New-Tech Europe | Oct 2016 | Special Edition For Electronica 2016
pass/fail number per-channel (Figure 3). The new version of HyperLynx offers the first robust commercial implementation of COM for 100GbE signaling, with all simulation details fully automated. Another way to streamline the daunting task of simulating all signal and power effects on a large PCB is to proactively identify portions of a design that most need detailed analysis, and to reduce the time required for simulation by promoting aggressive re-use of expensive- to-create models (like 3D-based S parameters). This is accomplished by integrating the powerful HyperLynx DRC engine directly inside the HyperLynx SI/PI environment. Now the super-fast DRC engine (capable of scanning board- wide for routing and other geometric anomalies in seconds) can provide “simulation triage,” by accurately finding layout structures that violate design intent or best practice. For example, HyperLynx SI/PI deploys this engine to automatically find all differential via pairs that do not conform to pre-designed known- good “patterns”; and to group all such vias into sets for which only one 3D-EM S-parameter extraction (automatically run) is needed per set, saving potentially many hours of simulation time per board. Continuing with ease-of-use and fast interactive analysis, the new release puts dual emphasis on a very different type of usage: in a pure batch-mode environment, driven by scripts, run on entire layouts at least once-per-day, with little/no user intervention and a completely suppressed GUI. Much investment has gone into robusting HyperLynx for such use: the ability to efficiently handle very large layouts (including extra-deep stackups, huge net counts, and entire multi-
Figure 1.
integrates the 3D engine so that the user never has to learn the intricacies of a full-wave-solver environment. Structure geometries are passed, EM ports are formed, simulations are run, and S-parameter results are returned and incorporated into time- domain simulations, automatically. Recently, PCB power-delivery systems have come under stress. What formerly were “power planes” are now collections of highly compromised power “areas,” (Figure 1) whose integrity must be simulated. HyperLynx has added multiple engines - two 2.5D solvers, the industry’s fastest DC/IR-drop simulator, and a fast quasi-static 3D solver - to enable a full set of power- integrity features, all of which are available side-by-side in the same application as HyperLynx signal- integrity capabilities. This version adds a second, more-advanced 2.5D solver, capable of not only pure power but also mixed signal-and- power modeling, which can be used
to add accuracy to SI simulations when simultaneous-switching-noise (SSN) complications are suspected. Analysis from Beginning to ENd Simulating every detail of signal routing and power delivery on a PCB is powerful, but possibly overwhelming. The HyperLynx DDRx batch- simulation wizard pioneered easy setup, automated whole-bus simulation, and consolidated results reporting for memory interfaces. Now, HyperLynx extends this popular capability to DDR4 and LPDDR4 interfaces. HTML-based reporting creates design documentation and allows internal Web-based “publication” of results (Figure 2). A new analysis tool has become popular for SERDES busses. This tool, called Channel Operating Margin (COM) allows checking the “goodness” of links based on a specific, complex set of simulation steps that in the end produces a single
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