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L-edit Photonics
L-编辑光子学
L-Edit Photonics offers a complete solution for the design capture and manual implementation and verification of integrated photonics designs. The platform enables designers to create photonic integrated circuits using a layout-centric workflow without writing code, utilizing either drag-and-drop or script-driven methodologies.
Using the same full custom IC design layout editor for physical verification and tape-out, L-Edit Photonics integrates seamlessly with partner photonic simulators and supports PDKs from multiple foundries, with optional schematic flow integration through S-Edit.
Key L-Edit Photonics Solutions:
- PIC design in complete IC layout editor
- Simple waveguide creation and editing
- Automated crossing insertion
- Precision snapping to optical pins
- Photonic PDK support from multiple foundries
- Calibre equation-based design rule checking
- Python scriptable environment
- Simulation via Ansys, Luceda, Optiwave, VPIphotonic
Layout-Centric Design
L-Edit Photonics enables complete PIC design within a full IC layout editor, allowing designers to create layouts without writing code using drag-and-drop methodology. Schematic flow with S-Edit is optional, and simulation netlists can be generated for photonic simulators.
- PIC design in complete IC layout editor
- Create layout without writing code
- Drag-and-drop design methodology
- Simulation netlist generation for photonic simulators
Simplified Photonic Layout
Simplifies the physical implementation of photonic circuits with automated tools for waveguide creation, crossing insertion, optical pin snapping, and waveguide-to-pin design rule checking.
- Simple waveguide creation and editing
- Automated crossing insertion
- Precision snapping to optical pins
- Waveguide-to-pin design rule checking
Complete PIC Design Flow
Provides a complete photonic IC design flow from layout through verification and tape-out, with Calibre equation-based design rule checking, partner simulator integration, and photonic PDKs from multiple foundries.
- Calibre equation-based photonic design rules
- Partner simulation support (Ansys, Luceda, Optiwave, VPIphotonic)
- Photonic PDKs from multiple foundries
- Python scriptable on Linux and Windows
