We are bringing together excellent talent and expertise from across the semiconductor industry to drive how the next of leading AI compute on Arm devices are built. Thus opening up significant and exciting future potential!
Arm is rapidly growing the Central Engineering Systems team to develop best in class solutions based on Arm's IP, addressing AI challenges in secure compute, large screen compute, infrastructure and automotive markets. We offer the outstanding opportunity for an experienced implementation engineer with expert knowledge in UPF power intent microarchitecture. You'll be leading the initiative in driving Arm solutions development to optimize the power and performance. You will innovate, evolve and deliver optimal tape-out quality implementations.
Responsibilities:
1. Leading the power intent for high performing complex implementations.
2. Work collaboratively with design teams influencing system micro architecture to achieve the highest standards.
Required skills and experience:
1. Writing and validating UPF.
2. Experience with low power design techniques - clock and power gating, voltage/frequency scaling, retention.
3. Algorithmic thinking, with some programming experience in Tcl, Make and Linux shell.
4. The ability to analyse problems, reason logically about solutions and chart the appropriate course to take.
5. Teamwork with good communication able to present ideas, results and conclusions in a proficient and organised way.
'Nice to have' skills and experience:
1. Knowledge of sophisticated low power techniques, control of power delivery LDO and external regulators & use on chip instrumentation.
2. Knowledge of systems architecture, Arm IP and Arm-based SoCs.
3. A curiosity about AI hardware technology.
4. Good understanding of the concepts related to Synthesis, Place & Route, Clock tree synthesis, constraint development, timing closure and knowledge of hardware: Verilog/System Verilog.
5. Understanding of power delivery and experience of static and dynamic IR-drop analysis.
6. Power and physical architecture.
7. A curiosity about embracing new silicon implementation techniques and methodologies.
8. A STEM degree in a relevant field, such as electronics engineering or computer science.
In return:
You will get to develop and utilise your engineering leadership skills to build support for the technologies and influence millions of devices for years to come. Driving and bringing your ideas to a wider group of our leading authorities, develop your technical leadership and influencing skills and build towards becoming an established and recognised authority within the existing team.
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