Transportation Operations Master Plan

This document outlines a long-range vision of transportation operations for the DVRPC region. It presents transportation operations goals, objectives, and operational strategies to achieve them. An operations vision establishes a plan of where ITS infrastructure, emergency service patrols, and incident management task forces, should be deployed in the region. A series of plans and programs are identified to accomplish the regional goals and vision. Lastly, a financial analysis was conducted to estimate the costs to construct, operate, and maintain these projects

Physical design of USB1.1

In earlier days, interfacing peripheral devices to host computer has a big problematic. There existed so many different kinds’ ports like serial port, parallel port, PS/2 etc. And their use restricts many situations, Such as no hot-pluggability and involuntary configuration. There are very less number of methods to connect the peripheral devices to host computer. The main reason that Universal Serial Bus was implemented to provide an additional benefits compared to earlier interfacing ports. USB is designed to allow many peripheral be connecting using single standardize interface. It provides an expandable fast, cost effective, hot-pluggable plug and play serial hardware interface that makes life of computer user easier allowing them to plug different devices to into USB port and have them configured automatically. In this thesis demonstrated the USB v1.1 architecture part in briefly and generated gate level net list form RTL code by applying the different constraints like timing, area and power. By applying the various types design constraints so that the performance was improved by 30%. And then it implemented in physically by using SoC encounter EDI system, estimation of chip size, power analysis and routing the clock signal to all flip-flops presented in the design. To reduce the clock switching power implemented register clustering algorithm (DBSCAN). In this design implementation TSMC 180nm technology library is used

Adaptation of High Performance and High Capacity Reconfigurable Systems to OpenCL Programming Environments

[EN] In this work, we adapt a reconfigurable computer system based on FPGA technologies to OpenCL programming environments. The reconfigurable system is part of a compute prototype of the MANGO European project that includes 96 FPGAs. To optimize the use and to obtain its maximum performance, it is essential to adapt it to heterogeneous systems programming environments such as OpenCL, which simplifies its programming. In this work, all the necessary activities for correct implementation of the software and hardware layer required for its use in OpenCL will be carried out, as well as an evaluation of the performance obtained and the flexibility offered by the solution provided. This work has been performed during an internship of 5 months. The internship is linked to an agreement between UPV and UniNa (Università degli Studi di Napoli Federico II).[ES] En este trabajo se va a realizar la adaptación de un sistema reconfigurable de cómputo basado en tecnologías de FPGAs hacia entornos de programación en OpenCL. El sistema reconfigurable forma parte de un prototipo de cálculo del proyecto Europeo MANGO que incluye 96 FPGAs. Con el fin de optimizar el uso y de obtener sus máximas prestaciones, se hace imprescindible una adaptación a entornos de programación de sistemas heterogéneos como OpenCL, lo cual simplifica su programación y uso. En este trabajo se realizarán todas las actividades necesarias para una correcta implementación de la capa software y hardware necesaria para su uso en OpenCL así como una evaluación de las prestaciones obtenidas y de la flexibilidad ofrecida por la solución aportada. Este trabajo se ha llevado a término durante una estancia de cinco meses en la Universitat Politécnica de Valéncia. Esta estancia está vinculada a un acuerdo entre la Universitat Politécnica de Valéncia y la Università degli Studi di Napoli Federico IIRusso, D. (2020). Adaptation of High Performance and High Capacity Reconfigurable Systems to OpenCL Programming Environments. http://hdl.handle.net/10251/150393TFG