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An evolvable hardware FPGA for adaptive hardware
Proceedings of the 2000 Congress on Evolutionary Computation. CEC00 (Cat. No.00TH8512), 2002Can we realise the opportunities that lie in design by evolution by using traditional technologies or are there better technologies which will allow us to fully realise the potential inherent in evolvable hardware? The authors consider the characteristics of evolvable hardware, especially for adaptive design, and discuss the demands that these ...
Pauline C. Haddow, Gunnar Tufte
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Biosystems, 1997
Ontogeny is the process by which a single mother cell, the zygote, gives rise, through successive divisions, to a complete organism, possibly containing trillions of cells (e.g. in humans). This paper describes research whose inspiration is drawn from the process of ontogenetic development.
Sipper M, Mange D, Stauffer A
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Ontogeny is the process by which a single mother cell, the zygote, gives rise, through successive divisions, to a complete organism, possibly containing trillions of cells (e.g. in humans). This paper describes research whose inspiration is drawn from the process of ontogenetic development.
Sipper M, Mange D, Stauffer A
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Proceedings of the 9th annual conference companion on Genetic and evolutionary computation, 2004
In this tutorial, fundamental concepts of evolutionary circuit design and evolvable hardware will be introduced. In particular, we will deal with evolutionary algorithms and reconfigurable devices utilized for hardware evolution as well as with their interactions in typical applications of evolvable hardware.
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In this tutorial, fundamental concepts of evolutionary circuit design and evolvable hardware will be introduced. In particular, we will deal with evolutionary algorithms and reconfigurable devices utilized for hardware evolution as well as with their interactions in typical applications of evolvable hardware.
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Trustworthy Hardware: Identifying and Classifying Hardware Trojans
Computer, 2010For reasons of economy, critical systems will inevitably depend on electronics made in untrusted factories. A proposed new hardware Trojan taxonomy provides a first step in better understanding existing and potential threats.
Ramesh Karri +2 more
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itit, 2013
Abstract The future of HPC is simple to predict: we will have faster and more capable systems in the future. That is because the need for more is so strong that such systems will be created. A key development in HPC has been this great growth in demand from many sectors.
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Abstract The future of HPC is simple to predict: we will have faster and more capable systems in the future. That is because the need for more is so strong that such systems will be created. A key development in HPC has been this great growth in demand from many sectors.
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IEEE Transactions on Computers, 1977
The need for verification of hardware designs is particularly important for large-scale-integration technologies because of the great cost, in time and money, for engineering changes. This correspondence describes an efficient means for determining the equivalence of a behavioral, high-level, i.e., flowchart, definition of the design and a detailed ...
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The need for verification of hardware designs is particularly important for large-scale-integration technologies because of the great cost, in time and money, for engineering changes. This correspondence describes an efficient means for determining the equivalence of a behavioral, high-level, i.e., flowchart, definition of the design and a detailed ...
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Proceedings of the 38th Design Automation Conference (IEEE Cat. No.01CH37232), 2001
We introduce the first hardware metering scheme that enables reli-able low overhead proofs for the number of manufactured parts. The key idea is to make each design slightly different. Therefore, if two identical hardware designs or a design that is not reported by the foundry are detected, the design house has proof of miscon-duct.
Farinaz Koushanfar, Gang Qu 0001
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We introduce the first hardware metering scheme that enables reli-able low overhead proofs for the number of manufactured parts. The key idea is to make each design slightly different. Therefore, if two identical hardware designs or a design that is not reported by the foundry are detected, the design house has proof of miscon-duct.
Farinaz Koushanfar, Gang Qu 0001
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2014
Lest those interested in exploring the field not understand the nuts and bolts of the system, no book on digital technology is complete without some background on the available hardware and software. The field is changing rapidly, and specific examples may be already obsolete at the time this book goes to press.
Sucaet, Yves, Waelput, Wim
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Lest those interested in exploring the field not understand the nuts and bolts of the system, no book on digital technology is complete without some background on the available hardware and software. The field is changing rapidly, and specific examples may be already obsolete at the time this book goes to press.
Sucaet, Yves, Waelput, Wim
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Proceedings of the 19th International Conference on Computer Systems and Technologies, 2018
Operation division is the slowest of the four basic arithmetic operations performed in arithmetic-logic devices. In this paper we offer a proposal to speed up computations based on non-restoring division algorithm by the use of the radix-2 two's complement signed numbers.
Dimitar Tyanev, Yulka Petkova
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Operation division is the slowest of the four basic arithmetic operations performed in arithmetic-logic devices. In this paper we offer a proposal to speed up computations based on non-restoring division algorithm by the use of the radix-2 two's complement signed numbers.
Dimitar Tyanev, Yulka Petkova
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IEEE Computer Graphics and Applications, 2000
Graphics hardware is far faster, smaller, cheaper, and more capable than 20 years ago, and it will obviously continue on that path. Memory and processor advances have let us move texture mapping and surface occlusion from software to hardware. We'll no doubt move more sophisticated modeling, lighting and imaging operations into future hardware.
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Graphics hardware is far faster, smaller, cheaper, and more capable than 20 years ago, and it will obviously continue on that path. Memory and processor advances have let us move texture mapping and surface occlusion from software to hardware. We'll no doubt move more sophisticated modeling, lighting and imaging operations into future hardware.
openaire +1 more source