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form: U ( r ) = U ( r 0 ) − F • z + 1 2 r T • H • z (6) where z i = √ m$_{i}$ ( r i − r 0 ) are the mass-scaled position coordinates of a particle i . The first and second derivatives of U ( r ) with respect to the vector z are the force and the Hessian matrix denoted by F and H respectively. The eigenvalues of the Hessian H are ( { ω 2 i } i = 1 3 N ) representing the squares of normal mode frequencies and W ( r ) are the corresponding eigenvectors. In a stable solid r 0 can be conveniently taken as the global minimum of the potential energy surface U ( R ) which implies that F = 0 and H has only positive eigenvalues corresponding to oscillatory modes. The INM approach for liquids interprets r as the configuration at time t relative to the configuration r 0 at time t$_{0}$ . Since typical configurations r 0 are extremely unlikely to be local minima therefore F = 0 and H will have negative eigenvalues. The negative eigenvalue modes are those which sample negative curvature regions of the PES including barrier crossing modes. The ensemble- averaged INM spectrum 〈 f ( ω ) 〉 is defined as f ( ω ) = 〈 1 3 N 3 N ∑ i =1 δ ( ω − ω$_{i}$ ) 〉 . (7) Quantities that are convenient for characterizing the instantaneous normal mode spectrum are: (i) the fraction of imaginary frequencies namely F$_{im}$ = ∫ im f ( ω ) dω (8) where the subscript in means that the integral is performed only in the imaginary branch; (ii) the fraction of real frequencies that is F$_{r}$ = ∫ r f ( ω ) dω (9) where the subscript r indicates that the integral is performed only in the real branch and (ii) the mean square or Einstein frequency ω$_{E}$ given by ω 2 E = ∫ ω $^{2}$f ( ω ) dω = 〈 T r H 〉 m (3 N − 3) (10) where the last equality comes from using Eq. (7) and 〈 T r H 〉 is the ensemble-averaged value of the trace of the Hessian. 7 | 5scientific_articles
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STANDARDS SECTION XVIII - TOURNAMENT STANDARDS OF PERFORMANCE exceed the greater of the industry-standard adequate power supply or an amount of power equivalent to the power supplied to the Host Broadcaster. The WTA (and its designees) must not be charged more than the Tournament’s cost for all such production facilities (including power) and production space. The following outlines the standard production facilities and production space requirements: (a) Transmission Office: Office space within the TV compound which is at least 10 feet x 15 feet and contains two (2) long work tables (approximately 6 feet x 3 feet) seven (7) chairs access to four (4) power outlets Host Broadcaster cabling of the Clean Feed (including back-up feed) a configurable 31” multi-view HD two (2) cabled high-speed internet line connections and access to a minimum 4 Mbps wireless internet connection via a router in the Transmission Office. The office space must be able to be securely locked. Where a fiber rack is the chosen method of delivery WTA shall designate the location for the fiber rack and two (2) 16 amp diverse single phase c-form connector power sources must also be available in the same location. Except for lighting power (including the aforementioned c-form connector power sources) telephone internet and other utilities (each of which must be operational 24 hours per day) WTA (or its designees) is responsible for all costs of the Transmission Office. (b) Newsfeed Production Office: An office space located within the TV compound in close proximity to the Host Broadcaster truck to be used for recording match highlights producing the newsfeed and managing the distribution of the newsfeed globally. The office space should be at least 12 feet x 22 feet contain at least three (3) long work tables (approximately 6 feet x 3 feet) two (2) desks seven (7) chairs two (2) cabled high speed internet lines an international telephone line four (4) power outlets a TV monitor with multi-view a “Matches in Progress” feed and access to a minimum 4 Mbps wireless internet connection via a router in the Newsfeed Production Office. The office space must be able to be securely locked. Except for lighting power telephone internet and other utilities (each of which must be operational 24 hours per day) WTA (or its designees) is responsible for all costs of the Newsfeed Production Office. In addition to the foregoing the following internet connection must be provided to the following specifications for the Newsfeed Production Office: 395 | 3manuals
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Magnet Impulse coupling Pinion gear Ball bearing Cam Distributor block Capacitor High output coil Distributor gear Mounting flange Adjustment slot Figure 4-19. Magneto mounting flange. Figure 4-17. Magneto cutaway. Figure 4-18. A dual magneto with two distributors. 4-11 | 2laws_and_regulations
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TAKE-TWO INTERACTIVE SOFTWARE INC. AND SUBSIDIARIES Corporate Information CORPORATE OFFICES Corporate Headquarters Take-Two Interactive Software Inc. Take-Two Interactive Software Europe Ltd. Principal Operating Offices Rockstar Games Inc. Gathering Inc. Jack of All Games Inc. Global Star Software Inc. OFFICERS AND DIRECTORS Officers Richard W. Roedel Gary Lewis Paul Eibeler Karl H. Winters 622 Broadway New York NY 10012 (646) 536-2842 Saxon House 2-4 Victoria Street Windsor Berkshire SL4 1EN England 622 Broadway New York NY 10012 622 Broadway New York NY 10012 622 Broadway New York NY 10012 8800 Global Way West Chester OH 45069 Chairman of the Board Director and Interim Chief Executive Officer Global Chief Operating Officer Chief Financial Officer President and Director Director Structured Products John Hancock Financial Services Director Muse Communications Corp. President S.L. Danielle General Partner Anglo American Security Fund L.P. Partner Escape Artists Fiscal Year Ended October 31 2002 High Low First Quarter $19.50 — $ 9.30 Second Quarter 26.90 — 14.00 Third Quarter 27.05 — 16.09 Fourth Quarter 30.78 — 19.36 Fiscal Year Ended October 31 2003 First Quarter $31.48 — $19.83 Second Quarter 24.19 — 18.30 Third Quarter 31.40 — 21.66 Fourth Quarter 41.67 — 24.35 Fiscal Year Ending October 31 2004 First Quarter $40.91 — $27.42 Second Quarter 37.50 — 26.90 The Company’s common stock is listed on the Nasdaq National Market® under the symbol TTWO. American Stock Transfer & Trust Company 59 Maiden Lane New York NY 10038 PricewaterhouseCoopers LLP 1301 Avenue of the Americas New York NY 10019 Blank Rome LLP 405 Lexington Avenue New York NY 10174 CORPORATE INFORMATION Stockholder Information Legal Counsel Independent Auditors Transfer Agent Common Stock Information Common Stock Price Range Mark Lewis Directors Todd Emmel Robert Flug Oliver R. Grace Jr. Steven Tisch A copy of the Company’s Annual Report on Form 10-K as filed with the Securities and Exchange Commission will be furnished without charge upon written request to Investor Relations at the Corporate Headquarters. Design by: RWI (www.rwidesign.com) | 0financial_reports
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Replication Features and Issues •If the source has databases with a character set different from the global character_set_server value you should design your CREATE TABLE statements so that they do not implicitly rely on the database default character set. A good workaround is to state the character set and collation explicitly in CREATE TABLE statements. 17.5.1.4 Replication and CHECKSUM TABLE CHECKSUM TABLE returns a checksum that is calculated row by row using a method that depends on the table row storage format. The storage format is not guaranteed to remain the same between MySQL versions so the checksum value might change following an upgrade. 17.5.1.5 Replication of CREATE SERVER ALTER SERVER and DROP SERVER The statements CREATE SERVER ALTER SERVER and DROP SERVER are not written to the binary log regardless of the binary logging format that is in use. 17.5.1.6 Replication of CREATE ... IF NOT EXISTS Statements MySQL applies these rules when various CREATE ... IF NOT EXISTS statements are replicated: •Every CREATE DATABASE IF NOT EXISTS statement is replicated whether or not the database already exists on the source. •Similarly every CREATE TABLE IF NOT EXISTS statement without a SELECT is replicated whether or not the table already exists on the source. This includes CREATE TABLE IF NOT EXISTS ... LIKE . Replication of CREATE TABLE IF NOT EXISTS ... SELECT follows somewhat different rules; see Section 17.5.1.7 “Replication of CREATE TABLE ... SELECT Statements” for more information. • CREATE EVENT IF NOT EXISTS is always replicated whether or not the event named in the statement already exists on the source. 17.5.1.7 Replication of CREATE TABLE ... SELECT Statements MySQL applies these rules when CREATE TABLE ... SELECT statements are replicated: • CREATE TABLE ... SELECT always performs an implicit commit (Section 13.3.3 “Statements That Cause an Implicit Commit” ). •If the destination table does not exist logging occurs as follows. It does not matter whether IF NOT EXISTS is present. • STATEMENT or MIXED format: The statement is logged as written. • ROW format: The statement is logged as a CREATE TABLE statement followed by a series of insert-row events. Prior to MySQL 8.0.21 the statement is logged as two transactions. As of MySQL 8.0.21 on storage engines that support atomic DDL it is logged as one transaction. For more information see Section 13.1.1 “Atomic Data Definition Statement Support” . •If the CREATE TABLE ... SELECT statement fails nothing is logged. This includes the case that the destination table exists and IF NOT EXISTS is not given. •If the destination table exists and IF NOT EXISTS is given MySQL 8.0 ignores the statement completely; nothing is inserted or logged. MySQL 8.0 does not allow a CREATE TABLE ... SELECT statement to make any changes in tables other than the table that is created by the statement. 3656 | 3manuals
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Contract number: [ complete ] 2019 II.13.7 Moral rights of creators By delivering the results the contractor warrants that the creators will not object to the following on the basis of their moral rights under copyright: If moral rights on parts of the results protected by copyright may exist the contractor must obtain the consent of creators regarding the granting or waiver of the relevant moral rights in accordance with the applicable legal provisions and be ready to provide documentary evidence upon request. If natural persons appear in a result or their voice or any other private element is recorded in a recognisable manner the contractor must obtain a statement by these persons (or in the case of minors by the persons exercising parental authority) giving their permission for the described use of their image voice or private element and on request submit a copy of the permission to the contracting authority. The contractor must take the necessary measures to obtain such consent in accordance with the applicable legal provisions. When the contractor retains pre-existing rights on parts of the results reference must be inserted to that effect when the result is used as set out in Article I.10.1 with the following disclaimer: ‘© — year — European Centre for Disease Prevention and Control. All rights reserved. Certain parts are licensed under conditions to the European Centre for Disease Prevention and Control’ or with any other equivalent disclaimer as the contracting authority may consider best appropriate or as the parties may agree on a case-by-case basis. This does not apply where inserting such reference would be impossible notably for practical reasons. When making use of the results the contractor must declare that they have been produced under a contract with the Centre and that the opinions expressed are those of the contractor only and do not represent the contracting authority’s official position. The contracting authority may waive this obligation in writing or provide the text of the disclaimer. 30 II.14. FORCE MAJEURE II.13.10 Visibility of Centre funding and disclaimer II.13.9 Copyright notice for pre-existing rights II.13.8 Image rights and sound recordings (c) that the results be adapted provided that this is done in a manner which is not prejudicial to the creator ’s honour or reputation. (b) that the results be divulged or not after they have been delivered in their final version to the contracting authority; (a) that their names be mentioned or not mentioned when the results are presented to the public; II.14.1 If a party is affected by force majeure it must immediately notify the other party stating the nature of the circumstances their likely duration and foreseeable effects. II.14.2 A party is not liable for any delay or failure to perform its obligations under the FWC if that delay or failure is a result of force majeure . If the contractor is unable to fulfil | 1government_tenders
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to cease its anti-competitive practices and impose a monetary fine of up to 10% of the gross sales of the business for the most recent fiscal year. In March 2012 the FTC found us liable for providing misleading representations on the speed of our 50Mbps fiber broadband products in certain advertisements. The FTC consequently ordered us to stop using the relevant advertisements immediately and pay a fine of NT$5 million. As the FTA provides the FTC broad discretion to interpret anti-competition actions and enforce the relevant clauses under the FTA we are unable to predict whether the FTC would initiate investigation on any of our daily business activities or find us liable for violating the FTA in the future. The investigations of and penalties imposed by the FTC could interrupt our provision of products or services and have a negative impact on our reputation business operations and results of operations. Mobile service providers in Taiwan have been offering 3G mobile services for several years. Smart phones with mobile data packages are becoming popular in recent years. To attract more high-end data users the other two major operators started to offer free intra-network calling packages bundled with mobile data service. We also adopted comparable promotion packages to attract and maintain our customers. We cannot assure you that the intensified market competition will not affect our growth and profitability. We also face increased broadband competition from cable operators. Cable operators have been using low-priced internet access packages to attract new customers in specific areas and buildings in Taiwan. They have also been upgrading their networks to DOCSIS 3.0 in order to provide higher speed internet access. DOCSIS refers to Data Over Cable Service Interface Specification which is an international telecommunications standard that permits the addition of high-speed data transfer to an existing cable TV system. To counter these developments we keep migrating more of our ADSL customers to FTTx services and to provide even higher speed FTTH access. The government has mandated the digitization of cable television networks by 2014. In addition the draft Cable Radio and Television Act proposes to remove the zoning restrictions on service area for cable operators while cable operators remain subject to the restriction that the market share of any single cable operator cannot exceed one third. This draft has been approved by the Executive Yuan and submitted to the Legislative Yuan. As cable operators will be allowed to provide digital cable services throughout Taiwan and be able to provide high definition cable TV with more channels as well as high speed cable modem services we could face increased competition for our broadband access services and multimedia on demand or MOD IPTV services. If we are unable to compete successfully with the cable operators for broadband access services and MOD businesses our results of operations could be impacted. Many of our competitors are in alliances with leading international telecommunications service providers and have access to financial and other resources or technologies that may not be available to us. Moreover as the government continues to liberalize the telecommunications market such as through the issuance of new licenses or establishment of additional networks our market position and competitiveness could be materially and adversely affected. We cannot guarantee that our measures to address competition will be effective and our business financial condition and results of operations may be adversely affected by our competition. Increasing competition may also cause the rate of our customer growth to reverse or decline bring about further decreases in tariff rates and necessitate increases in our selling and promotional expenses. Any of these developments could adversely affect our business financial condition and results of operations. In 2011 there were complaints from the general public about our mobile data network congestion. To address the situation we adopted measures such as offering a 20% discount of the mobile data monthly fees until the end of 2012 for customers whose monthly data usage volume was less than one gigabyte constructing additional base stations with HSPA+ capability and increasing the number of WiFi access points to offload data usage from our mobile data network. However we cannot assure you that these measures will be able to adequately address the mobile data network congestion. Although we will continue to enhance our network quality and capacity in the future data usage has been increasing as well so we cannot assure you that we will be able to keep pace 9 If we fail to maintain our service quality due to insufficient network capacity our revenue growth profitability and reputation may suffer. Increasing market competition may adversely affect our growth and profitability by causing us to lose customers charge lower tariffs or spend more on marketing. P AR T I | 0financial_reports
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US 9 703 193 B2 138 137 -continued -continued 0~ S 03 - 0 Q 0-s+ -6 0 0 ~ SO3 - 0 Q 0-r 0 Q 0 CF3 O ~S03- 0 O~S03- | 4patents
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MongoDB Documentation Release 3.0.4 Table 6.1 – continued from previous page Chapter 6. Security 428 Continued on next page atype param result createRole (page 420) { role: <role name> db: <database> roles: [ { role: <role name> db: <database> } ... ] privileges: [ { resource: <resource document> actions: [ <action> ... ] } ... ] } The roles and the privileges fields are optional. For details on the resource document see Resource Document (page 417). For a list of actions see Privilege Ac- tions (page 419). 0 - Success updateRole { role: <role name> db: <database> roles: [ { role: <role name> db: <database> } ... ] privileges: [ { resource: <resource document> actions: [ <action> ... ] } ... ] } The roles and the privileges fields are optional. For details on the resource document see Resource Document (page 417). For a list of actions see Privilege Ac- tions (page 419). 0 - Success | 3manuals
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148 200510079024. 1 a HM BO #145/152M Oto Rik EAP A AABGAT SER RAMA 700(A) HE HBATHSERA ASA A PER tke HGR @—B2=; AP 100(A) (1). 100 (A) (3) #100 (A) (5) ALA T SER LAMA 700 (A) HHRMA RF Fo/ HK FRALZRESZMEMESERYP HERAT ARS EH BHR KEEERP BHRAWEAREY RAMP 100(A) (2) 100 (A) (7) -100 (A) (10) #7100 (A) (12) FHMC. CR FA RHMH 700(A) HTRAASSPHEERAN HE A REBATE P PHBA RHBRBA-PBBA-+AAKR WA ANA © HMA TWTEREELRLTER REF ZENERFT. WA] ZAZEATME ENFUIE EUMTEHRPFMNERR MAR AFA BAR A. AE KAMM 70 (A) ETW ELLE FR HEN AREGMIHRNIH HZ NRZ IT. MAG TSKEHNM K RAN TAHE 202% A #4 Intranet 5104 2 FF RR F/R] HAS RTL AB. Ble RZMA 700 (A) TUORPARTFELAARUAMWABLE FRSA MIR - HH ARAYA TAU HFRS SEHR # tok PRK SA RAMA 700 (A). 700 (B) ATURA "EX so” u Beeren AL BSP. Blo Miksa A-FARULBRENE UABA-ZRRUHN GET. DR AKHF HRRHURMTEER BR Rh” HRB BR. Gay Zr?” MERKUR FOR AKTIEN. KAMA 700 TAFALBHRLEZRHEA ANRPRAA 2 A Fo BMS. Hise: enn ASH RAZMA 700 (A) TREPAR A EIERN CHAR. ARKFAS HAW 4As A 4 Intranet 5100 (A) £LRSSB 302 RAW. RAM 700 (A) TUARHPUREY Kit 4 ERMA HLH. VARAKRU HRA LYRA HR. (3) #7 100(A) (5) RRFHRAHSER (AZSRSF ) . | 4patents
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expose the rods to the image. This can be done by looking 5° to 10° off center of the object to be seen. This can be tried in a dim light in a darkened room. When looking directly at the light it dims or disappears altogether. When looking slightly off center it becomes clearer and brighter. When looking directly at an object the image is focused mainly on the fovea where detail is best seen. At night the ability to see an object in the center of the visual field is reduced as the cones lose much of their sensitivity and the rods become more sensitive. Looking off center can help compensate for this night blind spot. Along with the loss of Another way to check your blind spot is to do a similar test outside at night when there is a full moon. Cover your left eye looking at the full moon with your right eye. Gradually move your right eye to the left (and maybe slightly up or down). Before long all you will be able to see is the large halo around the full moon; the entire moon itself will seem to have disappeared. Empty-field myopia is a condition that usually occurs when flying above the clouds or in a haze layer that provides nothing specific to focus on outside the aircraft. This causes the eyes to relax and seek a comfortable focal distance that may range from 10 to 30 feet. For the pilot this means looking without seeing which is dangerous. Searching out and focusing on distant light sources no matter how dim helps prevent the onset of empty-field myopia. There are many good reasons to fly at night but pilots must keep in mind that the risks of night flying are different than during the day and often times higher. [Figure 17-16] Pilots who are cautious and educated on night-flying techniques can mitigate those risks and become very comfortable and proficient in the task. It is estimated that once fully adapted to darkness the rods are 10 000 times more sensitive to light than the cones making them the primary receptors for night vision. Since the cones are concentrated near the fovea the rods are also responsible for much of the peripheral vision. The concentration of cones in the fovea can make a night blind spot in the center of the field of vision. To see an object clearly at night the pilot must 17-22 Night Vision Night Blind Spot Empty-Field Myopia 5. When the page is about 16–18 inches from you the black X should disappear completely because it has been imaged onto the blind spot of your right eye. (Resist the temptation to move your right eye while the black X is gone or else it reappears. Keep staring at the airplane.) 6. As you continue to look at the airplane keep moving the page closer to you a few more inches and the black X will come back into view. 7. There is an interval where you are able to move the page a few inches backward and forward and the black X will be gone. This demonstrates to you the extent of your blind spot. 8. You can try the same thing again except this time with your right eye covered stare at the black X with your left eye. Move the page in closer and the airplane will disappear. Figure 17-16. Night vision. Figure 17-17. Night blind spot. Cones active Rods active Night blind spot Pilots must look 5°–10° off center of the object in order for the object to be seen. | 2laws_and_regulations
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Resources GEAR 2020 Page 8 | 3manuals
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ALTER TABLE Statement • ALTER : Used only to change a column default value. CHANGE is a MySQL extension to standard SQL. MODIFY and RENAME COLUMN are MySQL extensions for Oracle compatibility. To alter a column to change both its name and definition use CHANGE specifying the old and new names and the new definition. For example to rename an INT NOT NULL column from a to b and change its definition to use the BIGINT data type while retaining the NOT NULL attribute do this: To change a column definition but not its name use CHANGE or MODIFY . With CHANGE the syntax requires two column names so you must specify the same name twice to leave the name unchanged. For example to change the definition of column b do this: -- swap a and b ALTER TABLE t1 RENAME COLUMN a TO b RENAME COLUMN b TO a; -- "rotate" a b c through a cycle ALTER TABLE t1 RENAME COLUMN a TO b RENAME COLUMN b TO c RENAME COLUMN c TO a; MODIFY is more convenient to change the definition without changing the name because it requires the column name only once: To change a column name but not its definition use CHANGE or RENAME COLUMN . With CHANGE the syntax requires a column definition so to leave the definition unchanged you must respecify the definition the column currently has. For example to rename an INT NOT NULL column from b to a do this: RENAME COLUMN is more convenient to change the name without changing the definition because it requires only the old and new names: In general you cannot rename a column to a name that already exists in the table. However this is sometimes not the case such as when you swap names or move them through a cycle. If a table has columns named a b and c these are valid operations: For column definition changes using CHANGE or MODIFY the definition must include the data type and all attributes that should apply to the new column other than index attributes such as PRIMARY KEY or UNIQUE . Attributes present in the original definition but not specified for the new definition are not carried forward. Suppose that a column col1 is defined as INT UNSIGNED DEFAULT 1 COMMENT ’my column’ and you modify the column as follows intending to change only INT to BIGINT : That statement changes the data type from INT to BIGINT but it also drops the UNSIGNED DEFAULT and COMMENT attributes. To retain them the statement must include them explicitly: For data type changes using CHANGE or MODIFY MySQL tries to convert existing column values to the new type as well as possible. 2491 ALTER TABLE t1 CHANGE a b BIGINT NOT NULL; ALTER TABLE t1 CHANGE b b INT NOT NULL; ALTER TABLE t1 MODIFY b INT NOT NULL; ALTER TABLE t1 RENAME COLUMN b TO a; ALTER TABLE t1 CHANGE b a INT NOT NULL; ALTER TABLE t1 MODIFY col1 BIGINT UNSIGNED DEFAULT 1 COMMENT ’my column’; ALTER TABLE t1 MODIFY col1 BIGINT; | 3manuals
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MANAgEMENT’s dIsCussION ANd ANAlYsIs OF FINANCIAl CONdITION ANd rEsulTs OF OPErATIONs 17 THE TIMKEN COMPANY Simultaneously the Company works to optimize its existing business with specific initiatives aimed at transformation and execution. This includes diversifying the overall portfolio of businesses and products to create further value and profitability which can include addressing or repositioning underperforming product lines and segments revising market sector or geographic strategies and divesting non-strategic assets. The Company drives execution by embracing a continuous improvement culture that is charged with lowering costs eliminating waste increasing efficiency encouraging organizational agility and building greater brand equity. The Company’s strategy balances corporate aspirations for sustained growth with a determination to optimize the Company’s existing business portfolio thereby generating strong profits and cash flows. Timken pursues its growth strategy through differentiation and expansion. The Timken Company (Timken or the Company) designs manufactures sells and services highly-engineered anti-friction bearings and assemblies high-quality alloy steels and mechanical power transmission systems as well as provides a broad spectrum of related products and services. The Company has four operating segments: (1) Mobile Industries; (2) Process Industries; (3) Aerospace and Defense; and (4) Steel. The following is a description of the Company’s operating segments: (Dollars in millions except per share data) ITEM 7. MANAgEMENT’s dIsCussION ANd ANAlYsIs OF FINANCIAl CONdITION ANd rEsulTs OF OPErATIONs OvErvIEw • Mobile Industries provides bearings mechanical power transmission components drive- and roller-chains augers and related products and services to original equipment manufacturers and suppliers of agricultural construction and mining equipment passenger cars light trucks medium and heavy-duty trucks rail cars and locomotives as well as to automotive and heavy truck aftermarket distributors. • Process Industries provides bearings mechanical power transmission components industrial chains and related products and services to original equipment manufacturers and suppliers of power transmission energy and heavy industries machinery and equipment. This includes rolling mills cement and aggregate processing equipment paper mills sawmills printing presses cranes hoists drawbridges wind energy turbines gear drives drilling equipment coal conveyors coal crushers marine and food processing equipment. This segment also serves the aftermarket through its global network of authorized industrial distributors. • aerospace and Defense provides bearings helicopter transmission systems rotor head assemblies turbine engine components gears and other precision flight-critical components for commercial and military aviation applications and provides aftermarket services including repair and overhaul of engines transmissions and fuel controls as well as aerospace bearing repair and component reconditioning. Additionally this segment manufactures precision bearings higher-level assemblies and sensors for manufacturers of health and positioning control equipment. • steel produces more than 450 grades of carbon and alloy steel which are sold as ingots bars and tubes in a variety of chemistries lengths and finishes. This segment’s metallurgical expertise and operational capabilities result in customized solutions for the automotive industrial and energy sectors. Timken ® specialty steels feature prominently in a wide variety of end products including oil country drill pipe bits and collars gears hubs axles crankshafts and connecting rods bearing races and rolling elements and bushings fuel injectors and wind energy shafts. • For differentiation the Company leverages its technological capabilities to enhance existing products and services and to create new products that capture value for its customers. The Company recently broadened its product offering by expanding a line of spherical cylindrical and housed bearings developing new products and services – including the new Ecoturn ® seal for the railroad industry – and introducing numerous new custom-developed grades of specialty alloy steel. • Regarding expansion the Company’s strategy is to grow in attractive market sectors with particular emphasis on those industrial markets that value the reliability offered by the Company’s products and create significant aftermarket demand thereby providing a lifetime of opportunity in both product sales and services. The Company’s strategy also encompasses expanding its portfolio in new geographic spaces with an emphasis in Asia. The Company’s acquisition strategy is directed at complementing its existing portfolio and expanding the Company’s market position globally. | 0financial_reports
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- Change of legal entity and also in case of new name or where the change of legal entity results from a merge or universal succession. This excludes change of legal entity involving: * assignment of contract to a new entity total or partial including the payments or; * change of legal entity where a new institutional DoI has to be assessed I.14.2 Obligation to notify EFSA of changes I.14.3 Liability for alleged breach of intellectual property rights I.14.4 Declarations of interest I.14.5 Signature of contracts pending receipt of eligibility documents In accordance with article II.18.i the contractor is obliged to notify EFSA of any change to their legal financial technical organisational or ownership situation which is likely to substantially affect the Implementation of the contract or substantially modify the conditions under which the contract was initially awarded. This includes but is not limited to notifying EFSA of changes which may have affected the original declaration on honour on exclusion criteria; declaration on honour on selection criteria or the status of the contractor in the Early Detection and Exclusion System (EDES). By derogation to article II.6.3 in the event that a third party brings an action against EFSA in connection with alleged breach of intellectual property rights the contractor will be liable for the whole amount of consequential loss or damages caused to EFSA as a consequence of an absent or incorrect declaration on pre-existing rights. With reference to Article II.7 the contractor shall provide individual declarations of interest for new members in the project team or updated individual declarations for those team members whose interests declared on the occasion of signature of the contract have substantially changed during the implementation of the contract. Updated institutional declarations of interest must also be provided when the interests declared on the occasion of signature of the contract have substantially changed during the implementation of the contract. The declarations will be screen in accordance with the EFSA’s Independence policy and the Decision of the Executive Director on Competing Interest Management which can be found on the EFSA website. The signature of this contract by the contracting authority is conditional on the receipt of all eligibility documents requested in the award letter in order to evidence the Declaration on Honour. In exceptional cases the contract could be signed before the receipt of those documents. In such case should the contractor fail to submit all required eligibility documents within 2 months of the contract signature EFSA reserves the right to terminate the contract with immediate effect. 13 | 1government_tenders
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Executive and Senior Management Long Term Incentive Plan 24 November 2010 Executive directors and key Management Personnel Movements in the number of share options outstanding and their related weighted average exercise price are as follows: Share options outstanding at the end of the year have the following expiry date exercise dates and exercise prices. on 24 november 2010 shareholders approved at the annual General Meeting the establishment of an employee long term Incentive plan (ltI) to grant performance rights to executive directors Key Management personnel and other Senior Management. performance rights will vest subject to the satisfaction of performance conditions which will be different for executive directors as compared with the Key Management personnel and Senior Management. performance rights granted to executive directors and six Key Management personnel are summarised below: * Performance Rights in 2011 only granted to Executive Directors. the performance rights will vest in three equal tranches. In each tranche 50% of the rights are subject to a relative total Shareholder return (tSr) hurdle and the remaining 50% are subject to an epS growth hurdle. the proportion of rights subject to the relative tSr hurdle is dependent on Kathmandu holdings limited’s tSr performance relative to a defined comparable group of companies in new Zealand and australia listed on either the aSX or nZX and with market capitalisation indicatively in a range between 300% and 45% of Kathmandu holdings limited market capitalisation. the percentage of tSr related rights vest according to the following performance criteria: 2012 2011 Average exercise price $ per share options ‘000 Average exercise price $ per share options ‘000 Balance at beginning of year 2.1333 1 074 2.1333 1 120 Issued - - - - Forfeited 2.1333 (118) 2.1333 (46) Balance at end of year 2.1333 956 2.1333 1 074 First Vesting month Last Vesting month exercise price 2012 ‘000 2011 ‘000 October 2010 October 2013 $2.1333 319 358 October 2011 October 2013 $2.1333 319 358 October 2012 October 2013 $2.1333 318 358 956 1 074 Grant Date Balance at start of year number Granted during the year number Vested during the year number Lapsed during the year number Balance at the end of year number 30 Nov 2011* - 221 920 - - 221 920 29 Nov 2010 374 292 - - (29 775) 344 517 374 292 221 920 - (29 775) 566 437 Kathmandu Holdings Limited relative tSr ranking % Vesting Below the 50 th percentile 0% 50 th percentile 50% 51 st – 74 th percentile 50% + 2% for each percentile above the 50 th 75 th percentile or above 100% 58 annual report 2012 kAThMANdu | 0financial_reports
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quantum states have been presented in Refs. [1 2 3]. We have proposed a more precise measurement using a pixel detector with an image magnification system [4]. Another pixel detectors for UCN have been developed recently such as that reported in Ref. [5]. In this article we present the development of a pixel detector based on a commercial charge coupled device (CCD) covered with a neutron converter. By comparing $^{10}$B and $^{6}$Li as converter materials we find that a $^{6}$Li converter produces energetic tritons which penetrate deep into the CCD in various directions degrading the spatial resolution. Hence we conclude that $^{10}$B is an appropriate material for a neutron converter. 2. Detector design The developed detector consists essentially of a CCD covered by a neutron converter. Charged particles produced via nuclear reaction in the converter are detected with the CCD. The choices of converter material and CCD are key for this detector. 2.1. Neutron converter $^{10}$B and $^{6}$Li are chosen as test materials for the neutron converter because of their large cross-sections with neutrons. The neutron absorption cross- sections for $^{10}$B and $^{6}$Li are 4 . $^{01}$× 10 3 and 0 . $^{95}$× 10 3 barn respectively for thermal neutrons ( v = 2 224 m/s). Neutrons react with $^{10}$B and $^{6}$Li in the following processes: n + 10 B → α (1 . 47 MeV) + 7 Li (0 . 84 MeV) + γ (0 . 48 MeV) 93 . 9% (1) → α (1 . 78 MeV) + 7 Li (1 . 01 MeV) 6 . 1% n + 6 Li → α (2 . 05 MeV) + $^{3}$H (2 . 73 MeV) 100% (2) 2 | 5scientific_articles
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Algonquin Power & Utilities Corp. – Consolidated Financial Statements ALGONQUIN POWER & UTILITIES CORP. 1. Significant accounting policies (continued) Notes to the Consolidated Financial Statements December 31 2012 and 2011 (in thousands of Canadian dollars except as noted and amounts per share) Contributions in aid of construction represent amounts contributed by customers and governments and developers for the cost of utility capital assets. It also includes amounts initially recorded as advances in aid of construction (note 1(o)) but where the advance repayment period has expired. These contributions are recorded as a reduction in the cost of utility assets and are amortized at the rate of the related asset as a reduction to depreciation expense. In accordance with regulator-approved accounting policies when depreciable property plant and equipment of Liberty Utilities are replaced or retired the original cost plus any removal costs incurred (net of salvage) are charged to accumulated depreciation with no gain or loss reflected in results of operations. Gains and losses will be charged to results of operation in the future through adjustments to depreciation expense. In the absence of regulator-approved accounting policies gains and losses on the disposition of property plant and equipment are charged to earnings as incurred. The fair value of power sales contracts acquired in business combinations are amortized on a straight-line basis over the remaining term of the contract. These periods range from 6 to 25 years from date of acquisition. Customer relationships acquired in business combinations are amortized on a straight-line basis over their estimated life of 40 years. Goodwill represents the excess of the purchase price of an acquired business over the fair value of the net assets acquired. Goodwill is not included in the rate-base on which regulated utilities are allowed to earn a return and is not amortized. The Company annually assesses qualitative factors to determine whether it is more likely than not that the fair value of a reporting unit is less than its carrying amount. If it is more likely than not that a reporting unit’s fair value is less than its carrying amount the Company calculates the fair value of the reporting unit. The carrying amount of the reporting unit’s goodwill is considered not recoverable if the carrying amount of the reporting unit as a whole exceeds the reporting unit’s fair value. An impairment charge is recorded for any excess of the carrying value of the goodwill over the implied fair value. Goodwill is tested for impairment between annual tests if an event occurs or circumstances change that would more likely than not reduce the fair value of a reporting unit below its carrying amount. 2012 Annual Report 81 (k) Goodwill (j) Intangibles (i) Property plant and equipment (continued) | 0financial_reports
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$^{Actually if each curve (}$∑ L $_{R}$) is contained in a (different) plane P$_{L}$$_{ }$$_{R}$ we must have for every θ . This was indeed checked numerically up to a precision of 10 − $^{11}$. It was also checked that | X$_{L}$$_{ }$$_{R}$ ( θ ) | $^{= 1 up to the same precision. This proves that each curve (}$∑ L $_{R}$) must be a circle. The equations of the two planes P$_{L}$$_{ }$$_{R}$ are given by n$_{L}$$_{ }$$_{R}$ · ( X − X$_{L}$$_{ }$$_{R}$ (0)) = 0 where X is the Stokes vector associated with a running point belonging to each plane. We write with D$_{L}$ = − 0 . 0237 and D$_{R}$ = − 0 . 0266. | D$_{L}$$_{ R}$ | represents the distance separating the center $^{of the circle (}$∑ L $_{R}$) to the origin of the poincar´ e sphere. This proves that the planes are not going through the center of the sphere. It was checked after lengthy calculations that if | B | = | C | in the Jones matrix (see equation (1)) then D = 0. This shows that the property | D$_{L}$$_{ R}$ | ̸ = 0 is a characteristic of planar chirality (i.e the condition | B | ̸ = | C | ). The radius of $^{each circle (}$∑ L $_{R}$) is given by r$_{L}$$_{ }$$_{R}$ = √ (1 − D 2 L $_{ R}$) and we have r$_{L}$ = 0 . 9997 and r$_{L}$ = 0 . 9996 which are slightly smaller than r = 1 in agreement with the fact that P$_{L}$$_{ }$$_{R}$ are not going through the center of the sphere. n$_{L}$$_{ }$$_{R}$ · ( X$_{L}$$_{ }$$_{R}$ ( θ ) − X$_{L}$$_{ }$$_{R}$ (0)) = 0 (19) U$_{L}$$_{ }$$_{R}$X$_{1}$ + V$_{L}$$_{ }$$_{R}$X$_{2}$ + W$_{L}$$_{ }$$_{R}$X$_{3}$ + D$_{L}$$_{ }$$_{R}$ = 0 (20) [1] D. -F. M. Arago “M´ emoire sur une modification remarquable qu’´ eprouvent les rayons lu- mineux dans leur passage ` a travers certains corps diaphanes et sur quelques autres nouveaux ph´ enom` enes d’optique ” M´ em. Inst. France Part I 12 (1811). [2] L. Pasteur “M´ emoire sur la relation qui peut exister entre la forme cristalline et la composition chimique et sur la cause de la polarization rotatoire ” C. R. Acad. Sci. Paris 26 535-539 (1848). [3] E. Hecht Optics 2 nd ed. (Addison-Wesley Massachusetts 1987). [4] L. D. Landau E. M. Lifshitz L. P. Pitaevskii Electrodynamics of continuous media 2 nd ed. (Pergamon New York 1984). [5] V. A. Fedotov P. L. Mladyonov S. L. Prosvirnin A. V. Rogacheva Y. Chen and N. I. Zhe- ludev “Asymmetric propagation of electromagnetic waves through a planar chiral structure ” Phys. Rev. Lett. 97 167401 (2006). 15 | 5scientific_articles
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MongoDB Documentation Release 3.0.4 7. To confirm the new configuration call rs.conf() in the mongo shell. Your output should resemble: { "_id" : "rs" "version" : 4 "members" : [ { "_id" : 0 "host" : "mongodb0.example.net:27017" } { "_id" : 1 "host" : "mongodb1.example.net:27017" } { "_id" : 2 "host" : "mongodb2.example.net:27017" } ] } Change All Hostnames at the Same Time This procedure uses the above assumptions (page 642). mongod --dbpath /data/db1/ --port 37017 mongo --port 37017 (b) Edit the replica set configuration manually. The replica set configuration is the only document in the system.replset collection in the local database. Edit the replica set configuration with the new hostnames and correct ports for all the members of the replica set. Consider the following sequence of commands to change the hostnames in a three-member set: (a) Open a mongo shell connected to the mongod running on the new temporary port. For example for a member running on a temporary port of 37017 you would issue this command: 3. For each member of the replica set perform the following sequence of operations: 2. Restart each member on a different port and without using the --replSet run-time option. Changing the port number during maintenance prevents clients from connecting to this host while you perform maintenance. Use the member’s usual --dbpath which in this example is /data/db1 . Use a command that resembles the following: 1. Stop all members in the replica set . Chapter 9. Replication 644 use local cfg = db.system.replset.findOne( { "_id": "rs" } ) cfg.members[0].host = "mongodb0.example.net:27017" cfg.members[1].host = "mongodb1.example.net:27017" cfg.members[2].host = "mongodb2.example.net:27017" db.system.replset.update( { "_id": "rs" } cfg ) | 3manuals
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3. It is necessary to remove the Type-3 binding tape on the inside seam joining the main body to the side flap. Depending on the container construction configuration there are two options how to do this: • Option 1: salvage method. With this method the binding tape is left undamaged and sewn back in place after replacing the flap. A slower method but good if the rigger does not have the necessary replacement tape. • Using a seam ripper unpick the two rows of stitching that holds the side flap to the main container. [Figure A] Start at the lower corner and continue until approximately 2 inches past where the side flap joins the riser cover. 2. If option 1 was used take the original binding tape fold over the seam and sew in place with two rows of stitching. Note that there is a second row of stitching sewn directly on top of the inside row of stitching for reinforcement. [Figure D] This is very important. 3. If option 2 was used it is necessary to replace the binding tape with new. Stitch down the loose end of the binding tape at the top and then overlap the tape by approximately 2 inches using the double needle machine and tape binder. [Figure E] Overstitch the inside row for reinforcement. 4. Trim the bottom end of the binding tape at the corner. 5. Note that the junction of the side flap and riser cover is overstitched and reinforced as needed. [Figure F] • Remove the side flap. • Option 2: replacement tape method. With this method the binding tape is destroyed during the removal process and replaced with new. A faster method but new tape is required. • Use a hot knife to melt the stitching that holds the binding tape that attaches the side flap to the main container. [Figure B] When doing this have the side of the tape that faces the damaged side flap facing up in case you slip so the wrong flap is not damaged. Proceed to the point where the side flap stops. Trim the melted tape at this point. • Using a seam ripper unpick the tape approximately 2 inches past the end of the side flap. Remove the side flap. 1. Take the new flap and sew it in place on the main container starting approximately .38 inch from the Reassembly corner. [Figure C] On this design and others like it the lower end of the main riser cover is unstitched during removal of the main flap. When sewing the new flap in place make sure that the side flap is sewn to the main container first and then the riser cover on top of it. Look at the opposite side to see which is on top and duplicate. 7-47 | 2laws_and_regulations
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Figure 7-6 Grafana Logon Window After you change the password you are redirected to the home page of your Grafana server. You can set preferences for your user by hovering on the user button (see red arrow in Figure 7-7 on page 174) and selecting “Preferences“. From there we changed the UI Theme from “dark“ to “light “ for better read ability in the documentation. To use Grafana for visualization of data that is collected by Prometheus you must add your Prometheus instance as a data source to your Grafana server. You have two options to get to the add datasource panel as shown in Figure 7-8 on page 175. 174 Getting started with z/OS Container Extensions 7.6.5 Adding Prometheus as data source to Grafana Figure 7-7 Grafana home page | 3manuals
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Article 15 paragraph (2) or Article 18 paragraph (4); (Effective Date) (Abolition of the Foreign Exchange Control Order and Other Cabinet Orders) Article 2 The following Cabinet Orders are abolished: (vii) affairs pertaining to acceptance (excluding those pertaining to the request of a report by the director-general of the local finance bureau or the Director- General of the Fukuoka Local Finance Branch Bureau pursuant to the provisions of paragraph (5) of the preceding Article) of a record based on the provisions of Article 55 of the Act Article 55-3 Article 55-4 Article 55-7 or Article 55-8 (limited to the part pertaining to Article 18-8 of this Cabinet Order); (viii) affairs pertaining to preparation of statistics related to foreign borrowing and lending and international balance of trade based on the provisions of Article 55-9 of the Act; (ix) affairs pertaining to permission pursuant to the provisions of Article 6-2 paragraph (4) Article 11-3 paragraph (2) Article 16 paragraph (2) or Article 18-3 paragraph (2); (x) beyond affairs set forth in the preceding items affairs necessary for the enforcement of the Act and this Cabinet Order. (Technology That Is Especially Likely to Be Used for the Development etc. of Nuclear Weapons etc.) Article 27 (1) Rockets or unmanned aerial vehicles specified by Cabinet Order as prescribed in Article 69-6 paragraph (2) item (i) of the Act are rockets or unmanned aerial vehicles capable of transporting nuclear weapons CW agents or military bacterial agents or devices for spraying the agents with a range or flight range of 300km or longer. (2) Technology specified by Cabinet Order as prescribed in Article 69-6 paragraph (2) item (i) of the Act is the technology listed in the middle column of rows 1 to 4 of the appended table (excluding those pertaining to the design manufacture or use of goods listed in row 1 (v) (vi) and (x) to (xii) of appended table 1 of the Export Trade Control Order and nuclear weapons etc.). (i) Cabinet Order concerning Report by a Certified Foreign Exchange Bank or a Money Exchanger (Cabinet Order No. 377 of 1949); Article 1 This Cabinet Order comes into effect as of the date of enforcement (December 1 1980) of the Act on the Partial Revision of the Foreign Exchange and Foreign Trade Control Act (Act No. 65 of 1979). Supplementary Provisions 40 | 2laws_and_regulations
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us 10 620 533 B2 117 118 TABLE I-continued Acid Polymer generator (pbw) (pbw) 1-10 Polymer 1 PAGl (100) (8.0) 1-11 Polymer 1 PAG2 (100) (8.0) 1-12 Polymer 2 (100) 1-13 Polymer 3 PAGl (100) (8.0) Comparative 1-1 Polymer 1 PAGl Example (100) (8.0) 1-2 Polymer 1 PAGl (100) (8.0) 1-3 Polymer 1 PAGl (100) (8.0) 1-4 Polymer 1 PAGl (100) (8.0) Water-repellent Quencher polymer (pbw) (pbw) Quencher 10 Water-repellent (4.50) polymer 1 (4.0) Quencher 11 Water-repellent (4.50) polymer 1 (4.0) Quencher 11 Water-repellent (4.50) polymer 1 (4.0) Quencher 11 Water-repellent (4.50) polymer 1 (4.0) Comparative Water-repellent Amine 1 polymer 1 (3.13) (4.0) Comparative Water-repellent Amine 2 polymer 1 (3.13) (4.0) Comparative Water-repellent Quencher 1 polymer 1 (4.50) (4.0) Comparative Water-repellent Quencher 2 polymer 1 (4.50) (4.0) Organic PEB PPD solvent temp. Sensitivity size (pbw) (" C.) (mJ/cm 2 ) (nm) PGMEA(2 200) 95 36 0.1 GBL(300) PGMEA(2 200) 95 39 0.4 GBL(300) PGMEA(2 200) 100 36 0 GBL(300) PGMEA(2 200) 95 39 0.2 GBL(300) PGMEA(2 200) 95 55 1.3 GBL(300) PGMEA(2 200) 95 56 1.5 GBL(300) PGMEA(2 200) 95 45 0.8 GBL(300) PGMEA(2 200) 95 44 0.6 GBL(300) EB Writing Test Examples 2-1 to 2-5 and Comparative Examples 2-1 to 2-2 Each of the resist compositions in Table 2 was spin coated onto a silicon substrate which had been vapor primed with hexamethyldisilazane (HMDS) and pre-baked on a hot plate at 110° C. for 60 seconds to form a resist film of 80 nm thick. Using a system HL-S00D (Hitachi Ltd.) at an accelerating In the case of positive resist film the resolution is a minimum trench size at the exposure dose that provides a resolution as designed of a 120-nm trench pattern. In the case of negative resist film the resolution is a minimum isolated line size at the exposure dose that provides a resolution as designed of a 120-nm isolated line pattern. It is noted that Examples 2-1 to 2-4 and Comparative Examples 2-1 to 2-2 are positive resist compositions and Example 2-5 is a negative resist composition. The results are shown in Table 2. TABLE 2 It is demonstrated in Tables 1 and 2 that resist composi› tions comprising a sulfonium or iodonium salt of sulfonic acid containing a morpholino group offer dimensional sta- bility on PPD and a satisfactory resolution. Japanese Patent Application No. 2015-205402 is incor› porated herein by reference. Acid Organic Polymer generator Quencher solvent Sensitivity Resolution (pbw) (pbw) (pbw) (pbw) (µC/cm 2 ) (nm) Example 2-1 Polymer 4 Quencher 8 PGMEA(400) 33 80 (100) (2.50) CyH(2 000) PGME(l00) 2-2 Polymer 4 Quencher 9 PGMEA(400) 35 80 (100) (2.50) CyH(2 000) PGME(l00) 2-3 Polymer 4 Quencher 10 PGMEA(400) 35 80 (100) (2.50) CyH(2 000) PGME(l00) 2-4 Polymer 5 PAG3 Quencher 12 PGMEA(400) 39 85 (100) (15.0) (2.50) CyH(l 600) CyP(500) 2-5 Polymer 6 PAGl Quencher 13 PGMEA(2 000) 38 75 (100) (10.0) (2.50) CyH(500) Comparative 2-1 Polymer 4 Comparative PGMEA(400) 38 90 Example (100) Quencher 1 CyH(2 000) (2.50) PGME(l00) 2-2 Polymer 4 Comparative PGMEA(400) 38 90 (100) Quencher 2 CyH(2 000) (2.50) PGME(l00) voltage of 50 kV the resist film was exposed imagewise to EB in a vacuum chamber. Immediately after the image writing the resist film was baked (PEB) on a hot plate at 90° C. for 60 seconds and developed in a 2.38 wt % TMAH aqueous solution for 30 seconds to form a pattern. The resist pattern was evaluated as follows. | 4patents
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Specification: Proof Load: Identification: Common Use: Comment: Commercial 2 500 lb 444 RW-8 3-ring harness ring Sport harnesses Specification: Proof Load: Identification: Common Use: Comment: Commercial 2 500 lb 2058 Tandem drogue release N/A Specification: Proof Load: Identification: Common Use: Comment: Commercial 2 500 lb 555 RI-1 Sport student harness pilot emergency harness N/A Specification: Proof Load: Identification: Common Use: Comment: Commercial Work Load: 3850; Breaking Strength: 7700 5010-SS Articulated harness (Hip) ring N/A Figure 3-79. Ring harness mini. Figure 3-77. Ring harness “O” 2058 Cadmium Ring. Figure 3-80. Ring quick fit. Figure 3-78. Ring harness 5010-SS Ring. Housings are spiral-wound flexible tubing. Almost all are stainless steel. Their design is to route house and protect the ripcord cable. They are anchored to the container at one end and the ripcord pocket or mount at the other end. Most ripcord housings are compressible only but some military Of all these Velcro $^{®}$ and grommets play a major part in parachute manufacture. The use of Velcro$^{®}$ is primarily for protector flap closure designs while grommets are for use in pack closing systems. Both fasteners are subject to extreme wear and tear in their normal use. Consequently routine maintenance involves the repair and replacement of these items. [Figures 3-85 through 3-89] Housings 3-22 | 2laws_and_regulations
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[60] W. H. Press S. A. Teukolsky W. T. Vetterling and B. P. Flannery Numerical Recipes 3rd ed. (Cambridge University Press Cambridge 2007). [61] R. Eppenga and D. Frenkel Molec. Phys. 52 1303 (1984). [62] R. F. Kayser and H. J. Ravech´ e Phys. Rev. A 17 2067 (1978). [63] B. Mulder Phys. Rev. A 39 360 (1989). [64] H. H. Wensink G. J. Vroege and H. N. W. Lekkerkerker J. Chem. Phys. 115 7319 (2001). [65] H. H. Wensink and G. J. Vroege J. Phys. Condens. Matter 16 S2015 (2004). [66] M. A. Bates and D. Frenkel Phys. Rev. E 57 4824 (1998). [67] H. H. Wensink and H. N. W. Lekkerkerker Mol. Phys. 107 2111 (2009). [68] S. Varga and I. Szalai Phys. Chem. Chem. Phys. 2 1955 (2000). [69] S. Dobra I. Szalai and S. Varga J. Chem. Phys. 125 074907 (2006). [70] F. M. van der Kooij and H. N. W. Lekkerkerker Phys. Rev. Lett. 84 781 (2000). [71] S. Varga A. Galindo and G. Jackson J. Chem. Phys. 117 7207 (2002). [72] S. Varga A. Galindo and G. Jackson Phys. Rev. E 66 011707 (2002). [73] S. Varga A. Galindo and G. Jackson Mol. Phys. Phys. 101 817 (2002). [74] H. H. Wensink G. J. Vroege and H. N. W. Lekkerkerker Phys. Rev. E 66 041704 . [75] A. Speranza and P. Sollich J. Chem. Phys. 117 5421 (2002). [76] A. Speranza and P. Sollich J. Chem. Phys. 110 5213 (2003). [77] A. Speranza and Sollich Phys. Rev. E 67 061702 (2003). [78] H. H. Wensink and G. J. Vroege Phys. Rev. E 67 031716 (2002). [79] M. Abramowitz and I. A. Stegun Handbook of Mathematical Functions (Dover Publications Inc. New York 1965). 30 | 5scientific_articles
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Ein Service des Bundesministeriums der Justiz und für Verbraucherschutz sowie des Bundesamts für Justiz ‒ www.gesetze-im-internet.de Eignung oder bedingte Eignung Beschränkungen/Auflagen bei bedingter Eignung Krankheiten Mängel Klassen A A1 A2 B BE AM L T Klassen C C1 CE C1E D D1 DE D1E FzF Klassen A A1 A2 B BE AM L T Klassen C C1 CE C1E D D1 DE D1E FzF Vorrichtungen gemäß ärztlichem Gutachten evtl. zusätzlich medizinisch-psychologisches Gutachten und/oder Gutachten eines amtlich anerkannten Sachverständigen oder Prüfers. Auflage: regelmäßige ärztliche Kontrolluntersuchungen; können entfallen wenn Behinderung sich stabilisiert hat. 4. Herz- und Gefäßkrankheiten 4.1.1 Herzrhythmusstörungen mit anfallsweiser Bewusstseinstrübung oder Bewusstlosigkeit nein nein – – 4.1.2 – nach erfolgreicher Behandlung durch Arzneimittel oder Herzschrittmacher ja kardiologische Untersuchung ja kardiologische Untersuchung Kontrollen gemäß Begutachtungsleitlinien Kontrollen gemäß Begutachtungsleitlinien 4.2 Hypertonie (zu hoher Blutdruck) 4.2.1 Erhöhter Blutdruck mit zerebraler Symptomatik und/ oder Sehstörungen nein nein – – 4.2.2 Blutdruckwerte ≥ 180 mmHg systolisch und/ oder ≥ 110 mmHg diastolisch in der Regel ja fachärztliche Untersuchung Einzelfallentscheidung fachärztliche Untersuchung regelmäßige ärztliche Kontrollen regelmäßige ärztliche Kontrollen 4.3 Hypotonie (zu niedriger Blutdruck) - Seite 80 von 158 - | 2laws_and_regulations
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200380105401. 3 NA EEK TR 2/2T Hase 13. QUARRY BERK 11 PRA AS FL Rae ee iil aE ER RAN TFA SHERPA TCPA fit SSER Sg ATI SE Mb PE BE IB 14. WRRER 11 TANRS ACR PIRES ES hl ae Se AF OTCPA WM MIETE SD BER a ORG PT Ah FE Ac FE SB EL . 15. BORA EEK 11 PARAS AIRE RA ATR ES BS ER 16. WALA SEK 11 PTAA MS PAST BIOS RRA TER WIE. 17. DRMER 11 HAMA CRE eB TIRE Ss A ER ZEHee. 18. WALAIBESK 11 PTA AA FOP TREAT AER EE EU RR BEAT fF BARRE 19. QUAI BEK 1 ADAM AA EPR SHB HS SRM E Lhe dl] BIOS BRR ALE A (AE. 20. WERHEXK 11 ATA ARB FLAP Pra ae eR il a RB HR. | 4patents
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the scalar potential reads V $^{smooth}$( S Φ) = κ 2 ∣ − M 2 + ( ¯ ΦΦ) 2 M 2 P ∣ + κ $^{2}$| S | 2 | Φ | $^{2}$| ¯ Φ | 2 M 4 P ( | Φ | 2 + | ¯ Φ | 2 ) (232) M 2 P ∣$^{2}$ M 4 P where we denote by the same letter the superfield and its scalar component ( θ = 0). We remind the reader that ¯ Φ Φ are 2 fields charged under G$_{GUT}$ . If we follow the original motivation G$_{GUT}$ = G$_{P}$$_{S}$ and we want Φ to be non-trivially charged under the factors SU (4)$_{C}$ × SU (2)$_{R}$ in order to generate the breaking scheme G$_{P}$$_{S}$ → G$_{S}$$_{M}$ . The simplest possibility to realize this is to assign Φ to the representation ( 4 1 2 ). It is then necessary to assign ¯ Φ to its complex conjugate representation ( ¯ 4 1 2 ) so that the superpotential is invariant under G S being necessarily an absolute gauge singlet belongs to a hidden sector. We can define two real scalar fields s and φ as being the relevant component of the representation of the S Φ ¯ Φ fields such that the potential can be rewritten [68] V $^{smooth}$( s φ ) = κ 2 ( M 2 − φ 4 M 2 P ) 2 + 2 κ $^{2}$s2 φ 6 M 4 P . (233) This modifies the picture drastically since now the valley φ = 0 still represents a flat direction for s but is also a local maximum in the φ direction. As a consequence inflation will be realized for non-vanishing values of φ which induces the symmetry breaking during inflation. The minimum of the potential at fixed s is indeed reached for φ 2 = 4 3 M $^{2}$µ2 s 2 for s ≫ µM (234) which correspond to the two symmetric minima of the potential. Inside the inflationary trajectory described above the effective one-field potential is V ( s ) = µ $^{4}$(1 − (2 / 27) µ $^{2}$M$^{2}$/s$^{4}$) in the limit s ≫ µM a form similar to mutated hybrid inflation. The predictions of the model have been studied in [63] assuming an embedding within SUSY GUTs that is with a unification scale of 2 × 10 16 GeV and a gauge coupling constant of ∼ 0 . 7. The normalization to the COBE data imposes the mass scales of inflation is found lower than in the F -term case µ ≃ 9 × 10 14 GeV and the cutoff M scale is found close to the reduced Planck mass M ∼ M$_{P}$ . The spectral index is then given by [63] n$_{s}$ ≃ 1 = 5 3 N$_{Q}$ ≃ 0 . 97 (for N$_{Q}$ = 60) (235) 108 | 5scientific_articles
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30 заменить строкой « » б) дополнить новыми строками следующего содержания: »; 2) в пункте 3.3: « » заменить строкой «< ». 24. В федеральном государственном образовательном стандарте высшего образования – бакалавриат по направлению подготовки 53.03.05 Дирижирование утвержденном приказом Министерства образования и науки Российской Федерации от 14 июля 2017 г. № 660 (зарегистрирован Министерством юстиции Российской Федерации 7 августа 2017 г. регистрационный № 47689) с изменениями внесенными УК-8. Способен создавать и поддерживать в повседневной жизни и в профессиональной деятельности безопасные условия жизнедеятельности для сохранения природной среды обеспечения устойчивого развития общества в том числе при угрозе и возникновении чрезвычайных ситуаций и военных конфликтов Безопасность жизнедеятельности Экономическая культура в том числе финансовая УК-9. Способен принимать обоснованные экономические решения в различных областях жизнедеятельности грамотность УК-10. Способен формировать Гражданская позиция | нетерпимое отношение к коррупционному поведению ОПК-5. Способен решать стандартные задачи профессиональной деятельности с применением информационно- коммуникационных технологий и с учетом основных требований информационной безопасности Информационно- коммуникационные технологии строку ОПК-5. Способен понимать принципы работы современных информационных технологий и использовать их для решения задач профессиональной деятельности Информационно- коммуникационные технологии | 2laws_and_regulations
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inelastic materials may include monofilament polymeric line or mesh. Such reinforced polymers are referred to herein as polymeric composites. A reinforcing inelastic structural material is referred to in the art as “scrim”. Scrim may be a woven textile or polymer a non-woven polymer or any other structural material that acts to stabilize the substrate. Preferably the scrim reinforced substrate will have a high degree of permeability (e.g. 1 000 to 8 000 liters/sec/m $^{2}$). Additionally non-reinforced polymers exhibiting a degree of elasticity (e.g. polyurethane or polyester) may be used in the production of adhesive-backed anchoring members for embodiments in which adhesive-backed anchoring members and elongated connectors are produced separately and subsequently attached to one another (i.e. non-monolithic embodiments). A preferred polymer for the production of the adhesive-backed anchoring members is polyurethane having a thickness of 3-12 mils. Such a polymer is breathable and exhibits a degree of flexibility. If a non-reinforced elastic polymer is used to produce an adhesive-backed anchoring member it will be preferable to reinforce the upper surface of the wound edge with an inelastic element so that the wound edge remains substantially straight across the incision site during the closure process. Such an element is referred to herein as a “woundedge bar”.One skilled in the art will recognize that a wide range of inelastic polymers or even metals can be utilized in the production of a wound edge bar for the purpose of providing rigidity to the wound edge. Vapor permeable polymeric materials that satisfy the other requirements for use in the manufacturing of the device offer improved comfort and are preferred. Transparent stock is also preferred so that the healing process and the entire wound site can be monitored easily. Therefore at least the first and second adhesive-backed anchoring members are produced from transparent stock in preferred embodiments. As an alternative design choice colored or opaque stock may be used in the production of at least the first and second adhesive-backed anchoring members when circumstances (e.g. cost considerations) dictate. In preferred embodiments the adhesive-backed anchoring members elongated connectors and pulling elements are produced from sheets or rolls of polymeric material or polymeric composite material (e.g. polyurethane or polyester). The sheet or roll stock is typically referred to as “film” as the thickness in preferred embodiments ranges from about 0.5 mil to about 5 mil and may vary depending upon application. Die cutting these elements from polymeric sheet stock to provide two monolithic components (i.e. having no seams or joints) which when assembled/packaged comprise the two-component device is a particularly cost- effective approach to manufacturing. Die cutting can be combined with other assembly steps | 4patents
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Optimizing InnoDB Redo Logging •The autocommit setting is turned on so that the transaction is guaranteed to be a single statement and the single statement making up the transaction is a “non-locking” SELECT statement. That is a SELECT that does not use a FOR UPDATE or LOCK IN SHARED MODE clause. •The transaction is started without the READ ONLY option but no updates or statements that explicitly lock rows have been executed yet. Until updates or explicit locks are required a transaction stays in read-only mode. Thus for a read-intensive application such as a report generator you can tune a sequence of InnoDB queries by grouping them inside START TRANSACTION READ ONLY and COMMIT or by turning on the autocommit setting before running the SELECT statements or simply by avoiding any data change statements interspersed with the queries. For information about START TRANSACTION and autocommit see Section 13.3.1 “START TRANSACTION COMMIT and ROLLBACK Statements” . Transactions that qualify as auto-commit non-locking and read-only (AC-NL-RO) are kept out of certain internal InnoDB data structures and are therefore not listed in SHOW ENGINE INNODB STATUS output. Consider the following guidelines for optimizing redo logging: The size and number of redo log files are configured using the innodb_log_file_size and innodb_log_files_in_group configuration options. For information about modifying an existing redo log file configuration see Changing the Number or Size of Redo Log Files. Note 8.5.4 Optimizing InnoDB Redo Logging •Make your redo log files big even as big as the buffer pool. When InnoDB has written the redo log files full it must write the modified contents of the buffer pool to disk in a checkpoint. Small redo log files cause many unnecessary disk writes. Although historically big redo log files caused lengthy recovery times recovery is now much faster and you can confidently use large redo log files. •Consider increasing the size of the log buffer. A large log buffer enables large transactions to run without a need to write the log to disk before the transactions commit. Thus if you have transactions that update insert or delete many rows making the log buffer larger saves disk I/O. Log buffer size is configured using the innodb_log_buffer_size configuration option which can be configured dynamically in MySQL 8.0. •Configure the innodb_log_write_ahead_size configuration option to avoid “read-on-write” . This option defines the write-ahead block size for the redo log. Set innodb_log_write_ahead_size to match the operating system or file system cache block size. Read-on-write occurs when redo log blocks are not entirely cached to the operating system or file system due to a mismatch between write-ahead block size for the redo log and operating system or file system cache block size. Valid values for innodb_log_write_ahead_size are multiples of the InnoDB log file block size (2$^{n}$). The minimum value is the InnoDB log file block size (512). Write-ahead does not occur when the minimum value is specified. The maximum value is equal to the innodb_page_size value. If you specify a value for innodb_log_write_ahead_size that is larger than the innodb_page_size value the innodb_log_write_ahead_size setting is truncated to the innodb_page_size value. Setting the innodb_log_write_ahead_size value too low in relation to the operating system or file system cache block size results in read-on-write. Setting the value too high may have a slight impact on fsync performance for log file writes due to several blocks being written at once. 1748 | 3manuals
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innodb_concurrency_tickets 3234 innodb_data_file_path 3234 innodb_data_home_dir 3235 innodb_ddl_log_crash_reset_debug 3235 innodb_deadlock_detect 3236 innodb_dedicated_server 3236 innodb_default_row_format 3237 innodb_directories 3237 innodb_disable_sort_file_cache 3238 innodb_doublewrite 3238 innodb_doublewrite_batch_size 3239 innodb_doublewrite_dir 3239 innodb_doublewrite_files 3239 innodb_doublewrite_pages 3240 innodb_extend_and_initialize 3240 innodb_fast_shutdown 3241 innodb_file_per_table 3242 innodb_fill_factor 3242 innodb_fil_make_page_dirty_debug 3241 innodb_flushing_avg_loops 3247 innodb_flush_log_at_timeout 3243 innodb_flush_log_at_trx_commit 3243 innodb_flush_method 3244 innodb_flush_neighbors 3246 innodb_flush_sync 3247 innodb_force_load_corrupted 3248 innodb_force_recovery 3248 innodb_fsync_threshold 3248 innodb_ft_aux_table 3249 innodb_ft_cache_size 3249 innodb_ft_enable_diag_print 3250 innodb_ft_enable_stopword 3250 innodb_ft_max_token_size 3251 innodb_ft_min_token_size 3251 innodb_ft_num_word_optimize 3252 innodb_ft_result_cache_limit 3252 innodb_ft_server_stopword_table 3253 innodb_ft_sort_pll_degree 3253 innodb_ft_total_cache_size 3253 innodb_ft_user_stopword_table 3254 innodb_idle_flush_pct 3254 innodb_io_capacity 3255 innodb_io_capacity_max 3255 innodb_limit_optimistic_insert_debug 3256 innodb_lock_wait_timeout 3256 innodb_log_buffer_size 3257 innodb_log_checkpoint_fuzzy_now 3257 innodb_log_checkpoint_now 3258 innodb_log_checksums 3258 innodb_log_compressed_pages 3258 innodb_log_files_in_group 3259 innodb_log_file_size 3259 innodb_log_group_home_dir 3260 innodb_log_spin_cpu_abs_lwm 3260 5578 | 3manuals
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8464ch06_HW Implement.fm Draft Document for Review February 7 2020 3:15 pm GLYPH<SM590000> Enable/Disable Capturing IBM AIXfi dump at reboot action: GLYPH<SM590000> Remote Cluster Fence Thresholds: – Threshold concepts (third keyword and the allowed values in the fourth keyword) in the LI REQ command): GLYPH<129> TMO (timeout event counts): The number of internal system timeouts that must occur before the primary fence action is started. This amount relates to the combined sum of timeout incidents for scratch mounts private mounts volume close and token handshakes. GLYPH<129> ERR (error event counts): The number of explicit failures that must occur before the primary fence action is started. This amount relates to the combined sum of explicit error incidents for scratch mounts private mounts volume close and token handshakes. GLYPH<129> SCRVOAVG (scratch volume open average): The average peer handshake time to open or mount a scratch virtual tape that must be exceeded before the primary fence action is started. GLYPH<129> PRIVOAVG (private volume open average): The average peer handshake time to open or mount a private virtual tape that must be exceeded before the primary fence action is started. GLYPH<129> VCAVG (volume close average): The aver age peer handshake time to close or unmount a tape that must be exceeded before the primary fence action is started. This value excludes the RUN (Rewind and UNload) copy duration. GLYPH<129> TOKAVG (token handshake average): The av erage peer handshake time to process a miscellaneous token handshake that must be exceeded before the primary fence action is started. GLYPH<129> EVALWIN (evaluation window): The referred lapse in minutes that is used to calculate counts and averages for target concepts. LI REQ <distributed-library> FENCE ACTION AIXDUMP <ENABLE|DISABLE> An AIX dump is a data capture mechanism that fetches information that is related to the IBM AIX kernel state at the time it is taken. This information can then be used by authorized IBM Service or Support personnel during the diagnostic process if a failure occurs. This dump is taken only when AIXDUMP is enabled (default is DISABLE) and the selected primary fence action is REBOOT or REBOFF. LI REQ <composite-library> FENCE THRESHLD <TMO|ERR|SCRVOAVG|PRIVOAVG|VCAVG|TOKAVG|EVALWIN> <value> The THRESHLD keyword provides a way to select how and when a specified fence action occurs if an SBND condition is detected. These settings result in grid-wide effect and the following options can be adjusted depending on your business needs: This fourth keyword of the LI REQ allows values is 0 - 1000 seconds (default is 20). This fourth keyword of the LI REQ allows values is 0 - 1000 seconds (default is 20). This fourth keyword of the LI REQ allows values is 0 - 1200 seconds (default is 180 seconds). This fourth keyword of the LI REQ allows values is 0 - 1200 seconds (default is 180 seconds). This fourth keyword of the LI REQ allows values is 0 - 180 seconds (default is 120 seconds). This fourth keyword of the LI REQ values is 0 - 180 seconds (default is 120 seconds). 232 IBM TS7700 Release 5.0 Guide | 3manuals
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Repairs Alterations and Manufacture Chapter 7 Introduction Inspection requirements are the mainstay of the parachute rigger but of equal importance is the repair and maintenance of the parachute and its related systems. When the parachute is new it is expected to function as designed. As it is used and ages however it begins to wear and its condition changes which over time could result in a malfunction of the system. It is the rigger’s responsibility during inspections to identify any condition that might result in the parachute being considered non-airworthy and dangerous. In the course of training the rigger candidate learns to identify those conditions that may be unsafe. The trainee also learns how to undertake the necessary repairs to return the parachute to its original airworthy configuration. As we look at repairs it becomes very evident that inspection is the initial part of the process of any repair. | 2laws_and_regulations
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arXiv:1001.2745v2 [nucl-ex] 10 May 2010 Υ cross section in $_{p}$+$_{p}$ collisions at √ $_{s}$= 200 GeV B. I. Abelev 8 M. M. Aggarwal 30 Z. Ahammed 47 A. V. Alakhverdyants 17 B. D. Anderson 18 D. Arkhipkin 3 G. S. Averichev 17 J. Balewski 22 L. S. Barnby 2 S. Baumgart 52 D. R. Beavis 3 R. Bellwied 50 M. J. Betancourt 22 R. R. Betts 8 A. Bhasin 16 A. K. Bhati 30 H. Bichsel 49 J. Bielcik 10 J. Bielcikova 11 B. Biritz 6 L. C. Bland 3 B. E. Bonner 36 J. Bouchet 18 E. Braidot 27 A. V. Brandin 25 A. Bridgeman 1 E. Bruna 52 S. Bueltmann 29 I. Bunzarov 17 T. P. Burton 2 X. Z. Cai 40 H. Caines 52 M. Calder´ on de la Barca S´ anchez 5 O. Catu 52 D. Cebra 5 R. Cendejas 6 M. C. Cervantes 42 Z. Chajecki 28 P. Chaloupka 11 S. Chattopadhyay 47 H. F. Chen 38 J. H. Chen 40 J. Y. Chen 51 J. Cheng 44 M. Cherney 9 A. Chikanian 52 K. E. Choi 34 W. Christie 3 P. Chung 11 R. F. Clarke 42 M. J. M. Codrington 42 R. Corliss 22 M. R. Cosentino 37 J. G. Cramer 49 H. J. Crawford 4 D. Das 5 S. Dash 13 A. Davila Leyva 43 L. C. De Silva 50 R. R. Debbe 3 T. G. Dedovich 17 M. DePhillips 3 A. A. Derevschikov 32 R. Derradi de Souza 7 L. Didenko 3 P. Djawotho 42 S. M. Dogra 16 X. Dong 21 J. L. Drachenberg 42 J. E. Draper 5 J. C. Dunlop 3 M. R. Dutta Mazumdar 47 L. G. Efimov 17 E. Elhalhuli 2 M. Elnimr 50 J. Engelage 4 G. Eppley 36 B. Erazmus 41 M. Estienne 41 L. Eun 31 O. Evdokimov 8 P. Fachini 3 R. Fatemi 19 J. Fedorisin 17 R. G. Fersch 19 P. Filip 17 E. Finch 52 V. Fine 3 Y. Fisyak 3 C. A. Gagliardi 42 D. R. Gangadharan 6 M. S. Ganti 47 E. J. Garcia-Solis 8 A. Geromitsos 41 F. Geurts 36 V. Ghazikhanian 6 P. Ghosh 47 Y. N. Gorbunov 9 A. Gordon 3 O. Grebenyuk 21 D. Grosnick 46 B. Grube 34 S. M. Guertin 6 A. Gupta 16 N. Gupta 16 W. Guryn 3 B. Haag 5 T. J. Hallman 3 A. Hamed 42 L-X. Han 40 J. W. Harris 52 J. P. Hays-Wehle 22 M. Heinz 52 S. Heppelmann 31 A. Hirsch 33 E. Hjort 21 A. M. Hoffman 22 G. W. Hoffmann 43 D. J. Hofman 8 R. S. Hollis 8 H. Z. Huang 6 T. J. Humanic 28 L. Huo 42 G. Igo 6 A. Iordanova 8 P. Jacobs 21 W. W. Jacobs 15 P. Jakl 11 C. Jena 13 F. Jin 40 C. L. Jones 22 P. G. Jones 2 J. Joseph 18 E. G. Judd 4 S. Kabana 41 K. Kajimoto 43 K. Kang 44 J. Kapitan 11 K. Kauder 8 D. Keane 18 A. Kechechyan 17 D. Kettler 49 D. P. Kikola 21 J. Kiryluk 21 A. Kisiel 48 A. G. Knospe 52 A. Kocoloski 22 D. D. Koetke 46 T. Kollegger 12 J. Konzer 33 M. Kopytine 18 I. Koralt 29 W. Korsch 19 L. Kotchenda 25 V. Kouchpil 11 P. Kravtsov 25 K. Krueger 1 M. Krus 10 L. Kumar 30 P. Kurnadi 6 M. A. C. Lamont 3 J. M. Landgraf 3 S. LaPointe 50 J. Lauret 3 A. Lebedev 3 R. Lednicky 17 C-H. Lee 34 J. H. Lee 3 W. Leight 22 M. J. LeVine 3 C. Li 38 L. Li 43 N. Li 51 W. Li 40 X. Li 33 X. Li 39 Y. Li 44 Z. Li 51 G. Lin 52 S. J. Lindenbaum 26 ∗ M. A. Lisa 28 F. Liu 51 H. Liu 5 J. Liu 36 T. Ljubicic 3 W. J. Llope 36 R. S. Longacre 3 W. A. Love 3 Y. Lu 38 G. L. Ma 40 Y. G. Ma 40 D. P. Mahapatra 13 R. Majka 52 O. I. Mall 5 L. K. Mangotra 16 R. Manweiler 46 S. Margetis 18 C. Markert 43 H. Masui 21 H. S. Matis 21 Yu. A. Matulenko 32 D. McDonald 36 T. S. McShane 9 A. Meschanin 32 R. Milner 22 N. G. Minaev 32 S. Mioduszewski 42 A. Mischke 27 M. K. Mitrovski 12 B. Mohanty 47 M. M. Mondal 47 D. A. Morozov 32 M. G. Munhoz 37 B. K. Nandi 14 C. Nattrass 52 T. K. Nayak 47 J. M. Nelson 2 P. K. Netrakanti 33 M. J. Ng 4 L. V. Nogach 32 S. B. Nurushev 32 G. Odyniec 21 A. Ogawa 3 H. Okada 3 V. Okorokov 25 D. Olson 21 M. Pachr 10 B. S. Page 15 S. K. Pal 47 Y. Pandit 18 Y. Panebratsev 17 T. Pawlak 48 T. Peitzmann 27 V. Perevoztchikov 3 C. Perkins 4 W. Peryt 48 S. C. Phatak 13 P. Pile 3 M. Planinic 53 M. A. Ploskon 21 J. Pluta 48 D. Plyku 29 N. Poljak 53 A. M. Poskanzer 21 B. V. K. S. Potukuchi 16 C. B. Powell 21 D. Prindle 49 C. Pruneau 50 N. K. Pruthi 30 P. R. Pujahari 14 J. Putschke 52 R. Raniwala 35 S. Raniwala 35 R. L. Ray 43 R. Redwine 22 R. Reed 5 J. M. Rehberg 12 H. G. Ritter 21 J. B. Roberts 36 O. V. Rogachevskiy 17 J. L. Romero 5 A. Rose 21 C. Roy 41 L. Ruan 3 R. Sahoo 41 S. Sakai 6 I. Sakrejda 21 T. Sakuma 22 S. Salur 5 J. Sandweiss 52 E. Sangaline 5 J. Schambach 43 R. P. Scharenberg 33 N. Schmitz 23 T. R. Schuster 12 J. Seele 22 J. Seger 9 I. Selyuzhenkov 15 P. Seyboth 23 E. Shahaliev 17 M. Shao 38 M. Sharma 50 S. S. Shi 51 E. P. Sichtermann 21 F. Simon 23 R. N. Singaraju 47 M. J. Skoby 33 N. Smirnov 52 P. Sorensen 3 J. Sowinski 15 H. M. Spinka 1 B. Srivastava 33 T. D. S. Stanislaus 46 D. Staszak 6 J. R. Stevens 15 R. Stock 12 M. Strikhanov 25 B. Stringfellow 33 A. A. P. Suaide 37 M. C. Suarez 8 N. L. Subba 18 M. Sumbera 11 X. M. Sun 21 Y. Sun 38 Z. Sun 20 B. Surrow 22 T. J. M. Symons 21 A. Szanto de Toledo 37 J. Takahashi 7 A. H. Tang 3 Z. Tang 38 L. H. Tarini 50 T. Tarnowsky 24 D. Thein 43 J. H. Thomas 21 J. Tian 40 A. R. Timmins 50 S. Timoshenko 25 D. Tlusty 11 M. Tokarev 17 T. A. Trainor 49 V. N. Tram 21 S. Trentalange 6 R. E. Tribble 42 O. D. Tsai 6 J. Ulery 33 T. Ullrich 3 D. G. Underwood 1 G. Van Buren 3 M. van Leeuwen 27 G. van Nieuwenhuizen 22 J. A. Vanfossen Jr. 18 R. Varma 14 G. M. S. Vasconcelos 7 A. N. Vasiliev 32 F. Videbaek 3 Y. P. Viyogi 47 S. Vokal 17 S. A. Voloshin 50 M. Wada 43 M. Walker 22 F. Wang 33 G. Wang 6 H. Wang 24 J. S. Wang 20 Q. Wang 33 X. L. Wang 38 Y. Wang 44 G. Webb 19 J. C. Webb 3 G. D. Westfall 24 C. Whitten Jr. 6 H. Wieman 21 E. Wingfield 43 S. W. Wissink 15 R. Witt 45 Y. Wu 51 W. Xie 33 N. Xu 21 Q. H. Xu 39 W. Xu 6 Y. Xu 38 Z. Xu 3 L. Xue 40 Y. Yang 20 P. Yepes 36 K. Yip 3 I-K. Yoo 34 Q. Yue 44 M. Zawisza 48 H. Zbroszczyk 48 W. Zhan 20 S. Zhang 40 W. M. Zhang 18 X. P. Zhang 21 Y. Zhang 21 Z. P. Zhang 38 J. Zhao 40 C. Zhong 40 J. Zhou 36 W. Zhou 39 X. Zhu 44 Y. H. Zhu 40 R. Zoulkarneev 17 and Y. Zoulkarneeva 17 | 5scientific_articles
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CORPORATE GOVERNANCE China Yuchai International Limited | Annual Report 2013 19 • These responsibilities include (i) reviewing and approving corporate goals and objectives relevant to CEO compensation; (ii) evaluating CEO performance and compensation in light of such goals and objectives for the CEO; (iii) based on such evaluation reviewing and approving CEO compensation levels; (iv) recommending to the board non-CEO compensation incentive compensation plans and equity-based plans; and (v) producing a report on executive compensation as required by the SEC to be included in the company’s annual proxy statement or annual report. The committee must also conduct an annual performance self-evaluation. • Our compensation committee reviews among other things the Company’s general compensation structure and reviews recommends or approves executive appointments compensation and benefits of directors and executive officers subject to ratification by the Board of Directors and supervises the administration of our employee benefit plans if any. Nominating/Corporate Governance Committee • Listed companies must have a nominating/corporate governance committee composed entirely of independent board members. • We do not have a nominating/corporate governance committee. However certain responsibilities of this committee are undertaken by our Compensation Committee such as the review and approval of executive appointments and all other functions are performed by the Board of Directors. • The committee must have a written charter that addresses its purpose and responsibilities which include (i) identifying qualified individuals to become board members; (ii) selecting or recommending that the board select the director nominees for the next annual meeting of shareholders; (iii) developing and recommending to the board a set of corporate governance principles applicable to the company; (iv) overseeing the evaluation of the board and management; and (v) conducting an annual performance evaluation of the committee. Equity-Compensation Plans • Shareholders must be given the opportunity to vote on all equity—compensation plans and material revisions thereto with limited exceptions. • We intend to have our shareholders approve equity- compensation plans. Corporate Governance Guidelines • Listed companies must adopt and disclose corporate governance guidelines. • We have formally adopted various corporate governance guidelines including Code of Business Conduct and Ethics (described below); Audit Committee Charter; Whistle- blowing Policy; Insider Trading Policy; and Disclosure Controls and Procedures. Code of Business Conduct and Ethics • All listed companies US and foreign must adopt and disclose a code of business conduct and ethics for directors officers and employees and promptly disclose any amendment to or waivers of the code for directors or executive officers. • We adopted a Code of Business Conduct and Ethics Policy in May 2004 which was revised on December 9 2008. A copy of the Code is posted on our internet website at http://www.cyilimited.com. We intend to promptly disclose any amendment to or waivers of the Code for directors or executive officers. | 0financial_reports
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Non-current assets are classified as assets held for sale if their carrying amount will be recovered principally through a sale transaction rather than through continuing use. For this to be the case the sale must be highly probable assets must be available for immediate sale in their present condition and management must be committed to a plan to sell assets that should be expected to close within one year from the date of classification. Assets held for sale are recognized at the lower of their carrying amount and fair value less costs to sell. They are not depreciated. The Corporation's investment in its associate is accounted for using the equity method. An associate is an entity in which the Corporation has significant influence. The Corporation has an interest in a joint venture whereby the venturers have a contractual agreement that establishes joint control over the economic activities of the entity . This investment is accounted for using the equity method. The Corporation's share in the joint venture's earnings is recorded in the cost of sales and operating expenses. The financial information related to this investment is not material and is not presented separately. Fixed assets are recorded at cost. Principal components of a fixed asset with dif ferent useful lives are depreciated separately . Buildings and equipment are depreciated on a straight-line basis over their useful lives. Leasehold improvements are depreciated on a straight-line basis over the shorter of their estimated useful lives or the remaining lease term. The depreciation method and estimate of useful lives are reviewed annually . Leases are classified as finance leases if substantially all risks and rewards incidental to ownership are transferred to the lessee. At the moment of initial recognition the lessee records the leased item as an asset at the lower of the fair value of the asset and the present value of the minimum lease payments. A corresponding liability to the lessor is recorded in the consolidated statement of financial position as a finance lease obligation. In subsequent periods the asset is depreciated on a straight-line basis over the term of the lease and interest on the obligation is expensed through net earnings. Leases are classified as operating leases if substantially all risks and rewards incidental to ownership are not transferred to the lessee. The lease payments are recognized as an expense on a straight-line basis over the lease term. Investment properties are held for capital appreciation and to earn rentals. They are not occupied by the owner for its ordinary activities. They are recognized at cost. Principal components except for land which is not depreciated are depreciated on a straight-line basis over their respective useful lives which vary from 20 to 50 years. The depreciation method and estimates of useful lives are reviewed annually. Investment properties Leases Fixed assets Investment in a joint venture Investment in an associate Assets held for sale Notes to consolidated financial statements September 27 2014 and September 28 2013 (Millions of dollars unless otherwise indicated) Buildings 20 to 50 years Equipment 3 to 20 years Leasehold improvements 5 to 20 years - 49 - | 0financial_reports
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Tablespaces 3. Make the new directory known to InnoDB . •If moving individual file-per-table or general tablespace files add unknown directories to the innodb_directories value. •The directories defined by the innodb_data_home_dir innodb_undo_directory and datadir variables are automatically appended to the innodb_directories argument value so you need not specify these. •A file-per-table tablespace file can only be moved to a directory with same name as the schema. For example if the actor table belongs to the sakila schema then the actor.ibd data file can only be moved to a directory named sakila . •General tablespace files cannot be moved to the data directory or a subdirectory of the data directory. •If moving system tablespace files undo tablespaces or the data directory update the innodb_data_home_dir innodb_undo_directory and datadir settings as necessary. 4. Restart the server. •Wildcard expressions cannot be used in the innodb_directories argument value. •The innodb_directories scan also traverses subdirectories of specified directories. Duplicate directories and subdirectories are discarded from the list of directories to be scanned. • innodb_directories supports moving InnoDB tablespace files. Moving files that belong to a storage engine other than InnoDB is not supported. This restriction also applies when moving the entire data directory. • innodb_directories supports renaming of tablespace files when moving files to a scanned directory. It also supports moving tablespaces files to other supported operating systems. •When moving tablespace files to a different operating system ensure that tablespace file names do not include prohibited characters or characters with a special meaning on the destination system. •When moving a data directory from a Windows operating system to a Linux operating system modify the binary log file paths in the binary log index file to use backward slashes instead of forward slashes. By default the binary log index file has the same base name as the binary log file with the extension ’ .index ’. The location of the binary log index file is defined by --log-bin . The default location is the data directory. •If moving tablespace files to a different operating system introduces cross-platform replication it is the database administrator’s responsibility to ensure proper replication of DDL statements that contain platform-specific directories. Statements that permit specifying directories include CREATE TABLE ... DATA DIRECTORY and CREATE TABLESPACE ... ADD DATAFILE . •Add the directories of file-per-table and general tablespaces created with an absolute path or in a location outside of the data directory to the innodb_directories setting. Otherwise InnoDB is not able to locate the files during recovery. For related information see Tablespace Discovery During Crash Recovery. To view tablespace file locations query the INFORMATION_SCHEMA.FILES table: mysql> SELECT TABLESPACE_NAME FILE_NAME FROM INFORMATION_SCHEMA.FILES \G 3069 Usage Notes | 3manuals
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hence limit the applicability of many methods. Also one could argue that the neglect of available infor- mation besides historic data is rather a short-coming than an advantage. A good overview of these issues is given in [1]. This paper is organized as follows. We start by ex- posing short-comings of the traditional approach in section 2. In section 3 we present our approach and discuss the interpretation of futures and risk. In sec- tion 4 we discuss the interpretation of Black-Scholes pricing in our context. In section 5 we present ap- plications of the probabilistic framework to pricing under an uncertain second moment (uncertain uncer- tainty) which naturally leads to an implied volatility skew derivative exposure and risk management. risk. Consider for example the standard log-normal case with where X is a “normally distributed random vari- able” $^{4}$. It is clear that d S becomes ‘increasingly de- terministic’ as σ goes to zero — for σ = 0 it just expresses the deterministic drift. Hence we want to argue that d S is really a mixture of a certain and uncertain component. As one cannot eliminate the dependence of the portfolio value change on the dif- ferent components of d S separately it is not possible to follow a hedging strategy which keeps the drift but eliminates the randomness. Now by eliminating d S one also discards the non- random drift term and the resulting hedging is gen- erally (except for a drift equal to the risk free rate) suboptimal. This is most easily illustrated in ex- treme (hypothetical) cases with huge (compared to the volatility) positive or negative drift. It appears as if it is often not understood what it really means to have a drift in the distribution. This is not just something observed in historical data but something we claim to know about the possibilities in the future. If we use a log-normal distribution with a 1000% drift rate and 10% volatility then we also say that it is practically impossible to observe a draw- down over the next year (and even to see a return of less than 900%) — and we claim to know this. Yet risk-neutral pricing tells us to ignore the knowl- edge of the extreme drift and to hedge as if there is a 50/50 chance of a draw-dawn (below the risk-free rate). Having a short put-delta position will lead us with near certainty to buy back the asset at higher prices. Figure 1 illustrates this. The x -axis shows the un- derlying asset value with x = 1 being the current spot price. The solid line in the upper graph is a log- normal distribution with an expected return equal to the risk-free rate (here 10%). The lower graph shows the corresponding Black-Scholes put-delta po- sition for a 110% strike. For this case it makes sense The standard approach to derivatives pricing based on stochastic models and risk-neutral measures (see appendix A for a short review) raises a number of issues. Firstly it does not allow for subjectivity as it assumes the existence of an objective “real distri- bution” and hence does not take into account that people have different information and believes $^{2}$. This effectively leads to the idea that there is a “correct” value for a derivative independently of its current trading price — it would possibly be “mispriced”. We think that this is misleading. Every market participant will assign a different value according to his state of knowledge and beliefs. If there are sell- ers and buyers with different subjective valuations it might result in trades. These in turn might re- sult in observed market prices. One should note that the market price then does not necessarily represent the subjective valuation of neither the buyer nor the seller $^{3}$. Secondly even if we assume this awkward “under- lying real distribution” we find it difficult to fol- low the risk-neutral hedging argument as the elim- inated term does not only contain uncertainty and $^{4}$It is questionable whether the concept of a random variable can be consistently defined [1]. One can argue that “random- ness” is a result of insufficient information about the state of the system. A random variable results then from uncontrolled (and hence unknown) initial conditions. 2 A good pricing theory should be able to value an asset even for an inside-trader. $^{3}$See appendix E. 2 d S = µS d t + σS d X (1) 2 The Traditional Approach and its Problems | 5scientific_articles
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0 10 20 30 40 50 60 70 0.0 0.2 0.4 0.6 0.8 N=4 N=8 N=12 N=16 Fig. 4 =10 G/G$_{0}$ ω $_{l}$= ε $_{d}$- ε F J 0 5 10 15 20 25 30 35 0.0 0.2 0.4 0.6 0.8 N=4 N=8 N=12 N=16 Fig. 4 =5 G/G$_{0}$ ω $_{l}$= ε $_{d}$- ε F J 0 3 6 9 12 15 18 21 0.0 0.2 0.4 0.6 0.8 N=4 N=8 N=12 N=16 Fig. 4 =3.33 G/G$_{0}$ ω $_{l}$= ε $_{d}$- ε F J 0 2 4 6 8 10 12 14 0.0 0.2 0.4 0.6 0.8 N=4 N=8 N=12 N=16 Fig. 4 =2 G/G$_{0}$ ω $_{l}$= ε $_{d}$- ε F J FIG. 5: Normalized conductance G/G 0 plotted versus J/ Γ for ξ = 10 5 3 . 33 2. All the curves were computed for the out-of-resonance situation | α − ε$_{F}$ | = Γ / 2 which corresponds to G/G 0 = 0 . 8 at J = 0. Notice that the smaller the ξ -value the stronger the size-dependence of thin curves computed from Eq. (24) and the larger the departure from the practically N -independent renormalized curves depicted by thin lines. ˆ G |$_{DFT}$ = ( ˆ G $_{−}$1 i |$_{DFT}$ − ˆ Σ 0 L − ˆ Σ 0 R ) − 1 of the extended molecule coupled to electrodes those approaches employ the bare self-energies ˆ Σ 0 L and ˆ Σ 0 $_{ R}$. Because the isolated extended molecule is modeled by an effective Kohn-Sham effective Hamiltonian the underlying picture is a one-particle picture and therefore the Landauer-type formulae (16) and (24) with ˆ G r replaced by ˆ G $^{r}$|$_{DFT}$ follow as “exact” results (i. e. without any other approximation as the DFT-approximation itself). We emphasize that Landauer-type expressions like those Eqs. (16) and (24) are not valid in general for correlated electron systems. As explained in Sect. II they represent justi- fied approximations in the correlated case only when sufficiently large extended molecules are considered. The advantage of the approach based on this concept is its clear physical content. Eqs. (16) and (24) hold for electron correlations that can be strong within the molecule but are negligible at the ends of a sufficiently large extended molecule. This is the reason we employed in the Dyson equation (14) the bare self-energies ˆ Σ 0 L and ˆ Σ 0 $_{ R}$ as in the NEGF-DFT approach. However at variance with the latter our approach accurately 18 | 5scientific_articles
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SIGNATURES Pursuant to the requirements of Section 13 or 15(d) of the Securities Exchange Act of 1934 the registrant has duly caused this report to be signed on its behalf by the undersigned thereunto duly authorized. W. R. BERKLEY CORPORATION By /s/ W. Robert Berkley Jr. W. Robert Berkley Jr. President and Chief Executive Officer February 22 2019 Pursuant to the requirements of the Securities Exchange Act of 1934 this report has been signed below by the following persons on behalf of the registrant and in the capacities and on the dates indicated. 113 Signature Title Date /s/ William R. Berkley Executive Chairman February 22 2019 William R. Berkley of the Board of Directors /s/ W. Robert Berkley Jr. President Chief Executive Officer February 22 2019 W. Robert Berkley Jr. and Director (Principal executive officer) /s/ Christopher L. Augostini Director February 22 2019 Christopher L. Augostini /s/ Ronald E. Blaylock Director February 22 2019 Ronald E. Blaylock /s/ Mark E. Brockbank Director February 22 2019 Mark E. Brockbank /s/ Mary C. Farrell Director February 22 2019 Mary C. Farrell /s/ María Luisa Ferré Director February 22 2019 María Luisa Ferré /s/ Jack H. Nusbaum Director February 22 2019 Jack H. Nusbaum /s/ Leigh A. Pusey Director February 22 2019 Leigh Ann Pusey /s/ Mark L. Shapiro Director February 22 2019 Mark L. Shapiro /s/ Richard M. Baio Senior Vice President February 22 2019 Richard M. Baio Chief Financial Officer and Treasurer (Principal financial officer and principal accounting officer) | 0financial_reports
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butions with means and covariance matrices characterized by (27-30). To complete the proof of Theorem 1 we need to establish the tightness of ln L ( h ; λ ) and ln L ( h ; µ ) viewed as random elements of the space C [ 0 h ] $^{r}$ as n p → ∞ so that p/n → c. Formulae (25-26) and the facts that S − p = O$_{p}$ (1) and that Δ$_{p}$ ( z$_{i}$$_{0}$ ) = O$_{p}$ (1) for i = 1 ... r where O$_{p}$ (1) are uniform in h ∈ ( 0 ¯ h ] $^{r}$ imply that for an arbitrarily small positive ε there must exist B > 0 such that Pr ( sup$_{h}$$_{∈}$ ( 0 ¯ h ] r | ln L ( h ; λ ) | > B ) < ε and Pr ( sup$_{h}$$_{∈}$ ( 0 ¯ h ] r | ln L ( h ; µ ) | > B ) < ε for sufficiently large n and p. Since as implied by Proposition 1 ln L ( h ; λ ) and ln L ( h ; µ ) are continuous functions on h ∈ [ 0 h ] $^{r}$ sup$_{h}$$_{∈}$ ( 0 ¯ h ] r | ln L ( h ; λ ) | = sup$_{h}$$_{∈}$ [ 0 ¯ h ] r | ln L ( h ; λ ) | and sup$_{h}$$_{∈}$ ( 0 ¯ h ] r | ln L ( h ; µ ) | = sup$_{h}$$_{∈}$ [ 0 ¯ h ] r | ln L ( h ; µ ) | so that the tightness of ln L ( h ; λ ) and ln L ( h ; µ ) follows. □ To save space we only derive the asymptotic power envelope for the relatively more difficult case of real-valued data and µ -based tests. According to the Neyman- Pearson lemma the most powerful test of the null h = 0 against a point alternative h = ( h$_{1}$ ... h$_{r}$ ) is the test which rejects the null when ln L ( h ; µ ) is larger than a critical value C. It follows from Theorem 1 that for such a test to have asymptotic size α C must be where Now according to Le Cam’s third lemma and Theorem 1 under h = ( h$_{1}$ ... h$_{r}$ ) ln L ( h ; µ ) d → N ( m ( h ) + W ( h ) W ( h )) . Therefore the asymptotic power β$_{µ}$ ( h ) m ( h ) = 1 2 r ∑ i j =1 ( ln ( 1 − h$_{i}$h$_{j}$ c ) + h$_{i}$h$_{j}$ c ) and W ( h ) = − r ∑ i j =1 ( ln ( 1 − h$_{i}$h$_{j}$ c ) + h$_{i}$h$_{j}$ c ) . C = √ W ( h )Φ − $^{1}$(1 − α ) + m ( h ) (63) Proof of theorem 2 37 | 5scientific_articles
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EXECUTIVE OFFICES Odyssey Re Holdings Corp. WORLDWIDE OFFICES Americas Division STAMFORD NEW YORK TORONTO EuroAsia Division PARIS SINGAPORE MEXICO CITY MIAMI SANTIAGO Odyssey America Reinsurance Corporation 300 First Stamford Place Stamford CT 06902 Tel. (203) 977-8000 Fax (203) 356-0196 Odyssey America Reinsurance Corporation 300 First Stamford Place Stamford CT 06902 Tel. (203) 977-8000 Fax (203) 356-0196 Odyssey America Reinsurance Corporation 22 Cortlandt Street 18th Floor New York NY 10007 Tel. (212) 978-2700 Fax (212) 978-2795 Odyssey America Reinsurance Corporation Insurgentes Sur No.1605 17th Floor Modulo III Col. San José Insurgentes Mexico D.F. 03900 Tel. (52) 55-5662-8660 Fax (52) 55-5662-6661 Odyssey America Reinsurance Corporation 15 Rue Du 4 Septembre 75002 Paris France Tel. (33) 1-49-26-1000 Fax (33) 1-42-96-3026 Odyssey America Reinsurance Corporation 9 Raffles Place #37-01 Republic Plaza Singapore 04 8619 Tel. (65) 6438-3806 Fax (65) 6438-3827 Odyssey America Reinsurance Corporation 55 University Avenue Suite 1600 Toronto Ontario M5J 2H7 Canada Tel. (416) 862-0162 Fax (416) 367-3248 Odyssey America Reinsurance Corporation Alcantara No. 44 Piso 10 Las Condes Santiago Chile C.P. 6760397 Tel. (56) 2-228-0211 Fax (56) 2-228-0215 Odyssey America Reinsurance Corporation 1200 Brickell Avenue Suite 1410 Miami FL 33131 Tel. (305) 577-4244 Fax (305) 577-9895 92 | 0financial_reports
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5 Total Strips 0 10 20 30 40 50 Events 3 10 20 40 60 Near Detector Data Monte Carlo Poor Reconstruction t (ns) −400 −200 0 200 400 Events 3 10 0 50 100 150 200 Near Detector Data Monte Carlo Poor Reconstruction FIG. 2: Section of the distribution of the number of strips with nonzero pulse-height per event after all other selec- tions are applied. The region displayed in which the contri- bution from poorly reconstructed events (hatched histogram) is significant corresponds to low strip counts and represents a small fraction of the total number of events. The event range accepted for the analysis is identified by the arrow. FIG. 1: The distribution of time separation between events Δ t for data (solid points) and Monte Carlo simulated data (solid histogram). A background component arising from poorly re- constructed events (hatched histogram) is confined to a nar- row region of low Δ t values. Events accepted for further anal- ysis are indicated by the arrows. region is less than 2 MIP $^{a}$. These veto criteria are applied to events with visible energy less than 5 GeV in which the number of planes assigned to the reconstructed shower is greater than the number of planes assigned to the re- constructed track as leakage events are reconstructed as low-energy showers without a clearly defined track. Leakage events are typically cosmic-ray muons causing steep showers with a high concentration of hit strips in a small number of detector planes. These events can be removed by selecting on this topological characteristic. Thus a requirement is placed on the ratio of the average number of active strips per plane to the total number of planes with active strips in the event represented more concisely as (active event strips)/(active event planes) $^{2}$. Only events for which the ratio is less than 1.0 are ac- cepted by the analysis. Incomplete events arise when the shower reconstruc- tion fails to assign all event-related strips to the shower. This type of reconstruction failure occurs if there are large gaps in a shower or if the shower is generally sparse. In a majority of these cases events have a very low num- ber of reconstructed strips. Figure 2 shows the distribu- tion of the number of strips for the events after applying the selection requirements. To minimize the number of incomplete events in the near-detector data sample an event is required to have total number of strips greater than four. Another type of leakage event is due to secondary par- ticles from interactions occurring outside of the fiducial volume. In the partially covered planes of the near- detector the steel is instrumented with scintillator to within 16 cm from the left-hand-side edges of the steel plate and 1.4 m from the right-hand-side edges as viewed from along the beam direction. Consequently secondary particles may enter the detector laterally due to the sparse instrumentation on the sides. For such cases the reconstruction algorithm is likely to fail in associating hits to events. Nevertheless the extra activity at the edges of the fully covered planes is recorded and can be used to veto events within a time window. The veto crite- rion uses the number of active strips and the pulse-height in the edge regions of the detector. An event is accepted if the number of active strips in the veto region recorded within a ± 40 ns window around the event vertex time is less than four and the pulse-height deposited in the veto In summary the selection criteria applied to the near- detector data are as follows: (i) the modulus of the time separation between events | Δ t | must exceed 40 ns; (ii) if 40 ns < | Δ t | < 120 ns the modulus of the spatial separation between events | Δ z | must exceed 1 m; (iii) the ratio (active event strips)/(active event planes) 2 must be less than unity; (iv) for events with less than 5 GeV of reconstructed energy in which the number of planes is larger in the reconstructed shower than in the recon- a Minimum ionizing particle equivalent to the response produced by a 1 GeV muon traversing a detector plane at normal incidence. | 5scientific_articles
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to our stockholders March 2002 EMCOR ANNUAL REPORT 2001 1 For the past seven years I have been reporting to you about the progress and the profitability of your Company and each year it has been my pleasure to report increased earnings and enhanced prospects for future success. 2001 was no different in a sense; EMCOR set all-time records in all aspects of profitability and diluted earnings per share and the public market’s approval of our progress was reflected in the 78% increase in our share price during the course of the year. What was different and notable about 2001 was that these results were accomplished during a recession in markets that were also affected by the attacks of September 11. Notwithstanding The Dynamic nature of our group of companies is illustrated every day in our responses to the changing demands and expectations of our customers and markets worldwide. EMCOR companies are constantly in touch with the owners and end-users of the facilities we construct and maintain anticipating their needs and these challenges we entered 2002 with almost $2.4 billion of high-quality construction and facilities services contracts in hand the highest backlog level in our history and an important indicator of future success. Our continued progress despite changing circumstances led to our theme for this year’s Annual Report: Dynamic Diverse Enduring. DYNAMIC DIVERSE ENDURING | 0financial_reports
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Ein Service des Bundesministeriums der Justiz und für Verbraucherschutz sowie des Bundesamts für Justiz ‒ www.gesetze-im-internet.de pk = Packungsgröße in der jeweils für das Arzneimittel geltenden Einheit a = Multiplikationsfaktor als Ergebnis der Regressionsanalyse b = Exponent des Wirkstärkenvergleichsfaktors als Ergebnis der Regressionsanalyse c = Exponent der Packungsgröße als Ergebnis der Regressionsanalyse Festbetragsgruppe: (§ 35a Abs. 3 Satz 1 Nr. 3 SGB V) Kombinationen von Hydrochlorothiazid mit ACE-Hemmern Gruppenbeschreibung Standardpackung Wirkstoffe Vergleichsfaktoren (Vf) Wirkstärkenvergleichsfaktor (wvf) 1 4 Packungsgröße (pk) 100 Stück Benazepril 10 mg + Hydrochlorothiazid 12 5 mg 10 65 Festbetrag 71 42 Euro Benazepril 20 mg + Hydrochlorothiazid 25 mg 10 65 Captopril 25 mg + Hydrochlorothiazid 12 5 mg 41 78 Captopril 25 mg + Hydrochlorothiazid 25 mg 35 78 Captopril 50 mg + Hydrochlorothiazid 25 mg 41 78 Cilazapril 5 mg + Hydrochlorothiazid 12 5 mg 8 28 Enalapril 10 mg + Hydrochlorothiazid 25 mg 17 5 Lisinopril 10 mg + Hydrochlorothiazid 12 5 mg 16 79 Lisinopril 20 mg + Hydrochlorothiazid 12 5 mg 14 9 Quinapril 10 mg + Hydrochlorothiazid 12 5 mg 21 19 Quinapril 20 mg + Hydrochlorothiazid 12 5 mg 20 02 Quinapril 20 mg + Hydrochlorothiazid 25 mg 21 19 Ramipril 2 5 mg + Hydrochlorothiazid 12 5 mg 11 48 Ramipril 5 mg + Hydrochlorothiazid 25 mg 11 48 Regressionsgleichung orale Darreichungsformen Tabletten Filmtabletten p = 0 012512592 x wvf(hoch)0 204579 x pk(hoch)0 936379 - Seite 3 von 3 - | 2laws_and_regulations
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[05] 12/22/18 T(9192) _VMR 16:25:51.220948 DEBUG needAttn.C[1566]: START handleVIOResponse scan [ 39 ]. Inside the doNeedAttn call we recognize a krest HMC REST API job request pattern which is handled by kriSubmitNeedAttn and krigetJobResult() calls. This pattern is similar to the case covered in “QuickQuery asynchronous job example” on page 105 so we do not need to get into details. The NA request as it is delivered at the VIOS level together with its corresponding response obtained from the HSDB are shown in Example 2-233. Example 2-233 NeedsAttention request and response in the vioservice log # alog -f /home/ios/logs/viosvc.log -o > viosvc.log.NAshortMsg.txt # more viosvc.log.NAshortMsg.txt ... START 12058942 62259487 12/22/18-15:20:45.144 vioservice.c 1.18 320] /usr/ios/sbin/vioservice lib/libviopass/passthru [0 12058942 62259487 12/22/18-15:20:45.145 viosvc_res.c 1.26 456] stdin pipe input:[<?xml version="1.0"?> <VIO xmlns="http://ausgsa.austin.ibm.com/projects/v/vios/schema/vioHADR2.00" version="2.00" author="LIBKREST" title="Req Needs Attention"> <Request action_str="VIO_HS_NEEDS_ATTENTION" dataType="GLOBAL_DATA"/> </VIO> ] [0 12058942 62259487 12/22/18-15:20:45.240 viosvc_res.c 1.26 464] vio_response.result=[<VIO><Response> <needsAtt hsTag="-3026381694404356594"> <vmStatList> <vmList machine_type="8286" model="42A" serial="21E0B2V"> <vmStat uuid="4e395e99-fffb-4345-8067-2d5296ba7d91"><VM state="STARTED" shortMsg="0x28" > </VM> </vmStat> </vmList> </vmStatList> </needsAtt> <needsAtt hsTag="-3026381694404356594"> <vmStatList> <vmList machine_type="8286" model="42A" serial="2100DEW"> </vmList> </vmStatList> </needsAtt> </Response></VIO> ] [END 12058942 62259487 12/22/18-15:20:45.241 vioservice.c 1.18 323] exited with rc=0 Chapter 2. IBM VM Recovery Manager High Availability components 259 | 3manuals
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PLAYERS SECTION IV - WITHDRAWALS AND RETIREMENTS receive a medical examination from the Tournament Physician and PHCP at the Current Tournament and submit her medical examination to the Tournament Physician and PHCP at the Following Week Tournament. To be eligible to compete in the Following Week Tournament the player must receive a medical examination by the Tournament Physician and PHCP at the Following Week Tournament. A player will automatically be withdrawn from a Following Week Tournament if: a. She has withdrawn or retired from a draw in the Current Tournament without cause or for unprofessional reasons; b. She fails to provide proof of medical examination by submitting a signed WTA Medical Information Form from the Tournament Physician and PHCP at the Current Tournament to the Tournament Physician and PHCP at the Following Week Tournament; c. She fails to receive a medical examination from the Tournament Physician and PHCP at the Following Week Tournament; or d. Her next match in the Current Tournament is scheduled on the same day as or later than her first match in the Following Week Tournament. a. A player who withdraws or retires from singles can play doubles as long as her doubles match has not been scheduled and called on the same day as her singles withdrawal or retirement. Any player who is discovered to have contravened this Rule shall not receive ranking points for the Following Week Tournament and will be subject to a fine as permitted under these Rules. This Rule does not apply to a player whose partner in doubles has been forced to withdraw or retire from their match. 2. Matches Scheduled Same Day 3. Withdrawal of Seeds 4. Prize Money and Ranking Points b. If a player has both singles and doubles matches scheduled on the same day she can withdraw from doubles before playing her singles match. See Section V.A.6.d – Withdrawal of a Seed. See Section VIII.B.3 – Withdrawals Byes Walkovers and Defaults. 55 | 3manuals
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Deploying Group Replication in Single-Primary Mode mysql> FLUSH PRIVILEGES; mysql> SET SQL_LOG_BIN=1; INSTALL PLUGIN group_replication SONAME ’group_replication.so’; mysql> CHANGE MASTER TO MASTER_USER=’ rpl_user ’ MASTER_PASSWORD=’ password ’ \\ FOR CHANNEL ’group_replication_recovery’; Or from MySQL 8.0.23: mysql> CHANGE REPLICATION SOURCE TO SOURCE_USER=’ rpl_user ’ SOURCE_PASSWORD=’ password ’ \\ FOR CHANNEL ’group_replication_recovery’; 4. If you disabled binary logging enable it again as soon as you have created the user by issuing the following statement: 5. When you have created the replication user you must supply the user credentials to the server for use with distributed recovery. You can do this by setting the user credentials as the credentials for the group_replication_recovery channel using a CHANGE REPLICATION SOURCE TO statement (from MySQL 8.0.23) or CHANGE MASTER TO statement (before MySQL 8.0.23). Alternatively from MySQL 8.0.21 you can specify the user credentials for distributed recovery on the START GROUP_REPLICATION statement. •User credentials set using CHANGE REPLICATION SOURCE TO | CHANGE MASTER TO are stored in plain text in the replication metadata repositories on the server. They are applied whenever Group Replication is started including automatic starts if the group_replication_start_on_boot system variable is set to ON . •User credentials specified on START GROUP_REPLICATION are saved in memory only and are removed by a STOP GROUP_REPLICATION statement or server shutdown. You must issue a START GROUP_REPLICATION statement to provide the credentials again so you cannot start Group Replication automatically with these credentials. This method of specifying the user credentials helps to secure the Group Replication servers against unauthorized access. For more information on the security implications of each method of providing the user credentials see Providing Replication User Credentials Securely. If you choose to provide the user credentials using a CHANGE REPLICATION SOURCE TO | CHANGE MASTER TO statement issue the following statement on the server instance now replacing rpl_user and password with the values used when creating the user: Once server s1 has been configured and started install the Group Replication plugin. If you used plugin_load_add=’group_replication.so’ in the option file then the Group Replication plugin is installed and you can proceed to the next step. In the event that you decide to install the plugin manually connect to the server and issue the following: 18.2.1.4 Launching Group Replication Important The mysql.session user must exist before you can load Group Replication. mysql.session was added in MySQL version 8.0.2. If your data dictionary was initialized using an earlier version you must perform the MySQL upgrade procedure (see Section 2.11 “Upgrading MySQL” ). If the upgrade is not run Group Replication fails to start with the error message There was an error when trying to access the server with user: mysql.session@localhost. Make sure the user is present in the server and that mysql_upgrade was ran after a server update. . 3708 | 3manuals
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6.5.3 Understanding the Trends view In the Trends view (Figure 6-14) the frequency of the selected time period is shown as a bar chart. It is scaled accordingly from 0 to the maximum frequency count along the vertical y-axis on the left side. On the right side of the y-axis is a scale that represents the increase indicator. The increase indicator also known as trend index is a scale to measure the increase ratio of the frequency for a given time interval as compared to the expected average frequency that is calculated based on the changes in the past time interval frequencies. This expected change in frequency is estimated by using a modified Poisson distribution. The increase indicator is shown as a blue line graph in the chart as shown in Figure 6-14. The bar chart is in color (to highlight) whether the increase indicator is higher than what was expected within reasonable limits. This result means that the actual value is greater than the estimated value by a certain amount. Figure 6-14 shows a brighter orange color for December 2008. As you can see from the blue line in the graph the increase indicator shows a sudden jump which means that you might want to conduct additional investigation and analysis for that time period. Figure 6-14 Trends view: Pine juice with frequency count and increase indicator 180 IBM Watson Content Analytics: Discovering Actionable Insight from Your Content Frequency count Increase indicator | 3manuals
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MongoDB Documentation Release 3.0.4 Step 3: Stop MongoDB. As needed you can stop the mongod process by issuing the following command: sudo service mongod stop Step 4: Restart MongoDB. You can restart the mongod process by issuing the following command: sudo service mongod restart You can follow the state of the process for errors or important messages by watching the output in the /var/log/mongodb/mongod.log file. Step 5: Begin using MongoDB. To help you start using MongoDB MongoDB provides Getting Started Guides in various driver editions. See getting-started for the available editions. Before deploying MongoDB in a production environment consider the Production Notes (page 197) document. Later to stop MongoDB press Control+C in the terminal where the mongod instance is running. To completely remove MongoDB from a system you must remove the MongoDB applications themselves the con- figuration files and any directories containing data and logs. The following section guides you through the necessary steps. Warning: This process will completely remove MongoDB its configuration and all databases. This process is not reversible so ensure that all of your configuration and data is backed up before proceeding. Step 1: Stop MongoDB. Stop the mongod process by issuing the following command: sudo service mongod stop Step 2: Remove Packages. Remove any MongoDB packages that you had previously installed. sudo yum erase $( rpm -qa | grep mongodb-enterprise ) Step 3: Remove Data Directories. Remove MongoDB databases and log files. sudo rm -r /var/log/mongodb sudo rm -r /var/lib/mongo Use this tutorial to install MongoDB Enterprise 18 on LTS Ubuntu Linux systems from .deb packages. Platform Support Overview Install MongoDB Enterprise on Ubuntu 37 2.3. Installation Guides $^{18}$https://www.mongodb.com/products/mongodb-enterprise-advanced?jmp=docs Uninstall MongoDB | 3manuals
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management ’ s discussion and analysis of financial condition and results of operations The Company generated net income of $25.6 million (or $1.91 basic earnings per share and $1.65 diluted earnings per share) in 2004 as compared to $10.1 mil- lion (or $0.79 basic earnings per share and $0.70 diluted earnings per share) for 2003. This 153% increase is due primarily to the 35.6% sales increase at gross profit margins of 32.7% compared to gross profit margins of 26.7% in 2003. Net sales for 2003 increased $21.1 million to $136.9 mil- lion from $115.8 million for 2002. The 18.2% increase was due primarily to a 19.5% increase in units sold as a result of increased demand for the Company’s prod- ucts as well as a more favorable pricing environment compared to 2002. In 2003 ASPs for discrete products increased 4% while ASPs for wafers fell 7%; conse- quently overall ASPs decreased 1%. Gross profit for 2003 increased 36.8% to $36.5 million from $26.7 million for 2002. Of the $9.8 million increase $5.0 million was due to the increase in gross profit margin from 23.1% in 2002 to 26.7% in 2003 while $4.8 million was due to the 18.2% increase in net sales. Gross profit increases in Asia were the primary contributor to the gross profit increase in 2003. Gross profit margin in the fourth quarter of 2003 increased to 29.5% due to increased capacity utilization continuing manufactur- ing efficiencies relatively stable pricing and a product mix that continues to shift towards higher-value perfor- mance discretes and arrays. For 2003 SG&A increased $3.4 million to $19.6 mil- lion from $16.2 million for 2002. The 20.7% increase in SG&A was due primarily to higher sales commis- sions associated with the 18.2% increase in sales and higher labor benefits expenses. Also contributing to the increased SG&A were higher corporate and adminis- trative expenses including legal and accounting fees associated with Sarbanes-Oxley compliance. SG&A as a percentage of sales increased to 14.3% for 2003 from 14.0% in 2002. The effective tax rate in 2003 was 18.9% compared to 22.0% in 2002 due primarily to a higher proportion of income earned by our Asian subsidiaries in lower tax ju- risdictions. The Company is benefiting from its Diodes- Hong Kong subsidiary established in 2002 not only due to its lower tax rates but also as another entry point into the Asia market. The Company recorded a provision for income taxes in the amount of $2.5 million for the year 2003 compared to $1.7 million for 2002. Included in the tax provision in 2003 is $840 000 in deferred taxes recorded for a portion of the 2003 earnings at Diodes- China and $200 000 for a portion of the 2003 earnings at Diodes-Hong Kong. Other expense for 2003 increased $72 000 compared to last year primarily due to the discontinuance of income Diodes-FabTech was receiving from an external company’s use of its testing facilities in 2002 a decrease in high-technology grant income received at Diodes- China in 2003 and currency exchange losses primarily in Asia in 2003 partly offset by a severance payment in accordance with the terms of a separation agreement in 2002 as well as the reduction in the expense recorded for the management incentive agreement at Diodes- FabTech in 2003. Net interest expense for 2003 decreased $323 000 to $860 000 from $1.2 million in 2002 due primarily to a decrease in the use of the Company’s credit facilities as well as lower interest rates. In 2003 the Company paid down $5.8 million on its long-term debt reducing the balance net of current portion from $12.6 million to $6.8 million. In 2003 operating profit margins were negatively affected by a $1.0 million reserve for fixed asset impair- ment primarily as a result of the re-engineering of our wafer production lines. During the year we took advantage of opportunities to purchase more efficient equipment at discounts. As a result we retired un-depreciated equipment that was replaced. R&D expenses increased to $2.0 million or 1.5% of sales in 2003 from $1.5 million or 1.3% of sales in 2002. R&D expenses are primarily related to new product development at the silicon wafer level and to a lesser extent at the packaging level. Year 2003 Compared to Year 2002 22 Diodes Incorporated and Subsidiaries | 0financial_reports
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Figure 3-36. The air that passes through the inner part of the fan blades becomes the primary airstream. Figure 3-34. A typical turbofan intake section. Figure 3-37. Air from the fan exhaust can be discharged overboard through short ducts directly behind the fan. Figure 3-35. Rubber stripping inside a turbofan engine inlet allows for friction for short periods of time during changes in the flightpath. 3-22 F a n d i s c h a r g e The reciprocating engine exhaust system is fundamentally a scavenging system that collects and disposes of the high temperature noxious gases being discharged by the engine. Its main function is to dispose of the gases with complete safety to the airframe and the occupants of the aircraft. The exhaust system can perform many useful functions but its first duty is to provide protection against the potentially destructive action of the exhaust gases. Modern exhaust The air from the fan exhaust which is ducted overboard may be discharged in either of two ways: The fan on high-bypass engines consists of one stage of rotating blades and stationary vanes that can range in diameter from less than 84 inches to more than 112 inches. [Figure 3-36] The fan blades are either hollow titanium or composite materials. The air accelerated by the outer part of the fan blades forms a secondary airstream which is ducted overboard without passing through the main engine. This secondary air (fan flow) produces 80 percent of the thrust in high-bypass engines. The air that passes through the inner part of the fan blades becomes the primary airstream (core flow) through the engine itself. [Figure 3-36] as mentioned earlier. Inside the inlet by the fan blade tips is an abraidable rub strip that allows the fan blades to rub for short times due to flightpath changes. [Figure 3-35] Also inside the inlet are sound-reducing materials to lower the noise generated by the fan. 1. To the outside air through short ducts (dual exhaust nozzles) directly behind the fan. [Figure 3-37] 2. Ducted fan which uses closed ducts all the way to the rear of the engine where it is exhausted to the outside air through a mixed exhaust nozzle. This type engine is called a ducted fan and the core airflow and fan airflow mix in a common exhaust nozzle. Reciprocating Engine Exhaust Systems | 2laws_and_regulations
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Tablespaces • INNODB_FT_CONFIG • INNODB_FT_INDEX_TABLE • INNODB_FT_INDEX_CACHE • INNODB_FT_DEFAULT_STOPWORD • INNODB_FT_DELETED • INNODB_FT_BEING_DELETED You can also view basic information for full-text indexes and tables by querying INNODB_INDEXES and INNODB_TABLES . For more information see Section 15.15.4 “InnoDB INFORMATION_SCHEMA FULLTEXT Index Tables” . This section covers topics related to InnoDB tablespaces. The system tablespace is the storage area for the change buffer. It may also contain table and index data if tables are created in the system tablespace rather than file-per-table or general tablespaces. In previous MySQL versions the system tablespace contained the InnoDB data dictionary. In MySQL 8.0 InnoDB stores metadata in the MySQL data dictionary. See Chapter 14 MySQL Data Dictionary . In previous MySQL releases the system tablespace also contained the doublewrite buffer storage area. This storage area resides in separate doublewrite files as of MySQL 8.0.20. See Section 15.6.4 “Doublewrite Buffer” . The system tablespace can have one or more data files. By default a single system tablespace data file named ibdata1 is created in the data directory. The size and number of system tablespace data files is defined by the innodb_data_file_path startup option. For configuration information see System Tablespace Data File Configuration. Additional information about the system tablespace is provided under the following topics in the section: •Resizing the System Tablespace •Using Raw Disk Partitions for the System Tablespace Resizing the System Tablespace Increasing the Size of the System Tablespace 15.6.3.1 The System Tablespace 15.6.3 Tablespaces This section describes how to increase or decrease the size of the system tablespace. The easiest way to increase the size of the system tablespace is to configure it to be auto-extending. To do so specify the autoextend attribute for the last data file in the innodb_data_file_path setting and restart the server. For example: When the autoextend attribute is specified the data file automatically increases in size by 8MB increments as space is required. The innodb_autoextend_increment variable controls the increment size. innodb_data_file_path=ibdata1:10M:autoextend 3049 | 3manuals
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Table of Contents to reimburse us for damages we may incur. Further a significant breach of federal state provincial local or international privacy laws could have a material adverse effect on our reputation financial position results of operations and cash flows. We are heavily dependent upon our information technology systems to record and process transactions and manage and operate all aspects of our business ranging from product design and testing production forecasting ordering transportation sales and distribution invoicing and accounts receivable management quick response replenishment point of sale support to financial management reporting functions. In addition we have multiple e-commerce websites. Given the nature of our business and the significant number of transactions in which we engage on an annual basis it is essential that we maintain constant operation of our information technology systems and websites and that these systems and our websites operate effectively. We depend on our in-house information technology employees and third-parties including “cloud” service providers to maintain and periodically update and/or upgrade these systems and our websites to support the growth of our business. Despite our preventative efforts our information technology systems and websites may from time to time be vulnerable to damage or interruption from events such as difficulties in replacing or integrating the systems of acquired businesses computer viruses security breaches and power outages. Cybersecurity attacks are becoming increasingly sophisticated and can include malicious software and ransomware electronic security breaches and corruption of data. We are continually evaluating improving and upgrading our information technology systems and websites in an effort to address these concerns. Our failure to identify and address potential problems or interruptions could result in loss of valuable business data our customers' or employees' personal information disruption of our operations and other adverse impacts to our business and require significant expenditures by us to remediate any such failure problem or breach. Increased operating costs including those resulting from potential increases in the minimum wage or wage increases reflecting competition in relevant labor markets store occupancy costs distribution center costs and other expense items including healthcare costs may reduce our operating margin by making it more difficult to identify new store locations that we believe will meet our investment return requirements and slow our ability to open stores. In addition other employment and healthcare law changes may increase the cost of provided retirement and healthcare benefits expenses. Increases in the Company’s overall employment costs could have a material adverse effect on the Company’s business results of operations and financial and competitive position. Our performance depends largely on the efforts and abilities of members of our management team. Our executives have substantial experience and expertise in our business and have made significant contributions to our growth and success. The unexpected future loss of services of one or more key members of our management team could have an adverse effect on our business. In addition future performance will depend upon our ability to attract retain and motivate qualified employees including store personnel and field management. If we are unable to do so our ability to meet our operating goals may be compromised. Finally our stores are decentralized are managed through a network of geographically dispersed management personnel and historically experience a high degree of turnover. If we are for any reason unable to maintain appropriate controls on store operations due to turnover or other reasons including the ability to control losses resulting from inventory and cash shrinkage our sales and operating margins may be adversely affected. There can be no assurance that we will be able to attract and retain the personnel we need in the future. Each of our divisions uses a single distribution center to handle all or a significant amount of its merchandise. Most of our operations’ inventory is shipped directly from suppliers to our operations' distribution centers where the inventory is then processed sorted and shipped to our stores or to our wholesale customers. We depend on the orderly operation of this receiving and distribution process which depends in turn on adherence to shipping schedules and effective management of the distribution centers. Although we believe that our receiving and distribution process is efficient and well positioned to support our current business and our expansion plans we cannot offer assurance that we have anticipated all of the changing demands that our expanding operations will impose on our receiving and distribution system or that events beyond our control such as disruptions in operations due to fire or other catastrophic events labor disagreements or shipping 14 The loss of or disruption in one of our distribution centers and other factors affecting the distribution of merchandise including freight cost could have a material adverse effect on our business and operations. If we lose key members of management or are unable to attract and retain the talent required for our business our operating results could suffer. Increased operating costs including those resulting from potential increases in the minimum wage could have an adverse effect on our results. Operational Supply Chain and Third Party Risks A disruption of information technology systems and websites could materially adversely affect other business. | 0financial_reports
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Financial Services At Target Financial Services we are driven by dual objectives: (1) to build retail sales by deepening our relationships with our guests and (2) to sustain outstanding profitability and growth in delivering financial services to our guests. o achieve these joint objectives weGLYPH<213>re offering our guests more reasons to shop our stores GLYPH<209> like loyalty programs that speak to what matters most in their lives and financial product innovations that make shopping and saving easier than ever before. We strive to fully integrate our efforts into a unified guest experience while operating with the discipline expertise and strategy of a stand-alone financial services business. T Since our credit card operations were consolidated in 1995 our business decisions and growth have been guided by four core operating principles. The first principle is that we drive our growth through value-added programs not through aggressive credit decisions. Our various Rewards programs for example give guests compelling reasons to use our cards rather than other general purpose credit or debit cards. Our second principle is that we exercise strong financial controls in the management of our business. We never compromise our underwriting standards for short-term Similar to our focus in other areas of the company our financial products and services are designed to profitably increase shopping frequency and average transaction amount while reinforcing and enhancing our brand identity. Our fourth and final guiding principle is our commit- ment to building a superior organization by attracting and retaining talented and dedicated team members. The majority of our financial services management has significant prior experience at other leading financial institutions. Our third principle is to make strategic investments particularly in state-of-the-art technology that will contribute to increased efficiency and performance. Investments in recent years have enabled us to mean- ingfully reduce our operating expense rates and achieve levels of guest service that are among the best in the credit card industry. gain or growth. This discipline ensures that we are able to sustain our profitability as we grow our portfolio over the long-term. More Great Reasons to Shop at Target Adhering to Core Principles 10 Target Visa During 2003 we enjoyed continued success in the growth and performance of the Target Visa card reflecting our guestsGLYPH<213> strong positive bond with our brand. As of year-end the Target Visa portfolio included more than four billion dollars in accounts receivable and over nine million cards issued and represented a substantial portion of the annual increase in our credit card operationGLYPH<213>s profit contribution. | 0financial_reports
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Magnetic compass. A device for determining direction measured from magnetic north. Magneto. A self-contained engine-driven unit that supplies electrical current to the spark plugs completely independent of the airplane’s electrical system. Normally there are two magnetos per engine. Make/model. Refers to the manufacturer and model of a specific aircraft. Maneuvering altitude. An altitude above the ground that allows a sufficient margin of height to permit safe maneuvering. Maneuvering speed (V$_{A}$). The maximum speed at which full abrupt control movement can be used without overstressing the airframe. Maneuverability. Ability of an aircraft to change directions along a flightpath and withstand the stresses imposed upon it. Mast. The carriage structural component that is attached to the rear of the carriage keel and the top of the front tube. The top is the carriage attachment the wing. Maximum gross weight. The maximum authorized weight of the aircraft and all of its equipment as specified in the POH/AFM/AOI for the aircraft. Maximum structure cruising speed (V$_{NO}$). The speed not to exceed except in smooth air; the upper limit of the green arc. Mean aerodynamic chord (MAC). The average distance from the leading edge to the trailing edge of the wing. Mean sea level (MSL). The average height of the surface of the sea for all stages of tide. A number preceding MSL indicates altitude in feet above mean sea level. Mechanical Turbulence. Type of turbulence caused by obstructions on the ground interfering with smooth flow of the wind. Trees buildings and terrain can all cause mechanical turbulence. Medical certificate. Acceptable evidence of physical fitness on a form prescribed by the Administrator. Medium-banked turn. Turn resulting from a degree of bank (approximately 20 to 45 degrees) at which the WSC remains at a constant bank. METAR. See Aviation Routine Weather Report. Microburts. A strong downdraft which normally occurs over horizontal distances of 1 NM or less and vertical distances of less than 1 000 feet. In spite of its small horizontal scale an intense microburst could induce windspeeds greater than 100 knots and downdrafts as strong as 6 000 feet per minute. Military Operations Area (MOA). Airspace of defined vertical and lateral limits established for the purpose of separating certain military training activity from IFR traffic. Military Training Routes (MTR). Special routes developed to allow the military to conduct low-altitude high-speed training. Minimum controllable airspeed. An airspeed at which any further increase in angle of attack increase in load factor or reduction in power would result in an immediate stall. Minimum drag speed (L/D$_{MAX}$). The point on the total drag curve where the lift-to-drag ratio is the greatest. At this speed total drag is minimized. Mindset. A factor in aeronautical decision making where decision making is influenced by preconceived ideas about the outcome of events. For example an expectation of improving weather conditions can lead to increased risk during a flight. Mixture. The ratio of fuel to air entering the engine’s cylinders. MOA. See Military operations Area. Mode C transponder. A receiver/transmitter which will generate a radar reply signal upon proper interrogation; the interrogation and reply being on different frequencies. Mode C means the reply signal includes altitude information. Moment. A force that causes or tries to cause an object to rotate. The product of the weight of an item multiplied by its arm. Moments are expressed in pound-inches (lb-in). Total moment is the weight of the PPC multiplied by the distance between the datum and the CG. Moment arm. The distance from a datum to the applied force. MSL. See mean sea level. G-11 | 2laws_and_regulations
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68 US 7 410 747 B2 67 10. The positive resist composition as claimed in claim 1 which further comprises a surfactant. 11. The positive resist composition as claimed in claim 1 wherein the compound (B) includes (Bl) a compound of generating an organic sulfonic acid under the action of actinic rays or radiation. 12. The positive resist composition as claimed in claim 11 which further comprises (B2) a compound of generating a carboxylic acid under the action of actinic rays or radiation. 13. The positive resist composition as claimed in claim 1 which further comprises a solvent. 14. The positive resist composition as claimed in claim 13 wherein the solvent includes a propylene glycol monomethyl ether acetate. 15. The positive resist composition as claimed in claim 14 wherein the solvent further includes a propylene glycol monomethyl ether. 16. The positive resist composition as claimed in claim 1 wherein the actinic rays or radiation is selected from the group consisting of electron beam X-ray or EUV. 17. A pattern forming method comprising forming a resist film by using the positive resist composition claimed in claim 18.A positive resist composition comprising: (A) a resin of which solubility in an alkali developer increases under the action of an acid the resin containing a repeating unit repre› sented by formula (I) and a repeating unit represented by formula (Ile); and (B) a compound capable of generating an acid upon irradiation with actinic rays or radiation: 1; and exposing and developing said resist film. wherein R$_{1 }$ represents a hydrogen atom a methyl group a cyano group a halogen atom or a perfluoro group R$_{2 }$ represents a non-acid-decomposable group which con› tains an oxygen atom and when n represents an integer of2 to 4 a plurality ofR$_{2}$s may be the same or different X represents a hydrogen atom or an organic group and when m represents an integer of2 to 4 a plurality ofXs may be the same or different m represents an integer of 1 to 4 and n represents an integer ofl to 4 provided that 2~n+m~5; wherein formula (Ile) has the following structure: R$_{3 }$ to R$_{5 }$ each independently represents a hydrogen atom a fluorine atom a chlorine atom a cyano group or an alkyl group and X$_{1 }$represents a hydrogen atom or an organic group. 8. The positive resist composition as claimed in claim 1 wherein at least one ofX in formula (I) contains an alicyclic structure and an aromatic ring structure or both an alicyclic structure and an aromatic ring structure. 9. The positive resist composition as claimed in claim wherein the non-acid-decomposable group represented by R$_{2 }$ in formula (I) is an alkoxy group. wherein RII_$_{2 }$ represents an alkyl group a cycloalkyl group a halogen atom an aryl group an aralkyl group an alkoxy group or an wherein RII- 2 each independently represents an alkyl group a cycloalkyl group a halogen atom an aryl group an aralkyl group an alkoxy group or an acyloxy group and said alkyl group and said aralkyl group each may have an intervening linking group represented by-O- -S- --CO$_{2}$- --CO- -SO 2 - or -SO- and when s" represents an integer of2 to 4 a plurality ofRII_$_{2}$s may be the same or difference and a plurality of RII- $_{2}$s may combine with each other to form a ring structure X $^{1 }$and X$^{2 }$each independently represents a hydrogen atom or an organic group v represents 0 or 1 and s" represents an integer of0 to 4. 7. The positive resist composition as claimed in claim 1 wherein the resin (A) further contains a repeating unit repre- sented by formula (III): wherein OMO (Ila!) +- ~ Q CH2 v (R11-2) •-- 0X1 (Ile!) 0 (I) (III) R3 Rs I I ----t c-q- I I Ri C02-X1 | 4patents
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FIG. 5: Motion of tagged particle in a box is shown for N = 1 10 70. Simulation results (squares) are taken from [25] (see text). At short time simulations exhibit normal dif- fusion 〈 ( x$_{T}$ ) $^{2}$〉 = 2 Dt as illustrated by the straight dashed line which is a guide to the eye. Our theory is expected to work well in the large N limit and when many collision events between tagged particle and surrounding Brownian particles took place. Hence agreement between theory (solid line) and simulation is reasonable at most only for N = 70 and not for too short times. FIG. 6: Scaled mean square displacement of the tagged par- ticle with Gaussian initial conditions of the packet of particles exhibits a transition between short time 〈 ( x$_{T}$ ) $^{2}$〉 ∝ t 1 / 2 law to 〈 ( x$_{T}$ ) $^{2}$〉 ∝ t behavior. Dashed lines are short and long time asymptotic behavior Eq. (60) circles represent Eq. (59). g ( x x$_{0}$ t ) = 1 √ 2 πDτ ( 1 − e − 2 t/τ ) exp [ − ( x − x$_{0}$e − $^{t/τ}$) 2 2 Dτ ( 1 − e − 2 t/τ ) ] (61) Consider particles in a harmonic potential V ( x ) = mω $^{2}$x$^{2}$/ 2 where ω > 0 is the harmonic frequency. The single particle undergoes an Ornstein Uhlenbeck process [38] and the corresponding single particle Green function is For short times the particles do not have time to disperse; hence the motion of the tagged particle is slower than normal increasing as t 1 / 2 which is similar to the single file diffusion with a uniform density Eq. (50). Roughly speaking for short times the tagged particle sees a uni- form density of particles with ρ = N/ξ . For long times we recover the behavior in Eq. (27) since the scale of diffusion is much larger than ξ . Hence if we start with a Gaussian or delta function packet we get in the long time limit similar behavior as we showed. C. Particles in Harmonic Oscillator This solution is shown in Fig. 6 with its two limiting behaviors Inserting Eqs. (57 58) in Eq. (37) we find For short times √$_{Dt}$ ≪ ξ we have R ∼ 1 − √$_{2}$$_{Dt}$ πξ namely most particles did not have time to cross the origin while $^{in the opposite limit lim$_{t}$}$→∞ R = 1 / 2 due to the sym- metry of initial conditions. The calculation of r Eq. (34) using Eqs. (23 54) is straightforward where Erf(˜ x$_{0}$$_{/}$√$_{2)}$$_{/}$$_{2 =}$ ∫ ˜ x$_{0}$ 0 e − y $^{2}$/ $^{2}$d $_{y/}$√$_{2}$$_{π}$ is the error function [42]. Mathematica solves the integral in Eq. (56) and we find Changing variables according to y $^{2}$/ 2 = ( x − x$_{0}$ ) $^{2}$/ 4 Dt and using dimensionless parameter ˜ ξ = $_{ξ/}$√$_{2}$$_{Dt}$$_{ we find}$ 9 R = 1 2 + 1 ˜ ξ √ 2 π ∫ ∞ 0 d˜ x$_{0}$$_{e}$− (˜ x 0 ) 2 2 ˜ ξ 2 Erf ( ˜ x$_{0}$$^{$_{/}$√$_{2}$}$) 2 (56) R = 1 2 + 1 π arccot ( √$_{2}$$_{Dt}$ ξ ) . (57) r = 1 $^{$_{2}$√$_{πDt}$}$√1 + ξ $^{2}$/ 2 Dt (58) 〈 ( x$_{T}$ ) $^{2}$〉 ∼ ξ 2 π N ( 1 + 2 Dt ξ 2 ) [ 1 4 − 1 π $_{2}$arccot 2 (√ 2 Dt ξ 2 )] (59) 〈 ( x$_{T}$ ) $^{2}$〉 ∼ { $_{ξ}$√$_{2}$$_{Dt}$ N short times 2 Dt ≪ ξ 2 πD 2 N t long times 2 Dt ≫ ξ $^{2}$. (60) | 5scientific_articles
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VILLAGE ROADSHOW LIMITED www.villageroadshow.com.au CLOSE FILE X | 0financial_reports
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Patent Application Publication Jan. 23 2014 Sheet 18 of 22 US 2014/0021404 Al FIG. 18 120 80 00--. ----------- 0 ❖0 3J) Amount of HCI04 added (f) | 4patents
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Server Option System Variable and Status Variable Reference Name Cmd-Line Option File System Var Status Var Var Scope Dynamic Ndb_api_trans_commit_count_session Yes Session No Ndb_api_trans_commit_count_slave Yes Global No Ndb_api_trans_local_read_row_count Yes Global No Ndb_api_trans_local_read_row_count_replica Yes Global No Ndb_api_trans_local_read_row_count_session Yes Session No Ndb_api_trans_local_read_row_count_slave Yes Global No Ndb_api_trans_start_count Yes Global No Ndb_api_trans_start_count_replica Yes Global No Ndb_api_trans_start_count_session Yes Session No Ndb_api_trans_start_count_slave Yes Global No Ndb_api_uk_op_count Yes Global No Ndb_api_uk_op_count_replica Yes Global No Ndb_api_uk_op_count_session Yes Session No Ndb_api_uk_op_count_slave Yes Global No Ndb_api_wait_exec_complete_count Yes Global No Ndb_api_wait_exec_complete_count_replica Yes Global No Ndb_api_wait_exec_complete_count_session Yes Session No Ndb_api_wait_exec_complete_count_slave Yes Global No Ndb_api_wait_meta_request_count Yes Global No Ndb_api_wait_meta_request_count_replica Yes Global No Ndb_api_wait_meta_request_count_session Yes Session No Ndb_api_wait_meta_request_count_slave Yes Global No Ndb_api_wait_nanos_count Yes Global No Ndb_api_wait_nanos_count_replica Yes Global No Ndb_api_wait_nanos_count_session Yes Session No Ndb_api_wait_nanos_count_slave Yes Global No Ndb_api_wait_scan_result_count Yes Global No Ndb_api_wait_scan_result_count_replica Yes Global No Ndb_api_wait_scan_result_count_session Yes Session No Ndb_api_wait_scan_result_count_slave Yes Global No ndb_autoincrement_prefetch_sz Yes Yes Yes Both Yes ndb_batch_size Yes Yes Yes Global No ndb_blob_read_batch_bytes Yes Yes Yes Both Yes ndb_blob_write_batch_bytes Yes Yes Yes Both Yes ndb_cache_check_time Yes Yes Yes Global Yes ndb_clear_apply_status Yes Yes Global Yes ndb_cluster_connection_pool Yes Yes Yes Global No ndb_cluster_connection_pool_nodeids Yes Yes Yes Global No 672 | 3manuals
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RAYTHEON COMPANY 333 P39 333 ALLOWANCE FOR DOUBTFUL ACCOUNTS The Company maintains an allowance for doubtful accounts to provide for the estimated amount of accounts receivable that will not be collected. The allowance is based upon an assessment of customer credit- worthiness historical payment experience the age of outstanding receivables and collateral to the extent applicable. Activity related to the allowance for doubtful accounts was as follows: PREPAID EXPENSES AND OTHER CURRENT ASSETS Included in prepaid expenses and other current assets at December 31 2002 was $56 million of cash received in 2002 that was restricted for payment in connection with the Company’s merger with the defense business of Hughes Electronics Corporation in December 1997. Also included at December 31 2002 was $48 million of restricted cash from the sale of the Company’s corpo- rate headquarters. This cash was used to fund the construction of the Company’s new corporate headquarters and the acquisition of three other properties. In June 2003 the restrictions related to the use of this cash expired therefore the remaining $10 million that had not yet been spent was reflected in the statement of cash flows as proceeds from sales of property plant and equipment in 2003. CONTRACTS IN PROCESS Contracts in process are stated at cost plus estimated profit but not in excess of realizable value. INVENTORIES Inventories are stated at cost (principally first- in first-out or average cost) but not in excess of realizable value. A provision for excess or inactive inventory is recorded based upon an analysis that considers current inventory levels historical usage patterns and future sales expectations. PROPERTY PLANT AND EQUIPMENT Property plant and equipment are stated at cost. Major improvements are capitalized while expenditures for maintenance repairs and minor improve- ments are charged to expense. When assets are retired or other- wise disposed of the assets and related accumulated depreciation and amortization are eliminated from the accounts and any result- ing gain or loss is reflected in income. Gains and losses resulting from the sale of property plant and equipment at the defense busi- The amount of goodwill by segment at December 31 2003 was $751 million for Integrated Defense Systems $1 349 million for Intelligence and Information Systems $3 438 million for Missile Systems $2 306 million for Network Centric Systems $2 639 mil- lion for Space and Airborne Systems $868 million for Technical Services and $128 million for Other. Information about additions to goodwill in 2003 is included in Note C Acquisitions and Divestitures and Note H Other Assets. In 2002 the Company recorded a goodwill impairment charge of $360 million related to its former Aircraft Integration Systems business (AIS) as a cumulative effect of change in accounting prin- ciple. The fair value of AIS was determined based upon the pro- ceeds received by the Company in connection with the sale as described in Note B Discontinued Operations. Due to the non- deductibility of this goodwill the Company did not record a tax benefit in connection with this impairment. Also in 2002 the Company completed the transitional review for potential goodwill impairment in accordance with SFAS No. 142 and recorded a goodwill impairment charge of $185 million pretax or $149 million after-tax which represented all of the goodwill at Raytheon Aircraft as a cumulative effect of change in accounting principle. The fair value of Raytheon Aircraft was determined using a discounted cash flow approach. The total goodwill impairment charge in 2002 was $545 million pretax $509 million after-tax or $1.25 per diluted share. The Company performs the annual impairment test in the fourth quarter of each year. There was no goodwill impairment associated with the annual impairment test performed in the fourth quarter of 2003 and 2002. IMPAIRMENT OF LONG-LIVED ASSETS Effective January 1 2002 the Company adopted Statement of Financial Accounting Standards No. 142 Goodwill and Other Intangible Assets (SFAS No. 142). This accounting standard addresses financial account- ing and reporting for goodwill and other intangible assets and requires that goodwill amortization be discontinued and replaced with periodic tests of impairment. A two-step impairment test is used to first identify potential goodwill impairment and then meas- ure the amount of goodwill impairment loss if any. Provisions for depreciation are generally computed using a com- bination of accelerated and straight-line methods. Depreciation pro- visions are based on estimated useful lives as follows: buildings — 20 to 45 years machinery and equipment — 3 to 10 years and equipment leased to others — 5 to 10 years. Leasehold improve- ments are amortized over the lesser of the remaining life of the lease or the estimated useful life of the improvement. nesses are included in overhead and reflected in the pricing of products and services to the U.S. government. (In millions) Balance at December 31 2000 $132 Provisions 2 Utilizations (21) Balance at December 31 2001 113 Provisions 2 Utilizations (42) Balance at December 31 2002 73 Provisions 1 Utilizations (39) Balance at December 31 2003 $35 | 0financial_reports
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10 10 ライター Lighters ライターの外面の見やすい箇所に容易に消え ない方法で表示を付すること。 A label is affixed at an easily visible place on the outside of the lighter in such a manner whereby it does not fade easily. 別表第6(第22条関係) Appended Table 6 (Re: Article 22) 〔略〕 [Omitted] 別表第7(第22条関係) Appended Table 7 (Re: Article 22) 〔略〕 [Omitted] 100 | 2laws_and_regulations
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Europol Public Information The Hague [date] 2020 LA-CO-XXXXXX FRAMEWORK CONTRACT FOR THE PROVISION OF ICT RACKS CABLING AND OTHER INFRASTRUCTURE ELEMENTS Page 2 of 79 Europol’s initials: Contractor’s initials: BETWEEN [COMPANY NAME] AND EUROPOL | 1government_tenders
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AIM 8/15/19 FIG 4 − 5 − 6 Traffic Information Service (TIS) Avionics Block Diagram 4 − 5 − 10 Surveillance Systems | 2laws_and_regulations
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MINISTRY OF YOUTH EMPOWERMENT SPORT AND CULTURE DEVELOPMENT 99. Warranted Provision 100. Non-Moving Advances The utilization of funds warranted to the Ministry for the financial year ended 31 March 2018 is indicated below:- The non-moving advances which were outstanding on 31 March 2018 under this Ministry are shown below:- Out of the warranted provision of P843 846 610 the unspent balance at year-end was P31 523 038 representing 4% of the warranted provision. Warranted Actual Under - Dept Provision Expenditure Expenditure % Headquarters 631 160 316 601 705 670 -29 454 646 5 National Archives & Record Services 22 600 436 21 565 032 -1 035 404 5 Youth - 98 748 -98 748 National Internship 190 085 858 189 151 618 -934 240 0.5 843 846 610 812 323 572 -31 523 038 4 No. of Account Cases Amount Imprest Recoveries 2 2 285 Advance on Gratuity 3 690 000 Loss of Cash – Cash Shortage 1 25 552 Recoveries of Overpayment of Salaries 13 96 140 Training Bond Liability 1 120 878 Travelling Imprest 6 22 791 Total 26 957 646 80 | 2laws_and_regulations
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OPERATING AND FINANCIAL REVIEW £993m 03 £202m 01 £579m 02 £181m 00 99 € 1 579m 03 € 331m 01 € 932m 02 € 275m 00 99 Turnover by business HARCOURT EDUCATION Turnover £ sterling Turnover € euro € 1 302m £898m International £153m / € 222m US Schools & Testing £745m / € 1 080m 83% 17% trough in the US state textbook adoption cycle and some adoption deferrals due to the pressures on state budgets. This was compensated by good growth in backlist sales and sales to open territories in both elementary and secondary schools markets. Overall revenues were however held back by weakness in the supplemental business ahead of new publishing that addresses federally funded programmes. Underlying operating profits were up 2% reflecting the significant cost savings achieved through supply chain rationalisation and further integration of the supplemental businesses. The Harcourt Assessment businesses saw underlying revenues down 5% reflecting the loss of the California state testing contract which was announced in 2002. Without this underlying revenue growth would have been over 15%. This has been primarily driven by strong new publishing in the clinical testing market. The new edition of the Stanford Achievement Test which combines the power of the well established norm-reference test with the flexibility to test state-specific criteria has been well received in the market and has been instrumental in winning a number of new state contracts including Nevada New Mexico and Minnesota which will impact in 2004. Underlying operating profits were up 10% due to the strong growth in higher margin product and the actions In 2004 the US schools market is expected to decline further as the low point is reached in the three year trough in the adoptions cycle combined with continuing state budget pressures. Harcourt expects to perform well in the new 2004 adoptions and the early market reaction to new publishing programmes has been encouraging. The assessment business will benefit from the recent state contract wins and the International business is expected to recover from the UK funding constraints seen last year. 2005 and the following years are expected to see a significant recovery in US market growth given the much stronger adoption calendar and Harcourt should be well placed to perform strongly. The Harcourt Education International businesses saw revenues 5% ahead and adjusted operating profits 1% ahead with strong growth in academic publishing and the global library business offset by a marked reduction in the UK schools market due to shortfalls in governmental funding. taken to improve operational efficiency. Increased investment is being put into classroom-based assessment to improve individual educational outcomes linking assessment to reinforcement of learning through linked curriculum and remediation products. REED ELSEVIER ANNUAL REPORTS & FINANCIAL STATEMENTS 2003 13 | 0financial_reports
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268 IBM z15 (8561) Technical Guide z/VM Dynamic I/O Support for OSA-Express6S OSD CHPIDs - - - - Y Y z/VM Dynamic I/O Support for OSA-Express7S OSD CHPIDs - - - - Y Y OSA Dynamic LAN idle Y Y Y Y N N OSA Layer 3 virtual MAC for z/OS environments Y Y Y Y - - Network Traffic Analyzer Y Y Y Y N N Hipersockets HiperSockets e Y Y YYYY 3 2 H i p e r S o c k t s Y Y YYYY H i p e r S o c k t s C m p l e t i o n Q u e Y Y YYYY HiperSockets Virtual Switch Bridge - - - - Y Y HiperSockets Multiple Write Facility Y Y Y Y N N H i p e r S o c k t s s u p o r t o f I P V 6 Y Y YYYY HiperSockets Layer 2 support Y Y YYYY SMC-D and SMC-R SMC-D$^{f}$ over ISM (Internal Shared Memory) Y Y Y N Y c Y c 10GbE RoCE$^{g}$ Express Y Y Y Y Y c Y c 25GbE and 10GbE RoCE Express2 for SMC-R Y Y Y Y Y c Y c 25GbE and 10GbE RoCE Express2 and 2.1 for Ethernet communications$^{h}$ including Single Root I/O Virtualization (SR-IOV) N N NNY c Y c z/VM Dynamic I/O support for RoCEExpress2 and 2.1 - - - - Y Y S h a r e d R o C E e n v i r o m e n t Y Y YYYY Open Systems Adapter (OSA) i OSA-Express7S 1000BASE-T Ethernet CHPID type OSC Y Y YYYY OSA-Express6S 1000BASE-T Ethernet CHPID type OSC Y Y YYYY OSA-Express5S 1000BASE-T Ethernet CHPID type OSC Y Y YYYY OSA-Express7S 25-Gigabit Ethernet Short Reach (SR and SR1.1) CHPID type OSD Y Y j Y j Y j Y k Y k OSA-Express7S 10-Gigabit Ethernet Long Reach (LR) and Short Reach (SR) CHPID type OSD Y Y YYYY OSA-Express6S 10-Gigabit Ethernet Long Reach (LR) and Short Reach (SR) CHPID type OSD Y Y YYYY OSA-Express5S 10-Gigabit Ethernet Long Reach (LR) and Short Reach (SR) CHPID type OSD Y Y YYYY Function a z/OS V2R4 b z/OS V2R3 z/OS V2R2 z/OS V2R1 z/VM V7R1 z/VM V6R4 | 3manuals
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NDB Cluster Configuration Files Type or units integer Default UNDEFINED Range 32 - 4294967039 (0xFFFFFEFF) Deprecated NDB 8.0.19 Restart Type N (NDB 8.0.13) By default this parameter is calculated as 1.1 × MaxNoOfConcurrentOperations . This fits systems with many simultaneous transactions none of them being very large. If there is a need to handle one very large transaction at a time and there are many nodes it is a good idea to override the default value by explicitly specifying this parameter. This parameter is deprecated as of NDB 8.0.19 and is subject to removal in a future NDB Cluster release. In addition this parameter is incompatible with the TransactionMemory parameter; if you try to set values for both parameters in the cluster configuration file ( config.ini ) the management server refuses to start. This parameter limits the size of a transaction. The transaction is aborted if it requires more than this many DML operations. The minimum number of operations per transaction is 32; however you can set MaxDMLOperationsPerTransaction to 0 to disable any limitation on the number of DML operations per transaction. The maximum (and default) is 4294967295. Transaction temporary storage. The next set of [ndbd] parameters is used to determine temporary storage when executing a statement that is part of a Cluster transaction. All records are released when the statement is completed and the cluster is waiting for the commit or rollback. The value of this parameter cannot exceed that set for MaxNoOfConcurrentOperations . The default values for these parameters are adequate for most situations. However users with a need to support transactions involving large numbers of rows or operations may need to increase these values to enable better parallelism in the system whereas users whose applications require relatively small transactions can decrease the values to save memory. • MaxDMLOperationsPerTransaction Version (or later) NDB 8.0.13 Type or units operations (DML) Default 4294967295 Range 32 - 4294967295 Restart Type N (NDB 8.0.13) Version (or later) NDB 8.0.13 Type or units integer Default 8K Range 0 - 4294967039 (0xFFFFFEFF) Deprecated NDB 8.0.19 Restart Type N (NDB 8.0.13) • MaxNoOfConcurrentIndexOperations 4081 | 3manuals
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REMUNERATION REPORT (AUDITED) (CONTINUED) 5. Executive remuneration arrangements (continued) Variable remuneration - long term incentive (LTI) (continued) Under the LTI there are both internal (EPS) and external (TSR) performance benchmarks which are required to be achieved over a three year service vesting period for the Managing Director/Chief Executive Officer to receive any benefit. The Managing Director was not awarded any performance rights during the three months to 31 March 2013. The performance conditions were as follows: 50% of the Performance Rights are subject to an external Performance Condition namely AACo’s Total Shareholder Return (TSR) performance relative to the S&P/ASX Small Ordinaries Accumulation Index (ASX Code: XSOAI) measured over a three year Vesting Period. Vesting of the Performance Rights subject to the TSR outperformance condition will be calculated based on the following percentile results in the table below: The Company’s TSR will be measured by an independent third party over the Vesting Period. The testing of the TSR outperformance condition will occur at the end of the Vesting Period. The Board in its absolute discretion may vary this formula from year to year to reflect the changing nature of the Group’s operations and its operating environment. Vesting of the Performance Rights subject to the EPS condition will be calculated based on the following compound % growth rates over the three financial years following the base year the Performance Rights are established. Termination and change in control provisions Under the terms of the LTI if the Managing Director/Chief Executive Officer ceases employment with the Company and holds Performance Rights the ability of the Managing Director/Chief Executive Officer to retain his Performance Rights will depend on the circumstances in which the employment ceases. The Plan Rules define Bad Leavers and Good Leavers. If the executive was a Bad Leaver then the Performance Rights will be automatically forfeited. If the executive was a Good Leaver then the Board will consider the circumstances of the cessation of employment and may exercise its discretion to allow some or all of the Performance Rights to vest (and be exercised). Annual Report 2013 29 EPS Compound Growth Rate % of Performance Rights to vest Compound growth rate of less than 7.5% p.a. 0% vest Compound growth rate of at least 7.5% p.a. 50% vest Compound growth rate between 7.5% p.a. and 10% p.a. 2% vesting on a straight line interpolation for each 0.1% increment in EPS Compound growth rate of 10% p.a. or more 100% vest AACo TSR Ranking versus S&P/ASX Small Ords Accumulation Index (XSOAI) % of Performance Rights to vest Below the 50th percentile 0% vest At the 50th percentile 50% vest Between the 50th and 75th percentile 2% vesting on a straight line interpolation for each percentile ranking At or above the 75th percentile 100% vest 1. External Performance Condition (TSR outperformance) 2.Internal Performance Condition (EPS) 50% of the Performance Rights are subject to an internal Performance Condition based on the Company’s earnings per share (EPS). EPS is defined as Adjusted Net after Tax Profit per Ordinary Share where Adjusted Net after Tax Profit is calculated as follows: Annual reported Net Profit after Tax Less: Valuation adjustments. Less: Any adjustment deemed fair and appropriate by the Board in the Board’s absolute discretion. | 0financial_reports
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4 0 50 100 150 200 250 Thermopower [ V / K ] 0 2 4 6 8 10 T /| t | 0 50 100 150 200 250 Thermopower [ V / K ] 0 2 4 6 8 10 T /| t | S * S$_{Kelvin}$ S$_{MH}$ (a) x = 0.67 t > 0 J = 0 (c) x = 0.75 t > 0 J = 0 (b) x = 0.67 t < 0 J = 0 (d) x = 0.75 t < 0 J = 0 t ? (e) FIG. 1: Thermopower vs. T for the t - J model (with J = 0) corresponding to NCO in the Curie-Weiss metallic phase near x ∼ 0 . 7. (a) and (c) correspond to x = 0 . 67 and x = 0 . 75 for the NCO system ( t > 0) while in (b) and (d) the sign of the hopping has been switched to investigate the enhance- ment expected for frustrated systems. The black red (light gray) and blue (dark gray) lines are S $^{∗}$ S Kelvin and S MH . Finite size effects at low T are treated in the spirit described previously $^{2}$. At each x for T below an appropriately cho- sen cutoff temperature T 0 = 0 . 5 | t | the thermopower is fit to S ( T ) → aT + bT 2 where a and b are obtained from the com- puted S ( T 0 ) and S $^{′}$( T 0 ) providing a sensible extrapolation to low T and plotted as dashed lines. The inset figure (e) depicts the 12-site unit cell. which is off by an important factor of two from S$_{Kelvin}$ (Eq. (11)). The formulations (Mott-Heikes and Kelvin) would be identical if µ ∝ T which occurs if the system possesses a ground state degeneracy and in the classical regime. The high frequency approximation gives a better result than all these and again in the low temperature limit to O ( T $^{3}$) Other than the neglect of the energy derivative of τ this is the same as the exact result. Hence ranking the ther- mopower approximations for non-interacting electrons we have from worst to best S$_{MH}$ S$_{Kelvin}$ and S ∗ with the exact result being S$_{Mott}$ . For intermediate coupling models the relative rankings of the various approximations can be different. In partic- ular S$_{Kelvin}$ can be superior to S $^{∗}$ since the effect of cor- relations is diluted in the latter by making the assump- tion of ω ≫ U whereas S$_{Kelvin}$ retains ω ≪ U . The sign of the true (i.e. transport) thermopower and the trans- port Hall constant are expected to flip as we approach half filling in the Hubbard or t - J models due to the on- set of correlations (carriers become holes measured from half filling rather than from a completely filled band). In the case of the t - J model the high frequency Hall con- stant R ∗ H and S ∗ do display this behavior $^{11}$. However for the Hubbard model R ∗ H and S ∗ do not display a sign change $^{16 17}$. S$_{Kelvin}$ on the other hand does appear to show the expected change in sign $^{16 18}$. Further discussion concerning the relative merits of S$_{Kelvin}$ and S ∗ will be reported later $^{16}$. S ∗ adequately describes the physics of NCO for x > 0 . 5 and in particular the so-called Curie-Weiss metallic phase 2 near x ∼ 0 . 7. The subject of this work however is S$_{Kelvin}$ . We see in Figs. 1a and c and 2a similar to S$_{MH}$ S$_{Kelvin}$ does a good job capturing the physics with minimal computational effort. However S$_{Kelvin}$ does seem to overestimate the thermopower for inter- mediate temperatures and high dopings as compared to S$_{MH}$ . Near x ≈ 0 . 7 S$_{Kelvin}$ and S$_{MH}$ are similar but as x is decreased the two formulae diverge and for low dop- ings S$_{Kelvin}$ better captures the physics as it is closer to the more accurate high frequency limit S $^{∗}$. To show the usefulness of S$_{Kelvin}$ we apply it to NCO since (i) we have previously investigated 2 this system while benchmarking S $^{∗}$ (ii) the system is intrinsically interesting $^{1}$ and (iii) we can compare different ther- mopower formulations on equal footing. As discussed $^{2}$ the action in NCO takes place primarily in the cobalt ox- ide planes where d -shell spin-1/2 electrons live on a trian- gular lattice and these strongly interacting 2D electrons can be modeled with the t - J model. Hence we exactly di- agonalize the t - J model on a GLYPH<suppress>L = 12 site two-dimensional triangular lattice with periodic boundary conditions (cf. Fig. 1e). Note that we only show results for the t - J model with zero super-exchange interaction ( J = 0) as the re- sults only weakly depend on J . To map the t - J model to NCO we follow Refs. 2 and 4 and give results as a function of electron doping x = | 1 − n | away from half filling ( n is electron number density). An interesting property of the triangular lattice un- derlying the physics of NCO is its geometrical frustra- tion $^{3}$ cf. inset Fig. 1e. It was predicted 2 4 that if the sign of the hopping amplitude were flipped to t < 0 the thermopower would be enhanced at low to intermediate T . We have considered this situation in Figs. 1b and d and 2b. Since the thermopower enhancement for t < 0 compared to t > 0 is largely a consequence of electron- electron interaction it is important to determine whether this effect is captured by S$_{Kelvin}$ . We see this enhance- ment is captured to some extent by S$_{Kelvin}$ and S$_{Kelvin}$ is better than S$_{MH}$ in the large doping region where the enhancement is the greatest but is missing some of the electron-electron physics at very low T that is captured by S ∗ (as is S$_{MH}$ ). C. NCO and the t - J model B. Hubbard model S ∗ = T π $^{2}$k2 B 3 q$_{e}$ d dµ ln [ ρ$_{0}$ ( µ ) 〈 ( v x $_{p}$) $^{2}$〉$_{µ}$ ] |$_{µ}$ → µ$_{0}$ . (13) | 5scientific_articles
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Airplane Flying Handbook Flight Standards Service 2016 U.S. Department of Transportation FEDERAL AVIATION ADMINISTRATION | 2laws_and_regulations
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In addition when used in this report the words or phrases “will likely result ” “expect ” “anticipate ” “will continue ” “intend ” “plan ” “believe” and similar expressions are intended to help identify forward-looking statements. We wish to caution readers that our operating results are subject to various risks and uncertainties that could cause our actual results and outcomes to differ materially from those discussed or anticipated. Reference is made to the risks and uncertainties described below and factors described in our most recent Annual Report on Form 10-K (which contains a more detailed discussion of the risks and uncertainties related to our business). We also wish to advise readers not to place any undue reliance on the forward-looking statements contained in this report which reflect our beliefs and expectations only as of the date of this report. We assume no obligation to update or revise these forward-looking statements to reflect new events or circumstances or any changes in our beliefs or expectations. Some of the risks and uncertainties that might cause actual results to differ from those anticipated include but are not limited to the following: (c) As with any new technology we have experienced technical issues in developing and manufacturing the BioPhotonic Scanner. In addition in March 2003 the FDA questioned the status of the BioPhotonic Scanner as a non-medical device. We subsequently filed an application with the FDA to have it classified as a non-medical device. The FDA has not yet acted on our application. There are various factors that could determine whether the BioPhotonic Scanner is a medical device including the claims that we or our distributors make about it. We are facing similar uncertainties and regulatory issues in other markets with respect to the status of the BioPhotonic Scanner as a non-medical device 50 (b) Chinese regulators have indicated that they intend to publish new direct selling regulations within the next several months. There can be no assurance that these regulations will be adopted or if adopted that they will benefit us. While we anticipate we will be able to obtain a direct selling license under any new proposed regulations there can be no assurance that we will be able to obtain such a license should we apply. There has been some uncertainty and confusion regarding the direction of the new regulations and the type of restrictions or requirements that may be imposed under such regulations. Although we currently do not operate a direct selling business in China our future growth could be harmed if the regulations are not adopted or are unfavorable if the adoption or implementa- tion of new regulations are delayed further than anticipated or if we are unable to obtain a license for direct sell- ing under these regulations. In the event the new regulations prevent us from offering a distributor compensation model comparable to what we offer in other markets our business may be negatively impacted. In addition if the Chinese government adopts new direct selling regulations these regulations could negatively impact our current business model in China if they incorporate changes that impose restrictions on us or if interpretations of existing laws change as a result of such new regulations which require us to make changes to our business model in ways that could harm our business in this market. (a) Our expansion of operations in China is subject to risks and uncertainties. We continue to be subject to significant regulatory scrutiny and have experienced challenges including interruption of sales activities at certain stores and fines being paid in several cases which in the aggregate have been less than 1 % of revenue in China. Because of restrictions on direct selling activities we have implemented a modified business model for this market using retail stores and an employed sales force. We have at times received guidance from local regulators on conducting our operations including limiting the size of our training meetings controlling the activities of our sales employees controlling the distribution of product outside of our stores keeping the number of sales employees at reasonable levels and limiting the involvement of our overseas distributors. While we continuously update our operating model to address this guidance we believe we could experience similar challenges in the future as we expand operations in China and continue to work with regulators to help them understand our business model. Our operations in China may be modified or otherwise harmed by regulatory changes subjective interpretations of laws or an inability to work effectively with national and local government agencies. In addition as our number of sales representatives continues to rapidly grow we could face increasing risks that improper actions by these local sales employees or any overseas distributors in violation of local laws or our policies could result in regulatory investigations and penalties that could harm our business. • our expectation that the self-manufacture of product will result in reduced cost of goods sold and our plans to manufacture more products in China for export; • our anticipation that the launch of Pharmanex products in China will have a negative impact on Hong Kong and Taiwan revenue in 2005 ; • our anticipation that we will incur expenses of approximately $ 6 . 5 million in 2005 related to a global distributor convention we plan to hold later in 2005 ; • our plans to commence operations in Indonesia and Russia; • our anticipation that gross margins as well as selling expenses as a percentage of revenue will each be slightly lower in 2005 compared to 2004 as a result of our continued expansion of the BioPhotonic Scanner program around the world; and • our anticipation that the remittance of permanently reinvested earnings related to our foreign operations will be postponed indefinitely. | 0financial_reports
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I. RESULTS The cell differentiation process plays a crucial role in the prenatal development of multi- cellular organisms. Recent advances in the research on stem cell properties and embryonic development have uncovered several steps in the differentiation process [1–8]. Single and multiple sequences of cell differentiation have been identified through in-vivo observations of a particular embryo during early stages of development and through pathology studies of miscarriages during late stages of the process. While the identification of each cell differ- entiation step has been the subject of intense research an integrated view of this complex process is still missing. Such a global view promises to reveal features associated with the large-scale modular organization of the cell types [5–7 9–13] with the purpose of discover- ing new functional modules between cell types using novel theoretical network analysis for community detection [10–12]. In this letter we take advantage of the current knowledge on the sequence of cell differentiation processes which is spread over a vast specialized litera- ture [1–6 14–28] (see the Supplementary Information SI-Table I and references therein) to reveal and characterize the topological and dynamical features associated with the network of human cell differentiation (NHCD). We construct the NHCD by systematically gathering the scattered information on the evolution of each cell type present in the embryo and fetus from a predecessor with a higher degree of differentiation potential into a more specialized type. The process of cell differ- entiation is then mapped onto a complex network which consists of 873 nodes connected through 977 edges. The nodes in the network represent distinct cell types reported in the lit- erature [1–6 14–28] and the edges represent the association between two cell types through a differentiation event. The initial steps of the NHCD are shown in the inset of Fig. 1 while the resulting network structure is shown in the main panel of Fig. 1 (see also SI-Figs. 5a and 5b). The fertilized egg is followed by the ball stage and the formation of the primary germ cell layers. Currently it is known that until the ball stage cell division is symmetric and produces further totipotent stem cells [1]. These cells then give rise to all the differentiated tissues of the organism as well as the extra-embryonic tissues (placenta umbilical cord etc.). Moreover in the course of the entire process of organism formation there is a monotonic decrease in the differentiation 3 | 5scientific_articles
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LEE ENTERPRISES / 2000 Annual Report 15 September 30 Liabilities and Stockholders’ Equity 2000 1999 1998 (Dollars In Thousands) Current Liabilities: Notes payable and current maturities of long-term debt . . $ 49 532 $ 17 620 $ 33 453 Accounts payable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 242 11 764 14 277 Compensation and other accruals . . . . . . . . . . . . . . . . . . 27 603 26 551 26 966 Income taxes payable . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 799 5 378 6 475 Unearned income . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 451 18 135 16 890 Total current liabilities . . . . . . . . . . . . . . . 117 627 79 448 98 061 Long-Term Debt net of current maturities . . . . . . . . . . . 173 400 187 005 186 028 Deferred Items: Retirement and compensation . . . . . . . . . . . . . . . . . . . . . 13 418 13 781 13 117 Income taxes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46 621 44 950 43 620 60 039 58 731 56 737 Stockholders’ Equity: Capital stock: Serial convertible preferred no par value; authorized 500 000 shares; issued none . . . . . . . . . . . . . . . . . . – – – Common $2 par value; authorized 60 000 000 shares; issued and outstanding 2000 33 070 000 shares . . . . 66 140 66 142 65 144 Class B common $2 par value; authorized 30 000 000 shares; issued and outstanding 2000 10 740 000 shares . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 480 22 376 23 556 Additional paid-in capital . . . . . . . . . . . . . . . . . . . . . . . . 37 330 32 641 28 715 Unearned compensation . . . . . . . . . . . . . . . . . . . . . . . . . (1 227) (961) (650) Retained earnings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 271 444 234 131 202 994 395 167 354 329 319 759 $ 746 233 $ 679 513 $ 660 585 | 0financial_reports
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US006368773Bl (12) United States Patent Jung et al. (10) Patent No.: US 6 368 773 Bl (45) Date of Patent: Apr. 9 2002 (54) PHOTORESIST CROSS-LINKER AND PHOTORESIST COMPOSITION COMPRISING THE SAME (75) Inventors: Jae Chang Jung; Keun Kyu Kong; Myoung Soo Kim; Hyoung Gi Kim; Hyeong Soo Kim; Ki Ho Baik; Jin Soo Kim all of Kyoungki-do (KR) (73) Assignee: Hyundai Electronics Industries Co. Ltd. (KR) ( *) Notice: Subject to any disclaimer the term of this patent is extended or adjusted under 35 U.S.C. 154(b) by O days. (21) Appl. No.: 09/448 916 (22) Filed: Nov. 24 1999 (30) Foreign Application Priority Data (51) Int. Cl.7 ................................................ G03F 7/027 (52) U.S. Cl. ................................ 430/281.1; 430/270.1; 430/325 (58) Field of Search ........................... 430/270.1 281.1 430/325; 526/271 317.1 333; 568/594 596 Nov. 27 1998 Feb. 22 1999 (KR) ............................................ 98-51355 (KR) ............................................. 99-5823 DE EP GB 3714276 Al 0 100 071 A2 695789 11/1988 2/1984 8/1953 (56) References Cited U.S. PATENT DOCUMENTS FOREIGN PATENT DOCUMENTS OIBER PUBLICATIONS Academic Press Dictionary of Science and Technology definitions of acetal alkyl carboxylic acid ester and ketone.* 2 866 813 A * 12/1958 McTeer ...................... 260/488 3 468 857 A 9/1969 Graver ...................... 260/80.3 4 562 009 A * 12/1985 Lysenko et al. ... ... ... 260/465.6 4 579 979 A * 4/1986 Andrade et al. ............ 568/596 4 607 126 A * 8/1986 Sajtos ........................ 568/385 5 200 051 A * 4/1993 Cozzette et al. ............ 204/403 5 290 894 A * 3/1994 Melrose et al. ............. 526/315 5 645 969 A * 7/1997 Matsuo et al. .............. 430/165 6 121 399 A * 9/2000 Webster et al. ............. 525/320 6 184 263 Bl * 2/2001 Narang et al. ................ 522/11 CA90:138248 Sastre et al Angew. Makromol. Chem. 1978 73 25-33.* U.S. application No. 09/448 964 Jung et al. filed Nov. 24 1999. Chemical Abstract No. 110:96578. * cited by examiner Primary Examiner-Rosemary Ashton (74) Attorney Agent or Firm-Townsend and Townsend and Crew LLP The present invention relates to a cross-linker for photoresist compositions which is suitable for a photolithography pro› cess using KrF (248 mn) ArF (193 mn) E-beam ion beam or EUV light sources. Preferred cross-linkers according to the present invention comprise a copolymer of (i) a com› pound represented by following Chemical Formula 1 and/or (ii) one or more compound(s) selected from the group consisting of acrylic acid methacrylic acid and maleic anhydride. (57) ABSTRACT wherein R$_{1 }$ and R$_{2 }$ individually represent straight or branched C$_{1}$_$_{10 }$alkyl straight or branched C$_{1}$_$_{10 }$ester straight or branched C$_{1}$ _ $_{10 }$ketone straight or branched C$_{1}$ _ $_{10 }$carboxylic acid straight or branched C$_{1}$ _ $_{10 }$acetal straight or branched C$_{1}$ _ $_{10 }$alkyl including at least one hydroxyl group straight or branched C$_{1}$ _ $_{10 }$ester includ› ing at least one hydroxyl group straight or branched C$_{1}$ _ 10 ketone including at least one hydroxyl group straight or branched C$_{1}$ _ $_{10 }$carboxylic acid including at least one hydroxyl group and straight or branched C$_{1}$ _ $_{10 }$acetal including at least one hydroxyl group; and R$_{3 }$ represents hydrogen or methyl. 10 Claims 12 Drawing Sheets <Chemical Formula 1> | 4patents
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Ein Service des Bundesministeriums der Justiz und für Verbraucherschutz sowie des Bundesamts für Justiz ‒ www.gesetze-im-internet.de Zeitliche Richtwerte in Wochen im Lfd. Nr. Teil des Ausbildungsberufsbildes Zu vermittelnde Fertigkeiten und Kenntnisse 1.-18. Monat 19.-36. Monat 1 2 3 4 der Oberflächenbeschaffenheit und Werkstückstabilität mit Hilfe von Zeichnungen und Schablonen umformen f) Formteile durch Kleben Vulkanisieren Spannen und Pressen umformen g) Zuschnittschablonen anfertigen und einsetzen h) Zuschnittschablonen und Stanzformen unter Beachtung rationeller Einteilung Qualität und Musterverlauf auflegen Schnittkonturen markieren i) Bezugsmaterialien schnittmustergerecht zuschneiden und ausstanzen j) Markierungen auf den zugeschnittenen Teilen anbringen a) Oberflächenarten bestimmen Werk- und Hilfsstoffe auswählen Kaschiertechniken anwenden b) Nahtarten insbesondere Saum- Verbund- Keder- Raff- Stummel- Kapp- und Ziernähte bestimmen c) Einbauteile mit Hand- und Maschinennähten verzieren 14 Gestalten Kaschieren und Bearbeiten von Oberflächen (§ 6 Nr. 14) d) Kleinteile mit Leder Lederaustauschstoffen und Bezugsstoffen beziehen 12 a) Aufbau und Funktionszusammenhänge von Produktionsanlagen unterscheiden b) Betriebsbereitschaft von Produktionseinrichtungen sicherstellen c) Vorgaben der Produktionsplanung beachten und bei der Umsetzung der Planungsvorgaben im Arbeitsbereich mitwirken d) Produktionseinrichtungen in Betrieb nehmen e) unterschiedliche funktions- und prozessorientierte Arbeitsaufgaben im Produktionsprozess ausführen f) betriebliche Materialflusssysteme unterscheiden Materialfluss im Arbeitsbereich überwachen und sichern 15 Grundlagen der rechnergestützten Produktion Sichern und Überwachen der Prozessabläufe (§ 6 Nr. 15) g) Störungen im Materialfluss und an Produktionsanlagen feststellen eingrenzen Fehlerbeseitigung einleiten 12 - Seite 10 von 12 - | 2laws_and_regulations
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105 For the year ended August 31 2000 expenditures for the Corporate segment of $4 010 000 represent the incremental cost of corporate overhead that is not allo- cated to the operating divisions and is incurred by Corus to operate as a stand-alone entity and not as a division of Shaw. (thousands of Canadian dollars) 2000 Digital audio cable advertising conventional Radio Programming television Corporate Total Revenues – total 86 241 110 042 32 947 – 229 230 Income before depreciation amortization interest other and income taxes (“EBITDA”) 26 700 34 623 8 223 (4 010) 65 536 EBITDA as a % of revenues 31.0% 31.5% 25.0% – 28.6% Segment assets 397 640 279 043 156 079 581 033 1 413 795 Capital expenditures by segment 1 534 3 598 2 798 2 045 9 975 (thousands of Canadian dollars) 1999 Digital audio cable advertising conventional Radio Programming television Corporate Total Revenues – total 51 563 87 354 23 462 – 162 379 Income before depreciation amortization interest other and income taxes (“EBITDA”) 17 512 23 095 8 484 – 49 091 EBITDA as a % of revenues 34.0% 26.4% 36.2% – 30.2% Segment assets 146 044 215 349 17 518 483 626 862 537 Capital expenditures by segment 1 880 4 224 328 103 6 535 (thousands of Canadian dollars) 1998 Digital audio cable advertising conventional Radio Programming television Corporate Total Revenues – total 51 617 73 667 20 901 – 146 185 Income before depreciation amortization interest other and income taxes (“EBITDA”) 17 781 18 146 7 723 – 43 650 EBITDA as a % of revenues 34.4% 24.6% 30.1% – 29.9% Segment assets 110 629 215 342 17 374 455 107 798 452 Capital expenditures by segment 1 966 3 358 2 984 – 8 308 | 0financial_reports
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PART II NOTE 7 Restructuring and Other Charges (Income) The decrease in the net property plant and equipment balance during the year ended December 31 2010 was primarily due to the shutdown of the Huelva facility. See Note 7 for related information on the Huelva shutdown. NOTE 7 Restructuring and Other Charges (Income) Our restructuring and other charges (income) are comprised of restructuring asset disposals and other charges (income) as noted below: (in Millions) Year Ended December 31 2010 2009 2008 Restructuring Charges and Asset Disposals $127.2 $81.5 $52.2 Other Charges (Income) Net 24.7 51.3 (2.6) TOTAL RESTRUCTURING AND OTHER CHARGES $151.9 $132.8 $49.6 (in Millions) Severance and Employee Benefi ts (1) Asset Disposal Charges (2) Other Charges (Income) (3) Total Alginates Restructuring $(0.6) $1.6 $6.2 $7.2 Bayport Butyllithium Shutdown (0.2) — (0.9) (1.1) Huelva Shutdown 37.0 69.4 4.0 110.4 Barcelona Facility Shutdown (0.2) 10.1 (3.0) 6.9 Santa Clara Shutdown — — (1.0) (1.0) Other Items 5.5 — (0.7) 4.8 YEAR ENDED DECEMBER 31 2010 $41.5 $81.1 $4.6 $127.2 Baltimore Phase Out $ — $ — $1.8 $1.8 Alginates Restructuring 3.9 8.6 0.8 13.3 Bayport Butyllithium Shutdown 0.7 6.8 — 7.5 Bromborough Lithium Metal Production Shutdown 1.8 5.0 0.6 7.4 Barcelona Facility Shutdown 10.1 15.2 0.5 25.8 Santa Clara Shutdown 1.5 3.5 1.7 6.7 Other Items 12.4 6.4 0.2 19.0 YEAR ENDED DECEMBER 31 2009 $30.4 $45.5 $5.6 $81.5 Baltimore Phase Out $1.4 $27.0 $3.1 $31.5 Jacksonville Phase Out 1.0 3.8 0.8 5.6 Other Items 8.1 7.0 — 15.1 YEAR ENDED DECEMBER 31 2008 $10.5 $37.8 $3.9 $52.2 (1) Represents severance and employee benefits charges. Income represents adjustments to previously recorded severance and employee benefit accruals. (2) Asset Disposal Charges primarily represent accelerated depreciation and impairment charges on plant and equipment which were or are to be abandoned. Asset disposal charges also included the acceleration effect of re-estimating settlement dates associated with asset retirement obligations due to facility shutdowns see Note 8. (3) Other Charges primarily represent costs associated accrued lease payments contract terminations and other miscellaneous exit costs. Other Income primarily represents favorable development on previously recorded exit costs as well as recoveries associated with restructurings. The restructuring charges and asset disposals noted above were the result of the following: In January 2009 we announced plans to realign our BioPolymer alginates manufacturing operations in Norway and the United Kingdom as we continued integration of the ISP alginates business acquired in August 2008. A portion of the restructuring charges associated with this realignment were recognized as liabilities in the purchase price allocation described in Note 3. In June 2007 we made the decision to phase out operations of our Baltimore Maryland facility. Our decision was consistent with our strategy to maintain globally cost-competitive manufacturing positions by sourcing raw materials intermediates and finished products in lower- cost manufacturing locations. We ceased production at this facility in the second quarter of 2008. In May 2008 we made the decision to phase out operations of our Jacksonville Florida facility by the third quarter of 2008. Our decision was consistent with our strategy to maintain globally cost-competitive manufacturing positions. Specialty Chemicals Alginates Restructuring Agricultural Products Baltimore Phase Out Jacksonville Phase Out 46 FMC CORPORATION 2010 Form 10K RESTRUCTURING CHARGES AND ASSET DISPOSALS | 0financial_reports
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4-2 UNCONTROLLED COPY WHEN DOWNLOADED Check with FSIMS to verify current version before using 7. Except when necessary for takeoff and landing all flights will be conducted at or above 500 feet above ground level. 8. No cargo may be carried nor may any dispensing materials be carried in the hopper or carried in bulk packages or metal containers on board the helicopter when operating in accordance with this waiver. FIGURE 4-1. SAMPLE CERTIFICATE OF WAIVER J550 BANNER TOWING OPERATIONS 1. The operator [Name] is authorized in accordance with Title 14 of the Code of Federal Regulations (14 CFR) part 91 § 91.311 to conduct banner towing operations when signed by the Responsible Person listed in Table 1 and in item 2 on the FAA Form 7711-2 application. This document constitutes the same authority as FAA Form 7711-1 (7-74) and will be issued in lieu of that form for banner towing operations. a. This Certificate of Waiver (CoW) does not waive any state law or local ordinance. Should the proposed operations conflict with any state law or local ordinance or require permission of local authorities or property owners it is the operator’s responsibility to resolve the matter. b. No person may conduct any operation pursuant to the authority of this CoW except in accordance with the standard and special provisions contained in this CoW and other requirements of 14 CFR not specifically waived by this CoW. 2. Responsible Person. This CoW is considered invalid until signed by the Responsible Person for flight operations listed in Table 1. The Responsible Person for flight operations may be either a person who is a U.S. citizen or a person who holds a U.S. pilot certificate and has ongoing knowledge of the operations of the aircraft and legal authority to sign on behalf of the operator. By signing this document the Responsible Person for flight operations accepts responsibility for ensuring compliance with the stated regulations requirements limitations and provisions of this CoW. a. If the Responsible Person signing this CoW relinquishes responsibility this CoW becomes invalid. b. The name telephone number or email address street address (not a post office box) city state and ZIP Code for the person responsible for flight operations are listed in Table 1 below. 3. Effective Date and Expiration. This CoW is effective from [date] to [date] inclusive and is subject to cancellation at any time upon notice by the Administrator or his authorized representative. The CoW must not exceed 24 calendar-months. The operator may renew this CoW by submitting an application for a CoW at least 45 days prior to the expiration date to the responsible Flight Standards District Office (FSDO). Name Telephone #/Email Address Address City State ZIP Table 1 – Responsible Person | 2laws_and_regulations
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16 Management’s Discussion and Analysis of Financial Condition and Results of Operations tion of the accompanying consolidated financial statements. Our significant accounting policies are described in Note 2 to the consolidated financial statements. We believe the following critical accounting policies require a higher level of management judgments and estimates than others in preparing the consolidated financial statements: Revenue Recognition. Revenues related to our fixed-price contracts are recognized as the service is performed using the percentage of completion method of accounting under which the total contract revenue during the term of an agreement is recognized on the basis of the percentage that each contract’s cost to date bears to the total estimated cost (cost to cost method). Estimates of total contract rev- enues and costs are continuously monitored during the term of the contract and recorded revenues and costs are subject to revision as the contract progresses. Such revisions may result in increases or decreases to revenues and income and are reflected in the consolidated financial statements in the periods in which they are first identified. Allowance for Doubtful Accounts. We maintain an allowance for doubtful accounts for estimated losses resulting from the inability of our customers to make required payments. The allowance for doubtful accounts is determined by evaluating the relative credit-worthiness of each customer historical collections experience and other information including the aging of the receivables. If the financial condition of our customers were to deteriorate resulting in an impairment of their ability to make payments additional allowances may be required. Income Taxes. Determining the consolidated provision for income tax expense deferred tax assets and liabilities and related valuation allowance if any involves judgment. As a global company we are required to calculate and provide for income taxes in each of the juris- dictions where we operate. This involves estimating current tax exposures in each jurisdiction as well as making judgments regarding the recoverability of deferred tax assets. Tax exposures can involve complex issues and may require an extended period to resolve. In the period of resolution adjustments may need to be recorded that result in increases or decreases to income. Changes in the geographic mix or estimated level of annual pre-tax income can also affect the overall effective income tax rate. On an on-going basis we evaluate whether a valuation allowance is needed to reduce our deferred tax assets to the amount that is more likely than not to be realized. While we have considered future taxable income and on-going prudent and feasible tax planning strategies in assessing the need for the valuation allowance in the event we determine that we will be able to realize deferred tax assets in the future in excess of the net recorded amount an adjustment to the deferred tax asset would increase income in the period such determination was made. Likewise should we determine that we will not be able to realize all or part of the net deferred tax asset in the future an adjustment to the deferred tax asset would be charged to income or equity (if the deferred tax asset is related to tax benefits from stock option benefits that have not been realized) in the period such determination was made. Our Indian subsidiary Cognizant India is an export-oriented company which under the Indian Income Tax Act of 1961 is entitled to claim tax holidays for a period of ten consecutive years for each Software Technology Park (STP) with respect to export profits for each STP. Substantially all of the earnings of Cognizant India are attributable to export profits. In 2004 the ten-year tax holiday expired for one STP and accordingly the export profits for that STP are subject to Indian income tax. Export profits from the remaining STPs in India are cur- rently entitled to a 100% exemption from Indian income tax. Under current law these tax holidays will be completely phased out by March of 2009. The tax holiday will not be expiring for any STPs in 2005. Prior to 2002 it was management’s intent to repatriate all accumulated earnings from India to the United States; accordingly we provided for deferred income taxes in the amount of approximately $24.1 million on all such undistributed earnings through December 31 2001. During the first quarter of 2002 we made a strategic decision to pursue an international strategy that includes expanded infrastructure investments in India and geographic expansion in Europe and Asia. As a com- ponent of this strategy beginning in 2002 we intend to use Indian earnings to expand operations outside of the United States instead of repatriating these earnings to the United States. Accordingly effective January 1 2002 pursuant to Accounting Principles Board Opinion No. 23 we no longer accrue incremental U.S. taxes on Indian earnings as these earnings are considered to be indefinitely reinvested out- side of the United States. As of December 31 2004 the amount of unrepatriated Indian earnings upon which no incremental U.S. taxes have been recorded is approximately $155.9 million. While we have no plans to do so if such earnings are repatriated in the future or are no longer deemed to be indefinitely reinvested we will accrue the applicable amount of taxes associated with such earnings and pay taxes at a rate substantially higher than our overall effective income tax rate in 2004. Due to the various methods by which such earnings could be repatriated in the future it is not currently practicable to determine the amount of applicable taxes that would result from such repatria- tion or whether the amount of previously accrued deferred taxes on earnings recognized prior to 2002 will require adjustment. COGNIZANT ANNUAL REPORT 2004 | 0financial_reports
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Anhänger Lkw Der EU-Führerschein | 19 18 | Der EU-Führerschein Seit dem 19.1.2013 gilt eine Vereinfachung bei Gespannen der Klasse B für Anhänger über 750 kg zGM: Hier kommt es nur noch darauf an dass die zGM der Kom- bination 3.500 kg nicht übersteigt. Die frühere Voraussetzung dass die zGM des Anhängers das Leergewicht des Zugfahr- zeugs nicht übersteigen darf wurde für alle Inhaber der Klasse B gestrichen. Auch bei Kraftfahrzeugen über 3.500 kg zGM und Bussen sind für die Mitnahme von Anhängern über 750 kg besondere Fahrerlaubnisklassen vorgesehen. Bei C1E darf die Kombination 12.000 kg zGM nicht übersteigen. Die Grenze einer Fahrberechtigung der Klasse CE D1E oder DE ergibt sich dagegen nur aus den all- gemeinen Vorschriften über die zGM und die zulässige Anhängelast. Bei der Klasse B darf das Zugfahrzeug mit einem Anhänger bis 750 kg zGM kombiniert werden. Noch schwerere Anhänger benötigen den Führerschein der Klasse BE. Mit der Gesetzesänderung 2013 wurde der Um - fang der Klasse BE auf 3.500 kg zGM des Anhängers oder Sattelanhängers beschränkt. Wer darüber hinaus Anhän- ger mit einem Zugfahrzeug der Klasse B ziehen will benötigt die Fahrerlaubnis der Klasse C1E. Um die zGM der Fahrzeugkombination zu bestimmen werden die zGM des Zugfahr- zeugs und die zGM des verwendeten An- hängers zusammengezählt; die Stütz- und Aufliegelasten bleiben unberück sichtigt. Die tatsächliche Beladung des Anhängers ist führerscheinrechtlich nicht relevant. Während das tatsächliche Gewicht für die Anhängelast maßgebend ist kommt es für die erforderliche Fahrberechtigung allein auf die Eintragung der zGM in den Fahr- zeugpapieren an. Am 1.1.1999 wurden die Anhängerführer- scheine eingeführt. Zuvor war die Fahrbe- rechtigung des Zugfahrzeugs entscheidend. Eine Erweiterung der Klasse B auf Ge- spanne bis 4.250 kg zGM ist durch eine Fahrerschulung möglich die im Führer- schein durch die Schlüsselzahl B96 dokumentiert wird. Erfasst sind dann alle Anhänger über 750 kg zGM hinter einem Kraftfahrzeug der Klasse B sofern die zGM der Fahrzeugkombination 4.250 kg nicht übersteigt. Zahlreiche Wohnwagen- gespanne fallen in diese Kategorie. Die Klasse C berechtigt zum Führen von Kraftfahrzeugen – ausgenommen Kraft- fahrzeuge der Klassen AM A1 A2 A D1 und D – mit einer zGM über 3.500 kg und mit nicht mehr als 8 Sitzplätzen außer dem Führersitz (auch mit Anhänger mit einer zGM von nicht mehr als 750 kg). Ist das Kraftfahrzeug zur Personenbeförde- rung gebaut und ausgelegt darf es mit der Klasse C – unabhängig von der Zahl der Fahrgastplätze – nicht mehr gefah- ren werden. Anhänger über 750 kg zGM setzen den Führerschein der Klasse CE voraus. Der hier dargestellte Umfang der Fahr- erlaubnisklassen für Lkw findet erst für ab dem 28.12.2016 erteilte Fahrerlaub- nisse Anwendung. Für ältere Führer- scheine sind im Einzelfall Besitzstände zu prüfen (vgl. S. 12 Fußnote 2) . Alte Lkw-Führerscheine haben einen eingeschränkten Besitzstandsschutz. Die Fahrerlaubnis der Klassen C und CE ersetzt seit dem 1.1.1999 den alten Lkw- Führerschein der Klasse 2. Fahrzeuge der Klassen C und CE dürfen Altinhaber ab Vollendung des 50. Lebensjahres – unabhängig von einem Umtausch – nur noch nach ärztlicher Untersuchung und Verlängerung der Fahrerlaubnis führen. Kraftfahrzeuge über 3.500 kg zGM die nicht über 7.500 kg zGM liegen fallen in die Klasse C1. Ist das Kraftfahrzeug jedoch zur Personenbeförderung gebaut und ausgelegt darf es mit der Klasse C1 – unabhängig von der Zahl der Fahrgast- plätze – nicht gefahren werden. Auch hier wird für Anhänger über 750 kg zGM eine eigene Fahrberechtigung der Klasse C1E erforderlich; diese berechtigt zum Führen von Gespannen bis 12.000 kg zGM. Im Fall eines Umtausch s der alten Klasse 2 werden die Fahrerlaubnisklassen AM B BE C1 C1E C CE L und T erteilt. Aus Gründen des Bestandsschutzes werden weitere Berechtigungen über Schlüsselzahlen eingetragen. Wer den Lkw-Führerschein gewerblich nutzen möchte muss zusätzlich eine Berufskraftfahrerqualifikation nach weisen. Dies gilt auch bei Aushilfs- fahrten. | 3manuals
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Jan. 30 2014 2 US 2014/0030643 Al [0031] each of n$_{1 }$ and n$_{2 }$ independently is an integer of 1 to 6. [0032] [2] The composition according to the above item [1] wherein the organic group is an alkyl group or an aryl group. [0033] [3] The composition according to the above item [1] or [2] wherein the compound (R) is expressed by general formula (1 ) and wherein at least one ofR$_{4 }$ and R$_{7 }$ is a hydro› gen atom. [0034] [ 4] The composition according to the above item [3] wherein both of R$_{4 }$ and R$_{7 }$ are hydrogen atoms. [0035] [5] The composition according to the above item [1] or [2] wherein the compound (R) is expressed by general formula (2) and wherein R$_{7 }$ is a hydrogen atom. [0036] [6] The composition according to any of the above items [1] to [5] wherein the repeating unit (A) is expressed by general formula (V) or (VI) below. [0041] X$_{6 }$ represents a single bond --COO- or ----CONR$_{64}$- in which R$_{64 }$represents a hydrogen atom or an alkyl group [0042] L$_{6 }$ represents a single bond or an alkylene group [0043] Ar$_{6 }$represents a bivalent aromatic ring group [0044] Y $_{2}$ when n2:2 each independently represents a hydrogen atom or a group that when acted on by an acid is cleaved provided that at least one ofY $_{2}$s is a group that when acted on by an acid is cleaved and [0045] n is an integer of 1 to 4. [0046] [7] The composition according to any of the above items [1] to [6] wherein the resin (P) further contains any of repeating units (B) expressed by general formula (I) below. [0037] In general formula (V) each of Rs 1 Rs$_{2 }$ and Rs$_{3 }$ independently represents a hydrogen atom an alkyl group a cycloalkyl group a halogen atom a cyano group or an alkoxycarbonyl group provided that Rs$_{2 }$may be bonded to Ls to thereby form a ring which Rs$_{2 }$ represents an alkylene group [0038] Ls represents a single bond or a bivalent connecting group provided that when a ring is formed in cooperation with Rs$_{2}$ Ls represents a trivalent connecting group and [0039] Rs$_{4 }$ represents an alkyl group and each ofRss and Rs$_{6 }$ independently represents a hydrogen atom an alkyl group a cycloalkyl group or a monovalent aromatic ring group provided that Rss and Rs $_{6 }$may be bonded to each other to thereby form a ring and provided that Rss and Rs$_{6 }$are not simultaneously hydrogen atoms. [0047] In general formula (I) each of R$_{41}$ R$_{42 }$and R$_{43 }$ independently represents a hydrogen atom an alkyl group a halogen atom a cyano group or an alkoxycarbonyl group [0048] X$_{4 }$ represents a single bond --COO- or ----CONR$_{64}$- in which R$_{64 }$represents a hydrogen atom or an alkyl group [0049] L$_{4 }$ represents a single bond or an alkylene group [0050] Ar$_{4 }$ represents a (n+l)-valent aromatic ring group and [0051] n is an integer of 1 to 4. [0052] [8] The composition according to the above item [7] wherein the repeating unit (B) has a hydroxystyrene structure. [0053] [9] The composition according to any of the above items [1] to [8] further comprising a basic compound other than the compound (R). [0054] [10] The composition according to the above item [9] wherein the basic compound contains no hydroxyl group. [0055] [ 11] The composition according to any of the above items [1] to [10] for use in a pattern formation including exposure by EUV. [0056] [12] An actinic-ray- or radiation-sensitive resin film formed from the composition according to any of the above items [1] to [11]. [0057] [ 13] A method of forming a pattern comprising: [0058] exposing the film according to the above item [12] to light and [0059] developing the exposed film. [0060] [ 14] The method according to item [ 13] wherein the exposure is carried out by EUV light. [0061] [15] A process for manufacturing an electronic device comprising the pattern forming method according to the above item [13] or [14]. [0062] [16] An electronic device manufactured by the pro› cess according to the above item [15]. [0063] The present invention has made it feasible to pro› vide an actinic-ray- or radiation-sensitive resin composition that can attain high sensitivity favorable pattern shape favor- [0040] In general formula (VI) each of R$_{61}$ R$_{62 }$and R$_{63 }$ independently represents a hydrogen atom an alkyl group a cycloalkyl group a halogen atom a cyano group or an alkoxycarbonyl group provided that R$_{62 }$may be bonded to Ar$_{6 }$ to thereby form a ring which R$_{62 }$represents an alkylene group (VI) (V) (I) Ri1 Ri3 I I --+C-C-t- 1 I Ri2 Xi I L4 I Ar4 I (OH)n | 4patents
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FINANCIAL SECTION Notes to Consolidated Financial Statements As is customary in Japan substantially all loans from banks (including short-term loans) are made under general agreements which provide that at the request of the banks the borrower is required to provide collateral or guarantors (or additional collateral or guarantors as appropriate) with respect to such loans and that all assets pledged as collateral under such agreements will be applicable to all present and future indebtedness to the banks concerned. These general agreements further provide that the banks have the right as the indebtedness matures or becomes due prematurely by default to offset deposits at the banks against the indebtedness due to the banks. At March 31 2004 the Group had committed line contracts with banks aggregating ·265 499 million ($2 504 708 thousand). Of the total credit limit ·107 014 million ($1 009 566 thousand) was used as the above short-term and long-term borrowings and the rest ·158 485 million ($1 495 142 thousand) was unused. The current conversion prices of the 1.4% and zero coupon convertible bonds issued by the Company are ·1 751.50 and ·1 201.00 per share respectively. Each conversion price is sub ject to adjustment in certain circumstances including stock splits or free share distributions of common stock. At March 31 2004 these convertible bonds were convertible into approximately 231 million shares of common stocks. Certain outstanding convertible bonds and notes can be repurchased at any time and may be redeemed at the option of the Company in whole or in part at 100% of their principal amounts. The aggregate annual maturities of long-term debt subsequent to March 31 2004 are summarized as follows: Convertible bonds are treated solely as liabilities and value inherent in their conversion feature is not recognized as equity in accordance with accounting principles generally accepted in Japan. The total amount of the convertible bonds has been included in “long-term debt.” The Company and the majority of the consolidated subsidiaries in Japan have unfunded lump-sum retirement plans which in general cover all employees who retire before a retirement age prescribed in their internal codes. The employees are entitled to the benefits primarily based on their length of service and basic salary as of the retirement date. In addition the Company and the majority of the consolidated subsidiaries in Japan participate in contributory defined benefit plans which cover substantially all employees. The major contributory defined benefit plan (the “Plan”) which is referred to as the Fujitsu Welfare Pension Fund entitles employees upon retirement at the normal retirement age to either a lump-sum payment or pension annuity payments for life commencing at age 60 or a combination of both based on their length of service basic salary as of the retirement date and the number of years of participation in the Plan. The contributions of the Company and the subsidiaries covered by the Plan and their employees are made to the Fujitsu Welfare Pension Fund which is an external organization. Regarding the employees’ pension plan in response to the enactment of the Japanese Welfare Pension Insurance Law on defined-benefit pension plans the Fujitsu Welfare Pension Fund applied for an exemption from the obligation to pay benefits for future employee services related to the substitutional portion and on March 23 2004 received approval of the exemption from the Minister of Health Labour and Welfare. The majority of the consolidated subsidiaries outside Japan have defined benefit plans and/or defined contribution plans covering substantially all their employees. The balances of the projected benefit obligation and plan assets funded status and the amounts recognized in the consolidated financial statements as of March 31 2003 and 2004 and the components of net periodic benefit cost for the years ended March 31 2002 2003 and 2004 are summarized as follows: 46 Yen U.S. Dollars Years ending March 31 (millions) (thousands) 2005 ·204 367 $1 927 991 2006 107 151 1 010 858 2007 167 097 1 576 387 2008 160 481 1 513 972 2009 and thereafter 459 643 4 336 254 Projected benefit obligation and plan assets Yen U.S.Dollars (millions) (thousands) At March 31 (Consolidated domestic accounts) 2003 2004 2004 Projected benefit obligation ·(1 677 032) ·(1 209 288) $(11 408 377) Plan assets 809 565 799 058 7 538 283 Projected benefit obligation in excess of plan assets (867 467) (410 230) (3 870 094) Unrecognized net obligation at transition 183 011 98 874 932 773 Unrecognized actuarial loss 658 079 335 285 3 163 066 Unrecognized prior service cost (reduced obligation) (69 840) (682) (6 434) Prepaid pension cost (29 258) (102 447) (966 481) Accrued retirement benefits · (125 475) · (79 200) $ (747 170) 10. Retirement Benefits | 0financial_reports
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38 TOSHIBA CORPORATION CONSOLIDATED STATEMENTS OF CASH FLOWS CONSOLIDATED STATEMENTS OF CASH FLOWS Thousands of U.S. dollars Millions of yen (Note 3) 2003 2002 2003 Cash flows from operating activities Net income (loss) ¥ 18 503 ¥(254 017) $ 154 192 Adjustments to reconcile net income (loss) to net cash provided by operating activities— Depreciation and amortization 260 835 326 239 2 173 625 Provisions for pension and severance costs less payments 20 296 (45 621) 169 133 Deferred income tax benefit (2 454) (150 100) (20 450) Equity in income of affiliates (2 582) (2 440) (21 516) Loss from sales disposal and impairment of property and securities net 30 337 94 579 252 808 Minority interest in loss of consolidated subsidiaries (11 330) (6 315) (94 417) (Increase) decrease in notes and accounts receivable trade (13 520) 118 775 (112 667) Decrease in finance receivables net 2 538 32 056 21 150 Decrease in inventories 17 856 141 137 148 800 (Increase) decrease in other current assets (35 299) 4 354 (294 158) (Increase) decrease in long-term receivables (15 283) 4 366 (127 358) Decrease in long-term finance receivables net 52 697 28 434 439 142 Increase (decrease) in notes and accounts payable trade 6 392 (108 060) 53 267 Increase (decrease) in accrued income and other taxes 13 183 (19 038) 109 858 Decrease in advance payments received (16 860) (16 964) (140 500) (Decrease) increase in accounts payable and other liabilities (53 706) 1 780 (447 551 ) Net cash provided by operating activities 271 603 149 165 2 263 358 Cash flows from investing activities Proceeds from sale of property 151 319 65 604 1 260 992 Proceeds from sale of securities 13 897 29 714 115 808 Acquisition of property and equipment (249 253) (364 671) (2 077 108) Purchase of securities (22 557) (39 489) (187 975) (Increase) decrease in investments in affiliates (12 409) 4 956 (103 408) Increase in other assets and other (28 985) (21 693) (241 542) Net cash used in investing activities (147 988) (325 579) (1 233 233) Cash flows from financing activities Proceeds from long-term debt 363 086 322 941 3 025 716 Repayment of long-term debt (280 965) (420 726) (2 341 375 ) (Decrease) increase in short-term borrowings (238 600) 114 913 (1 988 333) Dividends paid (2 428) (16 045) (20 233) Proceeds from stock offering by subsidiaries 525 52 523 4 375 Repurchase of subsidiary common stock from minority shareholder (604) — (5 033) Purchase of treasury stock (770) (111) (6 417) Net cash (used in) provided by financing activities (159 756) 53 495 (1 331 300) Effect of exchange rate changes on cash and cash equivalents (7 193) 5 756 (59 941) Net decrease in cash and cash equivalents (43 334 ) (117 163) (361 116) Cash and cash equivalents at beginning of year 370 432 487 595 3 086 933 Cash and cash equivalents at end of year ¥327 098 ¥ 370 432 $2 725 817 Supplemental disclosure of cash flow information (Note 23) Cash paid during the year for— Interest ¥ 31 932 ¥ 39 347 $ 266 100 Income taxes ¥ 43 094 ¥ 55 340 $ 359 117 Toshiba Corporation and its subsidiaries For the years ended March 31 2003 and 2002 The accompanying notes are an integral part of these statements. | 0financial_reports
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Risk Acceptance and Safety Documentation Review Section 6 8 4 6.1_SMSM_201904 Originally published April 2019 Uncontrolled copy when downloaded Table 6.2: Signatures for Second-Level Engineering SRM Document Approval and Risk Acceptance (1) (2) (3) Proposed Modification to Approved System-Level Requirements? (4) Does a Previous Safety Assessment Document the Safety Implications of the Proposed Modification? Facilitated by AJI or Requires AOV Approval or Acceptance? (5) (6) (7) Hazard Identified? Required SRM Document Approval Signatures Required Safety Risk Acceptance Signatures No Yes No additional assessment required No No Yes Headquarters Group Manager of the change proponent Headquarters Director(s) of the affected Service Unit(s) No Headquarters Group Manager of the change proponent None Yes Yes See signature requirements in Table 6.1 No Headquarters Group Manager of the change proponent ATO Chief Safety Engineer None Yes Yes/No Yes Yes See signature requirements in Table 6.1 No Headquarters Group Manager of the change proponent ATO Chief Safety Engineer None No Yes See signature requirements in Table 6.1 No Headquarters Group Manager of the change proponent ATO Chief Safety Engineer None | 2laws_and_regulations
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6. The aspiration catheter system of any of claims 1-5 wherein at least one sidewall opening of the plurality of sidewall openings comprises a one-way valve configured to permit flow of fluid into the inner catheter lumen. 7. The aspiration catheter system of claim 6 wherein the one-way valve is configured to open in response to a differential pressure between the outer catheter lumen and the inner catheter lumen being greater than or equal to a predetermined threshold value. 8. The aspiration catheter system of claim 6 or claim 7 wherein the one-way valve comprises a duckbill valve a slit valve or a flexible flap positioned at the respective sidewall openings. 9. The aspiration catheter system of any of claims 1-8 wherein the distal-most sidewall opening of the plurality of sidewall openings is positioned between about 0.5 centimeters and about 10 centimeters proximal to the inner catheter distal opening. 10. The aspiration catheter system of any of claims 1-9 further comprising: a fluid circulation system coupled to a proximal portion of the outer catheter and a proximal portion of the inner catheter wherein the fluid circulation system is configured to deliver fluid through the outer catheter lumen and receive fluid through the inner catheter lumen. 11. The aspiration catheter system of claim 10 wherein the fluid comprises saline. 12. The aspiration catheter system of any of claims 1-11 wherein the sidewall openings of the plurality of sidewall openings are circumferentially distributed around an outer perimeter of the inner catheter. 13. The aspiration catheter system of any of claims 1-12 wherein the sidewall openings of the plurality of sidewall openings are distributed axially along the inner catheter. | 4patents
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10 中华人民共和国合同法 (三)以合法形式掩盖非法目的; (四)损害社会公共利益; (五)违反法律、行政法规的强制性规定。 第五十三条 合同中的下列免责条款无效: (一)造成对方人身伤害的; (二)因故意或者重大过失造成对方财产损失的。 第五十四条 下列合同,当事人一方有权请求人民法院或者仲裁机构变更或 者撤销: (一)因重大误解订立的; (二)在订立合同时显失公平的。 一方以欺诈、胁迫的手段或者乘人之危,使对方在违背真实意思的情况下订 立的合同,受损害方有权请求人民法院或者仲裁机构变更或者撤销。 当事人请求变更的,人民法院或者仲裁机构不得撤销。 第五十五条 有下列情形之一的,撤销权消灭: (一)具有撤销权的当事人自知道或者应当知道撤销事由之日起一年内没有 行使撤销权; (二)具有撤销权的当事人知道撤销事由后明确表示或者以自己的行为放弃 撤销权。 第五十六条 无效的合同或者被撤销的合同自始没有法律约束力。合同部分 Source: http://www.gov.cn/banshi/2005-07/11/content_13695.htm Date Accessed: 16-Feb-2015 | 2laws_and_regulations
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A. CLASSIFICATION OF SUBJECT MATTER INV. H04L29/06 G06F3/048 ADD. According to International Patent Classification (IPC) or to both national classification and IPC B. FIELDS SEARCHED Minimum documentation searched (classification system followed by classification symbols) H04L G06F Documentation searched other than minimum documentation to the extent that such documents are included in the fields searched Electronic data base consulted during the international search (name of data base and where practicable search terms used) EPO-Internal WPI Data Special categories of cited documents : "T" later document published after the international filing date or priority "A" document defining the general state of the art which is not considered date and not in conflict with the application but cited to understand to be of particular relevance the principle or theory underlying the invention Έ " earlier application or patent but published on or after the international filing date "X" document of particular relevance; the claimed invention cannot be considered novel or cannot be considered to involve an inventive "L" document which may throw doubts on priority claim(s) orwhich is step when the document is taken alone rnational search report xel INTERNATIONAL SEARCH REPORT PCT/US2020/024350 International application No Form PCT/ISA/210 (second sheet) (April 2005) | 4patents
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Figure 14-39. Traffic pattern operations—single runway. LEGEND Recommended standard left-hand traffic pattern (depicted) (standard right-hand traffic pattern would be mirror image) RUNWAY Final Departure Downwind Base Crosswind Departure Departure Entry Application of traffic pattern indicators Segmented circle 3 4 6 6 5 2 1 Radio Equipment In general aviation the most common types of radios are VHF. A VHF radio operates on frequencies between 118.0 megahertz (MHz) and 136.975 MHz and is classified as 720 or 760 depending on the number of channels it can accommodate. The 720 and 760 use .025 MHz (25 kilohertz (KHz) spacing (118.025 118.050) with the 720 having a frequency range up to 135.975 MHz and the 760 reaching up to 136.975 MHz. VHF radios are limited to line of sight transmissions; therefore aircraft at higher altitudes are able to transmit and receive at greater distances. In March of 1997 the International Civil Aviation Organization (ICAO) amended its International Standards and Recommended Practices to incorporate a channel plan specifying 8.33 kHz channel spacings in the Aeronautical Mobile Service. The 8.33 kHz channel plan was adopted to alleviate the shortage of VHF ATC channels experienced in western Europe and in the United Kingdom. Seven western European countries and the United Kingdom implemented the 8.33 kHz channel plan on January 1 1999. Accordingly aircraft operating in the airspace of these countries must have the capability of transmitting and receiving on the 8.33 kHz spaced channels. Operating in and out of a towered airport as well as in a good portion of the airspace system requires that an aircraft have two- way radio communication capability. For this reason a pilot should be knowledgeable of radio station license requirements and radio communications equipment and procedures. There is no license requirement for a pilot operating in the United States; however a pilot who operates internationally is required to hold a restricted radiotelephone permit issued by the Federal Communications Commission (FCC). There is also no station license requirement for most general aviation aircraft operating in the United States. A station license is required however for an aircraft that is operating internationally that uses other than a VHF radio and that meets other criteria. Using proper radio phraseology and procedures contribute to a pilot’s ability to operate safely and efficiently in the airspace system. A review of the Pilot/Controller Glossary contained in the AIM assists a pilot in the use and understanding of 14-22 Using Proper Radio Procedures Radio License Radio Communications 6. If remaining in the traffic pattern commence turn to crosswind leg beyond the departure end of the runway within 300 feet of pattern altitude. [Figure 14-40] 7. If departing the traffic pattern continue straight out or exit with a 45° turn (to the left when in a left-hand traffic pattern; to the right when in a right-hand traffic pattern) beyond the departure end of the runway after reaching pattern altitude. [Figure 14-40] 8. Do not continue on a track that penetrates the departure path of the parallel runway. [Figure 14-40] | 2laws_and_regulations
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Procedural Notes DP Responsibilities Departures From Tower-Controlled Airports Departures From Airports Without an Operating Control Tower An important consideration to make during your flight planning is whether or not you are able to fly your chosen departure procedure as charted. Responsibility for the safe execution of DPs rests on the shoulders of both ATC and the pilot. Without the interest and attention of both parties the IFR system cannot work in harmony and achievement of safety is impossible. ATC in all forms is responsible for issuing clearances appropriate to the operations being conducted assigning altitudes for IFR flight above the minimum IFR altitudes for a specific area of controlled airspace ensuring the pilot has acknowledged the clearance or instructions and ensuring the correct read back of instructions. Specifically related to departures ATC is responsible for specifying the direction of takeoff or initial heading when necessary obtaining pilot concurrence that the procedure complies with local traffic patterns terrain and obstruction clearance and including DP as part of the ATC clearance when pilot compliance for separation is necessary. The pilot has a number of responsibilities when simply operating in conjunction with ATC or when using DPs under an IFR clearance: When planning for a departure pilots should: t f l i There are hundreds of airports across the United States hat operate successfully every day without the benefit of a control tower. While a tower is certainly beneficial when departing IFR most other departures can be made with ew challenges. As usual you must file your flight plan at east 30 minutes in advance. During your planning phase nvestigate the departure airport’s method for receiving an instrument clearance. You can contact the Flight Service Station (FSS) on the ground by telephone and they will request your clearance from ATC. Typically when a clearance is given in this manner the clearance includes a void time. You must depart the airport before the clearance void time; if you fail to depart you must contact ATC by a specified i f i c c Departing from a tower-controlled airport is relatively simple in comparison to departing from non-towered airport. Normally you request your IFR clearance through ground control or clearance delivery. Communication frequencies for the various controllers are listed on departure approach and airport charts as well as the Chart Supplement (CS). At some airports you may have the option of receiving a pre-taxi clearance. This program allows you to call ground control or clearance delivery no more than 10 minutes prior to beginning taxi operations and receive your IFR clearance. A pre-departure clearance (PDC) program that allows pilots to receive a clearance via data link from a dispatcher or a data link communications service provider e.g. ARINC is available for Part 121 and 135 operators. A clearance is given to the dispatcher who n turn relays it to the crew enabling the crew to bypass communication with clearance delivery thus reducing requency congestion. Once you have received your clearance it is your responsibility to comply with the nstructions as given and notify ATC if you are unable to omply with the clearance. If you do not understand the learance or if you think that you have missed a portion of the clearance contact ATC immediately for clarification. By simply complying with DPs in their entirety as published obstacle clearance is guaranteed. Depending on the type of departure used responsibility for terrain clearance and traffic separation may be shared between pilots and controllers. • Determine if an ODP or SID is available for the departure airport. • Determine what actions allow for a safe departure out of an airport that does not have any type of affiliated DPs. • Acknowledge receipt and understanding of an ATC clearance. • Read back any part of a clearance that contains “hold short” instructions. • Request clarification of clearances. • Request an amendment to a clearance if it is unacceptable from a safety perspective. • Promptly comply with ATC requests. Advise ATC immediately if unable to comply with a clearance. • You are required to contact ATC if you are unable to comply with all-engines-operating climb gradients and climb rates. It is also expected that you are capable of maintaining the climb gradient outlined in either a standard or non-standard DP. If you cannot maintain a standard climb gradient or the climb gradient specified in an ODP you must wait until you can depart under VMC. • Consider the type of terrain and other obstructions in the vicinity of the airport. • Determine if obstacle clearance can be maintained visually or if they need to make use of a DP. 1-43 | 2laws_and_regulations
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Optimizing SELECT Statements BNL join algorithm the BKA join algorithm employs a join buffer to accumulate the interesting columns of the rows produced by the first operand of the join operation. Then the BKA algorithm builds keys to access the table to be joined for all rows in the buffer and submits these keys in a batch to the database engine for index lookups. The keys are submitted to the engine through the Multi-Range Read (MRR) interface (see Section 8.2.1.11 “Multi-Range Read Optimization” ). After submission of the keys the MRR engine functions perform lookups in the index in an optimal way fetching the rows of the joined table found by these keys and starts feeding the BKA join algorithm with matching rows. Each matching row is coupled with a reference to a row in the join buffer. When BKA is used the value of join_buffer_size defines how large the batch of keys is in each request to the storage engine. The larger the buffer the more sequential access is made to the right hand table of a join operation which can significantly improve performance. For BKA to be used the batched_key_access flag of the optimizer_switch system variable must be set to on . BKA uses MRR so the mrr flag must also be on . Currently the cost estimation for MRR is too pessimistic. Hence it is also necessary for mrr_cost_based to be off for BKA to be used. The following setting enables BKA: There are two scenarios by which MRR functions execute: mysql> SET optimizer_switch=’mrr=on mrr_cost_based=off batched_key_access=on’; With the first scenario a portion of the join buffer is reserved to store row IDs (primary keys) selected by index lookups and passed as a parameter to the MRR functions. There is no special buffer to store keys built for rows from the join buffer. Instead a function that builds the key for the next row in the buffer is passed as a parameter to the MRR functions. In EXPLAIN output use of BKA for a table is signified when the Extra value contains Using join buffer (Batched Key Access) and the type value is ref or eq_ref . In addition to using the optimizer_switch system variable to control optimizer use of the BNL and BKA algorithms session-wide MySQL supports optimizer hints to influence the optimizer on a per-statement basis. See Section 8.9.3 “Optimizer Hints” . •The first scenario is used for conventional disk-based storage engines such as InnoDB and MyISAM . For these engines usually the keys for all rows from the join buffer are submitted to the MRR interface at once. Engine-specific MRR functions perform index lookups for the submitted keys get row IDs (or primary keys) from them and then fetch rows for all these selected row IDs one by one by request from BKA algorithm. Every row is returned with an association reference that enables access to the matched row in the join buffer. The rows are fetched by the MRR functions in an optimal way: They are fetched in the row ID (primary key) order. This improves performance because reads are in disk order rather than random order. •The second scenario is used for remote storage engines such as NDB . A package of keys for a portion of rows from the join buffer together with their associations is sent by a MySQL Server (SQL node) to MySQL Cluster data nodes. In return the SQL node receives a package (or several packages) of matching rows coupled with corresponding associations. The BKA join algorithm takes these rows and builds new joined rows. Then a new set of keys is sent to the data nodes and the rows from the returned packages are used to build new joined rows. The process continues until the last keys from the join buffer are sent to the data nodes and the SQL node has received and joined all rows matching these keys. This improves performance because fewer key-bearing packages sent by the SQL node to the data nodes means fewer round trips between it and the data nodes to perform the join operation. Optimizer Hints for Block Nested-Loop and Batched Key Access Algorithms 1674 | 3manuals
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8.1 Using LoggerAdapters to impart contextual information An easy way in which you can pass contextual information to be output along with logging event information is to use the$_{LoggerAdapter}$ class. This class is designed to look like a$_{Logger}$ so that you can call$_{debug()}$ info() $_{warning()}$ $_{error()}$ $_{exception()}$ $_{critical()}$ and$_{log()}$ . These methods have the same signatures as their counterparts in Logger so you can use the two types of instances interchangeably. When you create an instance of LoggerAdapter you pass it a Logger instance and a dict-like object which con- tains your contextual information. When you call one of the logging methods on an instance of LoggerAdapter it delegates the call to the underlying instance of Logger passed to its constructor and arranges to pass the contextual information in the delegated call. Here’s a snippet from the code of$_{LoggerAdapter}$: The process() method of LoggerAdapter is where the contextual information is added to the logging output. It’s passed the message and keyword arguments of the logging call and it passes back (potentially) modified versions of these to use in the call to the underlying logger. The default implementation of this method leaves the message alone but inserts an ‘extra’ key in the keyword argument whose value is the dict-like object passed to the constructor. Of course if you had passed an ‘extra’ keyword argument in the call to the adapter it will be silently overwritten. The advantage of using ‘extra’ is that the values in the dict-like object are merged into the$_{LogRecord}$ instance’s __dict__ allowing you to use customized strings with your$_{Formatter}$ instances which know about the keys of the dict-like object. If you need a different method e.g. if you want to prepend or append the contextual information to the message string you just need to subclass$_{LoggerAdapter}$ and override$_{process()}$ to do what you need. Here is a simple example: which you can use like this: logger=logging.getLogger(__name__ ) adapter =CustomAdapter(logger { 'connid': some_conn_id}) Then any events that you log to the adapter will have the value of$_{some_conn_id}$ prepended to the log messages. You don’t need to pass an actual dict to a$_{LoggerAdapter}$ - you could pass an instance of a class which implements __getitem__ and$_{__iter__}$ so that it looks like a dict to logging. This would be useful if you want to generate values dynamically (whereas the values in a dict would be constant). 11 Using objects other than dicts to pass contextual information classCustomAdapter (logging .LoggerAdapter): """ This example adapter expects the passed in dict-like object to have a 'connid' key whose value in brackets is prepended to the log message. """ def process(self msg kwargs): return '[ %s ] %s '%(self.extra['connid'] msg) kwargs def debug(self msg / *args **kwargs): """ Delegate a debug call to the underlying logger after adding contextual information from this adapter instance. """ msg kwargs=self.process(msg kwargs) self.logger.debug(msg *args **kwargs) | 3manuals
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CHAPTER 1. FLUORESCENT SILICON CLUSTERS 9 Figure 1.2: Schematic of a nanoscale crystal (quantum dot) embedded in a material of larger band gap energy. E$_{g}$$_{1}$ and E$_{g}$$_{2}$ refer to the band gap energies of the nanocrystal and host material respectively. can be minimised for such a system . It is assumed that the nanocrystal structure fits well with that of the host and that a minimum of additional interface states are produced. Ideally this would mean that an electron promoted across E$_{g}$$_{1}$ from the valence band of the nanocrystal to its conduction band would remain confined within the nanocrystal. The electron would have no other choice than to fluoresce to the ground state because no discrete states are available within the gap. To better account for non-radiative decay in real systems vibrational relax- ation is often considered. Because of the possibility of surface reconstruction vibrational relaxation at surfaces is particularly important for free nanoscale crystals and clusters. Figure 1.3 illustrates the cycle of excitation electronic migration and relaxation within the conduction band and vibrational relax- ation at the surface. In this simple picture a high density of vibrational states | 5scientific_articles
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Section 5.1.11 “Server SQL Modes” Section 12.8.1 “String Comparison Functions and Operators” Section 1.3 “What Is New in MySQL 8.0” Section 1.7.1 “MySQL Extensions to Standard SQL” Section 12.4.1 “Operator Precedence” Section 3.3.4.7 “Pattern Matching” Section 12.8.2 “Regular Expressions” Section 10.11 “Restrictions on Character Sets” Section 1.3 “What Is New in MySQL 8.0” [index top] Section 3.3.4.7 “Pattern Matching” Section 12.8.2 “Regular Expressions” Section 10.11 “Restrictions on Character Sets” Section 1.3 “What Is New in MySQL 8.0” [index top] Section 12.18.3 “Functions That Search JSON Values” [index top] Section 12.20.1 “Aggregate Function Descriptions” Section 12.4.3 “Logical Operators” Symbols | A | B | C | D | E | F | G | H | I | J | K | L | M | N | O | P | Q | R | S | T | U | V | W | X | Y | Z [index top] Section 1.7.2.4 “’--’ as the Start of a Comment” Section 4.4.1 “comp_err — Compile MySQL Error Message File” Section 4.6.1 “ibd2sdi — InnoDB Tablespace SDI Extraction Utility” Section 4.7.2 “my_print_defaults — Display Options from Option Files” Section 4.6.4.1 “myisamchk General Options” R REGEXP RLIKE V value MEMBER OF() X XOR Option Index Symbols -- -# 5748 | 3manuals
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The fair value of the identifiable assets and liabilities of the American Pride Acquisition as at the date of acquisition based on a provisional assessment were: Accounts receivable upon close of the acquisition were collected on account of the seller which totaled $15.5 million. As at year-end accounts receivable have increased as result of the acquisition by $18.4 million where $14.2 million relates to trade receivables and $4.2 million relates to a receivable from American Seafoods Group for a proposed working capital adjustment. The net assets recognized in the December 28 2013 financial statements are based on a provisional assessment of fair value as the Company has sought an independent valuation for the purchase price allocation. The results of the valuation have not been finalized as at the date these financial statements were approved for issue by management and as a result the financial information disclosed is based on management’s best estimate and are disclosed on a provisional basis. Provisional fair value recognized on (Amounts in $000s) acquisition Assets Property plant and equipment (note 6) $ 10 280 Prepaid expenses 661 Inventories 33 665 44 606 Liabilities Accounts payable and accruals (9 094) Above market lease (5 200) (14 294) Total identifiable net assets at fair value and purchase consideration recorded $ 30 312 Agreed upon purchase price based on average working capital $ 34 500 Net post closing working capital adjustments (4 195) Cash acquired 7 Net purchase consideration recorded $ 30 312 ANNUAL REPORT 2013 71 | 0financial_reports
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9 . Câble(50 50’) selon l’une quelconque des revendications prØcØdentes prØsentant un diamŁtre D tel que D < 2 00 mm de prØfØrence 0 75 mm < D < 1 40 mm et plus prØfØrentiellement1 00 mm < D < 1 30 mm. 10 . Câble(50 50’) selon l’une quelconque des revendications prØcØdentes dans lequel le rapport K du pas P sur le diamŁtre Df de chaque ØlØmentfilaire mØtallique (54) P et Df ØtantexprimØs en millimŁtres est tel que 19 < K < 44. 11. Câble(50 50’) selon l’une quelconque des revendications prØcØdentes dans lequel l’angle d’hØlice a de chaque ØlØmentfilaire mØtallique (54) est tel que 13°< a < 2 1° . 12 . Câble(50 50’) selon l’une quelconque des revendications prØcØdentes prØsentant un allongement structural As tel que As > 1% de prØfØrence tel que As > 2 5% plus prØfØrentiellement As > 3% et encore plus prØfØrentiellement tel que 3% < As < 5 5% l’allongementstructural As Øtant dØterminØ en appliquant la norme ASTM D2969-04 de 2014 au câblede façonàobtenir une courbe force-allongement l’allongementstructural As Øtant Øgal àl’allongement en % correspondant àla pente maximale de la courbe force- allongement. 13. Utilisation d’uncâble (50 50’)selon l’unequelconque des revendications prØcØdentes pour le renforcement d’unarticle ou produit semi-fini comprenant une matrice ØlastomØriquedans laquelle est noyØ le câble. 14 . Pneumatique (10 10’)comprenant un ØlØmentfilaire de renfort obtenu par noyage d’uncâble(50 50’)selon l’unequelconque des revendications 1 à12 dans une matrice ØlastomØrique. 15 . Pneumatique (10 10’)selon la revendication prØcØdente comprenant un sommet (12) comprenant une bande de roulement (20) et une armature de sommet (14) deux flancs (22) deux bourrelets (24) chaque flanc (22) reliant chaque bourrelet (24) au sommet (12) l’armaturede sommet (14) s’Øtendantdans le sommet (12) selon une direction circonfØrentielle (Z) du pneumatique (10 10’) le pneumatique (10 10’)comprenant une armature de carcasse (32) ancrØe dans chacun des bourrelets (24) et s’Øtendant dans les flancs (22) et dans le sommet (12) l’armature de sommet (14) Øtant radialement intercalØe entre l’armature de carcasse (32) et la bande de roulement (20) l’armature de sommet (14) comprenant un ØlØmentfilaire de renfort (48) obtenu par noyage d’uncâble(50 50’) selon l’une quelconque des revendications 1 à12 dans une matrice ØlastomØrique. | 4patents
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Ein Service des Bundesministeriums der Justiz und für Verbraucherschutz sowie des Bundesamts für Justiz ‒ www.gesetze-im-internet.de Verordnung über die Berufsausbildung zum Fischwirt und zur Fischwirtin (Fischwirtausbildungsverordnung - FischwAusbV) FischwAusbV Ausfertigungsdatum: 26.02.2016 Vollzitat: "Fischwirtausbildungsverordnung vom 26. Februar 2016 (BGBl. I S. 312)" *) Diese Rechtsverordnung ist eine Ausbildungsordnung im Sinne des § 4 des Berufsbildungsgesetzes. Die Ausbildungsordnung und der damit abgestimmte von der Ständigen Konferenz der Kultusminister der Länder in der Bundesrepublik Deutschland beschlossene Rahmenlehrplan für die Berufsschule werden demnächst im amtlichen Teil des Bundesanzeigers veröffentlicht. (+++ Textnachweis ab: 1.8.2016 +++) Auf Grund des § 4 Absatz 1 des Berufsbildungsgesetzes der zuletzt durch Artikel 436 Nummer 1 der Verordnung vom 31. August 2015 (BGBl. I S. 1474) geändert worden ist verordnet das Bundesministerium für Ernährung und Landwirtschaft im Einvernehmen mit dem Bundesministerium für Bildung und Forschung: Eingangsformel Fußnote Inhaltsübersicht Abschnitt 1 Gegenstand Dauer und Gliederung der Berufsausbildung § 1 Staatliche Anerkennung des Ausbildungsberufes § 2 Dauer der Berufsausbildung § 3 Gegenstand der Berufsausbildung und Ausbildungsrahmenplan § 4 Struktur der Berufsausbildung Ausbildungsberufsbild § 5 Ausbildungsplan § 6 Schriftlicher Ausbildungsnachweis Abschnitt 2 Zwischenprüfung § 7 Ziel und Zeitpunkt § 8 Inhalt § 9 Prüfungsbereiche § 10 Prüfungsbereich Fischereiliche Nutzung § 11 Prüfungsbereich Maschinen und Geräte Be- und Verarbeitung Abschnitt 3 Abschlussprüfung Unterabschnitt 1 Allgemeines § 12 Ziel und Zeitpunkt § 13 Inhalt Unterabschnitt 2 Fachrichtung - Seite 1 von 20 - | 2laws_and_regulations
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