Search for dissertations about: "Zhonghai Lu"
Showing result 1 - 5 of 16 swedish dissertations containing the words Zhonghai Lu.
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1. Design and Analysis of On-Chip Communication for Network-on-Chip Platforms
Abstract : Due to the interplay between increasing chip capacity and complex applications, System-on-Chip (SoC) development is confronted by severe challenges, such as managing deep submicron effects, scaling communication architectures and bridging the productivity gap. Network-on-Chip (NoC) has been a rapidly developed concept in recent years to tackle the crisis with focus on network-based communication. READ MORE
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2. Using wormhole switching for networks on chip : feasibility analysis and microarchitecture adaptation
Abstract : Network-on-Chip (NoC) is proposed as a systematic approach to address future System-on-Chip (SoC) design difficulties. Due to its good performance and small buffering requirement, wormhole switching is being considered as a main network flow control mechanism for on-chip networks. READ MORE
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3. Adaptive Coarse-grain Reconfigurable Protocol Processing Architecture
Abstract : Digital signal processors and their variants have provided significant benefit to efficient implementation of Physical Layer (PHY) of Open Systems Interconnection (OSI) model’s seven-layer protocol processing stack compared to the general purpose processors. Protocol processors promise to provide a similar advantage for implementing higher layers in the (OSI)'s seven-layer model. READ MORE
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4. Efficient Memory Access and Synchronization in NoC-based Many-core Processors
Abstract : In NoC-based many-core processors, memory subsystem and synchronization mechanism are always the two important design aspects, since mining parallelism and pursuing higher performance require not only optimized memory management but also efficient synchronization mechanism. Therefore, we are motivated to research on efficient memory access and synchronization in three topics, namely, efficient on-chip memory organization, fair shared memory access, and efficient many-core synchronization. READ MORE
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5. SiLago: Enabling System Level Automation Methodology to Design Custom High-Performance Computing Platforms : Toward Next Generation Hardware Synthesis Methodologies
Abstract : .... READ MORE