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Early gate arrays were low-performance and relatively large and expensive compared to state-of-the-art n-MOS technology then being used for custom chips. CMOS technology was being driven by very low-power applications such as watch chips and battery-operated portable instrumentation, not performance. They were also well under the performance of the existing dominant logic technology, [[transistor–transistor logic]]. However, there were many niche applications where they were invaluable, particularly in low power, size reduction, portable and aerospace applications as well as time-to-market sensitive products. Even these small arrays could replace a board full of transistor–transistor logic gates if performance were not an issue. A common application was combining a number of smaller circuits that were supporting a larger LSI circuit on a board was affectionately known as "garbage collection". And the low cost of development and custom tooling made the technology available to the most modest budgets. Early gate arrays played a large part in the [[Citizens band radio#1970s popularity|CB craze in the 1970s]] as well as a vehicle for the introduction of other later mass-produced products such as modems and cell phones.
By the early 1980s, gate arrays were starting to move out of their niche applications to the general market. Several factors in technology and markets were converging. Size and performance were increasing; automation was maturing; the technology became "hot" when in 1981 IBM introduced its new flagship [[IBM 308X|3081]] mainframe with CPU comprising gate arrays
In 1981, [[Wilfred Corrigan]], Bill O'Meara, Rob Walker, and Mitchell "Mick" Bohn founded [[LSI Corporation|LSI Logic]].<ref>{{Cite book|url=http://www.computerhistory.org/collections/catalog/102746194|title=LSI Logic oral history panel |publisher=Computer History Museum|date=30 November 2011 |access-date=2018-01-28}}</ref> Their initial intention was to commercialize emitter coupled logic gate arrays, but discovered the market was quickly moving towards CMOS. Instead, they licensed CDI's silicon gate CMOS line as a second source. This product established them in the market while they developed their own proprietary 5-micron 2-layer metal line. This latter product line was the first commercial gate array product amenable to full automation. LSI developed a suite of proprietary development tools that allowed users to design their own chip from their own facility by remote login to LSI Logic's system.
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