The Experts below are selected from a list of 24 Experts worldwide ranked by ideXlab platform
Lilian Bossuet - One of the best experts on this subject based on the ideXlab platform.
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Survey of Hardware protection of design data for integrated circuits and intellectual properties
Iet Computers and Digital Techniques, 2014Co-Authors: Brice Colombier, Lilian BossuetAbstract:This study reviews the current situation regarding design protection in the microelectronics industry. Over the past 10 years, the designers of integrated circuits (IC) and intellectual properties (IP) have faced increasing threats including counterfeiting, reverse-engineering and theft. This is now a critical issue for the microelectronics industry, mainly for fabless designers and IP designers. Coupled with increasing pressure to decrease the cost and increase the performance of ICs, the design of a secure, efficient, lightweight protection scheme for design data is a serious challenge for the Hardware security community. However, several published works propose different ways to protect design data including functional Locking, Hardware obfuscation and IC/IP identification. This study presents a survey of academic research on the protection of design data. It concludes with the need to design an efficient protection scheme based on several properties.
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A Survey of Hardware protection of design data for integrated circuits and intellectual properties
IET Computers & Digital Techniques, 2014Co-Authors: Brice Colombier, Lilian BossuetAbstract:This paper reviews the current situation regarding design protection in the microelectronics industry. Over the past ten years, the designers of integrated circuits and intellectual properties have faced increasing threats including counterfeiting, reverse-engineering and theft. This is now a critical issue for the microelectronics industry, mainly for fabless designers and intellectual properties designers. Coupled with increasing pressure to decrease the cost and increase the performance of integrated circuits, the design of a secure, efficient, lightweight protection scheme for design data is a serious challenge for the Hardware security community. However, several published works propose different ways to protect design data including functional Locking, Hardware obfuscation, and IC/IP identification. This paper presents a survey of academic research on the protection of design data. It concludes with the need to design an efficient protection scheme based on several properties.
Brice Colombier - One of the best experts on this subject based on the ideXlab platform.
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Survey of Hardware protection of design data for integrated circuits and intellectual properties
Iet Computers and Digital Techniques, 2014Co-Authors: Brice Colombier, Lilian BossuetAbstract:This study reviews the current situation regarding design protection in the microelectronics industry. Over the past 10 years, the designers of integrated circuits (IC) and intellectual properties (IP) have faced increasing threats including counterfeiting, reverse-engineering and theft. This is now a critical issue for the microelectronics industry, mainly for fabless designers and IP designers. Coupled with increasing pressure to decrease the cost and increase the performance of ICs, the design of a secure, efficient, lightweight protection scheme for design data is a serious challenge for the Hardware security community. However, several published works propose different ways to protect design data including functional Locking, Hardware obfuscation and IC/IP identification. This study presents a survey of academic research on the protection of design data. It concludes with the need to design an efficient protection scheme based on several properties.
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A Survey of Hardware protection of design data for integrated circuits and intellectual properties
IET Computers & Digital Techniques, 2014Co-Authors: Brice Colombier, Lilian BossuetAbstract:This paper reviews the current situation regarding design protection in the microelectronics industry. Over the past ten years, the designers of integrated circuits and intellectual properties have faced increasing threats including counterfeiting, reverse-engineering and theft. This is now a critical issue for the microelectronics industry, mainly for fabless designers and intellectual properties designers. Coupled with increasing pressure to decrease the cost and increase the performance of integrated circuits, the design of a secure, efficient, lightweight protection scheme for design data is a serious challenge for the Hardware security community. However, several published works propose different ways to protect design data including functional Locking, Hardware obfuscation, and IC/IP identification. This paper presents a survey of academic research on the protection of design data. It concludes with the need to design an efficient protection scheme based on several properties.
Donald J. Horan - One of the best experts on this subject based on the ideXlab platform.
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The Retailer's Guide to Loss Prevention and Security
1997Co-Authors: Donald J. HoranAbstract:Introduction Elements of Physical Security Overview Locking Hardware Alarm Systems Electronic Article Surveillance Closed Circuit Television Guard Force Management Loss Prevention Programs Overview Employee Awareness Audit Programs Shoplifting Prevention Employee Dishonesty Sales Audit The Finer Points Overview Investigation and Interview Civil Liability Robbery Prevention Scams, Frauds, and Bouncing Checks Civil Recovery and Civil Demand Violence in the Workplace Security Operations Overview Incident Reports Apprehension Criteria Prosecution Criteria Criminal Trespass Crisis ManagementTeams Emergency Procedures Appendix
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The Retailer's Guide to Loss Prevention and Security
1997Co-Authors: Donald J. HoranAbstract:Introduction Elements of Physical Security Overview Locking Hardware Alarm Systems Electronic Article Surveillance Closed Circuit Television Guard Force Management Loss Prevention Programs Overview Employee Awareness Audit Programs Shoplifting Prevention Employee Dishonesty Sales Audit The Finer Points Overview Investigation and Interview Civil Liability Robbery Prevention Scams, Frauds, and Bouncing Checks Civil Recovery and Civil Demand Violence in the Workplace Security Operations Overview Incident Reports Apprehension Criteria Prosecution Criteria Criminal Trespass Crisis ManagementTeams Emergency Procedures Appendix
Emil Levi - One of the best experts on this subject based on the ideXlab platform.
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An EV Drive-Train With Integrated Fast Charging Capability
IEEE Transactions on Power Electronics, 2016Co-Authors: Ivan Subotic, N. Bodo, Emil LeviAbstract:This paper proposes a new class of on-board chargers for electric vehicles (EVs). Instead of being placed on-board as a separate unit, the three-phase (fast) chargers reutilize the existing components in EVs, which are already used for the propulsion. These are primarily the inverter and the machine, which however have to be multiphase (with more than three phases). The concept is valid for all multiphase propulsion drives with a prime number of phases higher than three and a single neutral point in motoring and is illustrated in detail for the five-phase inverter/five-phase machine configuration. During the charging mode, electromagnetic torque is not produced in the machine so that the rotor does not require mechanical Locking. Hardware reconfiguration between propulsion and fast charging is required, but it is achieved with only two switches, which are the only two nonintegrated elements. The integrated topology is explained in this paper, together with the control scheme, and extension from five phases to higher phase numbers is illustrated using the seven-phase system as an example. Finally, the propulsion-mode operation with complete suppression of low-order harmonics, which map into the second plane, is achieved for the five-phase machine. Experimental verification of theoretical results and proposed control is provided for both charging and vehicle-to-grid mode of operation, as well as for propulsion.
Ivan Subotic - One of the best experts on this subject based on the ideXlab platform.
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An EV Drive-Train With Integrated Fast Charging Capability
IEEE Transactions on Power Electronics, 2016Co-Authors: Ivan Subotic, N. Bodo, Emil LeviAbstract:This paper proposes a new class of on-board chargers for electric vehicles (EVs). Instead of being placed on-board as a separate unit, the three-phase (fast) chargers reutilize the existing components in EVs, which are already used for the propulsion. These are primarily the inverter and the machine, which however have to be multiphase (with more than three phases). The concept is valid for all multiphase propulsion drives with a prime number of phases higher than three and a single neutral point in motoring and is illustrated in detail for the five-phase inverter/five-phase machine configuration. During the charging mode, electromagnetic torque is not produced in the machine so that the rotor does not require mechanical Locking. Hardware reconfiguration between propulsion and fast charging is required, but it is achieved with only two switches, which are the only two nonintegrated elements. The integrated topology is explained in this paper, together with the control scheme, and extension from five phases to higher phase numbers is illustrated using the seven-phase system as an example. Finally, the propulsion-mode operation with complete suppression of low-order harmonics, which map into the second plane, is achieved for the five-phase machine. Experimental verification of theoretical results and proposed control is provided for both charging and vehicle-to-grid mode of operation, as well as for propulsion.
