1. Gaining the opportunity to learn and work on various aspects of PCB design, development, and testing.
2. Working from tiny IoT sensors to intricate server-level PCBs, you'll gain exposure to a wide spectrum of hardware, including wireless devices, analog devices, sensors, single-board computers (SBCs), and even motherboards.
3. Gaining basic information about the circuit networks (like KVL, KCL, RC, and RLC).
4. Learning about digital electronics and circuit networks (like logic gates, multiplexers, flip-flops, diodes, BJT, MOSFETs, etc.
Skill(s) required
Analog And Digital CircuitsCircuit DesignPCB DesignPCB Soldering
Computers are slowing down due to increased usage by artificial intelligence and machine learning programs, which consume more memory space. There is a demand for faster computers to run software more quickly for increased productivity. All current CPUs use Von Neumann architecture, limiting parallel computing capabilities and hindering software acceleration, resulting in scalability challenges and higher costs.
Vicharak is a platform enabling parallel computing. As current software and solutions evolve, they will become more accelerated. Utilizing FPGA reconfigurable hardware and Verilog/SystemVerilog logic design, Vicharak is spearheading the development of the next generation of computers.
