Code optimization techniques
Why optimize code?
Many real-time systems are used in applications:
Highly cost-sensitive.
Where energy consumption must be minimized.
Where physical space is restricted, ...
If the execution time or footprint is too large just buying a faster processor IS NOT a solution!
Code optimization allows to produce:
Faster programs:
Enables the use of slower processors, with lower cost, lower energy consumption.
Shorter programs:
Less memory, therefore lower costs and lower energy consumption.
Low-level vs high-level languages
Is using assembly the solution?
Assembly language programming.
It potentially allows a very high level of efficiency, but:
Difficult debugging and maintenance.
Long development cycle.
Processor dependent - non-portable code!
Requires long learning cycles.
Programming in high-level languages (e.g. “C”).
Easier to develop and maintain, relatively processor independent, etc. but:
Generated code potentially less efficient than code written in assembly.
“C” vs Assembly
Assembly programming, while potentially more efficient, in general, turns out not to be a good approach:
Focus on implementation details and not on fundamental algorithmic issues, where the best optimization opportunities usually reside.
E.g .: instead of spending hours building an “ultra-efficient” library for manipulating lists, it will be preferable to use “hash-tables”;
Good quality compilers produce more efficient code than the one produced by an ”average” programmer;
Then what is the best approach?
As in almost everything in life, “virtue is in the middle”, or otherwise, in the “war” between “C” and Assembly wins ... whoever chooses both!
General approach:
The programmer writes the application in a high-level language (e.g. ”C”).
The programmer uses tools to detect ”hot spots” (points where the application spends more resources).
The programmer analyzes the generated code and ...
Re-write critical sections in assembly,
and/or restructures high-level code to generate more suitable assembly code.
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