Magnolia Fabrics Pattern List - Master As of 9/1/2021
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Indiana's Native Magnolias
FNR-238 Purdue University Forestry and Natural Resources Know your Trees Series Indiana’s Native Magnolias Sally S. Weeks, Dendrologist Department of Forestry and Natural Resources Purdue University, West Lafayette, IN 47907 This publication is available in color at http://www.ces.purdue.edu/extmedia/fnr.htm Introduction When most Midwesterners think of a magnolia, images of the grand, evergreen southern magnolia (Magnolia grandiflora) (Figure 1) usually come to mind. Even those familiar with magnolias tend to think of them as occurring only in the South, where a more moderate climate prevails. Seven species do indeed thrive, especially in the southern Appalachian Mountains. But how many Hoosiers know that there are two native species Figure 2. Cucumber magnolia when planted will grow well throughout Indiana. In Charles Deam’s Trees of Indiana, the author reports “it doubtless occurred in all or nearly all of the counties in southern Indiana south of a line drawn from Franklin to Knox counties.” It was mainly found as a scattered, woodland tree and considered very local. Today, it is known to occur in only three small native populations and is listed as State Endangered Figure 1. Southern magnolia by the Division of Nature Preserves within Indiana’s Department of Natural Resources. found in Indiana? Very few, I suspect. No native As the common name suggests, the immature magnolias occur further west than eastern Texas, fruits are green and resemble a cucumber so we “easterners” are uniquely blessed with the (Figure 3). Pioneers added the seeds to whisky presence of these beautiful flowering trees. to make bitters, a supposed remedy for many Indiana’s most “abundant” species, cucumber ailments. -
CY 2001 Compared to CY 2000
Source: 2001 ACAIS Summary of Enplanement Activity CY 2001 Compared to CY 2000 Svc Hub CY 2001 CY 2000 % Locid Airport Name City ST RO Lvl Type Enplanement Enplanement Change ATL The William B Hartsfield Atlanta International Atlanta GA SO P L 37,181,068 39,277,901 -5.34% ORD Chicago O'Hare International Chicago IL GL P L 31,529,561 33,845,895 -6.84% LAX Los Angeles International Los Angeles CA WP P L 29,365,436 32,167,896 -8.71% DFW Dallas/Fort Worth International Fort Worth TX SW P L 25,610,562 28,274,512 -9.42% PHX Phoenix Sky Harbor International Phoenix AZ WP P L 17,478,622 18,094,251 -3.40% DEN Denver International Denver CO NM P L 17,178,872 18,382,940 -6.55% LAS Mc Carran International Las Vegas NV WP P L 16,633,435 17,425,214 -4.54% SFO San Francisco International San Francisco CA WP P L 16,475,611 19,556,795 -15.76% IAH George Bush Intercontinental Houston TX SW P L 16,173,551 16,358,035 -1.13% Minneapolis-St Paul International/Wold- MSP Chamberlain/ Minneapolis MN GL P L 15,852,433 16,959,014 -6.53% DTW Detroit Metropolitan Wayne County Detroit MI GL P L 15,819,584 17,326,775 -8.70% EWR Newark International Newark NJ EA P L 15,497,560 17,212,226 -9.96% MIA Miami International Miami FL SO P L 14,941,663 16,489,341 -9.39% JFK John F Kennedy International New York NY EA P L 14,553,815 16,155,437 -9.91% MCO Orlando International Orlando FL SO P L 13,622,397 14,831,648 -8.15% STL Lambert-St Louis International St. -
Optimization of Core Components of Block Ciphers Baptiste Lambin
Optimization of core components of block ciphers Baptiste Lambin To cite this version: Baptiste Lambin. Optimization of core components of block ciphers. Cryptography and Security [cs.CR]. Université Rennes 1, 2019. English. NNT : 2019REN1S036. tel-02380098 HAL Id: tel-02380098 https://tel.archives-ouvertes.fr/tel-02380098 Submitted on 26 Nov 2019 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. THÈSE DE DOCTORAT DE L’UNIVERSITE DE RENNES 1 COMUE UNIVERSITE BRETAGNE LOIRE Ecole Doctorale N°601 Mathématique et Sciences et Technologies de l’Information et de la Communication Spécialité : Informatique Par Baptiste LAMBIN Optimization of Core Components of Block Ciphers Thèse présentée et soutenue à RENNES, le 22/10/2019 Unité de recherche : IRISA Rapporteurs avant soutenance : Marine Minier, Professeur, LORIA, Université de Lorraine Jacques Patarin, Professeur, PRiSM, Université de Versailles Composition du jury : Examinateurs : Marine Minier, Professeur, LORIA, Université de Lorraine Jacques Patarin, Professeur, PRiSM, Université de Versailles Jean-Louis Lanet, INRIA Rennes Virginie Lallemand, Chargée de Recherche, LORIA, CNRS Jérémy Jean, ANSSI Dir. de thèse : Pierre-Alain Fouque, IRISA, Université de Rennes 1 Co-dir. de thèse : Patrick Derbez, IRISA, Université de Rennes 1 Remerciements Je tiens à remercier en premier lieu mes directeurs de thèse, Pierre-Alain et Patrick. -
Magnolia X Soulangiana Saucer Magnolia1 Edward F
Fact Sheet ST-386 October 1994 Magnolia x soulangiana Saucer Magnolia1 Edward F. Gilman and Dennis G. Watson2 INTRODUCTION Saucer Magnolia is a multi-stemmed, spreading tree, 25 feet tall with a 20 to 30-foot spread and bright, attractive gray bark (Fig. 1). Growth rate is moderately fast but slows down considerably as the tree reaches about 20-years of age. Young trees are distinctly upright, becoming more oval, then round by 10 years of age. Large, fuzzy, green flower buds are carried through the winter at the tips of brittle branches. The blooms open in late winter to early spring before the leaves, producing large, white flowers shaded in pink, creating a spectacular flower display. However, a late frost can often ruin the flowers in all areas where it is grown. This can be incredibly disappointing since you wait 51 weeks for the flowers to appear. In warmer climates, the late- flowering selections avoid frost damage but some are less showy than the early-flowered forms which blossom when little else is in flower. GENERAL INFORMATION Scientific name: Magnolia x soulangiana Figure 1. Middle-aged Saucer Magnolia. Pronunciation: mag-NO-lee-uh x soo-lan-jee-AY-nuh Common name(s): Saucer Magnolia DESCRIPTION Family: Magnoliaceae USDA hardiness zones: 5 through 9A (Fig. 2) Height: 20 to 25 feet Origin: not native to North America Spread: 20 to 30 feet Uses: container or above-ground planter; espalier; Crown uniformity: irregular outline or silhouette near a deck or patio; shade tree; specimen; no proven Crown shape: round; upright urban tolerance Crown density: open Availability: generally available in many areas within Growth rate: medium its hardiness range 1. -
How Far Can We Go Beyond Linear Cryptanalysis?
How Far Can We Go Beyond Linear Cryptanalysis? Thomas Baign`eres, Pascal Junod, and Serge Vaudenay EPFL http://lasecwww.epfl.ch Abstract. Several generalizations of linear cryptanalysis have been pro- posed in the past, as well as very similar attacks in a statistical point of view. In this paper, we de¯ne a rigorous general statistical framework which allows to interpret most of these attacks in a simple and uni¯ed way. Then, we explicitely construct optimal distinguishers, we evaluate their performance, and we prove that a block cipher immune to classical linear cryptanalysis possesses some resistance to a wide class of general- ized versions, but not all. Finally, we derive tools which are necessary to set up more elaborate extensions of linear cryptanalysis, and to general- ize the notions of bias, characteristic, and piling-up lemma. Keywords: Block ciphers, linear cryptanalysis, statistical cryptanalysis. 1 A Decade of Linear Cryptanalysis Linear cryptanalysis is a known-plaintext attack proposed in 1993 by Matsui [21, 22] to break DES [26], exploiting speci¯c correlations between the input and the output of a block cipher. Namely, the attack traces the statistical correlation between one bit of information about the plaintext and one bit of information about the ciphertext, both obtained linearly with respect to GF(2)L (where L is the block size of the cipher), by means of probabilistic linear expressions, a concept previously introduced by Tardy-Corfdir and Gilbert [30]. Soon after, several attempts to generalize linear cryptanalysis are published: Kaliski and Robshaw [13] demonstrate how it is possible to combine several in- dependent linear correlations depending on the same key bits. -
Improved Meet-In-The-Middle Attacks on Round-Reduced Crypton-256
Improved Meet-in-the-Middle Attacks on Round-Reduced Crypton-256 Yonglin Hao Department of Computer Science and Technology, Tsinghua Universtiy, Beijing 100084, China [email protected] Abstract. The meet-in-the-middle (MITM) attack has prove to be efficient in analyzing the AES block cipher. Its efficiency has been increasing with the introduction of various techniques such as differential enumeration, key-dependent sieve, super-box etc. The recent MITM attack given by Li and Jin has successfully mounted to 10-round AES-256. Crypton is an AES-like block cipher. In this paper, we apply the MITM method to the cryptanalysis of Crypton-256. Following Li and Jin's idea, we give the first 6-round dis- tinguisher for Crypton. Based on the distinguisher as well as the properties of Crypton's simple key schedule, we successfully launch MITM attacks on Crypton-256 reduced to 9 and 10 rounds. For 9-round Crypton-256, our MITM attack can recover the 256-bit key with a time complexity 2173:05, a memory complexity 2241:17. For the 10-round version, we give two MITM attacks. The basic attack requires a time complexity 2240:01 and memory complexity 2241:59. The time/memory complexity of the advanced MITM attack on 10-round Crypton is 2245:05=2209:59. Our MITM attacks share the same data complexity 2113 and their error rates are negligible. Keywords: Cryptanalysis, Crypton, MITM, Efficient Differential Enumeration Technique, Key- Dependent Sieve, Super-Box 1 Introduction The SPN-structural block cipher Crypton [1] was proposed by Lim in 1998 as a candidate algorithm for the Advanced Encryption Standard. -
The Classics Shapes Magnolia & Imperial
THE CLASSICS SHAPES MAGNOLIA & IMPERIAL 1001 - WHITE + Gold Line 1002 - MAGNOLIA CREAM + Gold Line 1541 - JULIA GREEN + Gold Line MAGNOLIA (1021, 1032), PERSIA (1101, 1301) VOILE (1401), JULIA (1521, 1532, 1541) IRIS (1711), WHITE WITH GOLD LINE (1001) MAGNOLIA Shape MAGNOLIA (Shape Nr. 05) MAGNOLIA CREAM with Gold Line MAGNOLIA GREY with Platinum Line (Decor Nr. 1021) (Decor Nr. 1032) PERSIA Shape MAGNOLIA (Shape Nr. 05) PERSIA with Gold Line PERSIA CLASSIC with Gold Line (Decor Nr. 1101) (Decor Nr. 1301) VOILE VOILE with Gold Line (Decor Nr. 1401) WHITE Items of Shape MAGNOLIA (Shape Nr. 05) are also available in WHITE (Decor Nr. 1000) or WHITE with Gold Line (Decor Nr. 1001). See photo on cover page. JULIA Shape MAGNOLIA (Shape Nr. 05) JULIA GREY with Platinum Line (Decor Nr. 1532) JULIA BEIGE with Gold Line JULIA GREEN with Gold Line (Decor Nr. 1521) (Decor Nr. 1541) Shape IMPERIAL (Shape Nr. 04) JULIA BEIGE with Gold Line JULIA GREEN with Gold Line (Decor Nr. 1521) (Decor Nr. 1541) JULIA GREY with Platinum Line (Decor Nr. 1532) IRIS Shape MAGNOLIA (Shape Nr. 05) Shape IMPERIAL (Shape Nr. 04) IRIS PINK with Gold Line (Decor Nr. 1711) Shape IMPERIAL (Shape Nr. 04) Shape MAGNOLIA (Shape Nr. 05) Sugar 400 ml 04-....-6640-. Cup 250 ml Cup 370 ml Tea pot Cup 150 ml Cup 220 ml Cup 250 ml Cup 370 ml saucer 15 cm saucer 17 cm 1,5 L Creamer 250 ml saucer 13 cm saucer 14,5 cm saucer 15 cm saucer 17 cm 04-....-5125-. 04-....-5137-. -
Magnolia Quick Reference Guide
MagnoliaDr. Merrill x loebneri Magnolia 'Merrill' Hans Nelson Height: 30’ & Sons Nursery Width: 30’ Zone: 5 Foliage: Medium green leaves are slightly leath- ery. Bloom: Beautiful white, fragrant, star-shaped Magnolia Quick flowers. Bloom Size: 3” Bloom Time: March to April. Reference Guide Bark: Rough, light brown bark with streaks of light grey. Growth Habit: Upright habit, grown as a tree with low branches. MagnoliaAnn Magnolia liliflora 'Ann' Height: 10’ MagnoliaElizabeth acuminata Magnolia x denudata 'Elizabeth' Width: 10’ Height: 35’ Zone: 4 Width: 25’ Foliage: Ovate medium green leaves. Zone: 5 Bloom: Purple-red, chalice-shaped blooms; Foliage: Obovate large green leaves with slightly fragrant. hairs concentrated on the veins. Bloom Size: 4” Bloom: Fragrant creamy-yellow flowers with Bloom time:Mid-April to early May tinges of yellow-green near the base. Bark: Smooth tan or grey bark Bloom Size: 3” Growth Habit: Upright compact, shrubby Bloom Time: March to April before leaves habit; less apt to suffer frost damage in emerge. spring; slow growing. Bark: Smooth grey bark. Growth Habit: Pyramidal habit. MagnoliaBrixton campbellii Belle Magnolia'Brixton Belle' Height: 13’ MagnoliaEmerald virginiana Tower™ 'JN8' Magnolia Width: 11’ Zone: 5 Height: 20’ Foliage: Large oval green leaves. Width: 8’ Bloom: Large rich pink cup and saucer blooms; Zone: 5 flowers are frost resistant. Foliage: Shiny green foliage. Bloom Size: 6” Bloom: Fragrant, creamy-white blooms. Bloom time: Late winter, early spring. Bloom Size: 3” Bark: Beautiful smooth grey bark, similar to Bloom Time: Spring and summer against beech trees. large glossy leaves. Growth Habit: Upright shrub, small tree; often Bark: Smooth grey bark. -
Collision Attacks on AES-192/256, Crypton-192/256, Mcrypton-96/128, and Anubis
Hindawi Publishing Corporation Journal of Applied Mathematics Volume 2013, Article ID 713673, 10 pages http://dx.doi.org/10.1155/2013/713673 Research Article Collision Attacks on AES-192/256, Crypton-192/256, mCrypton-96/128, and Anubis Jinkeon Kang,1 Kitae Jeong,1 Jaechul Sung,2 Seokhie Hong,1 and Kyungho Lee1 1 Center for Information Security Technologies (CIST), Korea University, Anam-dong, Seongbuk-gu, Seoul 136-713, Republic of Korea 2 Department of Mathematics, University of Seoul, Jeonnong-dong, Dongdaemun-gu, Seoul 130-743, Republic of Korea Correspondence should be addressed to Kyungho Lee; [email protected] Received 19 July 2013; Accepted 22 August 2013 Academic Editor: Jongsung Kim Copyright © 2013 Jinkeon Kang et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. At AES’00, a collision attack on 7-round reduced AES was proposed. In this paper, we apply this idea to seven SPN block ciphers, AES-192/256, Crypton-192/256, mCrypton-96/128, and Anubis. Applying our attacks on AES-192/256, we improve the attack result based on meet-in-the-middle attack (AES-192) and the attack result proposed in AES’00 (AES-256), respectively. Our attack result on Anubis is superior to known cryptanalytic result on it. In the cases of Crypton-192/256 and mCrypton-96/128, our attacks are applicable to 8-round reduced versions. The attack results on mCrypton-96/128 are more practical than known cryptanalytic results on them. -
Species Cultivar Common Name Height Bloom Time Color Light
Species Cultivar Common Name Height Bloom Time Color Light Description TREES Species Cultivar Common Name Height Bloom Time Color Light Description Acer palmatum Bloodgood Bloodgood Japanese 4-5' N/A foliage sun-part Deep, reddish purple leaf coloration all summer. Slow growing, Maple shade round headed with excellent cold hardiness. Acer palmatum var. Waterfall Waterfall Laceleaf 8-10' April sun-part Small reddish-purple blooms appear in April, which in turn dissectum Japanese Maple shade become winged samaras which will ripen in September- October. This is a weeping cultivar. Acer shirasawanum Autumn Moon Autumn Moon Golden Full 8 - 12' N/A foliage sun-part A selection of the highly acclaimed "Golden Full Moon" maple Moon Maple shade with handsome pale yellow-green foliage. Rounded, shallow lobed leaves turn orange-red in fall under favorable conditions. Slower in growth, it eventually forms a rounded shrub or small tree. Alnus glutinosa Imperialis Imperialis Cutleaf Common 50' sun-part An attractive, graceful selection showcasing unusual deeply Alder shade dissected foliage. Plants are moderate growers and will develop into small pyramidal trees in time. Cercis canadensis Eastern Redbud 20-30' Spring sun Eastern Redbud has rosy-pink small flowers appearing in early spring before leaves appear. Heart-shaped leaves appear reddish purple, turning green in summer, yellow in fall. Cornus alba Prairie Fire Prairie Fire Dogwood 7' Late Spring sun-part A colorful and extremely hardy accent shrub with bright golden shade foliage, fading to a soft yellow in summer. Fall foliage is brilliant red and flaming orange-red stems provide winter interest. Creamy white flowers. -
Colour and Colorimetry Multidisciplinary Contributions
Colour and Colorimetry Multidisciplinary Contributions Vol. XI B Edited by Maurizio Rossi and Daria Casciani www.gruppodelcolore.it Regular Member AIC Association Internationale de la Couleur Colour and Colorimetry. Multidisciplinary Contributions. Vol. XI B Edited by Maurizio Rossi and Daria Casciani – Dip. Design – Politecnico di Milano Layout by Daria Casciani ISBN 978-88-99513-01-6 © Copyright 2015 by Gruppo del Colore – Associazione Italiana Colore Via Boscovich, 31 20124 Milano C.F. 97619430156 P.IVA: 09003610962 www.gruppodelcolore.it e-mail: [email protected] Translation rights, electronic storage, reproduction and total or partial adaptation with any means reserved for all countries. Printed in the month of October 2015 Colour and Colorimetry. Multidisciplinary Contributions Vol. XI B Proceedings of the 11th Conferenza del Colore. GdC-Associazione Italiana Colore Centre Français de la Couleur Groupe Français de l'Imagerie Numérique Couleur Colour Group (GB) Politecnico di Milano Milan, Italy, 10-11 September 2015 Organizing Committee Program Committee Arturo Dell'Acqua Bellavitis Giulio Bertagna Silvia Piardi Osvaldo Da Pos Maurizio Rossi Veronica Marchiafava Michela Rossi Giampiero Mele Michele Russo Christine de Fernandez-Maloigne Laurence Pauliac Katia Ripamonti Organizing Secretariat Veronica Marchiafava – GdC-Associazione Italiana Colore Michele Russo – Politecnico di Milano Scientific committee – Peer review Fabrizio Apollonio | Università di Bologna, Italy Gabriel Marcu | Apple, USA John Barbur | City University London, UK Anna Marotta | Politecnico di Torino Italy Cristiana Bedoni | Università degli Studi Roma Tre, Italy Berta Martini | Università di Urbino, Italy Giordano Beretta | HP, USA Stefano Mastandrea | Università degli Studi Roma Tre, Berit Bergstrom | NCS Colour AB, SE Italy Giulio Bertagna | B&B Colordesign, Italy Louisa C. -
Hardy Magnolias for the North Dennis Ledvina
ISSUE 77 MAGNOUA Hardy magnolias for the north Dennis Ledvina I have been growing magnolias since the late 7os in Green Bay, WI, which is located on the border of vsoA zones 4 and 3. Our tempera- tures have dropped to -28'F (-33'c) during the winter of 1994, —26 F (-32'c) during the winter of 1996, ancl —22 F (— 3o'c) during the winter of zooo. The month of January 1994 was the third coldest month ever recorded in Green Bay weather history. On one day that month, the maximum temperature never got above —18F' (— 28'c), the lowest dai- ly maximum ever recorded. Some factors contributing to magnolia hardiness that I have observed over the years are: ~ A gradual hardening off period in the fall and early winter is of ut- most importance. A temperature of o'F (— 18'c). in early November will be more devastating then -25 F (-32 c) in the middle of winter. Early cold in November of zooo caused trunk cracks on some of the more tender magnolias. Cracks are generally found on hybrids with M. campbelli, M. sprengeri, M. denudnta, and M. SargentiIIna genes in their parentage. It is essential that fertilization of magnolias be done only in late fall or early spring to prevent late summer growth and ensure that the magnolias harden off properly. ~ Extremes in temperatures in a short duration of time is very harm- ful to magnolias. In this area we seldom have winter temperatures of 3o-6o'F (so-s3. 3'c) followed by below zero temperatures.