SYNTHESIS AND OPTIMIZATION OF INTERFACES BETWEEN HARDWARE MODULES WITH INCOMPATIBLE PROTOCOLS

ABSTRACT In this paper, we present a new algorithm that performs automatic interface synthesis between two synchronous hardware modules with incompatible data communication protocols. We introduce the Data Path State Machine (DPSM) which captures data path dependencies. This allows control logic for data paths to be synthesized which is optimized for bandwidth over multiple transactions

Highly-configurable FPGA-based platform for wireless network research

Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer Science, 2011.Cataloged from PDF version of thesis.Includes bibliographical references (p. 155-164).Over the past few years, researchers have developed many cross-layer wireless protocols to improve the performance of wireless networks. Experimental evaluations of these protocols require both high-speed simulations and real-time on-air experimentations. Unfortunately, radios implemented in pure software are usually inadequate for either because they are typically two to three orders of magnitude slower than commodity hardware. FPGA-based platforms provide much better speeds but are quite difficult to modify because of the way high-speed designs are typically implemented by trading modularity for performance. Experimenting with cross-layer protocols requires a flexible way to convey information beyond the data itself from lower to higher layers, and a way for higher layers to configure lower layers dynamically and within some latency bounds. One also needs to be able to modify a layer's processing pipeline without triggering a cascade of changes. In this thesis, we discuss an alternative approach to implement a high-performance yet configurable radio design on an FPGA platform that satisfies these requirements. We propose that all modules in the design must possess two important design properties, namely latency-insensitivity and datadriven control, which facilitate modular refinements. We have developed Airblue, an FPGA-based radio, that has all these properties and runs at speeds comparable to commodity hardware. Our baseline design is 802.11g compliant and is able to achieve reliable communication for bit rates up to 24 Mbps. We show in the thesis that we can implement SoftRate, a cross-layer rate adaptation protocol, by modifying only 5.6% of the source code (967 lines). We also show that our modular design approach allows us to abstract the details of the FPGA platform from the main design, thus making the design portable across multiple FPGA platforms. By taking advantage of this virtualization capability, we were able to turn Airblue into a high-speed hardware software co-simulator with simulation speed beyond 20 Mbps.by Man Cheuk Ng.Ph.D

Design and Evaluation of a Parameterizable NoC Router for FPGAs

The Network-on-Chip (NoC) approach for designing (System-on-Chip) SoCs is currently emerging as an advanced concept for overcoming the scalability and efficiency problems of traditional on-chip interconnection schemes. This thesis addresses the design and evaluation of a parameterizable NoC router for FPGAs. The importance of low area overhead for NoC components is crucial in FPGAs, which have fixed logic and routing resources. We achieve a low area router design through optimizations in switching fabric and dual purpose buffer/connection signals. We propose a component library to increase re-use and allow tailoring of parameters for application specific NoCs of various sizes. A set of experiments were conducted to explore the design space of the proposed NoC router using different values of key router parameters: channel width (flit size), arbitration scheme and IP-core-to-router mapping strategy. Area and latency results from the experiments are presented and analyzed

Technical Design Report EuroGammaS proposal for the ELI-NP Gamma beam System

The machine described in this document is an advanced Source of up to 20 MeV Gamma Rays based on Compton back-scattering, i.e. collision of an intense high power laser beam and a high brightness electron beam with maximum kinetic energy of about 720 MeV. Fully equipped with collimation and characterization systems, in order to generate, form and fully measure the physical characteristics of the produced Gamma Ray beam. The quality, i.e. phase space density, of the two colliding beams will be such that the emitted Gamma ray beam is characterized by energy tunability, spectral density, bandwidth, polarization, divergence and brilliance compatible with the requested performances of the ELI-NP user facility, to be built in Romania as the Nuclear Physics oriented Pillar of the European Extreme Light Infrastructure. This document illustrates the Technical Design finally produced by the EuroGammaS Collaboration, after a thorough investigation of the machine expected performances within the constraints imposed by the ELI-NP tender for the Gamma Beam System (ELI-NP-GBS), in terms of available budget, deadlines for machine completion and performance achievement, compatibility with lay-out and characteristics of the planned civil engineering

Aerospace Medicine and Biology: A continuing bibliography with indexes (supplement 246)

This bibliography lists 219 reports, articles and other documents introduced into the NASA scientific and technical information system in May 1983

Aerospace medicine and biology: A continuing bibliography with indexes (supplement 385)

This bibliography lists 536 reports, articles and other documents introduced into the NASA Scientific and Technical Information System Database. Subject coverage includes: aerospace medicine and physiology, life support systems and man/system technology, protective clothing, exobiology and extraterrestrial life, planetary biology, and flight crew behavior and performance