Abstract is missing.
- Why is your web browser using so much memory?Robert O'Callahan. 1-2 [doi]
- Memory management for many-core processors with software configurable locality policiesJin Zhou, Brian Demsky. 3-14 [doi]
- The myrmics memory allocator: hierarchical, message-passing allocation for global address spacesSpyros Lyberis, Polyvios Pratikakis, Dimitrios S. Nikolopoulos, Martin Schulz, Todd Gamblin, Bronis R. de Supinski. 15-24 [doi]
- GPUs as an opportunity for offloading garbage collectionMartin Maas, Philip Reames, Jeffrey Morlan, Krste Asanovic, Anthony D. Joseph, John Kubiatowicz. 25-36 [doi]
- Barriers reconsidered, friendlier still!Xi Yang, Stephen M. Blackburn, Daniel Frampton, Antony L. Hosking. 37-48 [doi]
- Eliminating read barriers through procrastination and cleanlinessK. C. Sivaramakrishnan, Lukasz Ziarek, Suresh Jagannathan. 49-60 [doi]
- Scalable concurrent and parallel markBalaji Iyengar, Edward F. Gehringer, Michael Wolf, Karthikeyan Manivannan. 61-72 [doi]
- Down for the count? Getting reference counting back in the ringRifat Shahriyar, Stephen M. Blackburn, Daniel Frampton. 73-84 [doi]
- The Collie: a wait-free compacting collectorBalaji Iyengar, Gil Tene, Michael Wolf, Edward F. Gehringer. 85-96 [doi]
- new Scala() instance of Java: a comparison of the memory behaviour of Java and Scala programsAndreas Sewe, Mira Mezini, Aibek Sarimbekov, Danilo Ansaloni, Walter Binder, Nathan P. Ricci, Samuel Z. Guyer. 97-108 [doi]
- A generalized theory of collaborative cachingXiaoming Gu, Chen Ding. 109-120 [doi]
- Exploiting the structure of the constraint graph for efficient points-to analysisRupesh Nasre. 121-132 [doi]
- Identifying the sources of cache misses in Java programs without relying on hardware countersHiroshi Inoue, Toshio Nakatani. 133-142 [doi]