EMD™ – EM Synthesis and Optimization of Passives
PeakView® EMD™ provides parametric EM device synthesis and optimization of sophisticated on-chip passive devices and structures. EMD™ has an extensive synthesis library of parameterized devices that include T-coils, inductors, multi-layer spirals, transformers, mmWave couplers, co-planar waveguides, photonics transmission lines, and other commonly used topologies. (Datasheet)
LEM – 3D Fullwave EM Extraction and Simulation of Customized Layouts
PeakView® LEM™ represents robust EM simulation of customized layouts loaded easily from layout editors. Large-scale (full-chip) layouts are supported by flexible mesh customization focusing the discretization on critical passives and interconnects, maintaining 3D accuracy with reasonable computing resources. (Datasheet)
HFD™ – EM Parasitic Analysis Interconnects and Passives
Peakview® HFD extends to 3DIC RLCK and full-wave extraction flow to support RF, mmWave and high-speed analog designs. HFD™ enhances traditional LPE (Layout Parasitic Extraction) by including EM effects into post-layout circuit simulations. EM parasitics are backannotated to original DSPF/ExtractedView guaranteeing proper connectivity based on LVS data. HFD™ is a net-based tool, so so schematic modification is needed. (Datasheet)
EM Prototyping™ – EM Prototyping Before Layout Completion
Enhance your millimeter wave IC design workflow with PeakView® EM Prototyping™. It analyze circuit-level EM effects like crosstalk and coupling at early stage in the design process, even before finalized layout. PeakView® automates EM device preparation, modeling, and back-annotation, preserving circuit hierarchy for accurate high-frequency performance analysis. Get fast, precise insights to optimize your designs floorplan. (Datasheet)
PLX™ – Parasitic Inductance Extraction
Our parasitic inductance extraction feature provides Peakview®’s 3D Full-wave EM simulated inductance L as compliment to the original RC parasitics delivered by traditional parasitic extraction tools. PLX™ inductive elements are backannotated to today’s popular DSPF file. (Datasheet)