High performance computing has been used in various fields of astrophysical research. But most of it is implemented on massively parallel systems (supercomputers) or graphical processing unit clusters. With the advent of multicore processors in the last decade, many serial software codes have been re-implemented in parallel mode to utilize the full potential of these processors. In this paper, we propose parallel processing recipes for multicore machines for astronomical data processing. The target audience are astronomers who are using Python as their preferred scripting language and who may be using PyRAF/IRAF for data processing. Three problems of varied complexity were benchmarked on three different types of multicore processors to demo...
Astronomy depends on ever-increasing computing power. Processor clock rates have plateaued, and incr...
Python is increasingly used in high-performance computing projects. It can be used either as a high-...
Multidimensional nucleosynthesis studies with hundreds of nuclei linked through thousands of nuclear...
Modern open source high-level languages such as R and Python are.increasingly playing an important r...
Nowadays, all computers we use are capable of parallel processing that saves time in compute-intensi...
Astronomy is rapidly approaching an impasse: very large datasets require remote or cloud-based paral...
In the last few years development of Python code for science and data reduction purposes has gained ...
Parallel computing has turned out to be the enabling technology to solve complex physical systems. H...
Would you like to obtain the best performance from your Python codes and get good scalability even i...
The use of the Python programming language for scientific computing has been gaining momentum in the...
Python has been adopted as programming language by a large number of scientific communities. Additio...
We have developed a Python replacement for the command language used in IRAF, the most widely used d...
We present the open source Astrophysical Multi-purpose Software Environment (AMUSE), a com...
Scientific workflows are a necessary tool for many scientific communities as they enable easy compos...
With diminishing gains in processing power from successive generations of hardware development, ther...
Astronomy depends on ever-increasing computing power. Processor clock rates have plateaued, and incr...
Python is increasingly used in high-performance computing projects. It can be used either as a high-...
Multidimensional nucleosynthesis studies with hundreds of nuclei linked through thousands of nuclear...
Modern open source high-level languages such as R and Python are.increasingly playing an important r...
Nowadays, all computers we use are capable of parallel processing that saves time in compute-intensi...
Astronomy is rapidly approaching an impasse: very large datasets require remote or cloud-based paral...
In the last few years development of Python code for science and data reduction purposes has gained ...
Parallel computing has turned out to be the enabling technology to solve complex physical systems. H...
Would you like to obtain the best performance from your Python codes and get good scalability even i...
The use of the Python programming language for scientific computing has been gaining momentum in the...
Python has been adopted as programming language by a large number of scientific communities. Additio...
We have developed a Python replacement for the command language used in IRAF, the most widely used d...
We present the open source Astrophysical Multi-purpose Software Environment (AMUSE), a com...
Scientific workflows are a necessary tool for many scientific communities as they enable easy compos...
With diminishing gains in processing power from successive generations of hardware development, ther...
Astronomy depends on ever-increasing computing power. Processor clock rates have plateaued, and incr...
Python is increasingly used in high-performance computing projects. It can be used either as a high-...
Multidimensional nucleosynthesis studies with hundreds of nuclei linked through thousands of nuclear...