Over 25 implementations of different functional languages are benchmarked using the same program, a floatingpoint intensive application taken from molecular biology. The principal aspects studied are compile time and execution time for the various implementations that were benchmarked. An important consideration is how the program can be modified and tuned to obtain maximal performance on each language implementation. With few exceptions, the compilers take a significant amount of time to compile this program, though most compilers were faster than the then current GNU C compiler (GCC version 2.5.8). Compilers that generate C or Lisp are often slower than those that generate native code directly: the cost of compiling the intermediate form ...
The article deals with a comparative analysis of the speed of code execution written in the C langua...
This dataset contains the data on the last set of pre-run benchmarks of the tool Theta on SV-COMP 20...
We address computational reproducibility, with specific emphasis on compilers, compiler optimization...
Over 25 implementations of different functional languages are benchmarked using the same program, a ...
Over 25 implementations of different functional languages are benchmarked using the same program, a ...
Five implementations of different lazy functional languages are compared using a common benchmark of...
Six implementations of different lazy functional languages are compared using a common benchmark of ...
: is a system for parallel evaluation of lazy functional programs implemented on a Sequent Symmetry....
Comparing the performance of programming languages is difficult because they differ in many aspects ...
This thesis describes a complete compiler back-end for lazy functional languages, which uses various...
Profiling tools, which measure and display the dynamic space and time behaviour of programs, are ess...
This paper surveys sequential and parallel implementation techniques for functional programming lang...
Compiler generation is often emphasized as being the most important application of partial evaluatio...
A compile-time analysis technique is developed to derive the probability with which a user-defined f...
This paper presents a novel benchmark synthesis framework with three key features. First, it generat...
The article deals with a comparative analysis of the speed of code execution written in the C langua...
This dataset contains the data on the last set of pre-run benchmarks of the tool Theta on SV-COMP 20...
We address computational reproducibility, with specific emphasis on compilers, compiler optimization...
Over 25 implementations of different functional languages are benchmarked using the same program, a ...
Over 25 implementations of different functional languages are benchmarked using the same program, a ...
Five implementations of different lazy functional languages are compared using a common benchmark of...
Six implementations of different lazy functional languages are compared using a common benchmark of ...
: is a system for parallel evaluation of lazy functional programs implemented on a Sequent Symmetry....
Comparing the performance of programming languages is difficult because they differ in many aspects ...
This thesis describes a complete compiler back-end for lazy functional languages, which uses various...
Profiling tools, which measure and display the dynamic space and time behaviour of programs, are ess...
This paper surveys sequential and parallel implementation techniques for functional programming lang...
Compiler generation is often emphasized as being the most important application of partial evaluatio...
A compile-time analysis technique is developed to derive the probability with which a user-defined f...
This paper presents a novel benchmark synthesis framework with three key features. First, it generat...
The article deals with a comparative analysis of the speed of code execution written in the C langua...
This dataset contains the data on the last set of pre-run benchmarks of the tool Theta on SV-COMP 20...
We address computational reproducibility, with specific emphasis on compilers, compiler optimization...