About the position:
As a Staff firmware verification engineer, you will be part of firmware verification team that design and develop white box and grey box tests in Python to verify SSD firmware designs for each firmware feature. This position is specifically to focus on verification and validation of SSD firmware features. You will be working closely with product architects and firmware engineers to create a comprehensive firmware verification test for SSD features. In this role, you will be contributing to test strategy, test development, integrating the tests using various development platforms, deploying it on firmware verification lab for regression runs and perform failure analysis. The role focuses on defining and executing robust firmware verification strategies for PCIe, MMIO, DMA, and custom host–device protocols across both pre‑silicon and post‑silicon environments.
Responsibilities:
- Collaborate closely with firmware engineers & architects on product architecture and designs to define the comprehensive verification plan to validate each SSD features
- Design, Develop and Integrate the white box and gray box tests on SSD products in roadmap
- Conduct test plan reviews and code reviews to ensure the tests are scalable and meeting the requirements
- Participate in driving failure analysis and collaborate with integration/execution engineers for test deployment.
- Validate designs against PCI Express Base Specification (up to Gen5/Gen6), ensuring compliance with electrical, logical, and transaction-layer requirements.
- Define and own firmware validation strategy for PCIe front-end subsystems, including MMIO address spaces, BARs, resets, interrupts, and error handling.
- Define, plan, and execute system-level validation strategies for PCIe front-end (PHY + controller) IP and SoC-level integration.
- Integrate tests into scalable automation frameworks supporting simulation, emulation, and silicon validation.
- Debug firmware issues, perform front-end error injection, and expose design or integration defects.
- Validate PCIe compliance, MMIO access integrity, and robustness of fault detection and recovery mechanisms.
- Review and verify firmware trace logs and debug telemetry for correctness and completeness.
- Drive validation readiness across pre‑silicon and post‑silicon platforms, ensuring alignment of firmware specs, drivers, and test collateral.
- Interface with cross‑functional stakeholders to ensure validation coverage meets product and customer requirements.
- Drive compliance and interoperability testing with various endpoint/root-complex devices, switches, and add-in cards.