3D packaging for the integration of heterogeneous systems

Rationale and Design Considerations for a Semantic Mediator in Health Information Systems

Methods of Information in Medicine ◽

10.1055/s-0038-1634545 ◽

1998 ◽

Vol 37 (04/05) ◽

pp. 518-526 ◽

Cited By ~ 9

Author(s):

D. Sauquet ◽

M.-C. Jaulent ◽

E. Zapletal ◽

M. Lavril ◽

P. Degoulet

Keyword(s):

Information Systems ◽

Software Engineering ◽

Health Information ◽

Rapid Development ◽

Heterogeneous Systems ◽

Health Information Systems ◽

Semantic Interoperability ◽

Point Of View ◽

Current State ◽

Engineering Environment

AbstractRapid development of community health information networks raises the issue of semantic interoperability between distributed and heterogeneous systems. Indeed, operational health information systems originate from heterogeneous teams of independent developers and have to cooperate in order to exchange data and services. A good cooperation is based on a good understanding of the messages exchanged between the systems. The main issue of semantic interoperability is to ensure that the exchange is not only possible but also meaningful. The main objective of this paper is to analyze semantic interoperability from a software engineering point of view. It describes the principles for the design of a semantic mediator (SM) in the framework of a distributed object manager (DOM). The mediator is itself a component that should allow the exchange of messages independently of languages and platforms. The functional architecture of such a SM is detailed. These principles have been partly applied in the context of the HEllOS object-oriented software engineering environment. The resulting service components are presented with their current state of achievement.

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HEAT TRANSFER PECULIARITIES IN HETEROGENEOUS SYSTEMS WITH HIGH UNSTEADY-STATE HEAT TRANSFER RATES

10.1615/ihtc4.980 ◽

1970 ◽

Author(s):

N.V. Antonishin ◽

S. S. Zabrodsky ◽

L.E. Simchenko ◽

V.V. Lushchikov

Keyword(s):

Heat Transfer ◽

Heterogeneous Systems ◽

Unsteady State ◽

Transfer Rates ◽

State Heat

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Host-Guest Interactions on Electrode Surfaces for Immobilization of Molecular Catalysts

10.26434/chemrxiv.12115026.v1 ◽

2020 ◽

Author(s):

Laurent Sévery ◽

Jacek Szczerbiński ◽

Mert Taskin ◽

Isik Tuncay ◽

Fernanda Brandalise Nunes ◽

...

Keyword(s):

Aqueous Media ◽

Heterogeneous Systems ◽

Catalytic Systems ◽

New Approach ◽

Molecular Systems ◽

Electrode Surfaces ◽

Catalytic Surfaces ◽

Oxide Electrodes ◽

The Stability ◽

Molecular Catalysts

The strategy of anchoring molecular catalysts on electrode surfaces combines the high selectivity and activity of molecular systems with the practicality of heterogeneous systems. The stability of molecular catalysts is, however, far less than that of traditional heterogeneous electrocatalysts, and therefore a method to easily replace anchored molecular catalysts that have degraded could make such electrosynthetic systems more attractive. Here, we apply a non-covalent “click” chemistry approach to reversibly bind molecular electrocatalysts to electrode surfaces via host-guest complexation with surface-anchored cyclodextrins. The host-guest interaction is remarkably strong and allows the flow of electrons between the electrode and the guest catalyst. Electrosynthesis in both organic and aqueous media was demonstrated on metal oxide electrodes, with stability on the order of hours. The catalytic surfaces can be recycled by controlled release of the guest from the host cavities and readsorption of fresh guest. This strategy represents a new approach to practical molecular-based catalytic systems.

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Depiction Optimization of Overdue Wi-Fi Offloading in Heterogeneous Systems

International Journal of Advanced Scientific Research & Development (IJASRD) ◽

10.26836/ijasrd/2019/v6/i2/60202 ◽

2019 ◽

Vol 6 (2) ◽

pp. 08

Author(s):

R. Kayalvizhi ◽

M. Nivetha

Keyword(s):

Heterogeneous Systems

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Magnetic Field Imaging on Stacked Flash Memories by Laser Probing and SQUID Scanning

ISTFA 2017: Conference Proceedings from the 43rd International Symposium for Testing and Failure Analysis ◽

10.31399/asm.cp.istfa2017p0495 ◽

2017 ◽

Author(s):

K. Sanchez ◽

G. Bascoul ◽

F. Infante ◽

N. Courjault ◽

T. Nakamura

Keyword(s):

Magnetic Field ◽

Failure Analysis ◽

Two Dimensions ◽

Analysis Tool ◽

Active Device ◽

Current Path ◽

3D Packaging ◽

Magnetic Field Imaging ◽

The Magnetic Field ◽

Field Imaging

Abstract Magnetic field imaging is a well-known technique which gives the possibility to study the internal activity of electronic components in a contactless and non-invasive way. Additional data processing can convert the magnetic field image into a current path and give the possibility to identify current flow anomalies in electronic devices. This technique can be applied at board level or device level and is particularly suitable for the failure analysis of complex packages (stacked device & 3D packaging). This approach can be combined with thermal imaging, X-ray observation and other failure analysis tool. This paper will present two different techniques which give the possibility to measure the magnetic field in two dimensions over an active device. Same device and same level of current is used for the two techniques to give the possibility to compare the performance.

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Microstructural Considerations on the Reliability of 3D Packaging

ISTFA 2012: Conference Proceedings from the 38th International Symposium for Testing and Failure Analysis ◽

10.31399/asm.cp.istfa2012p0044 ◽

2012 ◽

Author(s):

Zhiheng Huang ◽

Zhiyong Wu ◽

Hua Xiong ◽

Yucheng Ma

Keyword(s):

Mechanical Behavior ◽

Grain Growth ◽

Spinodal Decomposition ◽

Elastic Energy ◽

Modeling Approach ◽

3D Packaging ◽

Ultrafine Interconnects

Abstract Microstructure and its effect on mechanical behavior of ultrafine interconnects have been studied in this paper using a modeling approach. The microstructure from the processes of solidification, spinodal decomposition, and grain growth in ultrafine interconnects has highlighted its importance. The size, geometry and composition of interconnects as well as the elastic energy can influence microstructure and thus the mechanical behavior. Quantification of microstructure in ultrafine interconnects is a necessary step to establish the linkage between microstructure and reliability.

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Reaction Mechanisms of Inorganic and Organometallic Systems

10.1093/oso/9780195301007.001.0001 ◽

2007 ◽

Author(s):

Robert B. Jordan

Keyword(s):

Electron Transfer ◽

Heterogeneous Systems ◽

Asymmetric Hydrogenation ◽

Pressure Effects ◽

General Level ◽

Hydrogenation Catalysts ◽

Methyl Transferase ◽

Transfer Region ◽

Previous Edition ◽

Oxide Synthase

This third edition retains the general level and scope of earlier editions, but has been substantially updated with over 900 new references covering the literature through 2005, and 140 more pages of text than the previous edition. In addition to the general updating of materials, there is new or greatly expanded coverage of topics such as Curtin-Hammett conditions, pressure effects, metal hydrides and asymmetric hydrogenation catalysts, the inverted electron-transfer region, intervalence electron transfer, photochemistry of metal carbonyls, methyl transferase and nitric oxide synthase. The new chapter on heterogeneous systems introduces the basic background to this industrially important area. The emphasis is on inorganic examples of gas/liquid and gas/liquid/solid systems and methods of determining heterogeneity.

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