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Creators/Authors contains: "Kundu, Sandip"

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  1. ; ; ; (, IEEE)
    Accepted Manuscript Full Text Available
  2. ; ; ; (, IEEE)
    Full Text Available 
  3. ; ; (, Proceedings)
    Accepted Manuscript Full Text Available
  4. ; ; ; ; ; ; (, ACM SIGPLAN International Symposium on Memory Management)
    The NUMA architecture accommodates the hardware trend of an increasing number of CPU cores. It requires the coop- eration of memory allocators to achieve good performance for multithreaded applications. Unfortunately, existing allo- cators do not support NUMA architecture well. This paper presents a novel memory allocator – NUMAlloc , that is de- signed for the NUMA architecture. NUMAlloc is centered on a binding-based memory management. On top of it, NUMAl- loc proposes an “origin-aware memory management” to ensure the locality of memory allocations and deallocations, as well as a method called “incremental sharing” to balance the performance benefits and memory overhead of using transparent huge pages. According to our extensive evalua- tion, NUMAlloc hasthebestperformanceamongallevaluated allocators, running 15.7% faster than the second-best allo- cator (mimalloc), and 20.9% faster than the default Linux allocator with reasonable memory overhead. NUMAlloc is also scalable to 128 threads and is ready for deployment. 
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    Full Text Available 
  5. ; ; ; ; ; ; ; (, ACM)
    The NUMA architecture accommodates the hardware trend of an increasing number of CPU cores. It requires the cooperation of memory allocators to achieve good performance for multithreaded applications. Unfortunately, existing allocators do not support NUMA architecture well. This paper presents a novel memory allocator – NUMAlloc, that is designed for the NUMA architecture. is centered on a binding-based memory management. On top of it, proposes an “origin-aware memory management” to ensure the locality of memory allocations and deallocations, as well as a method called “incremental sharing” to balance the performance benefits and memory overhead of using transparent huge pages. According to our extensive evaluation, NUMAlloc has the best performance among all evaluated allocators, running 15.7% faster than the second-best allocator (mimalloc), and 20.9% faster than the default Linux allocator with reasonable memory overhead. NUMAlloc is also scalable to 128 threads and is ready for deployment. 
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  6. ; ; ; ; ; (, IEEE Journal on Emerging and Selected Topics in Circuits and Systems)
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