Design simulation-ready
RF chains
An AI assisted environment for designing, analyzing, and comparing front end architectures with automated performance prediction.
The multi-stage optimization solution
A RF front-end calculator that iterates between topology, component selection, and validation.
Topology selection
Develop architectures based on your specs. Heterodyne, direct conversion, or custom topologies. Explains tradeoffs. Refine through conversation until the architecture fits your constraints.
Component selection
Enter in your own component values, drop datasheet pdfs, or have the AI assistant find real components that fit your topology and system specs. Considers gain, noise figure, linearity, power, cost. Shows alternatives and tradeoffs..
Performance validation
Calculates cascaded performance across the chain. Identifies bottlenecks and first-failure points. Margin analysis. Iterate until specs are met with acceptable margins.
Simulation-ready export
Block diagram, power budget, component list, and design assumptions documented. Export to ADS or other tools. Traceable decisions for team review.
See it in action
Conversational interface that guides you through the complete design process
The complete design cycle
Complete, internally consistent signal chain specifications with full traceability
Frequency plan
Frequency plan generation across the RF chain. Automatic LO frequency synthesis. Image frequency identification and mitigation. Harmonic and mixing product mapping. IF selection with spur-avoidance analysis.
Gain budget
Stage-by-stage gain allocation. Automatic compression point tracking. Headroom calculation at each node. First-failure point identification.
Noise budget
Cascaded noise figure calculation. Gain-weighted per-stage noise contributions. Front-end loss and bandwidth-dependent noise floor modeling. Receiver sensitivity verification against requirements.
Linearity budget
IIP3, IIP2, and P1dB allocation across stages. Intermodulation product tracking. Dynamic range analysis. Distortion margin calculation.
Why this matters
Existing tools remain fragmented, while engineers increasingly require integrated workflows.
Faster iteration cycles — Complete design rounds efficiently
Single integrated tool — Topology, components, and validation in one place
Validated architectures — Performance checks catch issues during design
Export to existing tools — Ready for ADS or your preferred simulator when you're done
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Be among the first to experience the future of RF design