Register File Synthesis in ASIP Design (original) (raw)

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Evaluating register file size in asip design Cover Page

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An Efficient Technique for Exploring Register File Size in ASIP Design Cover Page

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A proposed synthesis method for Application-Specific Instruction Set Processors Cover Page

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Instruction-set selection for multi-application based ASIP design: An instruction-level study Cover Page

Analysis of the influence of register file size on energyconsumption, code size, and execution time

IEEE Transactions on Computer-aided Design of Integrated Circuits and Systems, 2001

Interest in low-power embedded systems has increased considerably in the past few years. To produce low-power code and to allow an estimation of power consumption of software running on embedded systems, a power model was developed based on physical measurement using an evaluation board and integrated into a compiler and profiler. The compiler uses the power information to choose instruction sequences consuming less power, whereas the profiler gives information about the total power consumed during execution of the generated program. The used compiler is parameterized such that, e.g., the register file size may be changed. The resulting code is evaluated with respect to code size, performance, and power consumption for different register file sizes. The extracted information is especially useful during application analysis and architecture space exploration in application-specific integrated processor (ASIP) design. Our analysis gives the designer the ability to estimate the desirable register file size for an ASIP design. The size of the register file should be considered as a design parameter since it has a strong impact on the energy consumption of embedded systems

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Analysis of the influence of register file size on energyconsumption, code size, and execution time Cover Page

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Exploring storage organization in ASIP synthesis Cover Page

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Optimization of an Application Specific Instruction Set Processor using Application Description Language Cover Page

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Compiler-directed Customization of ASIP Cores. Cover Page

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A novel methodology for the design of application-specific instruction-set processors (ASIPs) using a machine description language Cover Page

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Integrated on-chip storage evaluation in ASIP synthesis Cover Page