1. Basic Pipelining and Simple RISC Processors.- 1.1 The RISC Movement in Processor Architecture.- 1.2 Instruction Set Architecture.- 1.3 Examples of RISC ISAs.- 1.4 Basic Structure of a RISC Processor and Basic Cache MMU Organization.- 1.5 Basic Pipeline Stages.- 1.6 Pipeline Hazards and Solutions.- 1.7 RISC Processors.- 1.8 Lessons learned from RISC.- 2. Dataflow Processors.- 2.1 Dataflow Versus Control-Flow.- 2.2 Pure Dataflow.- 2.3 Augmenting Dataflow with Control-Flow.- 2.4 Lessons learned from Dataflow.- 3. CISC Processors.- 3.1 A Brief Look at CISC Processors.- 3.2 Out-of-Order Execution.- 3.3 Dynamic Scheduling.- 3.4 Some CISC Microprocessors.- 3.5 Conclusions.- 4. Multiple-Issue Processors.- 4.1 Overview of Multiple-Issue Processors.- 4.2 I-Cache Access and Instruction Fetch.- 4.3 Dynamic Branch Prediction and Control Speculation.- 4.4 Decode.- 4.5 Rename.- 4.6 Issue and Dispatch.- 4.7 Execution Stages.- 4.8 Finalizing Pipelined Execution.- 4.9 State-of-the-Art Superscalar Processors.- 4.10 VLIW and EPIC Processors.- 4.11 Conclusions on Multiple-Issue Processors.- 5. Future Processors to use Fine-Grain Parallelism.- 5.1 Trends and Principles in the Giga Chip Era.- 5.2 Advanced Superscalar Processors.- 5.3 Superspeculative Processors.- 5.4 Multiscalar Processors.- 5.5 Trace Processors.- 5.6 DataScalar Processors.- 5.7 Conclusions.- 6. Future Processors to use Coarse-Grain Parallelism.- 6.1 Utilization of more Coarse-Grain Parallelism.- 6.2 Chip Multiprocessors.- 6.3 Multithreaded Processors.- 6.4 Simultaneous Multithreading.- 6.5 Simultaneous Multithreading versus Chip Multiprocessor.- 6.6 Conclusions.- 7. Processor-in-Memory, Reconfigurable, and Asynchronous Processors.- 7.1 Processor-in-Memory.- 7.2 Reconfigurable Computing.- 7.3 Asynchronous Processors.- 7.4Conclusions.- Acronyms.- References.
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