L'enrichissement en épinette blanche à la forêt Montmorency, un traitement sylvicole intensif de restauration écosystémique dans la sapinière à bouleau blanc de l'est

St-Hilaire, Greg

17 April 2018

L'aménagement écosystémique représente de nouveaux défis pour la sylviculture. L'enrichissement en épinette blanche, effectué à la Forêt Montmorency, forêt d'enseignement et de recherche de l'Université Laval, est un traitement qui allie des objectifs de restauration écosystémique et d'augmentation de la production ligneuse. Un suivi à moyen terme (9-13 ans) souligne le potentiel du traitement à répondre aux deux objectifs, en dépit de certains défis. L'établissement de l'épinette blanche semble réussi, mais sa place dans le peuplement mature n'est pas assurée. Les deux tiers sont supprimés et le sapin baumier croît plus rapidement. Des problèmes d'enfeuillement sont aussi observés. L'évaluation de ce traitement a montré le besoin d'un outil pour évaluer le caractère naturel des peuplements aménagés. Cette étude s'accompagne donc d'une réflexion sur le concept du gradient de naturalité. Cet outil propose cinq classes de naturalité qui correspondent à un gradient d'altération des attributs clés d'habitats des peuplements forestiers traités.

SD 121 UL 2011 S141

Eucharistie v Janově evangeliu / The Eucharist in the Gospel of John

POLÁČEK, Martin

January 2007

The presented work deals with the conception of the Eucharist in the Gospel of John. The first chapter is dedicated to terms of the Eucharist, the Last Supper and the Lord{\crq}s Supper and also to the existing division of possible approaches to the sacramentality in the Gospel of John. In the subsequent chapters it deals in detail with five places of the Gospel of John, that are mostly mentioned in connection with the Eucharist. It is the wedding at Cana (2,1-11), the eucharistic section (6,51-58), washing of the feet of disciples (13,1-20), the Vine and the Branches (15,1-17), opening of the side of Jesus (19,34). The work tries to solve the topic (question) in the context as wide as possible including the question of the johannine sources of inspiration. In this way it can be seen the mutual correspondence of these varios places and the deep theological conception of the hole Gospel. The replacement of the institution of the Eucharist in the thirteenth chapter with the washing of the feet and it{\crq}s displacement to {\clqq}the bread of life discourse`` in the sixth chapter is due to the proper evangelist{\crq}s intention. There was an impending danger, that the Eucharist became a magical medicine without any relation to the incarnation and the sacrifitial death of Jesus. These facts have theirs own consequences for the life of the christian community. So the subject of the sacraments has been subordinated to the christological accent.

Elliptic Curve Cryptography for Lightweight Applications.

Hitchcock, Yvonne Roslyn

January 2003

Elliptic curves were first proposed as a basis for public key cryptography in the mid 1980's. They provide public key cryptosystems based on the difficulty of the elliptic curve discrete logarithm problem (ECDLP) , which is so called because of its similarity to the discrete logarithm problem (DLP) over the integers modulo a large prime. One benefit of elliptic curve cryptosystems (ECCs) is that they can use a much shorter key length than other public key cryptosystems to provide an equivalent level of security. For example, 160 bit ECCs are believed to provide about the same level of security as 1024 bit RSA. Also, the level of security provided by an ECC increases faster with key size than for integer based discrete logarithm (dl) or RSA cryptosystems. ECCs can also provide a faster implementation than RSA or dl systems, and use less bandwidth and power. These issues can be crucial in lightweight applications such as smart cards. In the last few years, ECCs have been included or proposed for inclusion in internationally recognized standards. Thus elliptic curve cryptography is set to become an integral part of lightweight applications in the immediate future. This thesis presents an analysis of several important issues for ECCs on lightweight devices. It begins with an introduction to elliptic curves and the algorithms required to implement an ECC. It then gives an analysis of the speed, code size and memory usage of various possible implementation options. Enough details are presented to enable an implementer to choose for implementation those algorithms which give the greatest speed whilst conforming to the code size and ram restrictions of a particular lightweight device. Recommendations are made for new functions to be included on coprocessors for lightweight devices to support ECC implementations Another issue of concern for implementers is the side-channel attacks that have recently been proposed. They obtain information about the cryptosystem by measuring side-channel information such as power consumption and processing time and the information is then used to break implementations that have not incorporated appropriate defences. A new method of defence to protect an implementation from the simple power analysis (spa) method of attack is presented in this thesis. It requires 44% fewer additions and 11% more doublings than the commonly recommended defence of performing a point addition in every loop of the binary scalar multiplication algorithm. The algorithm forms a contribution to the current range of possible spa defences which has a good speed but low memory usage. Another topic of paramount importance to ECCs for lightweight applications is whether the security of fixed curves is equivalent to that of random curves. Because of the inability of lightweight devices to generate secure random curves, fixed curves are used in such devices. These curves provide the additional advantage of requiring less bandwidth, code size and processing time. However, it is intuitively obvious that a large precomputation to aid in the breaking of the elliptic curve discrete logarithm problem (ECDLP) can be made for a fixed curve which would be unavailable for a random curve. Therefore, it would appear that fixed curves are less secure than random curves, but quantifying the loss of security is much more difficult. The thesis performs an examination of fixed curve security taking this observation into account, and includes a definition of equivalent security and an analysis of a variation of Pollard's rho method where computations from solutions of previous ECDLPs can be used to solve subsequent ECDLPs on the same curve. A lower bound on the expected time to solve such ECDLPs using this method is presented, as well as an approximation of the expected time remaining to solve an ECDLP when a given size of precomputation is available. It is concluded that adding a total of 11 bits to the size of a fixed curve provides an equivalent level of security compared to random curves. The final part of the thesis deals with proofs of security of key exchange protocols in the Canetti-Krawczyk proof model. This model has been used since it offers the advantage of a modular proof with reusable components. Firstly a password-based authentication mechanism and its security proof are discussed, followed by an analysis of the use of the authentication mechanism in key exchange protocols. The Canetti-Krawczyk model is then used to examine secure tripartite (three party) key exchange protocols. Tripartite key exchange protocols are particularly suited to ECCs because of the availability of bilinear mappings on elliptic curves, which allow more efficient tripartite key exchange protocols.

Elliptic curve (EC)

elliptic curve cryptosystem (ECC)

discrete logarithm problem (DLP)

speed

code size

memory usage

ram usage

fixed curve

random curve

Pollard's rho method

Canetti-Krawczyk proof model

key exchange protocols

security proof

tripartite key exchange

pairings

password-based authentication

point addition

projective coordinates

Jacobian coordinates

Chudnovsky Jacobian coordinates

modified Jacobian coordinates

binary method

simultaneous multiple exponentiation

two-in-one scalar multiplication

coprocessor

smart card

lightweight device

simple power analysis (spa)

side channel attack

equivalent security.

Electrothermal device-to-circuit interactions for half THz SiGe∶C HBT technologies / Interactions électrothermiques du transistor au circuit pour des technologies demi-THz TBH SiGe∶C

Weisz, Mario

25 November 2013

Ce travail concerne les transistors bipolaires à hétérogène TBH SiGe. En particulier, l'auto-échauffement des transistors unitaires et le couplage thermique avec leurs plus proches voisins périphériques sont caractérisés et modélisés. La rétroaction électrothermique intra- et inter-transistor est largement étudiée. En outre, l’impact des effets thermiques sur la performance de deux circuits analogiques est évalué. L'effet d'autoéchauffement est évalué par des mesures à basse fréquence et des mesures impulsionnelles DC et AC. L'auto-échauffement est diminué de manière significative en utilisant des petites largeurs d'impulsion. Ainsi la dépendance fréquentielle de l’autoéchauffementa été étudiée en utilisant les paramètres H et Y. De nouvelles structures de test ont été fabriqués pour mesurer l'effet de couplage. Les facteurs de couplage thermique ont été extraits à partir de mesures ainsi que par simulations thermiques 3D. Les résultats montrent que le couplage des dispositifs intra est très prononcé. Un nouvel élément du modèle de résistance thermique récursive ainsi que le modèle de couplage thermique a été inclus dans un simulateur de circuit commercial. Une simulation transitoire entièrement couplée d'un oscillateur en anneau de 218 transistors a été effectuée. Ainsi, un retard de porte record de 1.65ps est démontré. À la connaissance des auteurs, c'est le résultat le plus rapide pour une technologie bipolaire. Le rendement thermique d'un amplificateur de puissance à 60GHz réalisé avec un réseau multi-transistor ou avec un transistor à plusieurs doigts est évalué. La performance électrique du transistor multidoigt est dégradée en raison de l'effet de couplage thermique important entre les doigts de l'émetteur. Un bon accord est constaté entre les mesures et les simulations des circuits en utilisant des modèles de transistors avec le réseau de couplage thermique. Enfin, les perspectives sur l'utilisation des résultats sont données. / The power generate by modern silicon germanium (SiGe) heterojunction bipolar transistors (HBTs) can produce large thermal gradients across the silicon substrate. The device opering temperature modifies model parameters and can significantly affect circuit operation. This work characterizes and models self-heating and thermal coupling in SiGe HBTs. The self-heating effect is evaluated with low frequency and pulsed measurements. A novel pulse measurement system is presented that allows isothermal DC and RF measurements with 100ns pulses. Electrothermal intra- and inter-device feedback is extensively studied and the impact on the performance of two analog circuits is evaluated. Novel test structures are designed and fabricated to measure thermal coupling between single transistors (inter-device) as well as between the emitter stripes of a multi-finger transistor (intra-device). Thermal coupling factors are extracted from measurements and from 3D thermal simulations. Thermally coupled simulations of a ring oscillator (RO) with 218 transistors and of a 60GHz power amplifier (PA) are carried out. Current mode logic (CML) ROs are designed and measured. Layout optimizations lead to record gate delay of 1.65ps. The thermal performance of a 60GHz power amplifier is compared when realized with a multi-transistor array (MTA) and with a multi-finger trasistor (MFT). Finally, perspectives of this work within a CAD based circuit design environment are discussed.

Hétéro-transistors bipolaires (HBT)

Technologies térahertz

Modélisation électrothermique

Couplage thermique mutuel

Oscillateur en anneau

Retards de grille de multiplication

Amplificateur de puissance

Transistor à plusieurs doigts

Résistance thermique

Capacité thermique

Impédance thermique

Mesures impulsion

Simulation TCAD thermique

Terahertz technologies

Electrothermal modeling

Mutual thermal coupling

Intra-device coupling

Inter-device coupling

Device to circuit interactions

Ring oscillator

Propagation gate delay

Power amplifier

Multi-finger transistor

Thermal resistance

Thermal capacitance

Thermal impedance

Semiconductor device characterizations

Pulse measurements

Semiconductor device modeling

Thermal TCAD simulation