CPU Microarchitecture

CPU Microarchitecture & Logic Design Engineer Job Description We are seeking a CPU Design Engineer to join our team. In this role, you will be responsible for designing and implementing high-performance execution units in CPU, optimizing for power, performance, and area (PPA). You will work closely with cross-functional teams to refine microarchitecture, develop RTL, and validate designs. This is an opportunity to work on challenging projects and play a key role in defining execution unit architecture for next-generation CPU designs. Responsibilities Define, develop, and refine microarchitecture specifications for complex CPU subsystems. Design and implement RTL to achieve targeted power, performance, area, and timing goals. Collaborate closely with the verification team to establish effective validation strategies for new designs. Support test bench development and assist validation engineers in testing and debugging core and subsystem-level RTL in simulation, prototyping platforms, and silicon. Work with physical design teams to ensure that the design meets timing, area, reliability, testability, and power requirements. Minimum Qualifications Bachelor’s degree in Electrical/Computer Engineering, Computer Science, or a related field; Master's degree; or a PhD. Strong understanding of microprocessor architecture and microarchitecture. Proficiency in applying trade‑off and optimization techniques for performance, power, and area (PPA) in high‑frequency design. Experience with SystemVerilog RTL development. Hands‑on experience with front‑end tools such as Verilog simulators, waveform viewers, linting tools, logic synthesis, and place‑and‑route. Programming skills in C/C++ and Python. Strong problem‑solving skills and an analytical mindset. Preferred Qualifications Experience with one or more of the following areas: High performance branch prediction, instruction fetch, instruction decode, instruction caches. Coherency protocols, memory consistency, L1/L2 caches, and TLBs design. Out-of-order execution, including allocation, renaming, scheduling, and retirement. ALU, floating‑point, and vector operations. #J-18808-Ljbffr