**4. Applications of LabVIEW in robotics and VLSI**

Present world is looking for high throughput fast processing system with features that meets ideal specifications. As we know, a system complexity increases consequently the system hardware and software must be complicated to attain the desired target within the time specification. As we are going through the era of artificial intelligence and machine learning so that it is necessary to add technological improvements in our system designs to compete with latest market trends. In the field of robotics, software and hardware have equal responsibility and functionality to attain the accuracy while take part in a certain action. In order to create a stable perfect system, the designer can choose graphical based design rather than conventional system design.

LabVIEW can easily use as a flexible environment for the robotic design. LabVIEW is a development environment that will provide flexibility for automated product design validation and monitoring of a machine status. Here the designer can use the language "G" for the system coding and drag and drop option of appropriate functional blocks will generate a working system according to the specifications.

Industrial machine builders [10] are forced to deliver machines that meets several demands. It is necessary to hold their unique position in the respective field with respect to the competitors. LabVIEW is mainly used for building a graphical user interfaces for systems and also it is utilizing inherent parallelism for instrumentation, control system and robotics. If the designers are looking for a simple design in the hardware and software LabVIEW is the best option for that. Robotic arm control mechanism needs more accuracy to work in the fields such as of medical electronics and chemical industry. The processor will run according to the program coded using lab view and the processor will generate the control signals to control and monitor the movement of robotic arm.

LabVIEW is applicable for standalone as well as moving system design. Wherever the application of a mixed system comes then the design complexity will increase and monitoring will be more complicated. Here the graphical user interface [11] will be more useful to control the action of the system and its programming.
