Memory Subsystem Verification Engineer
Austin, Texas, United States
Imagine what you could do here. At Apple, new ideas have a way of becoming extraordinary products, services, and customer experiences very quickly. Bring passion and dedication to your job and there's no telling what you could accomplish! Dynamic, smart people and inspiring, innovative technologies are the norm here. The people who work here have reinvented entire industries with all Apple Hardware products. The same passion for innovation that goes into our products also applies to our practices strengthening our commitment to leave the world better than we found it. Join us to help deliver the next groundbreaking Apple product! In this highly visible role, you will be at the center of a chip design effort collaborating with all subject areas, with a critical impact on getting functional products to millions of customers quickly.
- In-depth knowledge of digital logic design, CPU and SOC architecture/micro-architecture and memory subsystem
- Strong programming (C/C++, Verilog, Scripting), software optimization, and performance improvement skills
- Experience in unit and full chip level test benches
- Experience in developing testplans, assertions, and developing stimulus
- Should be a team player with excellent communication skills and be able to work independently on the verification efforts for a block/area of the design
- Experience with emulation and developing synthesizable transactors is a plus
• Play a critical role in end-to-end verification of memory subsystem by developing an in-depth understanding of cache coherence protocols and functioning of various units in CPU/GPU/SOC that are relevant to memory subsystem verification. These units include Load-Store unit, different levels of caches, bus interface units, memory controller, etc. • Develop verification environment which can be used in both simulation and emulation • Develop synthesizable transactors and test benches and support verification hooks for verifying memory subsystem functionality and CPU/SOC features • Develop unit level stimulus as well as full chip assembly programs to verify memory subsystem • Develop verification IPs that can be utilized by Apple teams worldwide • Work closely with CPU/SOC/GPU RTL design teams and understand the specification in detail for developing verification strategy for the above mentioned environment taking system level considerations into account • Develop coverage monitors and accomplish coverage goals • Debug failures in both pre and post silicon environments, root-cause problems, and propose design changes to address issues • Develop abstract end-to-end checks to verify CPU-SOC memory subsystem interaction and coherence protocols • Use novel techniques such as formal verification, emulation/FPGA technology, as well as industry standard tools and languages to verify memory subsystem
Education & Experience
BS/MSEE is required.