Add to ORKGTuning compiler optimization for a given application of particular computer architecture is not an easy task, because modern computer architecture reaches higher levels of compiler optimization. These modern compilers usually provide a larger number of optimization techniques. By applying all these techniques to a given application degrade the program performance as well as more time consuming. The performance of the program measured by time and space depends on the machine architecture, problem domain and the settings of the compiler. The brute-force method of trying all possible combinations would be infeasible, as it’s complexity O(2n) even for “n ” on-off optimizations. Even though many existing techniques are available to search the sp...
Compile-time optimizations generally improve program performance. Nevertheless, degradations caused ...
Modern compilers implement a number of optimization switches and they must be configured carefully i...
International audienceTuning compiler optimizations for rapidly evolving hardwaremakes porting and e...
This book explores break-through approaches to tackling and mitigating the well-known problems of co...
Designing new microprocessors is a time consuming task. Architects rely on slow simulators to evalua...
Cavazos, JohnThe number of optimizations that are available in modern day compilers are in their hun...
The end of Moore's law is driving the search for new techniques to improve system performance as app...
Since the mid-1990s, researchers have been trying to use machine-learning-based approaches to solve ...
Tuning hardwired compiler optimizations for rapidly evolving hardware makes porting an optimizing co...
Many optimisations in modern compilers have been traditionally based around using analysis to examin...
Compile-time optimizations generally improve program performance. Nevertheless, degradations caused ...
Compiler writers are expected to create effective and inexpensive solutions to NP-hard prob-lems suc...
Production compilers have achieved a high level of maturity in terms of generating efficient code. C...
Tuning compiler optimizations for rapidly evolving hardware makes porting and extending an optimizin...
Compile-time optimizations generally improve program performance. Nevertheless, degradations caused ...
Modern compilers implement a number of optimization switches and they must be configured carefully i...
International audienceTuning compiler optimizations for rapidly evolving hardwaremakes porting and e...
This book explores break-through approaches to tackling and mitigating the well-known problems of co...
Designing new microprocessors is a time consuming task. Architects rely on slow simulators to evalua...
Cavazos, JohnThe number of optimizations that are available in modern day compilers are in their hun...
The end of Moore's law is driving the search for new techniques to improve system performance as app...
Since the mid-1990s, researchers have been trying to use machine-learning-based approaches to solve ...
Tuning hardwired compiler optimizations for rapidly evolving hardware makes porting an optimizing co...
Many optimisations in modern compilers have been traditionally based around using analysis to examin...
Compile-time optimizations generally improve program performance. Nevertheless, degradations caused ...
Compiler writers are expected to create effective and inexpensive solutions to NP-hard prob-lems suc...
Production compilers have achieved a high level of maturity in terms of generating efficient code. C...
Tuning compiler optimizations for rapidly evolving hardware makes porting and extending an optimizin...
Compile-time optimizations generally improve program performance. Nevertheless, degradations caused ...
Modern compilers implement a number of optimization switches and they must be configured carefully i...
International audienceTuning compiler optimizations for rapidly evolving hardwaremakes porting and e...