Embedded Systems

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Embedded Systems

Embedded systems range from portable devices such as smartphones and MP3 players, to large stationary installations like traffic lights, factory controllers, medical equipment and largely complex systems like automotive and avionics. Complexity varies from low, with a single microcontroller, DSP, to very high with multiple units. Since embedded systems are dedicated to specific tasks, we work with our clients to develop complete specific embedded products to solve their specific problems. Our engineering teams are experts in various state of the art embedded systems tools and technologies. We use state of the art infrastructure to design, develop and maintain products.


Domains of Expertise

Embedded Control Systems

  • Control Engineering
  • Robotics
  • Automobile
  • Avionics
  • And many others

·         Real-time Operating Systems

  • Design & Conception
  • System Integration
  • Updates/Maintenance
  • Safety

Software Development

  • Device Drivers
  • Protocol Stacks
  • Algorithms Engineering for audio, video and imaging
  • Application software
  • Human Machine Interface
  • Diagnostics Application
  • System integration

Service Offers

How we are working?

if you are looking for a reliable software development company to develop a fully customized software solution for solving your business needs, then you are right with us. Our developers are highly qualified engineers with over 10 years of experience in developing large scale software solutions with all aspects of software production in mind, from the early stages of system specification through to maintaining the system after it has gone into use.

Our main focus is the product quality


Software should be written in such a way so that it can evolve to meet the changing needs of customers. This is a critical attribute because software change is an inevitable requirement of a changing business environment.

Dependability & Security

Software dependability includes a range of characteristics including reliability, security, and safety. Dependable software should not cause physical or economic damage in the event of system failure. Malicious users should not be able to access or damage the system.


Software should not make wasteful use of system resources such as memory and processor cycles. Efficiency therefore includes responsiveness, processing time, memory utilization, etc.


Software must be acceptable to the type of users for which it is designed. This means that it must be understandable, usable, and compatible with other systems that they use.

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