DOCSLIB.ORG

SHARK ECONO 2512__Dec17 Roll Fed Media Remove

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
SHARK ECONO 2512__Dec17 Roll Fed Media Remove PRINTER SPECIFICATIONS MEDIA w w w . s t r a t o j e t u s a . c o m Handling 4 zone vacuum table Rigid media support 100”x48” & 11 lb/ft2 (254 x 122 cm & 50 Kg/m2) Max thickness 4” (10 cm) PRINT SPEEDS (Vary depending on final configuration) Maximum speed 1100 ft2/hr (102 m2/hr), (34 Boards/hr)** Production 540 ft2/hr (50 m2/hr), (17 Boards/hr)** PRINTING Max print resolution 1200 dpi Drop size Variable 5, 15 & 30 Picoliter Margin Full bleed capable Printhead Ricoh Gen5 UV curable lamp type LED, estimated life 18,000* hrs Ink type Sola UV curable ink Ink capacity 2.5 Liter reservoirs Connectivity USB Supported RIP Software Caldera / Onyx / SAi DIMENSIONS Assembled dimensions (L x W x H) 175” x 80” x 60” (445 x 205 x 153 cm) Weight assembled (approx) 2650 lb (1202 Kg) Shipping dimensions (L x W x H) 185” x 90” x 75” (470 x 230 x 191 cm) SHARK EFB-2512 Rigid/Flexible Substrate Printers Weight shipping (approx) 3310 lb (1502 Kg) OPERATION CONDITIONS Temperature 68 to 86 oF (20 to 30 oC) Max versatility Print the widest variety of rigid and flexible substrates Humidity 40% to 70% non-condensing Electrical 220 VAC (± 10%) 50/60 Hz 30A Increased quality and productivity Benefit from 1200 dpi grayscale output and feature rich design Warranty Limited one year parts & labour Robust design Experience years of production with confidence Affordability Choose the Shark EFB-2512 for its simplicity, affordability and to save money by printing North / South America Europe / Middle East / Africa India / Asia / Pacific direct to rigids. You have never seen a quality UV curable flatbed so affordable. Strategic Printing Solution Inc. Strategic Printing Solution Pvt Ltd. Strategic Printing Solution Pvt Ltd. 12110 E Slauson Ave #8 Unit 5 Adrienne Business Centre 71/2 B Shivaji Marg Santa Fe Springs, CA 90670 Adrienne Ave, Southall New Delhi 110015 Middlesex UB1 2FJ, London Phone: +1 562 758 3018 Phone: +91 11 45410142 Email: [email protected] Phone: +44 7985 11 6150 Fax: 91 11 45054505 With over 20 years in the large and grand format industry, Stratojet began production of Mobile: +91 9873048657 Mobile: +919873048657 world-class large and grand format printing solutions in 2008 Email: [email protected] Email: [email protected] *Subject to change without notice. **Actual results may vary/speeds does not include media setup Since there are different printer configurations, the actual printer may differ from the images on this brochure. This document is not a warranty. Not responsible for errors or omission in this document This document and its content is a copyright of STRATOJET USA - © Strategic Printing Solution 2018. SHARK EFB-2512 SHARK EFB-2512 Now you can print the highest quality output, eliminate all vinyl cost on rigid jobs, reduce your ink cost and eliminate mounting time and Configure your printer with the following options: cost. ?Single or double white ink Choose between different performance levels and speciality options such as white and clear coat/varnish ink options, with confidence. ?Single or double varnish ( clear coat ) ?Add light cyan(LC) and light magenta(LM) ink sets As your print performance grows, you can also use Stratojet’s upgradability feature by adding: ?ZDep® depth perception printing ?White ink to print on clear, translucent or colored media ?Clear coat/varnish to highlight or enhance an image ?Add printheads to double the printing speed Your authorized Stratojet reseller can help you find the right fit for your current and future needs. ZDep® Printed Depth Perception Print eye catching output This option uses patented technology to print depth perception directly on to plain acrylics or glass. The system works combining Stratojet’s software, HW, inks and varnish. The specially prepared file is reversed printed and then a spot pattern of micro bubbles is printed on the front side of the substrate. ZDep is NOT lenticular printing, it is better: ?No need to buy expensive lenses, just get acrylic media. ?Easier to set up and never worry about the pitch or alignment or expensive lamination. ?No text size restrictions. ?Print any size up to 4'x8' with consistent results, print after print. ?No 37° to 49° viewing angle restrictions. The product you are selling (printing) can be viewed from any angle 170°. ?You can see the depth perception effect from any angle, looking side to side or up and down. Stratojet’s ZDep gives you a differentiating tool by enabling your company to print eye catching output. w w w . s t r a t o j e t u s a . c o m t u s a . c o m w w w . s t r a t o j e w a . c o m w . s t r a t o j e t u s w c o m w w t o j e t u s a . w w w w . s t r a . s t r a t o j e t u s a . c o m w w w . s t r a t o j e t u s a . c o m w w w . s t r a t o j e t u s a . c o m Corrugated Plastic Foam Boards ZDep on Acrylic Glass UV-LED Lamps Limitless Application Benefit from LED lamps that have exceptional long life and low Print on virtually any rigid media up to 4” (10 cm) thick and offer your power consumption. The Shark EFB-2512 UV-LED lamps don’t customers durable speciality printed gifts/novelties, POP displays, QUALITY WITH VARNISH / CLEAR (OPTION) RICOH PRINTHEAD WHITE INK (OPTION) need to warm up and instantly cures ink dry, while generating low proofs/mock-ups, packaging, glass, ceramic tiles, aluminum TECHNOLOGY heat to allow more print applications that are heat sensitive. composite sheets wooden blocks, phone covers and many more. With 1200 dpi high definition Increase your profit margin by The Stratojet’s Shark EFB- Shark EFB-2512 offers white Sharp Text output Shark EFB-2512 uses providing high value options 2512 uses Ricoh’s latest ink option allowing you to Never be afraid of printing small text. With the Shark EFB-2512 grayscale technology to ensure like spot varnish coating to printheads, known for its high e x p a n d y o u r p r i n t i n g Built-in Anti-static Bar small picoliter drop size, achieve sharp texts for all of your Depending on the media, static can cause quality problems; prints have a smooth gradation highlight specific features on quality and performance. applications using the white ink demanding print jobs. in skin tonnes as well as sharp the print, or use complete system to print, under-flood, to minimize these issues, anti static bar is built in the printer carriage. and well saturated solids and varnish coat to increase print Stratojet’s variable drop size over-flood or use the spot Unparalleled Support text. color protection from harsh and greyscale technology feature on transparent, Built with the highest quality components , our printing solutions external conditions. allows the user to print in true t r a n s l u c e n t o r c o l o r e d are designed from the ground up with serviceability in mind. Robust Design Stratojet incorporates Accurate greyscale variable drop at 5, 10, materials . Should there be a quality or printing problem, our technicians can To increase reliability, Stratojet uses servo motors instead of using Dot Placement Technology Also get the option to add a and 15 picoliter(PL) with ask for a temporary password to log in to your printer, then read, significantly inexpensive DC motors. To ensure fidelity across the (ADPT). The ADPT integrates matte or a gloss varnish affect printing resolution up to 1200 The EFB-2512 circulation evaluate the log files and find most printer related issues remotely. image, particularly when working on tile applications, Stratojet the printer controller system for to your prints. dpi, and deliver high quality system recirculates the white chose an ink delivery system that pulls the ink with vacuum, instead color management software to output. ink, to prevent ink particles from Our expertise comes from understanding on how a printer service of a less efficient positive pressure system. assign a specific drop size setting. Depending on your provider works. We found the majority of service calls are due to along the print, allowing the needs, we can factory application problems, to solve such issues, in Stratojet we start by user to print sharp text and configure your devise to print training our technicians to be application experts before they can Contact an authorized reseller to demonstrate with detail the quality vibrant colors with speed. simultaneous CMYK and White become a HW technician. and reliability of Stratojet’s Shark EFB-2512. printing..
Load more

Recommended publications
  • Seed Maturity in White Fir and Red Fir. Pacific Southwest Forest and Range Exp
    PACIFIC SOUTHWEST Forest and Range FOREST SERVICE U. S. DEPARTMENT OF AGRICULTURE P.O. BOX 245, BERKELEY, CALIFORNIA 94701 Experiment Station USDA FOREST SERVICE RESEARCH PAPER PSW-99 /1974 CONTENTS Page Summary ................................................... 1 Introduction ................................................. 3 Methods .................................................... 3 Testing Fresh Seeds ....................................... 3 Testing Stratified Seeds .................................... 3 Seedling Vigor Tests ...................................... 4 Artificial Ripening Trial ................................... 4 Other Observations ........................................ 4 Results and Discussion ....................................... 5 Cone Specific Gravity ..................................... 5 Seed Germination, byCollection Date ....................... 5 Seed GerminationandCone Specific Gravity ................ 7 Red Fir Seedling Vigor .................................... 9 ArtificialRipening of White Fir Seeds ....................... 9 OtherMaturity Indices ..................................... 9 Application ................................................. 10 Literature Cited.............................................. 12 THE AUTHOR WILLIAM W. OLIVER is doing silvicultural research on Sierra Nevada conifer types with headquarters at Redding, California. He earned a B.S. degree (1956) in forestry from the University of New Hampshire, and an M.F. degree (1960) from the University of Michigan. A native of
    [Show full text]
  • Report on the AES Candidates
    Rep ort on the AES Candidates 1 2 1 3 Olivier Baudron , Henri Gilb ert , Louis Granb oulan , Helena Handschuh , 4 1 5 1 Antoine Joux , Phong Nguyen ,Fabrice Noilhan ,David Pointcheval , 1 1 1 1 Thomas Pornin , Guillaume Poupard , Jacques Stern , and Serge Vaudenay 1 Ecole Normale Sup erieure { CNRS 2 France Telecom 3 Gemplus { ENST 4 SCSSI 5 Universit e d'Orsay { LRI Contact e-mail: [email protected] Abstract This do cument rep orts the activities of the AES working group organized at the Ecole Normale Sup erieure. Several candidates are evaluated. In particular we outline some weaknesses in the designs of some candidates. We mainly discuss selection criteria b etween the can- didates, and make case-by-case comments. We nally recommend the selection of Mars, RC6, Serp ent, ... and DFC. As the rep ort is b eing nalized, we also added some new preliminary cryptanalysis on RC6 and Crypton in the App endix which are not considered in the main b o dy of the rep ort. Designing the encryption standard of the rst twentyyears of the twenty rst century is a challenging task: we need to predict p ossible future technologies, and wehavetotake unknown future attacks in account. Following the AES pro cess initiated by NIST, we organized an op en working group at the Ecole Normale Sup erieure. This group met two hours a week to review the AES candidates. The present do cument rep orts its results. Another task of this group was to up date the DFC candidate submitted by CNRS [16, 17] and to answer questions which had b een omitted in previous 1 rep orts on DFC.
    [Show full text]
  • Development of the Advanced Encryption Standard
    Volume 126, Article No. 126024 (2021) https://doi.org/10.6028/jres.126.024 Journal of Research of the National Institute of Standards and Technology Development of the Advanced Encryption Standard Miles E. Smid Formerly: Computer Security Division, National Institute of Standards and Technology, Gaithersburg, MD 20899, USA [email protected] Strong cryptographic algorithms are essential for the protection of stored and transmitted data throughout the world. This publication discusses the development of Federal Information Processing Standards Publication (FIPS) 197, which specifies a cryptographic algorithm known as the Advanced Encryption Standard (AES). The AES was the result of a cooperative multiyear effort involving the U.S. government, industry, and the academic community. Several difficult problems that had to be resolved during the standard’s development are discussed, and the eventual solutions are presented. The author writes from his viewpoint as former leader of the Security Technology Group and later as acting director of the Computer Security Division at the National Institute of Standards and Technology, where he was responsible for the AES development. Key words: Advanced Encryption Standard (AES); consensus process; cryptography; Data Encryption Standard (DES); security requirements, SKIPJACK. Accepted: June 18, 2021 Published: August 16, 2021; Current Version: August 23, 2021 This article was sponsored by James Foti, Computer Security Division, Information Technology Laboratory, National Institute of Standards and Technology (NIST). The views expressed represent those of the author and not necessarily those of NIST. https://doi.org/10.6028/jres.126.024 1. Introduction In the late 1990s, the National Institute of Standards and Technology (NIST) was about to decide if it was going to specify a new cryptographic algorithm standard for the protection of U.S.
    [Show full text]
  • Symmetric Encryption: AES
    Symmetric Encryption: AES Yan Huang Credits: David Evans (UVA) Advanced Encryption Standard ▪ 1997: NIST initiates program to choose Advanced Encryption Standard to replace DES ▪ Why not just use 3DES? 2 AES Process ▪ Open Design • DES: design criteria for S-boxes kept secret ▪ Many good choices • DES: only one acceptable algorithm ▪ Public cryptanalysis efforts before choice • Heavy involvements of academic community, leading public cryptographers ▪ Conservative (but “quick”): 4 year process 3 AES Requirements ▪ Secure for next 50-100 years ▪ Royalty free ▪ Performance: faster than 3DES ▪ Support 128, 192 and 256 bit keys • Brute force search of 2128 keys at 1 Trillion keys/ second would take 1019 years (109 * age of universe) 4 AES Round 1 ▪ 15 submissions accepted ▪ Weak ciphers quickly eliminated • Magenta broken at conference! ▪ 5 finalists selected: • MARS (IBM) • RC6 (Rivest, et. al.) • Rijndael (Belgian cryptographers) • Serpent (Anderson, Biham, Knudsen) • Twofish (Schneier, et. al.) 5 AES Evaluation Criteria 1. Security Most important, but hardest to measure Resistance to cryptanalysis, randomness of output 2. Cost and Implementation Characteristics Licensing, Computational, Memory Flexibility (different key/block sizes), hardware implementation 6 AES Criteria Tradeoffs ▪ Security v. Performance • How do you measure security? ▪ Simplicity v. Complexity • Need complexity for confusion • Need simplicity to be able to analyze and implement efficiently 7 Breaking a Cipher ▪ Intuitive Impression • Attacker can decrypt secret messages • Reasonable amount of work, actual amount of ciphertext ▪ “Academic” Ideology • Attacker can determine something about the message • Given unlimited number of chosen plaintext-ciphertext pairs • Can perform a very large number of computations, up to, but not including, 2n, where n is the key size in bits (i.e.
    [Show full text]
  • Critical Assessment of Reaction Mechanisms Using the Lisbon Kinetics Tool Suit
    XXXIV ICPIG & ICRP-10, July 14-19, 2019, Sapporo, Hokkaido, Japan Critical assessment of reaction mechanisms using the LisbOn KInetics tool suit 1 1 1 2 P P P P P A. Tejero-del-Caz P , V.U Guerra UP , M. Lino da Silva P , L. Marques P , 1 1,3 1 1 P P P N. Pinhão P , C. D. Pintassilgo P , T. Silva P and L. L. Alves P 1 P P Instituto de Plasmas e Fusão Nuclear, Instituto Superior Técnico, Universidade de Lisboa, Av. Rovisco Pais, Lisboa, Portugal 2 P P Centro de Física da Universidade do Minho, Campus de Gualtar, Braga, Portugal 3 P P Faculdade de Engenharia da Universidade do Porto, Porto, Portugal This work uses the LisbOn KInetics (LoKI) tool suit to perform a critical assessment and correction of the collisional, radiative and transport mechanisms and data describing the kinetics of several gas/plasma systems. LoKI comprises two modules: a Boltzmann solver, LoKI-B (to become open- source), and a chemistry solver, LoKI-C. Both modules can run as standalone tools or coupled in a self-consistent manner. LoKI handles simulations in any atomic / molecular gas mixture, considering collisions with any target state (electronic, vibrational and rotational), specified in the reaction mechanism adopted. As output, the tool provides the electron energy distribution function and the corresponding electron macroscopic parameters, along with the densities of species and the corresponding creation / destruction rates. 1. Introduction for the heavy species (charged and neutral) present in Predictive tools for non-equilibrium low- the plasma, receiving as input data the KIT(s) for the temperature plasmas (LTPs) should properly describe gas/plasma system under study, and using several the kinetics of both the electrons and the heavy- modules to describe the mechanisms (collisional, species, the former responsible for inducing plasma radiative and transport) controlling the creation / reactivity and the latter providing the pathways for destruction of species.
    [Show full text]
  • Bruce Schneier 2
    Committee on Energy and Commerce U.S. House of Representatives Witness Disclosure Requirement - "Truth in Testimony" Required by House Rule XI, Clause 2(g)(5) 1. Your Name: Bruce Schneier 2. Your Title: none 3. The Entity(ies) You are Representing: none 4. Are you testifying on behalf of the Federal, or a State or local Yes No government entity? X 5. Please list any Federal grants or contracts, or contracts or payments originating with a foreign government, that you or the entity(ies) you represent have received on or after January 1, 2015. Only grants, contracts, or payments related to the subject matter of the hearing must be listed. 6. Please attach your curriculum vitae to your completed disclosure form. Signatur Date: 31 October 2017 Bruce Schneier Background Bruce Schneier is an internationally renowned security technologist, called a security guru by the Economist. He is the author of 14 books—including the New York Times best-seller Data and Goliath: The Hidden Battles to Collect Your Data and Control Your World—as well as hundreds of articles, essays, and academic papers. His influential newsletter Crypto-Gram and blog Schneier on Security are read by over 250,000 people. Schneier is a fellow at the Berkman Klein Center for Internet and Society at Harvard University, a Lecturer in Public Policy at the Harvard Kennedy School, a board member of the Electronic Frontier Foundation and the Tor Project, and an advisory board member of EPIC and VerifiedVoting.org. He is also a special advisor to IBM Security and the Chief Technology Officer of IBM Resilient.
    [Show full text]
  • Philopatry and Migration of Pacific White Sharks
    Proc. R. Soc. B doi:10.1098/rspb.2009.1155 Published online Philopatry and migration of Pacific white sharks Salvador J. Jorgensen1,*, Carol A. Reeb1, Taylor K. Chapple2, Scot Anderson3, Christopher Perle1, Sean R. Van Sommeran4, Callaghan Fritz-Cope4, Adam C. Brown5, A. Peter Klimley2 and Barbara A. Block1 1Department of Biology, Stanford University, Pacific Grove, CA 93950, USA 2Department of Wildlife, Fish and Conservation Biology, University of California, Davis, CA 95616, USA 3Point Reyes National Seashore, P. O. Box 390, Inverness, California 94937, USA 4Pelagic Shark Research Foundation, Santa Cruz Yacht Harbor, Santa Cruz, CA 95062, USA 5PRBO Conservation Science, 3820 Cypress Drive #11, Petaluma, CA 94954, USA Advances in electronic tagging and genetic research are making it possible to discern population structure for pelagic marine predators once thought to be panmictic. However, reconciling migration patterns and gene flow to define the resolution of discrete population management units remains a major challenge, and a vital conservation priority for threatened species such as oceanic sharks. Many such species have been flagged for international protection, yet effective population assessments and management actions are hindered by lack of knowledge about the geographical extent and size of distinct populations. Combin- ing satellite tagging, passive acoustic monitoring and genetics, we reveal how eastern Pacific white sharks (Carcharodon carcharias) adhere to a highly predictable migratory cycle. Individuals persistently return to the same network of coastal hotspots following distant oceanic migrations and comprise a population genetically distinct from previously identified phylogenetic clades. We hypothesize that this strong homing behaviour has maintained the separation of a northeastern Pacific population following a historical introduction from Australia/New Zealand migrants during the Late Pleistocene.
    [Show full text]
  • Identifying Open Research Problems in Cryptography by Surveying Cryptographic Functions and Operations 1
    International Journal of Grid and Distributed Computing Vol. 10, No. 11 (2017), pp.79-98 http://dx.doi.org/10.14257/ijgdc.2017.10.11.08 Identifying Open Research Problems in Cryptography by Surveying Cryptographic Functions and Operations 1 Rahul Saha1, G. Geetha2, Gulshan Kumar3 and Hye-Jim Kim4 1,3School of Computer Science and Engineering, Lovely Professional University, Punjab, India 2Division of Research and Development, Lovely Professional University, Punjab, India 4Business Administration Research Institute, Sungshin W. University, 2 Bomun-ro 34da gil, Seongbuk-gu, Seoul, Republic of Korea Abstract Cryptography has always been a core component of security domain. Different security services such as confidentiality, integrity, availability, authentication, non-repudiation and access control, are provided by a number of cryptographic algorithms including block ciphers, stream ciphers and hash functions. Though the algorithms are public and cryptographic strength depends on the usage of the keys, the ciphertext analysis using different functions and operations used in the algorithms can lead to the path of revealing a key completely or partially. It is hard to find any survey till date which identifies different operations and functions used in cryptography. In this paper, we have categorized our survey of cryptographic functions and operations in the algorithms in three categories: block ciphers, stream ciphers and cryptanalysis attacks which are executable in different parts of the algorithms. This survey will help the budding researchers in the society of crypto for identifying different operations and functions in cryptographic algorithms. Keywords: cryptography; block; stream; cipher; plaintext; ciphertext; functions; research problems 1. Introduction Cryptography [1] in the previous time was analogous to encryption where the main task was to convert the readable message to an unreadable format.
    [Show full text]
  • 2022 Kientzler Catalog
    TRIOMIO – COLOR COMBOS WITH UNIFORM PERFORMANCESRMANCES The consumer's enthusiasm for these trendy, three-coloured combos remains extremely strong! SSUPERCALUPERCAL BIDENS BIDENSBIDENS DUO CYPERUS TRIOMIO SUPERCAL ‘Summer Sensation’ TRIOMIO ‘Tweety Pop’ Bidens Duo ‘Sunshine’ ‘Southern‘Southehern Blues’BBlues’ No. 7298: SUPERCAL No. 7210: Bidens ‘Tweety’, No. 7318: Bidens ‘Sweetie’ No. 7363: Cyperus ‘Cleopatra’, ‘Blue’, ‘Light Yellow’ and ‘Pink’ Verbena VEPITA™ ‘Blue Violet’ and ‘Scarlet’ and ‘Funny Honey’ SURDIVA® ‘Blue Violet’ and SURDIVA® ‘White’ CCALIBRACHOAALIBRACHOA PPOCKETOCKET™ CALIBRACHOACALIBRACHOA UNIQUEUNIQQUE CALENDN ULA Calibrachoa POCKET™ ‘Mini Zumba’ TRIOMIO ‘Zumba’ TRIOMIO ‘Mango Punch’ TRIOMIO CALENDULA ‘Color me Spring’ No. 6981: CALIBRACHOA POCKET™ No.o. 7217:: CaCalibrachoa a oa UNIQUEU QU No.o. 7311: Calibrachoa UNIQUE ‘Mango Punch’, No. 7236: Calendula ‘Power Daisy’, ‘Yellow’, ‘Blue’ and ‘Red’ ‘Golden‘Golden Yellow’, ‘Lilac’‘Lilac’ and ‘Dark‘Dark Red’Red’ ‘Golden Yellow’ and ‘Dark Red’ Calibrachoa ‘Lilac’ and ‘Dark Red’ NEMENEMESISIA SUS PERCAL TRIOMIO NESSIE PLUS ‘Alegria’ TRIOMIO BABYCAKE ‘Little Alegria’rii’a’ TRIOMIO SUPERCAL TRIOMIO SUPERCAL ‘Garden Magic’ No. 7200: Nemesia NESSIE PLUS No. 7202: Nemesia BABYCAKE ‘Little Coco’, No. 7221: SUPERCAL ‘Blushing Pink’, No. 7234: SUPERCAL ‘Light Yellow’, ‘White’, ‘Yellow’ and ‘Red’ ‘Little Banana’ and ‘Little Cherry’ ‘Cherryh Improved’ and ‘Dark Blue’ ‘Blue’ and ‘Cherry Improved’ SUPERCAL PREMIUM VEERBR ENENAA VEPPITA™ TRIOMIO SUPERCAL PREMIUM ‘Magic’ TRIOMIO SUPERCAL
    [Show full text]
  • 2021 4.5'' Premium Potted Annuals
    2021 4.5'' Premium Potted Annuals AGERATUM MECADONIA Horizon Blue Magic Carpet Yellow ALTERNANTHERA MELAMPODIUM Fancy Filler - Choco Chili Showstar Fancy Filler - Tru Yellow MIMOSA ANGELONIA Sensative Plant Angel Face - Blue MUELENBECKIA Angel Face - Pink Wirevine Serenita White NEMESIA ARGYRANTHEMUM Blood Orange Butterfly Yellow Nessie Burgandy Grandaisy Combo Assortment Nessie Sunshine Granddasisy Beauty Yellow Rasberry Lemonade Granddasiy Yellow ORNAMENTAL CABBAGE/KALE ARTEMESIA Misc. Varieties Sea Salt OSTEOSPERMUM Silver Brocade Bright Lights Double Moon Glow BABY TEARS Osticade Pink Aquamarine Osticade White Blush BACOPA Tradewinds Cinnomon Calypso Jumbo Pinkeye Zion Denim Blue Calypso Jumbo White Zion Morning Sun Double Snowball Zion Sunset Gulliver Blue PILEA (Baby Tears) Snowstorm Giant Snowflake Baby Tears Snowstorm Snowglobe PLECTRATHUS BEGONIA Candlestick Lemon Twist Super Olympia Mix Iboza Coleoides Super Olympia Red PORTULACA - PURSLANE BIDENS Colorblast Double Magenta Mexican Gold Colorblast Lemon Twist Goldilock Rocks Colorblast Pink Lady BRIDAL VEIL Colorblast Watermelon Punch Tahitian Happy Hour Mix BROWALLIA Sundial Mix Endless White Flirtation PETUNIAS-MILLION BELLS Illumination Aloha Tiki Soft Pink CALENDULA Calitastic Aubergine Star Caleo Orange Calitastic Mango Caleo Yellow Calitastic Mango CELOSIA Calitastic MB Butterpop New Look Calitastic Orange Imp Fresh Look Mix Chameleon Frozen Ice CLEOME Colibri Cherry Lace Clemantine Assorted MF Neo Dark Blue Clio Magenta MF Neo Double Red Clio Pink Lady MF Neo Double Yellow COLEUS MF Neo Lava Red Eye Beauty of Lyon MF Neo Pink Light Eye Chocolate Mint MF Neo Vampire Kingswood Torch MF Neo White Kong Lime Sprite Million Bells Light Blue Kong Mosiac Million Bells Mound Yellow Kong Red Million Bells True Blue Kong- Rose Million Bells True Yellow Kong Salmon Pink Million Bells White Limetime Mini Famous Eclipse Lilac Mainstreet Alligater Alley Mini Famous Orange/Yellow Mainstreet Riverwalk Mini Famous Raspberry Star Mainstreet Ruby Road Mini Famous Tart Deco Mainstreet Sunset Blvd.
    [Show full text]
  • Magenta and Magenta Production
    MAGENTA AND MAGENTA PRODUCTION Historically, the name Magenta has been used to refer to the mixture of the four major constituents comprising Basic Fuchsin, namely Basic Red 9 (Magenta 0), Magenta I (Rosaniline), Magenta II, and Magenta III (New fuchsin). Although samples of Basic Fuchsin can vary considerably in the proportions of these four constituents, today each of these compounds except Magenta II is available commercially under its own name. Magenta I and Basic Red 9 are the most widely available. 1. Exposure Data 1.1 Chemical and physical data 1.1.1 Magenta I (a) Nomenclature Chem. Abstr. Serv. Reg. No.: 632–99–5 CAS Name: 4-[(4-Aminophenyl)(4-imino-2,5-cyclohexadien-1-ylidene)methyl]-2- methylbenzenamine, hydrochloride (1:1) Synonyms: 4-[(4-Aminophenyl)(4-imino-2,5-cyclohexadien-1-ylidene)methyl]-2- methylbenzenamine, monohydrochloride; Basic Fuchsin hydrochloride; C.I. 42510; C.I. Basic Red; C.I. Basic Violet 14; C.I. Basic Violet 14, monohydrochloride; 2- methyl-4,4'-[(4-imino-2,5-cyclohexadien-1-ylidene)methylene]dianiline hydrochloride; rosaniline chloride; rosaniline hydrochloride –297– 298 IARC MONOGRAPHS VOLUME 99 (b) Structural formula, molecular formula, and relative molecular mass NH HCl H2N NH2 CH3 C20H19N3.HCl Rel. mol. mass: 337.85 (c) Chemical and physical properties of the pure substance Description: Metallic green, lustrous crystals (O’Neil, 2006; Lide, 2008) Melting-point: Decomposes above 200 °C (O’Neil, 2006; Lide, 2008) Solubility: Slightly soluble in water (4 mg/mL); soluble in ethanol (30 mg/mL) and ethylene
    [Show full text]
  • Privacy-Preserving Deep Learning for the Detection of Protected Health Information in Real-World Data: Comparative Evaluation
    JMIR FORMATIVE RESEARCH Festag & Spreckelsen Original Paper Privacy-Preserving Deep Learning for the Detection of Protected Health Information in Real-World Data: Comparative Evaluation Sven Festag1,2; Cord Spreckelsen1,2 1Department of Medical Informatics, Medical Faculty, RWTH Aachen University, Aachen, Germany 2Institute of Medical Statistics, Computer and Data Sciences, Jena University Hospital, Jena, Germany Corresponding Author: Cord Spreckelsen Institute of Medical Statistics, Computer and Data Sciences Jena University Hospital Bachstraûe 18 Jena, Germany Phone: 49 3641 9 398360 Fax: 49 3641 9 396952 Email: [email protected] Abstract Background: Collaborative privacy-preserving training methods allow for the integration of locally stored private data sets into machine learning approaches while ensuring confidentiality and nondisclosure. Objective: In this work we assess the performance of a state-of-the-art neural network approach for the detection of protected health information in texts trained in a collaborative privacy-preserving way. Methods: The training adopts distributed selective stochastic gradient descent (ie, it works by exchanging local learning results achieved on private data sets). Five networks were trained on separated real-world clinical data sets by using the privacy-protecting protocol. In total, the data sets contain 1304 real longitudinal patient records for 296 patients. Results: These networks reached a mean F1 value of 0.955. The gold standard centralized training that is based on the union of all sets and does not take data security into consideration reaches a final value of 0.962. Conclusions: Using real-world clinical data, our study shows that detection of protected health information can be secured by collaborative privacy-preserving training.
    [Show full text]