Xilinx

About: Xilinx is a company organization based out in San Jose, California, United States. It is known for research contribution in the topics: Programmable logic device & Integrated circuit. The organization has 2814 authors who have published 5275 publications receiving 91373 citations. The organization is also known as: Xilinx, Inc. & Xilinx (United States).

Designing with FPGAs and CPLDs

Abstract: This text covers the entire field of FPGAs and is intended to bring designers and engineers up to speed in this area. It describes all products within a comparative framework that highlights the strengths and weaknesses of individual FPGAs and their application potential.

Configuration emulation of a programmable logic device

Abstract: A configuration emulation circuit generates configuration signals to emulate a Programmable Logic Device (PLD) in a configuration timing relationship and a configuration protocol relationship between a programming circuit and the PLD. The circuit includes a first circuit to emulate the PLD in the configuration timing relationship. The circuit also includes a second circuit to emulate the PLD in the configuration protocol relationship. The second circuit is coupled to receive a configuration mode signal and is responsive to the configuration mode signal.

Determination of Power Gating Granularity for FPGA Fabric

Abstract: In this study, we present a design methodology to determine the granularity of power gating for field programmable gate arrays (FPGAs). Fine-grain power gating is more effective than coarse-grain power gating to reduce the active leakage power of unused logic and interconnection resources. However, the area overhead in fine-grain power gating is higher than that of coarse-grain power gating. Based on the placement and routing of benchmark designs in Spartan-3trade-like FPGA, guidelines for determining the granularity of power gating are provided. It is found that programmable resources with low utilization can be power gated more coarsely than the resources with high utilization

Performance-driven simultaneous placement and routing for FPGA's

Abstract: Sequential place and route tools for field programmable gate arrays (FPGA's) are inherently weak at addressing both wirability and timing optimizations. This is primarily due to the difficulty of accurately predicting wirability and delay during placement. A set of new performance-driven simultaneous placement/routing techniques has been developed for both row-based and island-style FPGA designs. These techniques rely on an iterative improvement placement algorithm augmented with fast, complete routing heuristics in the placement loop. For row-based designs, this new layout strategy yielded up to 28% improvements in timing and 33% in wirability for several MCNC benchmarks when compared to a traditional sequential place and route system in use at Texas Instruments. On a set of industrial designs for Xilinx 4000-series island-style FPGA's, our scheme produced 100% routed designs with 8-15% improvement in delay when compared to the Xilinx XACT5.0 place and route system.