FIELD programmable gate arrays, ELECTRONIC apparatus & appliances, and APPLICATION-specific integrated circuits
Focuses on the upsurge in the use of field programmable gate arrays (FPGA) in electronic products. Availability of tools aimed at making it easier for traditional application specific integrated circuit designers to migrate to FPGA; Increased flexibility of FPGA; Advantages for engineers designing consumer-based end products containing one or more standards.
SILICON and APPLICATION-specific integrated circuits
Focuses on the design automation trends in silicon virtual prototyping. Function of the application specific integrated circuits; Design of the register transfer; Identification of the calibration curve.
ELECTRONIC industries, MARKETS, INTEGRATED circuits, DEMAND (Economic theory), APPLICATION-specific integrated circuits, and FIELD programmable gate arrays
Reports developments in electronic industry as of 2004. Expected growth of the market for structure ASICS; Appearance of embedded processors on more FPGAS; Expectation of a growing demand for automated and accelerated analog circuit migration.
APPLICATION-specific integrated circuits, FIELD programmable gate arrays, ORIGINAL equipment manufacturers, and COMPUTER industry
Comments on working designs for gaining advantages related to alternative application specific integrated circuits (ASIC) and the standard nonrecurring engineering charges over the structured ASIC and field programmable gate arrays (FPGA). Information revealed from the survey concerning the front-end tool flows for structured ASIC; Importance of the platform architecture in designing structured ASIC platform; Facts on designing and development for virtual prototyping of FPGA.
FIELD programmable gate arrays, ELECTRONIC circuit design, APPLICATION-specific integrated circuits, ELECTRONIC circuits, INTEGRATED circuits, INFORMATION technology, INTEGRATED circuits industry, and ELECTRONIC industries
The article features Synplicity's Synplify Premier which comprises a pushbutton physical-synthesis flow that purports to remedy the difficulties in timing closure. It discusses the tool's ability to perform placement and routing simultaneously with all iterations done within a given run. The use of Synplicity's graph-based physical synthesis is also discussed. The article describes the tool's output. It also considers the advantages offered by the tool for designers prototyping application specific integrated circuits in field programmable gate arrays.
The article informs that XPressArray II family of mask-programmed structured ASICs, crafted by AMI Semiconductors Inc., will basically take over when systems go into production. The company estimates that the family can reduce development costs by up to 70% with just a three- to four-week prototyping cycle. The structured arrays are fabricated in a 150-nm process. They use five levels of metal for customization. A sixth level is applied when flip-chip packaging is used. Logic functions can operate at clock speeds of up to 210 MHz.