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Testing very-large-scale integration circuits with a high fault coverage is a difficult task because of complexity.

A pioneering and well-written textbook, it has been used in Very-large-scale integration integrated circuit education all over the world for decades.

The name is taken from the term very-large-scale integration, the current state of the art when WSI was being developed.

Periodic graphs have also been studied in modeling very-large-scale integration (VLSI) circuits.

There he learned of Carver Mead's work on very-large-scale integration and become interested in applying parallel computing techniques to large-scale scientific simulations.

There is also a thread of interest in the very-large-scale integration (VLSI) community for using these crystal nets as circuit designs.

Very-large-scale integration (VLSI) lithography uses projection systems.

The increasing speed and complexity of today's designs implies a significant increase in the power consumption of very-large-scale integration (VLSI) chips.

In particular, Lynn Conway was using workstations to design very-large-scale integration (VLSI) circuits.

Very-large-scale integration (VLSI)

Very-large-scale integration (VLSI) is the process of creating integrated circuits by combining thousands of transistors into a single chip.

Bit-level parallelism is a form of parallel computing based on increasing processor word size, depending on very-large-scale integration (VLSI) technology.

Magic is a Very-large-scale integration layout tool originally written by John Ousterhout and his graduate students at UC Berkeley during the 1980s.

However, two-level logic circuits are of limited importance in a very-large-scale integration (VLSI) design; most designs use multiple levels of logic.

Practical results of the institute are embedded into the developed architectures and very-large-scale integration devices, operating systems, real-time operating systems (like OS2000) and microelectronics components.

In particular, they called for the use of wireless, noninvasive methods of neuronal activity detection, either utilizing microelectronic very-large-scale integration, or based on synthetic biology rather than microelectronics.

Symbolics continued to develop the 3600 family and its operating system, Genera (operating system), and produced the Ivory, a very-large-scale integration implementation of the Symbolics architecture.

In 2000, the first very-large-scale integration (VLSI) NEMS device was demonstrated by researchers from IBM.

Due to the advancements of Very-large-scale integration (VLSI) technology, the cost of the equipment associated with a DSL deployment lowered significantly.

With increasing miniaturization the probability of failure due to electromigration increases in Very-large-scale integration and Ultra-large-scale integration circuits because both the power density and the current density increase.

While Geometry Pipelines were originally implemented in software, they have become highly amenable to hardware implementation, particularly since the advent of very-large-scale integration (VLSI) in the early 1980s.

Usual tasks involving computer engineers include writing software and firmware for embedded microcontrollers, designing Very-large-scale integration chips, designing analog sensors, designing mixed signal circuit boards, and designing operating systems.

The V-11 was part of the Scorpio program, which aimed at providing DEC with the ability to develop and fabricate very-large-scale integration (VLSI) integrated circuits (ICs).

The Geometry Engine was the first very-large-scale integration (VLSI) implementation of a geometry pipeline, specialized hardware that accelerated the "inner-loop" geometric computations needed to display three-dimensional images.

Metallic carbon nanotubes have aroused research interest for their applicability as very-large-scale integration (VLSI) interconnects because of their high thermal stability, high thermal conductivity and large current carrying capacity.