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R. Neff

Bio: R. Neff is an academic researcher from University of California, Berkeley. The author has contributed to research in topics: Physical design & Integrated circuit layout. The author has an hindex of 5, co-authored 5 publications receiving 278 citations.

Papers
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Book
30 Nov 1996
TL;DR: A top-down, constraint-driven design methodology for analog integrated circuits and some of the tools that support this methodology are described, including behavioral simulation tools, tools for physical assembly, and module generators.
Abstract: This paper describes a top-down, constraint-driven design methodology for analog integrated circuits. Some of the tools that support this methodology are described. These include behavioral simulation tools, tools for physical assembly, and module generators. Finally, examples of behavioral simulation with optimization and physical assembly are provided to better illustrate the methodology and its integration with the tool set.

186 citations

Journal ArticleDOI
TL;DR: It is concluded that for the multichannel telephony voice-band application implemented in CMOS technology, a first-order loop is most area-efficient.
Abstract: The authors describe the design of a four-channel oversampled A/D (analog/digital) converter with transmit filter for voice-band application. The decimator filter is timeshared between the four channels and the architecture of the sigma-delta coder is selected on the basis of minimizing the chip area. The analog front-end loop is fully differential to minimize the channel-to-channel crosstalk. The key issues in designing a multichannel oversampled A/D converter for area efficiency are addressed. It is concluded that for the multichannel telephony voice-band application implemented in CMOS technology, a first-order loop is most area-efficient. The performance of the coder has been evaluated and it is shown to have a dynamic range of 79 dB, to occupy a total active area of 33000 mils/sup 2/ or 8250 mils/sup 2/ per channel, and to meet the D3 specifications for the transmit filter. It runs on a 5-V supply and consumes 50 mW per channel. >

39 citations

Journal ArticleDOI
TL;DR: A module generator (DSYN) creates optimized digital/analog converter (DAC) layouts given a set of specifications including performance constraints, a description of the implementation technology, and aSet of design parameters.
Abstract: A module generator (DSYN) creates optimized digital/analog converter (DAC) layouts given a set of specifications including performance constraints, a description of the implementation technology, and a set of design parameters. The generation process consists of a synthesis step followed by a layout step. During synthesis, a new constrained optimization method is coupled with combination of circuit simulation and DAC design equations. The layout step uses stretching and tiling operations on a set of primitive cells. Prototypes have been demonstrated for an 8-b, 100-MS/s specification, driving a 37.5-ohm video load, and a static 10-b specification, driving a 4 mA full-scale output current. Both designs use a 5-V supply in a 1.2 /spl mu/m CMOS process.

23 citations

Proceedings ArticleDOI
01 May 1994
TL;DR: In this article, a top-down, constraint-driven design methodology is proposed to accelerate the design cycle for analog circuits and mixed-signal systems, and a design which demonstrates the two principal advantages that this methodology provides-a high probability for first silicon which meets all specifications and fast design times.
Abstract: To accelerate the design cycle for analog circuits and mixed-signal systems, we have proposed a top-down, constraint-driven design methodology. In this paper we present a design which demonstrates the two principal advantages that this methodology provides- a high probability for first silicon which meets all specifications and fast design times. We examine the design of three different 10-bit digital-to-analog (D/A) converters beginning from their performance and functional specifications and ending with the testing of the fabricated parts. Critical technology mismatch information gathered from the testing phase is provided. >

23 citations

Proceedings ArticleDOI
01 May 1995
TL;DR: A module generator for Digital/Analog Converter (DAC) circuits is presented, using a combination of circuit simulation and DAC design equations to estimate performance and a new constrained optimization method is used to determine design variable values.
Abstract: This paper presents a module generator for Digital/Analog Converter (DAC) circuits. A combination of circuit simulation and DAC design equations is used to estimate performance. A new constrained optimization method is used to determine design variable values. The layout is created using stretching and tiling operations on a set of primitive cells. Close coupling of optimization and layout allows accurate incorporation of layout parasitics in optimization. Prototypes have been demonstrated for an 8-bit, 100-MHz specification, driving a 37.5-ohm video load, and a static 10-bit specification, driving a 4 mA full-scale output current. Both designs use a 5-V supply in a standard 1.2 /spl mu/m CMOS process.

9 citations


Cited by
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Journal ArticleDOI
TL;DR: This article describes conventional A/D conversion, as well as its performance modeling, and examines the use of sigma-delta converters to convert narrowband bandpass signals with high resolution.
Abstract: Using sigma-delta A/D methods, high resolution can be obtained for only low to medium signal bandwidths. This article describes conventional A/D conversion, as well as its performance modeling. We then look at the technique of oversampling, which can be used to improve the resolution of classical A/D methods. We discuss how sigma-delta converters use the technique of noise shaping in addition to oversampling to allow high resolution conversion of relatively low bandwidth signals. We examine the use of sigma-delta converters to convert narrowband bandpass signals with high resolution. Several parallel sigma-delta converters, which offer the potential of extending high resolution conversion to signals with higher bandwidths, are also described.

680 citations

Journal ArticleDOI
01 Dec 2000
TL;DR: This survey presents an overview of recent advances in the state of the art for computer-aided design (CAD) tools for analog and mixed-signal integrated circuits (ICs) and outlines progress on the various design problems involved.
Abstract: This survey presents an overview of recent advances in the state of the art for computer-aided design (CAD) tools for analog and mixed-signal integrated circuits (ICs). Analog blocks typically constitute only a small fraction of the components on mixed-signal ICs and emerging systems-on-a-chip (SoC) designs. But due to the increasing levels of integration available in silicon technology and the growing requirement for digital systems to communicate with the continuous-valued external world, there is a growing need for CAD tools that increase the design productivity and improve the quality of analog integrated circuits. This paper describes the motivation and evolution of these tools and outlines progress on the various design problems involved: simulation and modeling, symbolic analysis, synthesis and optimization, layout generation, yield analysis and design centering, and test. This paper summarizes the problems for which viable solutions are emerging and those which are still unsolved.

579 citations

Journal ArticleDOI
TL;DR: A new method for determining component values and transistor dimensions for CMOS operational amplifiers (op-amps) is described, showing in detail how the method can be used to size robust designs, i.e., designs guaranteed to meet the specifications for a variety of process conditions and parameters.
Abstract: We describe a new method for determining component values and transistor dimensions for CMOS operational amplifiers (op-amps). We observe that a wide variety of design objectives and constraints have a special form, i.e., they are posynomial functions of the design variables. As a result, the amplifier design problem can be expressed as a special form of optimization problem called geometric programming, for which very efficient global optimization methods have been developed. As a consequence we can efficiently determine globally optimal amplifier designs or globally optimal tradeoffs among competing performance measures such as power, open-loop gain, and bandwidth. Our method, therefore, yields completely automated sizing of (globally) optimal CMOS amplifiers, directly from specifications. In this paper, we apply this method to a specific widely used operational amplifier architecture, showing in detail how to formulate the design problem as a geometric program. We compute globally optimal tradeoff curves relating performance measures such as power dissipation, unity-gain bandwidth, and open-loop gain. We show how the method can he used to size robust designs, i.e., designs guaranteed to meet the specifications for a variety of process conditions and parameters.

540 citations

Journal ArticleDOI
TL;DR: A dynamic element matching technique is applied to multibit sigma-delta modulators that translates the harmonic distortion components of a nonideal digital-to-analog converter to high-frequency components, which can then be filtered out by the decimation filter.
Abstract: A dynamic element matching technique is applied to multibit sigma-delta modulators. The approach translates the harmonic distortion components of a nonideal digital-to-analog converter (DAC) in the feedback loop of a sigma-delta modulator to high-frequency components, which can then be filtered out by the decimation filter. Computer simulations have confirmed that with this approach a third-order sigma-delta modulator employing a 3-bit forward ADC, a 3-bit feedback DAC with a random mismatch of 0.1% can achieve a 104-dB (17+bit) dynamic range and a harmonic distortion below 100 dB, with an oversampling ratio of 64. The technique does not generate any tone in the passband. >

261 citations

Journal ArticleDOI
30 Apr 2007
TL;DR: The paper describes the recent state of the art in hierarchical analog synthesis, with a strong emphasis on associated techniques for computer-aided model generation and optimization, and surveys recent advances in analog design tools that specifically deal with the hierarchical nature of practical analog and RF systems.
Abstract: The paper describes the recent state of the art in hierarchical analog synthesis, with a strong emphasis on associated techniques for computer-aided model generation and optimization. Over the past decade, analog design automation has progressed to the point where there are industrially useful and commercially available tools at the cell level-tools for analog components with 10-100 devices. Automated techniques for device sizing, for layout, and for basic statistical centering have been successfully deployed. However, successful component-level tools do not scale trivially to system-level applications. While a typical analog circuit may require only 100 devices, a typical system such as a phase-locked loop, data converter, or RF front-end might assemble a few hundred such circuits, and comprise 10 000 devices or more. And unlike purely digital systems, mixed-signal designs typically need to optimize dozens of competing continuous-valued performance specifications, which depend on the circuit designer's abilities to successfully exploit a range of nonlinear behaviors across levels of abstraction from devices to circuits to systems. For purposes of synthesis or verification, these designs are not tractable when considered "flat." These designs must be approached with hierarchical tools that deal with the system's intrinsic design hierarchy. This paper surveys recent advances in analog design tools that specifically deal with the hierarchical nature of practical analog and RF systems. We begin with a detailed survey of algorithmic techniques for automatically extracting a suitable nonlinear macromodel from a device-level circuit. Such techniques are critical to both verification and synthesis activities for complex systems. We then survey recent ideas in hierarchical synthesis for analog systems and focus in particular on numerical techniques for handling the large number of degrees of freedom in these designs and for exploring the space of performance tradeoffs early in the design process. Finally, we briefly touch on recent ideas for accommodating models of statistical manufacturing variations in these tools and flows

227 citations