Browsing by Subject "Data access patterns"
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Item Open Access Dynamic thread and data mapping for NoC based CMPs(IEEE, 2009-07) Kandemir, M.; Öztürk, Özcan; Muralidhara, S. P.Thread mapping and data mapping are two important problems in the context of NoC (network-on-chip) based CMPs (chip multiprocessors). While a compiler can determine suitable mappings for data and threads, such static mappings may not work well for multithreaded applications that go through different execution phases during their execution, each phase with potentially different data access patterns than others. Instead, a dynamic mapping strategy, if its overheads can be kept low, may be a more promising option. In this work, we present dynamic (runtime) thread and data mappings for NoC based CMPs. The goal of these mappings is to reduce the distance between the location of the core that requests data and the core whose local memory contains that requested data. In our experiments, we evaluate our proposed thread mapping and data mapping in isolation as well as in an integrated manner. Copyright 2009 ACM.Item Open Access Hybrid stacked memory architecture for energy efficient embedded chip-multiprocessors based on compiler directed approach(IEEE, 2015-12) Onsori, Salman; Asad, A.; Öztürk, Özcan; Fathy, M.Energy consumption becomes the most critical limitation on the performance of nowadays embedded system designs. On-chip memories due to major contribution in overall system energy consumption are always significant issue for embedded systems. Using conventional memory technologies in future designs in nano-scale era causes a drastic increase in leakage power consumption and temperature-related problems. Emerging non-volatile memory (NVM) technologies are promising replacement for conventional memory structure in embedded systems due to its attractive characteristics such as near-zero leakage power, high density and non-volatility. Recent advantages of NVM technologies can significantly mitigate the issue of memory leakage power. However, they introduce new challenges such as limited write endurance and high write energy consumption which restrict them for adoption in modern memory systems. In this article, we propose a stacked hybrid memory system to minimize energy consumption for 3D embedded chip-multiprocessors (eCMP). For reaching this target, we present a convex optimization-based model to distribute data blocks between SRAM and NVM banks based on data access pattern derived by compiler. Our compiler-assisted hybrid memory architecture can achieve up to 51.28 times improvement in lifetime. In addition, experimental results show that our proposed method reduce energy consumption by 56% on average compared to the traditional memory design where single technology is used. © 2015 IEEE.