pattern generation, and fault coverage closureCollaboration and Impact Share AI/ML‑driven improvements to digital design workflows and best practices with team membersWork with analog design, verification, and applications teams to implement digital control architectures that meet system‑level requirementsContribute to design reviews and cross‑team technical discussionsExport Licensing For positions requiring access to technical data, Analog Devices, Inc. may have to obtain export licensing approval from the U.S. Department of Commerce – Bureau of Industry and Security and/or the U.S. Department of State – Directorate of Defense Trade Controls. ADI combines analog, digital, AI, and software technologies into solutions that combat climate change, reliably connect humans and the world, and help drive advancements in automation and robotics, mobility, healthcare, energy and data centers.