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Green Hills Compilers are available for a variety of and bit processors including:. Green Hills Compilers are available for Windows and Linux hosts. To help you avoid common programming mistakes, the Green Hills Compilers provide automated enforcement of clean coding conventions. GHS Standard Mode is based on our long history of successfully deployed software and on our collaboration with customers who have achieved the same high level of reliability.
DoubleCheck , Green Hills Software's integrated static analyzer, allows you to identify programming errors even before running your program and find bugs that may never show up during regular testing.
Unlike traditional static analysis tools that run separately from the compiler, DoubleCheck is built in to our compiler, which results in these benefits:. Run-time error checking complements DoubleCheck by finding bugs that cannot be identified by static analysis alone.
Especially onerous bugs may remain hidden for a long time before failure. With run-time error checking, you're alerted to the cause of the problem when it happens. Eliminating a bug is often trivial when you're looking directly at it. You don't always need a faster processor to meet increasing performance requirements.
Our superior compiler optimizations can be tuned to get the most out of whatever chip you use. How much money would you save if you could use a lower-cost processor to meet the same real-time requirements?
Search all fact sheets:. Example: A worker lifts 10 kg boxes from the conveyor to the cart ten times every minute for two-hours.
From the tables, the vertical multiplier VN was greater than 70 cm value of 0. The difference between a processor's internal and external clock speeds is one limitation on its performance.
Another is the number of clock ticks it takes to execute an instruction. While some instructions can be completed in one clock tick, it could, for instance, take four ticks to complete a multiplication operation. This would turn a processor that can, for instance, add at 4 GHz into one that multiplies at an effective speed of 1 GHz.
The three factors identified here work together to determine how fast a given processor will operate. Sixty-four-bit chips work on twice as much data at once as bit chips, giving them a significant performance boost. Processors with faster external clocks can also exchange data with the computer faster than those with slower external clocks.
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