SPRAD48 July   2022 DRA829J , DRA829J-Q1 , DRA829V , DRA829V-Q1 , TDA4VM , TDA4VM-Q1

 

  1.   Abstract
  2.   Trademarks
  3. Introduction
  4. Summary of Changes
  5. Procedure to Apply the Changes
    1. 3.1 Do Not Skip Any of These Steps
    2. 3.2 Patch Information
  6. Build Instructions
    1. 4.1 PSDKRA Build Instructions
    2. 4.2 PSDKLA Build Instructions
  7. Demo Applications
    1. 5.1 Basic OpenVX Kernels
    2. 5.2 Capture - Display UseCase
      1. 5.2.1 Steps to Enable Demo
    3. 5.3 Single Camera VPAC Application Demo
      1. 5.3.1 Steps to Enable Demo
    4. 5.4 Multi Camera VPAC Application Demo
      1. 5.4.1 Steps to Enable Demo
  8. Run Instructions
  9. Basic Demo Applications
  10. Single Camera VPAC Application Demo
  11. Multi Camera VPAC Application Demo
  12. 10Limitations

Multi Camera VPAC Application Demo

This application demonstrates the use of the VISS node and TI's 2A (AE and AWB) algorithm. The dataflow is as shown below:

  1. Configure image sensors using the sensor driver firmware APIs.
  2. Acquire RAW images from camera sensors.
  3. Process the images on VISS.
  4. Run Auto Exposure (AE) and AutoWhiteBalance (AWB) algorithms, using H3A output from VISS.
  5. Run LDC on the output of VISS.
  6. Scale LDC output using MSC and arrange in a mosaic.
  7. Display the mosaic using display subsystem.
GUID-20220719-SS0I-BDTJ-T1V1-NPDFFFHTC9WB-low.png Figure 5-4 Multi Camera VPAC Application