Abstract: A disclosed method for simulation visualization may include determining initial conditions for a control logic component for modeling and simulating of a physical product or process. The method may also include determining initial conditions for a render engine for generating a visualization of outputs of the control logic component. The method may include initiating execution of the control logic component and the render engine in accordance with the determined initial conditions, and receiving, during a simulation, input from the control logic component in accordance with a predefined interface for simulation visualization. The received input may represent one or more outputs of the control logic component. The method may also include communicating the received input to the render engine in accordance with the predefined interface for visualization by the render engine.

Abstract: In one embodiment, an electronic display includes a first plurality of hexagon-shaped pixels and a second plurality of hexagon-shaped pixels that are coplanar with the first plurality of hexagon-shaped pixels. The first plurality of hexagon-shaped pixels each include an infrared (IR) emitter subpixel that is operable to emit IR light. The second plurality of hexagon-shaped pixels each include an IR detector subpixel that is operable to detect IR light. Each IR emitter subpixel and each IR detector subpixel includes an anode layer and a cathode layer. Each particular IR emitter subpixel includes an IR emissive layer located between the anode layer and the cathode layer of the particular IR emitter subpixel. Each particular IR detector subpixel includes an IR detector layer located between the anode layer and the cathode layer of the particular IR detector subpixel.

Abstract: In one embodiment, an electronic display includes a first plurality of hexagon-shaped pixels and a second plurality of hexagon-shaped pixels that are coplanar with the first plurality of hexagon-shaped pixels. The first plurality of hexagon-shaped pixels each include an infrared (IR) emitter subpixel that is operable to emit IR light. The second plurality of hexagon-shaped pixels each include an IR detector subpixel that is operable to detect IR light. Each IR emitter subpixel and each IR detector subpixel includes an anode layer and a cathode layer. Each particular IR emitter subpixel includes an IR emissive layer located between the anode layer and the cathode layer of the particular IR emitter subpixel. Each particular IR detector subpixel includes an IR detector layer located between the anode layer and the cathode layer of the particular IR detector subpixel.

Abstract: In one embodiment, an electronic display includes a first plurality of hexagon-shaped pixels and a second plurality of hexagon-shaped pixels that are coplanar with the first plurality of hexagon-shaped pixels. The first plurality of hexagon-shaped pixels each include an infrared (IR) emitter subpixel that is operable to emit IR light. The second plurality of hexagon-shaped pixels each include an IR detector subpixel that is operable to detect IR light. Each IR emitter subpixel and each IR detector subpixel includes an anode layer and a cathode layer. Each particular IR emitter subpixel includes an IR emissive layer located between the anode layer and the cathode layer of the particular IR emitter subpixel. Each particular IR detector subpixel includes an IR detector layer located between the anode layer and the cathode layer of the particular IR detector subpixel.

Abstract: In one embodiment, an electronic display includes a first plurality of hexagon-shaped pixels and a second plurality of hexagon-shaped pixels that are coplanar with the first plurality of hexagon-shaped pixels. The first plurality of hexagon-shaped pixels each include an infrared (IR) emitter subpixel that is operable to emit IR light. The second plurality of hexagon-shaped pixels each include an IR detector subpixel that is operable to detect IR light. Each IR emitter subpixel and each IR detector subpixel includes an anode layer and a cathode layer. Each particular IR emitter subpixel includes an IR emissive layer located between the anode layer and the cathode layer of the particular IR emitter subpixel. Each particular IR detector subpixel includes an IR detector layer located between the anode layer and the cathode layer of the particular IR detector subpixel.

Abstract: A disclosed method for simulation visualization may include determining initial conditions for a control logic component for modeling and simulating of a physical product or process. The method may also include determining initial conditions for a render engine for generating a visualization of outputs of the control logic component. The method may include initiating execution of the control logic component and the render engine in accordance with the determined initial conditions, and receiving, during a simulation, input from the control logic component in accordance with a predefined interface for simulation visualization. The received input may represent one or more outputs of the control logic component. The method may also include communicating the received input to the render engine in accordance with the predefined interface for visualization by the render engine.