PCIe polling compliance state verification: Pre-silicon approaches and multi-generation challenges

The Polling Compliance substate in PCI Express link training provides crucial electrical conformity verification but presents significant verification challenges due to its rarely-exercised nature. Pre-silicon verification through formal methods and simulation offers comprehensive validation before hardware implementation. Verification strategies must adapt from PCIe Gen1 through Gen7 to evolving encoding schemes, pattern complexity, and handshake mechanisms. Transitioning from simple 8b/10b patterns to complex 128b/130b block-coded sequences and eventually to PAM4 modulation introduces verification complications requiring robust methodologies. Formal verification is essential for confirming state transition logic, entry conditions, and deadlock prevention, while simulation validates pattern generation correctness across multiple preset sequences. Case examples highlight subtle issues like timing-sensitive handshake bugs and preset sequence implementation errors that could otherwise manifest during post-silicon compliance testing. Thorough verification of this seldom-used state demonstrates the importance of comprehensive pre-silicon validation strategies, particularly for states that become increasingly complex with each generation. The progression from simpler pattern verification to complex multi-preset sequences with evolving encoding schemes illustrates how verification methodologies must scale alongside protocol complexity to maintain interoperability and standards conformance.