Search for dissertations about: "Hybrid Main Memory"
Showing result 1 - 5 of 22 swedish dissertations containing the words Hybrid Main Memory.
-
1. Towards Large-Capacity and Cost-Effective Main Memories
Abstract : Large, multi-terabyte main memories per processor socket are instrumental to address the continuously growing performance demands of domains like high-performance computing, databases, and big data. It is an important objective to design large-capacity main memories in a way that maximizes their cost-effectiveness and at the same time minimizes performance losses caused by cost-effective tradeoffs. READ MORE
-
2. High Performance Hybrid Memory Systems with 3D-stacked DRAM
Abstract : The bandwidth of traditional DRAM is pin limited and so does not scale well with the increasing demand of data intensive workloads. 3D-stacked DRAM can alleviate this problem providing substantially higher bandwidth to a processor chip. READ MORE
-
3. Towards Low-Complexity Scalable Shared-Memory Architectures
Abstract : Plentiful research has addressed low-complexity software-based shared-memory systems since the idea was first introduced more than two decades ago. However, software-coherent systems have not been very successful in the commercial marketplace. We believe there are two main reasons for this: lack of performance and/or lack of binary compatibility. READ MORE
-
4. A Taxonomy and Design Methodology for Hybrid Memory Systems
Abstract : The number of concurrently executing processes and their memory demandin multicore systems continue to grow. Larger and still fast mainmemory is needed for meeting the demand and avoiding an increase inbacking store accesses that are much slower and less energy efficientthan main memory accesses. READ MORE
-
5. Techniques for Enhancing the Efficiency of Transactional Memory Systems
Abstract : Transactional Memory (TM) is an emerging programming paradigm that drastically simplifies the development of concurrent applications by relieving programmers from a major source of complexity: how to ensure correct, yet efficient, synchronization of concurrent accesses to shared memory. Despite the large body of research devoted to this area, existing TM systems still suffer from severe limitations that hamper both their performance and energy efficiency. READ MORE