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Posts Tagged ‘x-prop’

Fix X-pessimism in Netlists with Practical Techniques

Thursday, June 30th, 2016

Most functional verification is done before the RTL is handed off for digital synthesis. Gate-level simulations take longer and are hard to debug, but still needed to verify some circuit behavior. Ideally, the output of the RTL simulation will match the output of gate-level netlist simulation after synthesis. But that is not typically the case. Besides the obvious things verified in your gate-level simulations, there are always unknown values (Xs). Some will not be seen in the RTL due to X-optimism, but there will be additional Xs in the gate-level simulations due to X-pessimism.

X-optimism in RTL and other generic issues around unknown states are discussed in more detail in the paper ‘X-Propagation Woes – A Condensed Primer‘. Some basic familiarity with the concept is assumed here.

This paper focuses on X-pessimism at the netlist level. It discusses some current techniques and their limitations, and then describes a more efficient X-pessimism strategy based on Real Intent’s Ascent XV. (more…)

Correcting Pessimism without Optimism – Part Two

Thursday, October 1st, 2015

Part one of this article focused on the issues of X-pessimism at the netlist level and why the current solutions are inadequate.  In In part two, we look at how the Ascent XV tool correctly addresses X-safe verification.

If a node is determined to be 1(or 0) pessimistic, that means its real circuit value is 1(or 0), but simulation produces an X. A pessimistic simulation value can be corrected by forcing a 1(or 0) on the node until the conditions for pessimism no longer hold, at which time, it is released. This does not mean that all X’s can be arbitrarily forced to a known value. Only X’s that result from pessimism should be forced, and they must be forced to represent the deterministic value that real hardware would see and released immediately when the pessimism stops.

Ascent XV-netlist makes your simulation hardware accurate by appropriately correcting pessimism. Ascent XV statically identifies the potentially pessimistic nodes and then uses that information to create SimPortal files that augment gate-level simulation to correct X-pessimism on the fly. By doing the analysis statically before the simulation starts, the number of nodes that must be analyzed during simulation is significantly reduced. Also, the X-analysis during simulation can be reduced to a table look-up when the potentially pessimistic node has an X-value. The SimPortal files monitor the potentially pessimistic nodes in the design on the fly, independent of the testbench. (more…)

Correcting Pessimism without Optimism – Part One

Thursday, September 24th, 2015

Most functional verification for SoC and FPGA designs is done prior to RTL hand-off to digital synthesis because gate-level simulations take longer to complete and are significantly harder to debug. However, gate-level simulations are still needed to verify some circuit behavior. Ideally, the output of the RTL simulations will match the output of gate-level netlist simulations on the same design after synthesis. And why wouldn’t they? Besides the obvious things that are being verified in your gate-level simulations, there are also unknown values (X’s) that were not seen in RTL due to X-optimism, and additional X’s in the gate-level simulations due to X-pessimism. Part one of this article focuses on the issues of X-pessimism at the netlist level and why the current solutions are inadequate.
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