Vinod K. Malhotra

Bio: Vinod K. Malhotra is an academic researcher from Synopsys. The author has contributed to research in topics: Integrated circuit layout & Beautification. The author has an hindex of 3, co-authored 4 publications receiving 247 citations.

Shape-Based Geometry Engine To Perform Smoothing And Other Layout Beautification Operations

Abstract: A shape-based layout beautification operation can be performed on an IC layout to correct layout imperfections. A shape is described by edges (and vertices) related according to specified properties. Each shape can be configured to match specific layout imperfection types. Corrective actions can then be associated with the shapes, advantageously enabling efficient formulation and precise application of those corrective actions. Corrective actions can include absolute, adaptive, or replacement-type modifications to the detected layout imperfections. A concurrent processing methodology can be used to minimize processing overhead during layout beautification, and the actions can also be incorporated into a lookup table to further reduce runtime. A layout beautification system can also be connected to a network across which shapes, actions, and IC layout data files can be accessed and retrieved.

Practical application of full-feature alternating phase-shifting technology for a phase-aware standard-cell design flow

Abstract: As the semiconductor industry enters the subwavelength era where silicon features are much smaller that the wavelength of the light used to create them, a number of “subwavelength” technologies such as Optical Proximity Correction (OPC) and Phase-Shifting Masks (PSM) have been introduced to produce integrated circuits (ICs) with acceptable yields. An effective approach to subwavelength IC production includes a combination of these techniques, including OPC and PSM. Nevertheless, as we approach silicon features of 0.10&mgr and below, Alternating PSM (AltPSM) becomes a critical part of the technology portfolio needed to achieve IC requirements. An effective EDA methodology that generates AltPSM ICs must guarantee correct generation of AltPSM layouts, maintain or improve today's design productivity, and leverage existing tools and flows. The implementation of such a methodology becomes more complex as phase shifting is applied to all critical features, including those outside of transistor gates. In this paper, we present a methodology targeted for standard-cell or structured-custom design styles. We also present examples of designs that start from standard-cells created in a manner in which all issues regarding generation of AltPSM are effectively considered, and are used in a typical cell-based (synthesis-Automatic Place & Route) flow to produce design layouts that are ready for cost-effective silicon manufacturing.

Design-to-process integration: optimizing 130-nm X architecture manufacturing

Abstract: The X Architecture is a novel on-chip interconnect architecture based on the pervasive use of diagonal wiring. This diagonal wiring reduces total chip wire length by an average 20% and via count by an average of 30%, resulting in simultaneous improvements in chip speed, power, a cost. Thirty percent or greater reduction in via counts is a compelling feature for IC design - but can chips with massive amounts of diagonal wiring be manufactured without some other penalty? This paper presents the result of a project, collaborated by Cadence Design Systems, Numerical Technologies, DuPont Photomasks, and Nikon, aimed at optimizing each step of the lithography supply chain for the Architecture from masks to wafers at 130 nm.

Hybrid AAPSM compliance methodology to ensure design for manufacturing

Abstract: Dark field Alternating Aperture Phase Shift Mask (AAPSM) technology has developed into an enabling Resolution Enhancement Technology (RET) in the sub-100nm semiconductor device era. As phase shift masks are increasingly used to resolve features beyond just the most critical (for example transistor gates on the poly layer) the probability of phase conflicts (same phase across a feature) has increased tremendously. It has become imperative to introduce design practices that enable the semiconductor fabrication to take advantage of the improved performance that AAPSM delivers. In this paper we analyze the different causes for phase conflicts and the appropriate methods for detecting them, thus building the basis for the Hybrid AAPSM compliance flow. This approach leverages the strengths of existing DRC tools and the AAPSM conversion software. The approach is effective for minimizing the area penalty, thus very effective for density driven designs. By design, it is suited for custom or semi-custom layouts.

Improving resolution in photolithography with a phase-shifting mask

Abstract: The phase-shifting mask consists of a normal transmission mask that has been coated with a transparent layer patterned to ensure that the optical phases of nearest apertures are opposite. Destructive interference between waves from adjacent apertures cancels some diffraction effects and increases the spatial resolution with which such patterns can be projected. A simple theory predicts a near doubling of resolution for illumination with partial incoherence σ < 0.3, and substantial improvements in resolution for σ < 0.7. Initial results obtained with a phase-shifting mask patterned with typical device structures by electron-beam lithography and exposed using a Mann 4800 10× tool reveals a 40-percent increase in usuable resolution with some structures printed at a resolution of 1000 lines/mm. Phase-shifting mask structures can be used to facilitate proximity printing with larger gaps between mask and wafer. Theory indicates that the increase in resolution is accompanied by a minimal decrease in depth of focus. Thus the phase-shifting mask may be the most desirable device for enhancing optical lithography resolution in the VLSI/VHSIC era.

Mobile dynamic advertisement creation and placement

Abstract: A system for targeted delivery of advertising including the steps of: (i) receiving a navigation request from a mobile communication facility including a user selection of a first advertisement displayed on the mobile communication facility; (ii) receiving an indicator input including (a) a geographical location and (b) queries or accesses to content associated with a plurality of other mobile communication facilities within the geographical location; (iii) receiving a business rule; (iv) dynamically creating a second advertisement configured to be displayed on the mobile communication facility based on the navigation request, the indicator input, the business rule, and a rendering capability of the mobile communication facility; and (v) transmitting the second advertisement to the mobile communication facility.

Phase shift masking for complex patterns with proximity adjustments

Abstract: Techniques are provided for extending the use of phase shift techniques to implementation of masks used for complex layouts in the layers of integrated circuits, beyond selected critical dimension features. The method includes identifying features for which phase shifting can be applied, automatically mapping the phase shifting regions for implementation of such features, resolving phase conflicts which might occur according to a given design rule, and application of assist features and proximity correction features. The method includes applying an adjustment to a phase shift mask pattern including a first and a second phase shift window, and a control chrome with a control width, and/or to a trim mask pattern having a trim shape with a trim width based upon one or both of a rule based correction and a model based correction to improve a match between a resulting exposure pattern and a target feature.

Dynamic array architecture

Abstract: A semiconductor device includes a substrate and a number of diffusion regions defined within the substrate. The diffusion regions are separated from each other by a non-active region of the substrate. The semiconductor device includes a number of linear gate electrode tracks defined to extend over the substrate in a single common direction. Each linear gate electrode track is defined by one or more linear gate electrode segments. Each linear gate electrode track that extends over both a diffusion region and a non-active region of the substrate is defined to minimize a separation distance between ends of adjacent linear gate electrode segments within the linear gate electrode track, while ensuring adequate electrical isolation between the adjacent linear gate electrode segments.

Semiconductor Device Layout Including Cell Layout Having Restricted Gate Electrode Level Layout with Linear Shaped Gate Electrode Layout Features Defined Along At Least Four Gate Electrode Tracks with Minimum End-to-End Spacing with Corresponding Non-Symmetric Diffusion Regions

Abstract: A restricted layout region includes a diffusion level layout including p-type and n-type diffusion region layout shapes separated by a central inactive region. The diffusion region layout shapes are defined in a non-symmetrical manner relative to a centerline defined to bisect the diffusion level layout. A gate electrode level layout is defined to include linear-shaped layout features placed to extend in only a first parallel direction. Adjacent linear-shaped layout features that share a common line of extent in the first parallel direction are separated by an end-to-end spacing that is substantially equal across the gate electrode level layout and that is minimized to an extent allowed by a semiconductor device manufacturing capability. The gate electrode level layout includes linear-shaped layout features defined along at least four different lines of extent in the first parallel direction. The restricted layout region corresponds to an entire gate electrode level of a cell layout.