If we need to, we can do the graphics in DOS.” “Windows gives a nice front end,” he said, “but it has all that overhead. Joiner said that internal experiments have shown that Windows can only reliably control machines processing about one item per second – less than half the usual speed of Longford’s slower systems. When that task is the real-time control of high-speed equipment, Windows just can’t cut it. It’s perfectly suited to the task at hand.” “The environment is all right, it’s easy to use, and the libraries are standard – we have run into a few things with Visual C++ (libraries). “Unequivocally, it is the best DOS compiler,” he stated.
Borland c 3.1 software#
That somewhat biased sentiment was echoed by one of Longford’s software engineers, Jeff Joiner. Users have called it “the perfect compiler.” Released in 1992, it has since been supplanted by 32-bit products (Borland currently offers version 5.5 of the 32-bit compiler as a free download), but even Borland Canada’s director of technical services Robert Doyle immediately acknowledged, “It was the best.” So, for close to 10 years, Longford’s programmers have written their custom systems using Borland C++ 3.1 for DOS. There’s little room for error, and no place for software that can’t keep up. The equipment packages everything from unique sets of sports cards, created on the fly by randomizing which card dispensers activate, to health cards whose magnetic stripes have to be read as they zip by so they can be matched with custom-printed mailing backers. And each item must get individual handling. Scarborough, Ont.-based Longford builds packaging and inserting machines that bop along at a brisk 160 to 400 items per minute. When the folks at Longford Equipment International Ltd.
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