Browsing by Author "Hudson, Rhett Daniel"

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    Architecture-Independent Design for Run-Time Reconfigurable Custom Computing Machines
    Hudson, Rhett Daniel (Virginia Tech, 2000-07-20)
    The configurable computing research community has provided a wealth of evidence that computational platforms based on FPGA technology are capable of cost-effectively accelerating certain kinds of computations. One actively growing area in the research community examines the benefits to computation that can be gained by reconfiguring the FPGAs in a system during the execution of an application. This technique is commonly referred to as run-time reconfiguration. Widespread acceptance of run-time reconfigurable custom computing depends upon the existence of high-level automated design tools. Given the wide variety of available platforms and the rate that the technology is evolving, a set of architecturally independent tools that provide the ability to port applications between different architectures will allow application-based intellectual property to be easily migrated between platforms. A Java implementation of such a toolset, called Janus, is presented and analyzed here. In this environment, developers create a Java class that describes the structural behavior of an application. The design framework allows hardware and software modules to be freely intermixed. During the compilation phase of the development process, the Janus tools analyze the structure of the application and adapt it to the target architecture. Janus is capable of structuring the run-time behavior of an application to take advantage of the resources available on the platform. Examples of applications developed using the toolset are presented. The performance of the applications is reported. The retargeting of applications for multiple hardware architectures is demonstrated.
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    The use of VHDL in computer-aided support of life-cycle complete product design
    Hudson, Rhett Daniel (Virginia Tech, 1994-06-05)
    Successful competition in the computer systems industry depends on a firm's ability to bring profitable products to market. The success of a product is measured by its future worth to the company. Life-cycle complete design attempts to engineer products that provide maximum future worth. Many components contribute to the overall cost of developing a product. Designing merely to reduce the cost of the components that make up the system is insufficient. A product must be engineered in a manner that addresses all pertinent issues over its complete life cycle. This research examines the use of the VHSIC Hardware Description Language as a computer-aided engineering tool for life-cycle complete engineering. VHDL is traditionally used to model the functional behavior of digital systems. This thesis provides an overview of a life-cycle complete design process and describes the use of VHDL to support that process. A case study is presented to illustrate the use of VHDL for life-cycle complete modeling.