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Genesys Products - Cayenne

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Cayenne (W1604L)

US List Price $5,100
Nodelocked License

 

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Genesys Cayenne uses transient simulation with convolution and full integration with Genesys EM simulators and physical models to solve the widest variety of nonlinear circuits and systems with full RF accuracy. Cayenne is easy to use, affordable, and transparently integrated within Genesys, making Cayenne an attractive alternative for self-supporting RF designers.

Product Overview

Genesys is the only design suite that provides transparent co-simulation with EM simulation, and that innovation has been extended to Cayenne. Designers who need the detailed results of EM simulation for portions of a design can model the rest of the circuit with Cayenne and achieve much faster solutions to their design problems.

Finally, in addition to full-frequency convolution, Cayenne provides a faster hybrid frequency/time mode that creates models that are exactly correct at a specified high frequency and are approximate at other frequencies. This lets designers who are concerned only about circuit performance at a particular frequency get answers much faster.

Figure 1:Cayenne accounts for effects that cause Eye closure at high edge rates, allowing you to use RF techniques to correct poor system throughput.

 

Figure 2:Cayenne accounts for physical layout parasitics when predicting risetime degradation, crosstalk, impedance mismatch, dispersion, and other signal integrity quantities.

Product Features

  • Compatible with all Genesys linear, nonlinear, Verilog-A, and system elements
  • Compatible with optimization, Monte Carlo, tuning, and yield optimization
  • Allows direct use of S-Parameter data files
  • SPICE model import
  • Full support of frequency-domain linear models via convolution
  • Hybrid frequency/time mode creates models which are exactly correct at a specific high frequency and which are approximate at other frequencies
  • Allows user trade-off of accuracy and simulation time
  • Support for true hierarchy and parameterized subcircuit
  • Transparent co-simulation EM simulation, including lumped elements inside the electromagnetic circuit

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