NXP’s Industrial & IoT Edge solutions range from the smallest MCUs to very high-performance processors to provide real-time insights and efficient automation when performance matters most. NXP’s advanced portfolio of edge processing solutions lets developers explore
NXP’s Industrial & IoT Edge solutions range from the smallest MCUs to very high-performance processors to provide real-time insights and efficient automation when performance matters most. NXP’s advanced portfolio of edge processing solutions lets developers explore
NXP’s Industrial & IoT Edge solutions range from the smallest MCUs to very high-performance processors to provide real-time insights and efficient automation when performance matters most. NXP’s advanced portfolio of edge processing solutions lets developers explore
ResponsibilitiesLead and execute the full digital IC design flow for complex System‑on‑Chip (SOC), including specification definition, architectural design, RTL coding (Verilog/SystemVerilog), synthesis, static timing analysis (STA), formal verification, and power analysis.Contribute to design for testability (DFT)
Your Profile : \*Working knowledge on advance tech nodes 16ff and below is highly desirable. \* Expert-level proficiency with industry-standard EDA tools from Synopsys (Fusion Compiler, ICC2, Primetime, Design Compiler), Cadence (Innovus, Tempus, Genus), or Siemens (APR, Calibre).
NXP’s Industrial & IoT Edge solutions range from the smallest MCUs to very high-performance processors to provide real-time insights and efficient automation when performance matters most. NXP’s advanced portfolio of edge processing solutions lets developers explore
NXP’s Industrial & IoT Edge solutions range from the smallest MCUs to very high-performance processors to provide real-time insights and efficient automation when performance matters most. NXP’s advanced portfolio of edge processing solutions lets developers explore