For an SOI-FPGA (silicon-on-insulator field programmable gate arrays) (VS1000) fabricated with 0.5 ttm SOI-CMOS (silicon-on-insulator complementary-metal-oxide-semiconductor) process, a complete integrated platf...For an SOI-FPGA (silicon-on-insulator field programmable gate arrays) (VS1000) fabricated with 0.5 ttm SOI-CMOS (silicon-on-insulator complementary-metal-oxide-semiconductor) process, a complete integrated platform of FPGA computer-aided design (CAD) toolset (VDK) is developed, which can convert the Verilog HDL (hardware description language) description into a bitstream and finally download it into an FPGA. Experiments and testing verify that this FPGA CAD works well and efficiently.展开更多
The special issue“DNA and Inorganic Nanomaterials for Sensors and Energy”presents pioneering research addressing critical challenges in sensor technologies and energy storage systems.Four comprehensive reviews and s...The special issue“DNA and Inorganic Nanomaterials for Sensors and Energy”presents pioneering research addressing critical challenges in sensor technologies and energy storage systems.Four comprehensive reviews and six research articles collectively illustrate the advancements in material engineering and programmable DNA molecular design for developing high-performance systems.展开更多
文摘For an SOI-FPGA (silicon-on-insulator field programmable gate arrays) (VS1000) fabricated with 0.5 ttm SOI-CMOS (silicon-on-insulator complementary-metal-oxide-semiconductor) process, a complete integrated platform of FPGA computer-aided design (CAD) toolset (VDK) is developed, which can convert the Verilog HDL (hardware description language) description into a bitstream and finally download it into an FPGA. Experiments and testing verify that this FPGA CAD works well and efficiently.
文摘The special issue“DNA and Inorganic Nanomaterials for Sensors and Energy”presents pioneering research addressing critical challenges in sensor technologies and energy storage systems.Four comprehensive reviews and six research articles collectively illustrate the advancements in material engineering and programmable DNA molecular design for developing high-performance systems.
