Green Communication with Field-programmable Gate Array for Sustainable Development

The  text discusses the designing of field-programmable gate array-based  green computing circuits for efficient green communication. It will help  senior undergraduate, graduate students, and academic researchers from  diverse engineering domains such as electrical, electronics and  communication, and computer.

• Discusses hardware description language coding of green communication computing (GCC) circuits
• Presents field-programmable gate arrays-based power-efficient models
• Explores the integrations of universal asynchronous receiver/transmitter and field-programmable gate arrays
• Covers architecture and programming tools of field-programmable gate arrays
• Showcases  Verilog and VHDL codes for green computing circuits such as finite  impulse response filter, parity checker, and packet counter

The  text discusses the designing of energy-efficient network components,  using low voltage complementary metal-oxide semiconductors, high-speed  transceiver logic, and stub series-terminated logic input/output  standards. It showcases how to write Verilog and VHDL codes for green  computing circuits including finite impulse response filter, packet  counter, and universal asynchronous receiver-transmitter.