Videos

FineFFP: Automatically mask the Aperture Area for free form panel

Place BM (Black Matrix) figures into the current cell at the apertures of the pixels which cross the borderline of the Active Area.


FineFFP: GIP Automatic placement & Routing for free form panel

GIP cells are automatically placed around the panel according to the template figure, and wiring is also performed between GIP cells.

*GIP Cell: Gate In Panel Cell


FineFFP : HID area Automatic Routing for free form panel

Automatically route gate lines from the left side and right side and data lines from topside to bottom side in the holes of the panel while avoiding the Keep Out Area.

*HID: Hole In Display


FineFFP : Notch area Automatic Routing for free form panel

Automatically route gate wiring from left to right of the notch area according to the template figure in the notch area.


PowerVolt

Layout editor platform for flat panel display design. It allows reduction of design cycle time and quality improvement by special features.


FineArts

Layout editor platform for flat panel display design. It allows reduction of design cycle time and quality improvement by special features.


Simplify

Auto routing capability for flat panel displays of any shape for mobile/IoT/automotive applications.


FineAcres/Qap

High speed and high accuracy resistance/capacitance extraction tool for long and fat wires between pixels and drivers of flat panel displays.


FineVolt

Voltage drop and current density analysis for OLED. The built-in high-speed solver allows verifying the full panel scale data.


GT-Router: Operation flow

The constraint-driven (EM/IR Drop/Noise) power router which minimizes the chip size. Achieved by assigning wire topology and congestion-aware technology including slot insertion.


GT-Router: Presentation video

The constraint-driven custom power line router which can generate reliable and robust slot power line based on the design requirements of each block.


HOTSCOPE: Net trace and schematic generation

It allows designers to generate the equivalent schematic from the layout data by running equipotential net tracing capabilities. After tracing, it makes possible to provide cross-probing capabilities between schematic and layout.


HOTSCOPE: 3D cross-section viewing

After specifying the locations on the layout pattern, 3D structure is displayed and designers can observe the data while rotating in the horizontal and vertical directions. It also allows a variety of analysis functions, such as by the equipotential net tracing and 3D measurement function.


HOTSCOPE: Resistance calculation

After specifying the locations on the layout pattern, 3D structure is displayed and designers can observe the data while rotating in the horizontal and vertical directions. It also allows a variety of analysis functions, such as by the equipotential net tracing and 3D measurement function.