This paper presents a simple and efficient static analysis algorithm, combined with a region allocation policy for real-time embedded Java applications. The goal of this work is to provide a static analysis mechanism efficient enough to be integrated in an assisted-development environment, and to implement region-based memory management primitives suited for resource-limited platforms such as smart cards
Java uses automatic memory management, usually implemented as a garbage-collected heap. That lifts t...
Java uses automatic memory management, usually implemented as a garbage-collected heap. That lifts t...
AbstractThis paper describes a memory management discipline for programs that perform dynamic memory...
This paper presents a simple and efficient static analysis algorithm, combined with a region allocatio...
This paper presents a simple and efficient static analysis algorithm, combined with a region allocatio...
This paper presents a simple and efficient static analysis algorithm, combined with a region allocatio...
Abstract. This paper presents a simple and efficient static analysis algorithm, combined with a regi...
Abstract. This paper presents a simple and efficient static analysis al-gorithm, combined with a reg...
International audienceIn this paper we address the problem of dynamic memory management in real-time...
In this thesis, we address the problem of dynamic memory management in real-time embedded Java syste...
In this thesis, we address the problem of dynamic memory management in real-time embedded Java syste...
In this paper we address the problem of dynamic mem-ory management in real-time Java embedded system...
In this paper we address the problem of dynamic mem-ory management in real-time Java embedded system...
International audienceFrom a real-time perspective, the garbage collector (GC) introduces unpredicta...
Developing a real time, embedded system in Java requires awareness of memory behaviour in addition t...
Java uses automatic memory management, usually implemented as a garbage-collected heap. That lifts t...
Java uses automatic memory management, usually implemented as a garbage-collected heap. That lifts t...
AbstractThis paper describes a memory management discipline for programs that perform dynamic memory...
This paper presents a simple and efficient static analysis algorithm, combined with a region allocatio...
This paper presents a simple and efficient static analysis algorithm, combined with a region allocatio...
This paper presents a simple and efficient static analysis algorithm, combined with a region allocatio...
Abstract. This paper presents a simple and efficient static analysis algorithm, combined with a regi...
Abstract. This paper presents a simple and efficient static analysis al-gorithm, combined with a reg...
International audienceIn this paper we address the problem of dynamic memory management in real-time...
In this thesis, we address the problem of dynamic memory management in real-time embedded Java syste...
In this thesis, we address the problem of dynamic memory management in real-time embedded Java syste...
In this paper we address the problem of dynamic mem-ory management in real-time Java embedded system...
In this paper we address the problem of dynamic mem-ory management in real-time Java embedded system...
International audienceFrom a real-time perspective, the garbage collector (GC) introduces unpredicta...
Developing a real time, embedded system in Java requires awareness of memory behaviour in addition t...
Java uses automatic memory management, usually implemented as a garbage-collected heap. That lifts t...
Java uses automatic memory management, usually implemented as a garbage-collected heap. That lifts t...
AbstractThis paper describes a memory management discipline for programs that perform dynamic memory...
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