Latency Exploitation in Wavelet-based Multirate Circuit Simulation
For designers of RF circuits, this method accelerates simulation by exploiting latency, but the improvement is incremental over existing multirate techniques.
The paper improves wavelet-based multirate circuit simulation by using different grids for different circuit parts to exploit latency, reducing problem size and speeding up simulation for RF circuits.
The simulation of radio frequency (RF) circuits is one of the severest problems in Design Automation: the information signal or envelope is modulated by a carrier signal with a center frequency typically in the GHz range. Due to Nyquist's sampling theorem the time steps in conventional transient analysis are prohibitively small. A technique to overcome Nyquist's bottleneck is the multirate method which reformulates the ordinary circuit's differential algebraic equations (DAEs) as a system of partial DAEs (PDAEs). In this paper further improvements of the wavelet multirate circuit simulation technique are presented. In the new algorithm we use different grids for the approximation of the solution on different circuit parts, exploiting latency. In particular, for circuits comprising latent parts the grids can be much sparser, which results in the reduction of the overall problem size and leads to a faster simulation.}