The objective of this project is to study some tools that starting from languages of high level as ANSI-C, and generate FPGA accelerating software applications automatically. This paper focuses on the efficient use of C to RTL generators that have a high degree of fidelity to the original C language. The generators available today support syntaxes with different degrees of fidelity to the original language. ![]() One of the promises of these tools is to allow software and systems engineers to implement algorithms quickly in a familiar language and target the design to a programmable device. External memory is memory that uses cues from the environment to aid remembrance of ideas and sensations. Powerful high-level language to RTL generators are now emerging. Moreover, as the cost per gate of FPGAs declines, embedded and high-performance systems designers are being presented with new opportunities for creating accelerated software applications using FPGA-based programmable hardware platforms. ![]() High-performance FPGA accelerating software applications are a growing demand in fields as communications, image processing, and scientific computing among others. La memoria secundaria, memoria auxiliar, memoria perifrica o memoria externa, tambin conocida como almacenamiento secundario, es el conjunto de dispositivos y soportes de almacenamiento de datos que conforman el subsistema de memoria de la computadora, junto con la memoria primaria o principal. Experimental results have shown the effectiveness of those techniques to enhance performance, and also exemplifies how some of the LALPC compiler features may support performance-resources trade-off analysis tasks. The combination of using the C language to automate the process of hardware design, with an efficient underlying scheme to support loop pipelining, constitutes the main goal and contribution of the work described in this paper. LALPC also enhances parallelism exploitation by applying loop unrolling, and providing support for automatic generation and scheduling of parallel memory accesses. LALPC extends the functionality of a previous tool by using a subset of the C language as input code to describe computations, improving the usability and potential acceptance of the technique among developers. As demonstrated in a previous work, the underlying hardware components target by LALPC are highly specialized for loop pipeline execution, resulting in efficient implementations, both in terms of performance and resources usage (silicon area). ![]() This paper presents LALPC, a prototype high-level synthesis tool, specialized in hardware generation for loop-intensive code segments. Almacenamiento Memoria externa Miles de productos del mundo a tu casa Ordenar por Ms relevantes Disco-duro- 1 Tera Externo Porttil, Memoria Usb Tipo C 169900 pesos 169.900 en 12x 14158 pesos 14.158 sin inters Envo gratis MS VENDIDO Disco Duro Externo 1 Tera Toshiba Canvio Basics Usb 3.0 269900 pesos 269.900 en 36x 7497 pesos 7.
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