The areas in which programs are most unlikely to be portable are discussed. Attention is paid to programming languages, operating systems, file systems, I/O device characteristics, machine architecture and documentation. Pitfalls are indicated and in some cases solutions are suggested. Copyright © 1978 John Wiley & Sons, Lt
Program portability is an important software engineering consideration. However, when high-level lan...
Today's world of scientific software for High Energy Physics (HEP) is powered by x86 code, while the...
Can current programming models and performance portability layers (PPLs) support Exascale systems
Portability is becoming universally recognized as a desirable attribute for most software products, ...
Software portability is often cited as desirable, but rarely receives systematic attention in the so...
This thesis represents the submission to the Open University for the degree of Master of Philosophy....
Programming even in a folly standardized high-level language requires great care if portable program...
The portability of educational software is defined as the feasibility of software usage, with or wit...
Large amounts of time and money are currently being spent in transferring computer programs from one...
In the software world portability means power. The more operating environments you can support out o...
When attempting to get a software product to reach a larger part of the market, portability is a key...
Portability is recognized as a highly desirable characteristic of contemporary software design. Howe...
Computer hardware and software evolve very fast. With the advent of chip-multiprocessors and symmetr...
Personal computers offer the potential for significantly easing the tasks of engineers and managers....
In the last years, the portability term has enriched itself with new meanings: research communities ...
Program portability is an important software engineering consideration. However, when high-level lan...
Today's world of scientific software for High Energy Physics (HEP) is powered by x86 code, while the...
Can current programming models and performance portability layers (PPLs) support Exascale systems
Portability is becoming universally recognized as a desirable attribute for most software products, ...
Software portability is often cited as desirable, but rarely receives systematic attention in the so...
This thesis represents the submission to the Open University for the degree of Master of Philosophy....
Programming even in a folly standardized high-level language requires great care if portable program...
The portability of educational software is defined as the feasibility of software usage, with or wit...
Large amounts of time and money are currently being spent in transferring computer programs from one...
In the software world portability means power. The more operating environments you can support out o...
When attempting to get a software product to reach a larger part of the market, portability is a key...
Portability is recognized as a highly desirable characteristic of contemporary software design. Howe...
Computer hardware and software evolve very fast. With the advent of chip-multiprocessors and symmetr...
Personal computers offer the potential for significantly easing the tasks of engineers and managers....
In the last years, the portability term has enriched itself with new meanings: research communities ...
Program portability is an important software engineering consideration. However, when high-level lan...
Today's world of scientific software for High Energy Physics (HEP) is powered by x86 code, while the...
Can current programming models and performance portability layers (PPLs) support Exascale systems