A. K. Oudjida, A. Liacha, D. Benamrouche, M. Goudjil, R. Tiar, A. Ouchabane
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引用次数: 2
摘要
基于最近对大量i2c设备的市场研究,所有这些设备都完全符合Philips i2c总线规范,版本2.1,2000年1月发布,本文介绍了一个详细的i2c从vlsi架构,它包含了现代ASK/SoC应用所需的所有必要功能,除了高速模式。该设计是一种通用解决方案,提供了控制i2c总线的可行方法,并高度灵活地满足任何特定需求。本文的目的是提供最新的i2c从vlsi实现的完整描述。所有相关的问题,从最初的规范的阐述,直到最后的验证和综合,全面讨论和论证。这包括从基本架构操作到最终软件驱动程序和应用程序的所有问题。整个设计代码,无论是合成还是验证,都是在Verilog 2001 (IEEE 1365)中实现的。合成设计代码是独立于技术的,使用ModelSim SE 5.8e在RTL和门级进行了模拟,并使用Leonardo Spectrum v20011d进行了合成。45和Xilinx的XST 6.1i
Universal low/medium speed I/sup 2/C-slave transceiver: a detailed VLSI implementation
Based on a recent market study of an important number of I2 C devices, all fully compliant with the Philips I2C-bus specification, version 2.1, release January 2000, this paper introduces a detailed I2C-slave VLSI-architecture that incorporates all necessary features required by modern ASK/SoC applications, except high speed mode. The design is a general purpose solution offering viable ways to controlling I2C-bus and highly flexible to suit any particular needs. The purpose of this paper is to provide a full description of an up-to-date I2C-slave VLSI-implementation. All related issues, starting from the elaboration of initial specifications, till the final verifications and synthesis, are comprehensively discussed and justified. This includes all issues from basic architectural operations to final software drivers and application. The whole design code, either for synthesis or verification, is implemented in Verilog 2001 (IEEE 1365.) The synthesis design code is technology independent and was simulated at both RTL and gate level with timing back annotation using ModelSim SE 5.8e and synthesized using both Leonardo Spectrum V2001_1d.45 and Xilinx's XST 6.1i
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