Software caching techniques and hardware optimizations for on-chip local memories

Tesis doctoral de Nikola Vujic

Despite the fact that the most viable l1 memories in processors are caches, on-chip local memories have been a great topic of consideration lately. Local memories are an interesting design option due to their many benefits: less area occupancy, reduced energy consumption and fast and constant access time. These benefits are especially interesting for the design of modern multicore processors since power and latency are important assets in computer architecture today. Also, local memories do not generate coherency traffic which is important for the scalability of the multicore systems. unfortunately, local memories have not been well accepted in modern processors yet, mainly due to their poor programmability. Systems with on-chip local memories do not have hardware support for transparent data transfers between local and global memories, and thus ease of programming is one of the main impediments for the broad acceptance of those systems. This thesis addresses software and hardware optimizations regarding the programmability, and the usage of the on-chip local memories in the context of both single-core and multicore systems. software optimizations are related to the software caching techniques. Software cache is a robust approach to provide the user with a transparent view of the memory architecture; but this software approach can suffer from poor performance. In this thesis, we start optimizing traditional software cache by proposing a hierarchical, hybrid software-cache architecture. Afterwards, we develop few optimizations in order to speedup our hybrid software cache as much as possible. As the result of the software optimizations we obtain that our hybrid software cache performs from 4 to 10 times faster than traditional software cache on a set of nas parallel benchmarks. we do not stop with software caching. We cover some other aspects of the architectures with on-chip local memories, such as the quality of the generated code and its correspondence with the quality of the buffer management in local memories, in order to improve performance of these architectures. Therefore, we run our research till we reach the limit in software and start proposing optimizations on the hardware level. Two hardware proposals are presented in this thesis. One is about relaxing alignment constraints imposed in the architectures with on-chip local memories and the other proposal is about accelerating the management of local memories by providing hardware support for the majority of actions performed in our software cache.

 

Datos académicos de la tesis doctoral «Software caching techniques and hardware optimizations for on-chip local memories«

  • Título de la tesis:  Software caching techniques and hardware optimizations for on-chip local memories
  • Autor:  Nikola Vujic
  • Universidad:  Politécnica de catalunya
  • Fecha de lectura de la tesis:  05/06/2012

 

Dirección y tribunal

  • Director de la tesis
    • Marc González Tallada
  • Tribunal
    • Presidente del tribunal: manuel Prieto matias
    • dimitris s. Nikolopoulos (vocal)
    • (vocal)
    • (vocal)

 

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