Citations: A real-time garbage collector with low overhead and consistent utilization

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Bacon, D. F., Cheng, P., and Rajan, V. T. A real-time garbage collector with low overhead and consistent utilization. In Proceedings of the 30th Annual ACM SIGPLAN-SIGACT Symposium on Principles of Programming Languages (New Orleans, Louisiana, Jan. 2003), pp. 285--298.

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Enhancing Real-Time CORBA via Optimization Strategies.. - Krishna, Klefstad.. (Correct)

....Parsers HEAP MEMORY CDR Stream UpCall Objects Transport Acceptor SCOPED MEMORY Object Adapter GIOP Messaging Other ORB Components Figure 8: The ZEN Real time ORB Core Architecture plications with stringent real time requirements. Although there have been recent advances in GC algorithms [28, 29], the Java GC can preempt any thread in the system, leading to the thread incurring unacceptably long preemption latencies. A key goal of ZEN is therefore to avoid allocating critical ORB components in heap memory to reduce the number of GC sweeps. # Compliance with the CORBA specification. To p ....

D. F. Bacon, P. Cheng, and V. T. Rajan, "A real-time garbage collector with low overhead and consistent utilization," in Proceedings of the 30th ACM SIGPLAN-SIGACT symposium on Principles of programming languages, pp. 285--298, ACM Press, 2003. 14

Ownership Types for Safe Region-Based Memory.. - Boyapati.. (2003) (4 citations) (Correct)

....remove RTSJ runtime checks [41] However, the analysis is e#ective only for programs in which no object escapes the computation that allocated it. Our type system is more flexible: we allow a computation to allocate objects in regions that may outlive the computation. Real time garbage collection [5, 4] provides an alternative to region based memory management for real time programs. It has the advantage that programmers do not have to explicitly deal with memory management. The basic idea is to perform a fixed amount of garbage collection activity for a given amount of allocation. With ....

D. F. Bacon, P. Cheng, and V. T. Rajan. A real-time garbage collector with low overhead and consistent utilization. In Principles of Programming Languages (POPL), January 2003.

Efficient Memory-Reference Checks for Real-time Java - Corsaro, Cytron (2003) (Correct)

....approach, but most of Sponsored by DARPA under contract F33615 00 C 1697 the precise garbage collectors known in literature [10] are not suitable for real time systems. Recently, garbage collection algorithms have been described that reasonably bound the delay experienced by an application [5, 2]. However, those algorithms require an extra processor, extra heap space, or both luxuries that may not be available on a cost competitive, embedded, real time system. Thus, the expert group that designed the Real Time Specification for Java (RTSJ) 4] decided to provide a memory management ....

D. F. Bacon, P. Cheng, and V. T. Rajan. A real-time garbage collector with low overhead and consistent utilization. In Proceedings of the 30th ACM SIGPLAN-SIGACT symposium on Principles of programming languages, pages 285--298. ACM Press, 2003.

Ownership Types for Safe Region-Based Memory.. - Boyapati.. (2003) (4 citations) (Correct)

....remove RTSJ runtime checks [41] However, the analysis is e ective only for programs in which no object escapes the computation that allocated it. Our type system is more exible: we allow a computation to allocate objects in regions that may outlive the computation. Real time garbage collection [5, 4] provides an alternative to region based memory management for real time programs. It has the advantage that programmers do not have to explicitly deal with memory management. The basic idea is to perform a xed amount of garbage collection activity for a given amount of allocation. With xed size ....

D. F. Bacon, P. Cheng, and V. T. Rajan. A real-time garbage collector with low overhead and consistent utilization. In Principles of Programming Languages (POPL), January 2003.

The Metronome: A Simpler Approach to Garbage - Collection In Real-Time Self-citation (Bacon Cheng Rajan) (Correct)

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Bacon, D. F., Cheng, P., and Rajan, V. T. A real-time garbage collector with low overhead and consistent utilization. In Proceedings of the 30th Annual ACM SIGPLAN-SIGACT Symposium on Principles of Programming Languages (New Orleans, Louisiana, Jan. 2003), pp. 285--298.

Proc. of the Conference on Languages, Compilers, and.. - Controlling.. Self-citation (Bacon Cheng Rajan) (Correct)

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BACON, D. F., CHENG, P., AND RAJAN, V. T. A realtime garbage collector with low overhead and consistent utilization. In Proceedings of the 30th Annual ACM SIGPLANSIGACT Symposium on Principles of Programming Languages (New Orleans, Louisiana, Jan. 2003), pp. 285--298.

Oil and Water? High Performance Garbage Collection in.. - Blackburn, Cheng.. (2004) Self-citation (Cheng) (Correct)

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D. F. Bacon, P. Cheng, and V. T. Rajan. A real-time garbage collector with low overhead and consistent utilization. In ACM Symposium on the Principles of Programming Languages, pages 285--294, New Orleans, LA, Jan. 2003.

Controlling Fragmentation and Space Consumption in the.. - Bacon, Cheng, Rajan (2003) (6 citations) Self-citation (Bacon Cheng Rajan) (Correct)

The Metronome: A Simpler Approach to Garbage Collection in.. - Bacon, Cheng, Rajan (2003) (2 citations) Self-citation (Bacon Cheng Rajan) (Correct)

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BACON, D. F., CHENG, P., AND RAJAN, V. T. A real-time garbage collector with low overhead and consistent utilization. In Proceedings of the 30th Annual ACM SIGPLANSIGACT Symposium on Principles of Programming Languages (New Orleans, Louisiana, Jan. 2003), pp. 285--298.

Barriers: Friend or Foe? - Stephen Blackburn Department (Correct)

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BACON, D. F., CHENG, P., AND RAJAN, V. T. A real-time garbage collector with low overhead and consistent utilization. In Conference Record of the ACM Symposium on Principles of Programming Languages (New Orleans, Lousiana, Jan.). ACM SIGPLAN Notices 38, 1 (Jan. 2003), pp. 285--298.

Bell: Bit-Encoding Online Memory Leak Detection - Michael Bond Kathryn (Correct)

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D. Bacon, P. Cheng, and V. Rajan. A Real-Time Garbage Collector with Low Overhead and Consistent Utilization. In Symposium on Principles of Programming Languages, pages 285--298, 2003.

Using Page Residency to Balance Tradeoffs - In Tracing Garbage (Correct)

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D. F. Bacon, P. Cheng, and V. T. Rajan. A real-time garbage collector with low overhead and consistent utilization. In Proceedings of the 30th ACM SIGPLAN-SIGACT Symposium on Principles of Programming Languages, pages 285--298. ACM Press, 2003.

SafeJava: A Unified Type System for Safe Programming - Boyapati (2004) (2 citations) (Correct)

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David F. Bacon, Perry Cheng, and V. T. Rajan. A real-time garbage collector with low overhead and consistent utilization. In Principles of Programming Languages (POPL), January 2003. 155

The Space Cost of Lazy Reference Counting - Boehm (2004) (Correct)

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D. F. Bacon, P. Cheng, and V. T. Rajan. A realtime garbage collector with low overhead and consistent utilization. In Conference Record of the Thirtieth Annual ACM Symposium on Principles of Programming Languages, pages 285-298, January 2003.

Ulterior Reference Counting: - Fast Garbage Collection (2003) (Correct)

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D. F. Bacon, P. Cheng, and V. T. Rajan. A realtime garbage collector with low overhead and consistent utilization. In POPL 2003.

On the Development of Dynamic Real-Time Applications in the RTSJ - .. - Borg (2004) (Correct)

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D. F. Bacon, P. Cheng, and V. T. Rajan, "A Real-time Garbage Collector with Low Overhead and Consistent Utilization," in Proceedings of the 30th Annual ACM SIGPLANSIGACT Symposium on Principles of Programming Languages, New Orleans, Louisiana, Jan. 2003, pp. 285--298.

Heap Compression for Memory-Constrained Java Environments - Chen, Kandemir.. (2003) (Correct)

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D. F. Bacon, P. Cheng, and V. T. Rajan. A real-time garbage collector with low overhead and consistent utilization. In the 30th ACM SIGPLAN-SIGACT Symposium on Principles of Programming Languages (POPL'03), pages 285--298, New Orleans, Lousiana, USA, Jan. 2003.

SafeJava: A Unified Type System for Safe Programming - Boyapati (2004) (2 citations) (Correct)

Short Presentation: - Incremental Copying Collection (2004) (Correct)

Memory Safety Without Runtime Checks or Garbage Collection - Dhurjati, Kowshik, Adve.. (2003) (7 citations) (Correct)

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D. Bacon, P. Cheng, and V. Rajan. A real-time garbage collector with low overhead and consisitent utilization. In Proc. 30th ACM Symp. Principles of Programming Languages (POPL03), Jan. 2003.

Ulterior Reference Counting: - Fast Garbage Collection (2003) (Correct)

No context found.

D. F. Bacon, P. Cheng, and V. T. Rajan. A realtime garbage collector with low overhead and consistent utilization. In POPL 2003.

Exploring the Barrier to Entry - Incremental.. - Cheadle, Field.. (Correct)

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D.F. Bacon, P. Cheng, and V.T. Rajan. A Real-time Garbage Collector with Low Overhead and Consistent Utilization In ACM SIGPLAN Symposium on Principles of Programming Languages , pages 285--98, 2003.

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