1,592 research outputs found
Speculative Staging for Interpreter Optimization
Interpreters have a bad reputation for having lower performance than
just-in-time compilers. We present a new way of building high performance
interpreters that is particularly effective for executing dynamically typed
programming languages. The key idea is to combine speculative staging of
optimized interpreter instructions with a novel technique of incrementally and
iteratively concerting them at run-time.
This paper introduces the concepts behind deriving optimized instructions
from existing interpreter instructions---incrementally peeling off layers of
complexity. When compiling the interpreter, these optimized derivatives will be
compiled along with the original interpreter instructions. Therefore, our
technique is portable by construction since it leverages the existing
compiler's backend. At run-time we use instruction substitution from the
interpreter's original and expensive instructions to optimized instruction
derivatives to speed up execution.
Our technique unites high performance with the simplicity and portability of
interpreters---we report that our optimization makes the CPython interpreter up
to more than four times faster, where our interpreter closes the gap between
and sometimes even outperforms PyPy's just-in-time compiler.Comment: 16 pages, 4 figures, 3 tables. Uses CPython 3.2.3 and PyPy 1.
An overview of very high level software design methods
Very High Level design methods emphasize automatic transfer of requirements to formal design specifications, and/or may concentrate on automatic transformation of formal design specifications that include some semantic information of the system into machine executable form. Very high level design methods range from general domain independent methods to approaches implementable for specific applications or domains. Applying AI techniques, abstract programming methods, domain heuristics, software engineering tools, library-based programming and other methods different approaches for higher level software design are being developed. Though one finds that a given approach does not always fall exactly in any specific class, this paper provides a classification for very high level design methods including examples for each class. These methods are analyzed and compared based on their basic approaches, strengths and feasibility for future expansion toward automatic development of software systems
The Mystro system: A comprehensive translator toolkit
Mystro is a system that facilities the construction of compilers, assemblers, code generators, query interpretors, and similar programs. It provides features to encourage the use of iterative enhancement. Mystro was developed in response to the needs of NASA Langley Research Center (LaRC) and enjoys a number of advantages over similar systems. There are other programs available that can be used in building translators. These typically build parser tables, usually supply the source of a parser and parts of a lexical analyzer, but provide little or no aid for code generation. In general, only the front end of the compiler is addressed. Mystro, on the other hand, emphasizes tools for both ends of a compiler
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